KR20210087127A - The one-way-ring/two-way-ring network quantum key distribution way adopted to hybrid-quantum channel and The hybrid quantum communication unit and The hybrid quantum communication closure net system distributing different kinds of key - Google Patents

Abstract

The present invention relates to a QRN key distribution method, and a heterogeneous QRN key distribution hybrid quantum communication closed network system. According to the present invention, an Alice/Bob quantum server generates a quantum symmetric key of a half mirror effect symmetric cryptographic algorithm through encryption operation by generating a random quantum random number generated through a quantum random number generator (QRNG) as a seed, by Alice/Bob. Also, an asymmetric cryptographic algorithm Eve quantum private key is generated by using a random quantum random number generated through an Eve QRNG as seed. In addition, a new quantum random number is generated and encryption operation is performed to generate an Eve quantum public key.

Description

ONE-WAY-RING/TWO-WAY-RING NETWORK QUANTUM KEY distribution method applied to HYBRID-QUANTUM CHANNEL and hybrid quantum communication system terminal and heterogeneous network QUANTUM KEY distribution Hybrid quantum communication closed network system {The one-way-ring/two- way-ring network quantum key distribution way adopted to hybrid-quantum channel and The hybrid quantum communication unit and The hybrid quantum communication closure net system distributing different kinds of key}

The present invention is differentiated from the prior art by the main feature of QKD (Quantum Key Distribution) including QUANTUM KEY generation technology.

In particular, it has major novelty and inventive step for One-Way-Ring/Two-Way-Ring Network QKD (Quantum Key Distribution).

As a transitional quantum communication system, it is a hybrid quantum communication network system that combines a quantum communication network and a classical communication network. It is a response to the Evil Twin attack on Wi-Fi access points (APs) using unlicensed frequencies, etc., and the closure of local governments (private companies), etc. One-Way-Ring/Two-Way-Ring Network QKD (Quantum Key Distribution) technology related to wireless self-communication network construction.

In one embodiment, a 2.5 mm × 2.5 mm (5 mm × 5 mm) QRNG (Quantum Random Number Generator) chip developed by IDQ and SK Telecom is applied.

It features a QUANTUM Encrypt Transport Layer Security protocol (TLS) MODULE based on a physical PUF (eFUSE)-TRNG (QRNG) SoC chip of 6×6 mm or less.

An embodiment of applying the technology to disconnect the eFUSE circuit after extracting the PIN data of the PUF (Physically Unclonable Function) chip using the semiconductor process deviation. In this technology, eFUSE, a concept in a narrow sense, and PUF, a concept in light, are the same concept.

In addition, as an embodiment of the implementation of a Physically Unclonable Function (PUF), an Internet Protocol Address (IP address) and log information (ID/Password) are generated between an Access Controller (AC) and an Access Point (AP) with a Quantum Random Number Generator (QRNG). Number Generator) generates a quantum random number as a seed, and the NFC-PUF input in NFC (Near Field Communication) is replaced with OTP (One Time Password) or a physical PUF (Physically Unclonable Function) that is replaced during regular monthly inspections. ) is characterized.

In addition, generating a quantum random number through a QRNG (Quantum Random Number Generator) chip is a narrowly defined TRNG (True Random Number Generator) concept, and a narrowly defined QRNG is the same concept as a broadly defined TRNG.

A Man in the Middle (MitM) attack is one in which an attacker secretly intercepts communications between two parties in order to eavesdrop or modify moving traffic. Attackers can use MitM attacks to steal login credentials or personal information, spy on victims, disrupt communication, or destroy data.

MitM can be prevented with encryption, but this attack is very difficult to detect because an attacker will either divert traffic to a phishing site designed to appear legitimate, or will acquire or log the traffic and then deliver it to its intended destination.

In addition, with the advent of quantum computers, general encryption methods are no longer a countermeasure.

The quantum data of the present invention will be able to fundamentally block the MitM attack based on the theory that copying is impossible.

However, as in the present invention, in a state where transitional quantum communication and non-quantum communication are configured as a hybrid system, the Evil Twin attack pretends to be a normal Wi-Fi access point (AP), but the hacker completely controls all information transmitted by the user. It can be monitored, collected and manipulated.

In the present invention, QUANTUM COLLABO, which is a Transport Layer Security protocol (TLS) encryption protocol device to strengthen the response to MitM attacks in the hybrid (classic) quantum communication section, is a quantum cryptography based on a physical QRNG SoC chip. .

The present invention is an important feature of the QUANTUM KEY QKD (Quantum Key Distribution) technology in the hybrid quantum communication network using the licensed frequency ISP operator network and the unlicensed frequency closed wireless self-network in the wireless communication section.

It is related to crime prevention CCTV, broadcasting device, automatic control, switchboard, solar power generation, smart phone, industrial portable terminal, CLOUD SERVER, G-Cloue, broadcasting, worker safety equipment to which the Industrial Safety and Health Act applies.

Known Republic of Korea Patent Publication No. 10-1918976 (application date 2017.03.28)

The known 'cloud security system' is,

The terminal pseudo-random number generator inside the quantum terminal and the cloud pseudo-random number generator inside the cloud server are composed of a microprocessor, and the pseudo-random number of the terminal pseudo-random number generator and the pseudo-random number of the cloud pseudo-random number generator are the same by the program-input pseudo-random number program. The quantum terminal is composed of a terminal pseudo random number generator, a terminal quantum random number generator, a security authentication switch, and a terminal OTP memory, and the terminal quantum random number generator is a terminal random number source generator, terminal quantum detection diode, terminal quantum random pulse generator, terminal and a quantum random number control unit, wherein the terminal random number source generator emits quantum particles, the terminal quantum detection diode detects quantum particles generated from the terminal random number source generator, and the terminal quantum random pulse generator detects the terminal quantum. A quantum particle event is detected from the diode to generate a random pulse corresponding to the detection of the quantum particle, and the terminal quantum random number control unit is composed of a microprocessor, and is a terminal quantum random number as a random random number source generated through the terminal quantum random pulse generator. However, when the cloud server accesses the quantum terminal, the terminal pseudo-random number generator generates a pseudo-random number by a program, generates a symmetric encryption key, and transmits it to the terminal quantum random number control unit of the terminal quantum random number generator, and the terminal quantum random number control unit receives the symmetric encryption key, generates a terminal asymmetric encryption key through the terminal quantum random number, stores the symmetric encryption key and the terminal asymmetric encryption key in the terminal OTP memory, and transmits the terminal asymmetric encryption key to the cloud server, and transmits the terminal asymmetric encryption key to the cloud server inside the cloud server. The pseudo-random number generator generates a pseudo-random number by a program, generates a symmetric encryption key, generates a cloud symmetric encryption key encrypted with the terminal asymmetric encryption key, and transmits it to the terminal quantum random number control unit inside the quantum terminal, and the terminal quantum random number control unit is the cloud The cloud symmetric encryption key received from the server is decrypted with the terminal asymmetric encryption key stored in the terminal OTP memory, and if it matches the symmetric encryption key stored in the OTP memory, the security authentication switch is turned on and connected to the login network, Delete the terminal asymmetric encryption key in the terminal OTP memory and log out (Log-o ut), the security authentication switch is OFF, and it is a cloud security system, characterized in that it blocks the network.

Announced iTWIN USB (https://youtu.be/UWj-weu_CXs).

In the VPN implemented by S / W or H / W method,

Although the S/W method is costly and simple to use, there is a problem in that it is vulnerable to attacks by hackers. Although the H/W method is relatively strong against attacks by hackers, it has a problem of high cost and large volume.

Taking advantage of the above advantages and disadvantages, iTWIN is equipped with AES 256bit encryption software on a pair of USBs, and enables encrypted communication between only a pair of iTWINs anywhere in the world.

As a major feature, the conventional S/W method was weak in security (ID/PW), and the H/W method was fixedly used in a designated place, but iTWIN applies the 3CH authentication platform method to exchange IP 1:1 It has a feature that provides VPN communication.

However, it was slow and the general users were more curious about the design and use it than paying $100 to use it. (Currently out of business and out of service)

Announced 'Crime-prevention CCTV monitoring device with enhanced physical redundant network separation security and its control method'

In the physical network separation,

This is a technology that corrects errors in the state of the physical structure in which one of the physical input/output lines of the I/O ports of the 1st and 2nd motherboards is forcibly cut off. It is a method of transmitting images to a mobile phone in one direction only, using a data input/output cable One of them is physically cut off, so it is impossible to hack.

PCT/SG2012/000118 (2012.04.04)

A method for remote access to data stored on a host system from a remote system via a data link, the method comprising the steps of: connecting a first module and a second module to the host system, the first module initially being connected to and associated with the second module; storing validation password data for verifying the identity of the first module on the second module; and upon connecting the removed first module to the remote system to establish a secure communication channel between said first and second modules across said data link to access said data, the host system having the second module connected thereto, entering a user password for generating user password data for verification by the second module based on the stored validation password data.

10-2012-0042383 (2012.04.24)

The local server is a local server for controlling a surveillance camera and transmitting image data to a personal portable terminal, and is configured including a first main board and a second main board; the first main board includes a first hard disk, a first LAN card, and an internal network LAN port; the second main board is configured to include a second LAN card, an external network LAN port, and a circuit breaker, and is connected and connected to the personal portable terminal through the wireless network network of the ISP operator through the external network LAN port; The video data line output from the surveillance camera is branched through the distributor, and one line is uploaded to the first main board through the internal network LAN port, and the video data is stored in the first hard disk; The other line is connected to the second main board through the breaker, but the contact of the breaker is blocked, and the output image data of the surveillance camera cannot be uploaded to the second main board; When a dangerous event signal occurs in the measuring unit composed of any one or more of a temperature sensor, fire receiver, intrusion detection sensor, PLC control panel, and automatic control panel when the contact point of the circuit breaker is blocked, the blocking contact of the circuit breaker is converted to a connection contact and the monitoring camera A crime prevention CCTV monitoring device with enhanced physical dual network separation security, characterized in that after uploading the output image data to the second main board, the image data is transmitted to a personal portable terminal through a wireless network.

10-2012-0089227 (2012.08.16)

In the security authentication terminal device for performing intelligent communication,

a secret key module for providing, to the security authentication terminal device, a secret key for transmitting a public key for the security authentication terminal device to communicate using a public key encryption method to an external device using a secret key encryption method; a private key module for providing a private key for generating the public key to the secure authentication terminal device; A serial number storage unit for storing the serial number of the security authentication terminal device; And the serial number is stored in the serial number storage unit, after the secret key is extracted to the outside of the security authentication terminal device, the secret key is the A security authentication terminal device comprising a fuse unit for blocking a connection path to an interface extracted to the outside of the security authentication terminal device, wherein at least one of the private key module and the private key module includes a PUF (Physical unclonable Functions). .

10-2015-0096606(2015.07.07)

In the SoC that includes the main CPU that executes the CPU code inside and the JTAG debugger is connected to the outside,

It includes a security enable circuit that generates a disconnect signal according to the hardware pin setting in the SoC, which is pre-built at the time of manufacturing the SoC, and a debug interface circuit that receives the disconnect signal and cuts the connection between the JTAG debugger and the SoC by hardware. SoC with security function characterized by.

PCT/EP2016/076200 (2016.10.31)

A method for generating random numbers based on an optical process of quantum nature, the method comprising: emitting photons from a light source; absorbing, by a photon sensor having a plurality of pixels, the photons emitted from the light source; calculating minimum entropy levels for the respective plurality of pixels of the photon sensor; associating one of a plurality of extractors with at least one of the plurality of pixels based on the calculated minimum entropy level of the at least one pixel; and generating, by the extractor associated with the at least one pixel, a number of high-entropy bits for generating a random number.

A cryptographic key used in a symmetric cryptographic algorithm is called a 'symmetric key', and the fact that a symmetric key uses one key for encryption and decryption is already common in the art to which this invention belongs. It is a technical fact of common tolerance for those with knowledge (hereinafter referred to as 'common engineer').

In addition, in the asymmetric cryptographic algorithm, there is a key pair called a 'private key' and a 'public key' mathematically corresponding to the private key, and performs encryption with the public key, The fact that decryption is performed with the corresponding private key is a technical fact well known to those skilled in the art.

In addition, RSA encryption is representative of the above equation, and various methods such as a hash function (a fixed-length hash function) and an operator (exclusive OR (EX-OR)) are known.

In the present invention, the key generation between the private key and the public key key pair of the asymmetric cryptographic algorithm is RSA, a hash function <(HASH(DATA1)+(TRN) | DATA2>, Various well-known methods such as functional expressions and operators are applied. (The '+' operator symbol means the exclusive OR (EX-OR) operator symbol.)

For example,

In the hash function <(HASH(DATA1)+(TRN))) DATA2>, HASH(DATA1) generates a private key that formats DATA1 as a fixed-length hash function, and then converts a natural random number (TRN) as a random number seed. It is a one-way hash function that encrypts DATA2 after generating a public key by performing an EX-OR operation.

The one-way hash function is a one-way transfer function. After Alice transmits the hash function <(HASH(DATA1)+(TRN))> to Bob, Bob encrypts DATA2 and the hash function <(HASH(DATA1)+(TRN)) When DATA2> is retransmitted to Alice, if Alice knows the private key hash function <HASH(DATA1)> and the one-time OTP natural random number TRN, it is a hash function that can decrypt DATA2.

1. Application number (date): PCT/SG2012/000118(2012.04.04) / Title of invention: METHOD AND SYSTEM FOR FORMING A VIRTUAL PRIVATE NETWORK / Applicant: ITWIN PTE LTD, etc. 2. Application No. (date): 10-2012-0042383 (2012.04.24) / Title of invention: Crime prevention CCTV monitoring device with enhanced physical dual network separation security and its control method / Applicant: Robotier, etc. 3. Application number (date): 10-2012-0089227 (2012.08.16) / Title of invention: Device and method for device-to-device security authentication based on PUF in IoT communication / Applicant: ICTK Co., Ltd. 4. Application number (date): 10-2015-0096606 (2015.07.07) / Title of invention: SoC with security function and security method of SoC / Applicant: EWBM Co., Ltd. 5. Application No. (Date): PCT/EP2016/076200 (2016.10.31) / Title of Invention: METHOD AND DEVICE FOR OPTICS BASED QUANTUM RANDOM NUMBER GENERATION / Applicant: ID QUANTIQUE

The goal is to establish a quantum communication network in response to cyber terror attacks using quantum computers, but it is practically difficult to build all networks using quantum communication networks. Therefore, QUANTUM Communication Channel and Non-QUANTUM Communication Channel ) as a hybrid-QUANTUM Communication Channel, one-Way-Ring/Two-Way-Ring Network QKD (Quantum Key Distribution) technology with the goal of strengthening security and minimizing communication charges.

In particular, the main task of the present technology is to solve the problem of providing a physical security measure against a fire sale in which a non-quantum communication channel is hacked.

A device that generates a password by itself by a new technology called PUF in the field of IoT communication and uses it for authentication, so that the device performs security authentication at a reliable level to identify each other and check whether it is a legitimate entity. and methods are provided.

In addition, as a physical device that implements the PUF function, QUANTUM COLLABO and Alice QUANTUM SERVER use an NFC card (sticker) that physically generates a pair of identical pseudorandom numbers.

In particular, the quantum communication and quantum communication channel, which are characterized by random selection measurement of quantum coherence and pulse arrival time on a dedicated line connected by optical cable, and qubits composed of non-empty pulse positions, to defend against coherence attacks with decoi-PULSE DEBUGGER. It is a quantum communication system that strengthens security through QUANTUM KEY authentication of data in the ISP (Internet Service Provider) rental network that does not form.

When secure communication using encryption/decryption is applied to devices or systems that perform IoT communication, a security authentication apparatus and method that are strong against physical attacks or unauthorized access to the security authentication system of the device are provided.

By systematically applying hybrid-QUANTUM G-Cloud technology between QUANTUM Channel and non-QUANTUM Channel, quantum (super) for shadow terminals where it is difficult to apply quantum communication. It is the only alternative to solve cryptographic security problems such as ARIA and AES against brute force cracking of computers.

For example,

When one crime prevention CCTV is built, a construction cost of about 15,000 won and a leased line (fixed IP) rent of 88 thousand won per month are incurred.

For safe communication in the crime prevention system, if the BB84 quantum communication network is built at the present time, at least 500 million or more costs are incurred, so in reality, the hybrid-QUANTUM G-Cloud communication technology of the present invention is applied rather than a quantum communication network. do.

as a detailed task

1. It solves the problem of CCTV surveillance cameras for crime prevention operated in the blind-proof black box type due to the burden of communication cost.

2. Minimize communication costs by constructing a closed wireless self-network using unlicensed frequencies.

3. Reinforce security by applying hybrid-QUANTUM G-Cloud technology.

The task of building an IoT network with minimal communication cost is to apply the highest security technology among the existing security systems.

QKD (Quantum Key Distribution) licensed frequency that transmits QUANTUM KEY by applying the LTE security technology of the telecommunication service provider at a minimum cost (LPWAN/monthly 1,000 won ~ MMS/5,500 won) and transmitting large amounts of data encrypted with QUANTUM KEY Unlicensed frequency heterogeneous network technology is applied.

When building a LoRA(TM) own network, communication costs are not incurred, but initial investment costs such as network operation and facility costs occur, and the security technology of security facilities dedicated to telecommunication service providers is not applied.

When using the LoRA (AL) rental network of the ISP operator, the monthly cost is about KRW 1,000, but the MMS fee is KRW 5,500, the rental network KRW 22,000, and the private rental network (fixed IP for crime prevention) KRW 88,000 is the lowest cost compared to the cost. Establish a closed wireless communication network with unlicensed frequency that can solve the problems of box-type CCTV surveillance cameras for crime prevention.

In addition, PIN from PUF chip through process deviation that occurs in semiconductor manufacturing process related to generation and distribution of security key using PUF (Physycally Unclonable Function) Chip or physical pseudo-random number-generating NFC card (sticker) and QRNG (Quantum Random Number Generator) Chip (Personal Identification Number) Data is extracted and a private key (private key, decryption key) is generated using a fixed-length hash function, a format function, etc., and the private key (private key, decryption key) is generated through a random quantum random number generated through QRNG. ), a terminal equipped with a PUF (or NFC) chip based on key generation and distribution technology that can generate a public key (encryption key) through encryption with an EX-OR operator, an encryption function, etc. and vice versa It is a new technology that combines ISP operator's wireless network QUANTUM KEY authentication QKD (Quantum Key Distribution) technology and closed wireless self-network large-capacity data transmission technology.

One-Way-Ring Network and Two-Way-Ring Network QKD (Quantum Key Distribution) applied to hybrid-QUANTUM CHANNEL is the first new technology without prior art and is the best existing hybrid-QUANTUM security technology at minimum cost.

When Bob QUANTUM SERVER receives terminal device generated data encrypted with Alice QUANTUM public key from QUANTUM DUAL AP,

transmitted to Alice QUANTUM SERVER through any one of the non-QUANTUM CHANNEL and QUANTUM CHANNEL wired networks;

Alice QUANTUM SERVER receives terminal device-generated data encrypted with the Alice QUANTUM public key from any one or more of the wired network and the wireless network of a licensed frequency carrier, and decrypts it with the Alice QUANTUM private key to enhance security. Improve communication speed and reduce communication charges. It is an asymmetric cryptographic algorithm featuring a hybrid-QUANTUM CHANNEL One-Way-Ring Network.

The hybrid-QUANTUM CHANNEL One-Way-Ring Network is a QKD (Quantum Key Distribution) technology that transmits QUANTUM KEY in one direction, and has the following features.

QKD Certification Path: QUANTUM COLLABO → QUANTUM AC → Communication Modem → Communication Operator Wireless Network → Alice QUANTUM SERVER → Wired Self Network (hybrid-QUANTUM CHANNEL) → Bob QUANTUM SERVER → QUANTUM AP → Wireless Self Network → Communication Modem → QUANTUM COLLABO

Massive data transmission: QUANTUM COLLABO → QUANTUM AC → Communication modem → Wireless self-network → QUANTUM AP → Bob QUANTUM SERVER → Wired private network (hybrid-QUANTUM CHANNEL) → Alice QUANTUM SERVER

The hybrid-QUANTUM CHANNEL Two-Way-Ring Network is a symmetric cryptographic algorithm characterized by a shared state that affects each other by 50% in QUANTUM KEY generation, such as quantum coherence in hybrid-QUANTUM CHANNEL. .

Alice/Bob HALF QUANTUM KEY (Quantum Random Number) : QUANTUM COLLABO ↔ QUANTUM AC ↔ Communication Modem ↔ Telecommunication Operator Wireless Network ↔ Alice QUANTUM SERVER

Massive data transmission: QUANTUM COLLABO → Communication modem → Wireless self network → QUANTUM AP → Bob QUANTUM SERVER → Hybrid-QUANTUM CHANNEL → Alice QUANTUM SERVER

It is a QUANTUM KEY QKD (Quantum Key Distribution) technology that transmits a private (symmetric) key with high security through the network of a telecommunication service provider and transmits large amounts of data encrypted with a public key through an unlicensed frequency closed wireless self-network AP.

The 5G wireless network has no problem in transmitting UHD-level video data captured by 8K surveillance cameras, but data charges were inevitably high due to the burden of data traffic. Resolves the problem of weak security when transmitting.

It generates a private key (private key, decryption key) through a PUF (NFC) chip or PIN data (PRNG), and transmits the encrypted OTP QUANTUM KEY through a dual network through a QRNG (TRNG) chip. Quantum encryption OTP private key (private key, decryption key) of small data is transmitted through high ISP operator LTE network or Internet of Small Thing (IoST) such as LoRA (NB-IoT), and large amount of image data Quantum encryption OTP is encrypted with the public key and transmitted through the unlicensed frequency closed wireless self-network AP, and then transmitted through one of the wired (local government CCTV) self-network among QUANTUM CHANNEL, non-QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL

Hybrid-QUANTUM Communication using CCTV wired private network (including fixed IP rental network) for crime prevention as a method of establishing a closed wireless self-network for the public interest for the purpose of establishing a smart city of a local government without a specific telecommunication business license. Channel) is a quantum communication wireless self-network construction technology.

In the wireless communication section, the biggest feature of the present invention is the QUANTUM KEY QKD (Quantum Key Distribution) technology using the licensed frequency ISP operator network and the unlicensed frequency closed wireless self-network. When applied to a type of self-network, local governments can build a smart quantum city wireless self-network that minimizes communication charges.

(For reference. ISP operators are not generating revenue through data charges, but rather profit from service platform activation through smart city hybrid network construction, and local government Back Haul construction and A larger business model occurs in the OPEN-API platform server construction.)

1 to 5 are simplified diagrams of an embodiment of the present invention;
6 is an example of TLS MODULE equipped with IDQ QRNG Chip

As a differentiating feature of the invention, the present invention is a separate technical field from LTE-LAA frequency bundling technology that transmits data by tying up LTE licensed bands and unlicensed bands including Wi-Fi frequencies.

The prior art is a technique for selecting a frequency according to traffic in data transmission,

The QUANTUM KEY of this technology is a licensed band, and the data is differentiated as a QUANTUM COLLABO with AC (Access Controller) that selects an unlicensed band frequency.

Purpose and effectively, the application of unlicensed frequency auxiliary to manage base station traffic from the telecom operator's point of view is differentiated from the heterogeneous network application technology to enhance security in using unlicensed frequency from the user's point of view.

In the field of industrial use, the present invention is a field of constructing a closed wireless self-network with enhanced security of local governments (individuals).

In the task to be solved, the present invention aims to solve the task for minimizing communication (data) cost with QUANTUM KEY distribution technology to which QRNG Chip is applied to enhance security in a hybrid quantum communication network.

In conclusion, unlike the technology of selecting either the Licensed Band or the Unlicensed Band for data to be transmitted in any form, such as the conventional Multiplexing Mode, Diversity Mode, etc., the present invention provides the security of any one of 3G, 4G, and 5G service providers Licensed Band. The QUANTUM KEY is transmitted through the channel, and the data to be transmitted is transmitted through the unlicensed band closed wireless self-network. From a differentiated start that clearly separates heterogeneous networks, 'purpose' 'background' task' 'means' 'effect' change the

The QUANTUM KEY generated by the key generation algorithm applied to the present invention consists of three pieces.

The same symmetric key (SYMMETRIC KEY) of a symmetric cryptographic algorithm stored between Alice QUANTUM SERVER and QUANTUM COLLABO, and an asymmetric private key (PRIVATE KEY) and an asymmetric public key ( PUBLIC KEY) consists of three types: a symmetric key, a private key, and a public key.

A symmetric key is generated from a random number seed generated through QRNG (Quantum Random Number Generator) and then used as a data communication encryption/decryption key.

The private key generated from the PUF (Physycally Unclonable Function) PIN data as a seed and the public key pair generated by encrypting the private key with the quantum random number seed generated through QRNG is an OTP (One Time Password) login ( Log In) A one-time password created for the purpose of connecting to a network.

For example, a private key is generated from PUF PIN data as a seed, and a public key is generated by encrypting it with a quantum random number beta-OR (EX-OR) encryption operator. Then, the data encrypted with the public key is the private key and the quantum If you know the random number and the encryption operator (EX-OR), you can decrypt it by performing the reverse operation.

In the present invention, the quantum random number for key generation is stored in its own memory and used for decryption, and it is decrypted using the same encryption operator, function expression, and hash function between Alice and Bob.

QUANTUM KEY between Alice and Bob, not QKD (Quantum Key Distribution) technology, but wired/wireless for Eve single QUANTUM KEY in wired quantum network consisting of non-QUANTUM CHANNEL, QUANTUM CHANNEL, hybrid-QUANTUM CHANNEL and 5G wireless network It is a QKD (Quantum Key Distribution) technology between heterogeneous manganese and licensed/unlicensed frequency wireless communication networks, and it is an important feature of technology for minimizing data charges while maximizing security.

In other words, there is an important difference in minimizing data communication charges by minimizing data transmission of video data captured by UHD cameras through the 5G wireless network of telecommunication service providers.

In particular, it is not the conventional QKD (Quantum Key Distribution) that exchanges QUANTUM KEY between Alice and Bob through one channel (single wired optical communication network, single frequency wireless communication network), but licensed/unlicensed radio frequency and wired/wireless heterogeneous networks It features a One Way Ring Network in which the Eve QUANTUM KEY is transmitted in the RING method only in one direction in the network.

That is, the data transmission path is characterized as follows.

QUANTUM COLLABO ⇒ 5G communication modem ⇒ 5G wireless network ⇒ Alice 6G QUANTUM SERVER ⇒ Wired quantum communication network ⇒ Bob 6G QUANTUM SERVER ⇒ QUANTUM 5G AP ⇒ 5G communication modem ⇒ QUANTUM COLLABO ⇒ 5G communication modem ⇒ QUANTUM 5G AP ⇒ Bob 6G QUANTUM SERVER Wired quantum communication network ⇒ Alice 6G QUANTUM SERVER

conventional,

It features a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system that minimizes communication charges through differentiation from 'Alice 6G QUANTUM SERVER ⇔ Wired Quantum Communication Network ⇔ Bob 6G QUANTUM SERVER'.

In the conventional quantum security communication, the quantum key transmission method is a technology that solves the problem of the limitation of the exclusive line and the transmission distance, and quantum mechanics is applied through the TIWIN USB to which the TRNG (QRNG) that mutually authenticates the physically unique PUF is applied. It is a certified invention.

In particular, in order to solve the conventional problem of hacking with a quantum computer when Alice VPN and Bob VPN communicate encrypted on the ISP operator network where a quantum communication channel is not formed, PUF's Unique TRNG (QRNG) One Time Password quantum Decoy-Quantum Certificate technology using communication quantum coherence is applied.

In addition, the e-FUSE SoC (System on Chip) technology solves the problem that the PUF itself cannot be modified and copied, but forgery is possible when the PUF chip itself is mounted and modulated on another terminal (board).

In detail,

The Alice main controller (MCU) inside the Alice quantum security USB combines the Bob PIN data stored in the Alice PUF memory (PUF M/M) with the Alice e-FUSE ID (IDentity Address) with the Bob public key received through Alice VPN. ) Send the encrypted Alice KEY to Bob VPN inside Bob quantum security USB through Alice VPN.

Bob's main controller (MCU) inside Bob's quantum security USB combines the Alice PIN data stored in the Bob PUF memory (PUF M/M) with the Bob e-FUSE ID (IDentity Address) with the Alice public key received through Bob VPN. ) The encrypted Bob KEY is sent to Alice VPN inside Alice quantum security USB through Bob VPN.

When the Alice main controller (MCU) inside the Alice quantum security USB decrypts the Alice QUANTUM public key encrypted Bob KEY with the Alice private key,

Since the Alice Security CPU generated Alice private key by combining the Bob e-FUSE ID and the beta-OR (EX-OR) with the Alice PIN data, it is possible to decrypt the Alice PIN data and the SOC's own Bob e-FUSE ID. If any one of them does not match, decryption becomes impossible.

The private key is commonly used as a private key, decryption key, and PRIVATE KEY, and the public key is commonly used as an encryption key and PUBLIC KEY.

A cryptographic key used in a symmetric cryptographic algorithm is called a 'symmetric key', and the fact that a symmetric key uses one key for encryption and decryption is already common in the art to which this invention belongs. It is a technical fact common to those with knowledge (hereinafter referred to as 'common engineer').

For example, when Alice and Bob share a symmetric key and Alice encrypts data with the symmetric key and transmits it to Bob, Bob decrypts it with the same symmetric key.

In addition, in an asymmetric cryptographic algorithm, a 'private key' and a key pair called 'public key' mathematically corresponding to this private key exist, and encryption is performed with the public key, The fact that decryption is performed with the corresponding private key is a technical fact well known to those skilled in the art.

Looking at the technical facts (key generation method and encryption/decryption method) disclosed in the above general knowledge and description of the invention, it refers to a key pair consisting of a 'public key' and a 'private key' of the asymmetric key encryption algorithm. The technical or mathematical correlation between the 'public key' and the 'private key' is applied to those of ordinary skill in the art, such as the predefined beta-OR (EX-OR) between Alic and Bob, a fixed-length hash function, and AES encryption. Therefore, the present invention is not limited to the claims, but for the purpose of understanding the invention, beta-OR (EX-OR) will be described as a representative example.

That is, in the technical or mathematical correlation and decryption between the 'public key' and the 'private key', various well-known technologies such as beta OR (EX-OR) or well-known operators and equations can be applied.

For example, PIN (Personal Identification Number) data from the PUF chip through process deviations that occur in the semiconductor manufacturing process related to the generation and distribution of security keys using an ultra-small Physically Unclonable Function (PUF) Chip and a Quantum Random Number Generator (QRNG) Chip extract and generate a private key (private key, decryption key, PRIVATE KEY) as a random number seed.

In addition to generating a private key using the PIN (Personal Identification Number) data supplied from the PUF Chip as a seed, an unpredictable random quantum (natural) random number is used as a seed to generate a private key and program It is possible to generate a private key by using the generated pseudo-random number as a seed.

The private key generated by the above method is a beta OR of PIN (Personal Identification Number) data, a quantum random number generated through QRNG, a natural random number generated through TRNG, and a random number seed generated through PRNG with the private key. (EX-OR) to generate a public key (encryption key, PUBLIC KEY), and if you know the formula beta OR (EX-OR) and the random number seed, use the private key (PRIVATE KEY, private key) The fact that encrypted data can be decrypted with a public key (PUBLIC KEY) is a claim that a well-known and common technical fact is applied to a person having ordinary knowledge in the technical field to which this invention belongs (hereinafter referred to as a 'technical person') not limited to

A public key (PUBLIC KEY) is generated by encrypting the private key (PRIVATE KEY, private key) through a random quantum random number generated through QRNG.

When the data measured by the sensor is encrypted with the public key (PUBLIC KEY, encryption key), the data measured by the original sensor can be restored through the private key (PRIVATE KEY, decryption key).

"Private key=private key=decryption key=PRIVATE KEY" and "public key=encryption key=PUBLIC KEY" have the same concept.

In one embodiment,

A terminal unit comprising a surveillance camera, a TRNG natural random number generator, a QUANTUM COLLABO, and a wireless communication modem; and

Consists of Bob 6G QUANTUM SERVER including QUANTUM 5G AP; and Alice 6G QUANTUM SERVER connected to wired and wireless networks, QUANTUM COLLABO extracts Eve PIN DATA from the internal eFUSE Chip, HASH) to generate an Eve private key <HASH(Eve PIN DATA)>; Eve PIN data (Eve PIN DATA) and Eve private key <HASH(Eve PIN DATA)> are stored in QUANTUM COLLABO and Alice 6G QUANTUM SERVER; QUANTUM COLLABO receives a natural random number (TRN) from a TRNG natural random number generator, encrypts the Eve private key <HASH(Eve PIN DATA)> with the natural random number (TRN), and encrypts the Eve public key <HASH(Eve PIN DATA)+(TRN) )> is created; The wireless communication modem receives an Eve public key <HASH(Eve PIN DATA)+(TRN)> and a hash function (HASH) from QUANTUM COLLABO; The wireless communication modem transmits the hash function <(HASH(Eve PIN DATA)+(TRN))|(HASH)> encrypted with the Eve public key to the Alice 6G QUANTUM SERVER through the wireless network; Alice 6G QUANTUM SERVER receives the hash function <(HASH(Eve PIN DATA)+(TRN))|(HASH)> encrypted with the Eve public key through the wireless network and uses the Eve private key <HASH(Eve PIN DATA)> decrypt; When the Eve private key <HASH(Eve PIN DATA)> is decrypted with the decrypted hash function (HASH) and it matches the Eve PIN data (Eve PIN DATA) stored in Alice 6G QUANTUM SERVER, Alice 6G QUANTUM SERVER uses the Eve public key Transmitting encrypted Eve PIN data <HASH(Eve PIN DATA)+(TRN)|(Eve PIN DATA)> to Bob 6G QUANTUM SERVER through a wired network; Bob 6G QUANTUM SERVER transmits Eve PIN data <HASH(Eve PIN DATA)+(TRN)|(Eve PIN DATA)> encrypted with Eve public key to the wireless communication modem through QUANTUM 5G AP; The wireless communication modem transmits Eve PIN data <HASH(Eve PIN DATA)+(TRN)|(Eve PIN DATA)> encrypted with Eve public key to QUANTUM COLLABO; QUANTUM COLLABO decrypts Eve PIN data <HASH(Eve PIN DATA)+(TRN)|(Eve PIN DATA)> encrypted with Eve public key with Eve private key <HASH(Eve PIN DATA)> and stores Eve PIN data (Eve PIN DATA), the video data <HASH(Eve PIN DATA)+(TRN)|(video data)> encrypted with the Eve public key is transmitted to the wireless communication modem; The wireless communication modem transmits the video data <HASH(Eve PIN DATA)+(TRN)|(video data)> encrypted with the Eve public key to the Bob 6G QUANTUM SERVER through the QUANTUM 5G AP; Bob 6G QUANTUM SERVER transmits video data <HASH(Eve PIN DATA)+(TRN)|(video data)> encrypted with Eve public key to Alice 6G QUANTUM SERVER through wired network; Alice 6G QUANTUM SERVER receives the video data <HASH(Eve PIN DATA)+(TRN)|(video data)> encrypted with the Eve public key from the wired network network and decrypts it with the Eve private key <HASH(Eve PIN DATA)> .

In one embodiment,

QUANTUM Communication Channel

Alice QUANTUM SERVER and Bob QUANTUM SERVER are connected to a network that forms a quantum communication channel.

Alice QUANTUM SERVER receives a random quantum random number generated from Alice QRNG, generates a QUANTUM KEY, and transmits it to Alice QKD and Alice MASTER SERVER.

Alice QKD transmits the QUANTUM KEY to Bob QKD through a quantum communication channel.

Bob QUANTUM SERVER receives QUANTUM KEY from Bob QKD and sends it to Bob MASTER SERVER.

Non-QUANTUM Communication Channel

Alice MASTER SERVER and Bob MASTER SERVER are connected to a network that does not form a quantum communication channel.

The quantum security terminal consists of MCU, QRNG, PUF, VPN, memory, and network network breaker, and is divided into Alice quantum security terminal and Bob quantum security terminal.

Alice PIN data is extracted from the Alice PUF inside the Alice quantum secure terminal and stored in Bob's memory inside the Bob quantum secure terminal.

The Bob PIN data is extracted from the Bob PUF inside the Bob quantum secure terminal and stored in Alice's memory inside the Alice quantum secure terminal.

The Alice MCU inside the Alice quantum security terminal extracts the Alice PIN data from the Alice PUF to generate the Alice private key.

Alice QRNG generates a random quantum random number and sends it to Alice MCU.

Alice MCU generates the Alice public key by performing an EX-OR encryption operation on the Alice private key using the random quantum random number as a seed.

Bob MCU inside Bob's quantum security terminal extracts Bob PIN data from Bob PUF to generate Bob's private key.

Bob QRNG generates a random quantum random number and sends it to Bob MCU.

The Bob MCU generates the Bob public key by performing an EX-OR encryption operation on the Bob private key using the random quantum random number as a seed.

When the Alice MCU inside the Alice quantum security terminal transmits the Alice public key to Bob VPN through the Alice VPN, the Bob MCU inside the Bob quantum security terminal receives the Alice public key from the Bob VPN.

When Bob MCU inside Bob quantum security terminal sends Bob public key to Alice VPN through Bob VPN, Alice MCU inside Alice quantum security terminal receives Bob public key from Alice VPN.

The Alice MCU inside the Alice quantum security terminal encrypts the Bob PIN data stored in Alice's memory with the Bob public key received through the Alice VPN and transmits it to the Bob VPN inside the Bob quantum security terminal through the Alice VPN.

Bob MCU inside Bob's quantum security terminal encrypts the Alice PIN data stored in Bob's memory with the Alice public key received through Bob VPN and transmits it to Alice VPN inside the Alice quantum security terminal through Bob VPN.

The Alice MCU inside the Alice quantum security terminal matches the Alice PIN data obtained by decrypting the Alice PIN data encrypted with the Alice public key with the Alice private key and the Alice PIN data extracted from the Alice PUF, and Bob MCU inside the Bob quantum security terminal If the Bob PIN data encrypted with the Bob public key and the Bob PIN data decrypted with the Bob private key match the Bob PIN data extracted from the Bob PUF, the Alice MASTER SERVER connected to the Alice quantum security terminal and the Bob MASTER SERVER connected to the Bob quantum security terminal are identical. Connect the network network breaker in between.

In one embodiment,

e-FUSE extracts and program the PIN data from the physically unique hardware pin (PIN) generated during the semiconductor manufacturing process to give an ID, and short circuit the e-FUSE pin to prevent re-extraction. Gives a unique ID of the chip (System On Chip).

The PUF Chip can extract PIN data from which the unique physically unique hardware pin (PIN) that occurs during the semiconductor manufacturing process is extracted. Re-extraction is possible.

In data encryption/decryption,

The data encrypted with the Alice KEY that is encrypted by combining with the Alice e-FUSE ID in the Bob PIN data stored in the Alice PUF memory is secured by the Bob security CPU by generating the Bob private key combined with the Alice e-FUSE ID in the Bob PIN data. It is decrypted with Bob's private key stored in the OTP memory.

In one embodiment,

Alice and Bob are composed of two sets, and the same system is configured with additional (two sets of four) and two-way communication is possible in the same principle. However, it is common for two-way communication in the reverse direction to be possible according to the same principle. As a method, some are omitted from the detailed description.

In addition, when a two-way communication modem is applied, two-way communication is possible between Alice and Bob.

Security (PUF-QRNG TIWIN) USB consists of Alice quantum security USB and Bob quantum security USB as a set, and the structure and function are the same.

According to the delivery direction of the quantum certificate (QC), the debugger (QC-DEBUGGER) inside the secure (PUF-QRNG TIWIN) USB works only on the receiving part, but it is structurally the same as it is the same secure (PUF-QRNG TIWIN) USB. do.

In addition, if the quantum communication channel is two-way communication with two channels, the debugger (QC-DEBUGGER) is also a TIWIN USB that works the same in the two secure (PUF-QRNG TIWIN)USB.

Aice VPN and Bob VPN inside a pair of secure (PUF-QRNG TIWIN)USB have a feature that allows communication only between a pair of secure (PUF-QRNG TIWIN)USB.

Quantum Random Number Generator QRNG (Quantum Random Number Generator) passes a photon through a half mirror, detects it through single-photon detectors, and monitors the modulation and duplication of the quantum.

It reads random numbers via Quantum-APPLIANCE, saves them to a file or displays them on the screen, and accesses the quantum random number generator QRNG via Libraries.

It is an encryption platform that implements security policies through Quantum-PLATFORM, monitors and signs quantum certificates QC (Quantum Certificate) and distributes them to cryptographic generators, and plays the role of a certification authority that accepts QC-DEBUGGER.

Quantum Key Distribution (QKD) is an encryption key distributor that is composed of a transmitter Alice QKD and a receiver Bob QKD and is connected through an optical cable dedicated line. The transmitter QKD-A (ALICE) emits a laser beam, and the receiver QKD-B (BOB) ), an external single-photon detector is applied.

The OTP (One Time Password) authentication security generated by the physical object authentication PUF (Physically Unclonable Function) Chip of the present invention and QRNG (Quantum Random Number Generator) that generates natural random numbers provides the highest security that cannot be hacked even with a quantum computer. have

By extracting PIN (Personal Identification Number) data from the PUF chip through process deviations that occur in the semiconductor manufacturing process in relation to the generation and distribution of security keys using an ultra-small PUF (Physycally Unclonable Function) Chip and QRNG (Quantum Random Number Generator) Chip, A private key is generated, and a public key is generated by encrypting the private key through a random quantum random number generated through QRNG.

When the data measured by the sensor is encrypted with the public key, the data measured by the original sensor can be restored through the private key.

In performing IoT communication between devices, the device performing intelligent communication may generate and hold a secure PIN or password by itself, thereby performing knowledge-based authentication.

For such knowledge-based authentication, the device may include physical unclonable functions (PUFs) that generate a unique, random PIN while being robust against external security attacks.

According to an embodiment, the PUF generates a PIN that can be used as an authentication key for knowledge-based authentication. This PIN may be a random digital value generated by process variations that occur during the PUF manufacturing process.

In addition, the PIN may be a time-invariant digital value whose value is not changed according to the surrounding environment after being generated once. Since such a PIN is not exposed to the outside, according to an embodiment, it is possible to prevent a security threat to the authentication system of the device.

In case the device performs IoT communication with another device through the communication interface, the authenticator may receive the PIN generated by the PUF and perform knowledge-based authentication.

In the security authentication according to an embodiment, the device may include a private key module and a private key module. Here, at least one of the private key module and the private key module may include a PUF.

According to an embodiment, each of the private key module and the private key module has its own PUF, and each PUF has a secret key and a private key from the physical characteristics themselves. Hereinafter, since such a private key and/or a private key is also expressed as a PIN, the PIN may be understood as a concept including, without excluding any, such as a private key and a private key used for device security authentication.

The PUF is a circuit that generates different function values even when manufactured with the same design drawing using characteristic deviations caused by process variations. In some embodiments, a PIN of an IoT device is generated and provided. Strictly, it can be seen that the PIN is generated using the digital value itself, not the digital value itself generated by the physical characteristics of the PUF.

For example, a value given from an external trusted source may be used as a seed, and a result value obtained by encrypting the original digital value generated by the PUF may be used as the PIN.

In this process, according to an embodiment _{, a method of putting the digital value V PUF} provided by the PUF into the seed and the hash function is used. Therefore, the finally used PIN value may be Hash (V _PUF || Seed).

According to this embodiment, when the private key is leaked through any path, the PIN can be easily changed by changing only the seed value, so that safety and convenience can be improved.

However, the generation of such a PIN value is only some embodiments, and the embodiments include both a case in which a digital value generated by the PUF itself is used as a PIN and a case in which a value obtained by separately processing the PUF is used as a PIN. Hereinafter, even if the process of generating a new PIN by processing the digital value generated by the PUF is not mentioned individually, the contents should be understood including all of these embodiments.

On the other hand, since the PUF has an unpredictable random value, it can be used to determine the PIN of the device, and by using this, it is possible to prevent a PIN leak problem that may occur when externally generated and injected and stored in the memory.

In addition, since the PUF has the feature that it is physically impossible to copy, the possibility that the PIN number of the device is leaked or copied can also be eliminated.

In addition, the PIN value generated by the PUF has excellent randomness, and in embodiments, a value generated once is reliable and does not change with time.

According to an embodiment, in the serial number storage unit, a serial number is stored as a unique value of a device provided by a factory in the manufacturing process of the device, and the unique serial number of the device from the factory is I/O It is input to the device through the interface, and the secret key is extracted from the secret key module to the factory or outside with management authority only for the first time - it does not have to be once according to the policy, but can be designated once for security maintenance - can be

And, according to an embodiment, the PUF chip can be replaced by an e-FUSE with an e-FUSE that extracts a disconnect signal according to the hardware pin setting of the ENABLE circuit generated in the SOC (System On Chip) manufacturing process. have. In this embodiment, the fuse unit physically blocks the connection between the secret key module and the I/O interface after the first extraction of the secret key, which is irreversible.

Then, only the first-time extracted secret key only needs to be safely managed by the subject having the management authority, and it is impossible to newly extract the secret key of the device after the fuse is cut off. This is because the secret key module is implemented by PUF and cannot be physically copied, and it is impossible or very difficult to extract the secret key by various reverse engineering including power analysis attacks.

According to an embodiment, the device includes a private key module that generates a private key to be used in a public key encryption/decryption communication method, and the private key module may provide a private key by a PUF separate from the private key module. .

The private key generated and provided by this private key module is physically isolated from the outside and is not extracted from the device manufacturing to distribution and use. Of course, for the same reason as the private key module described above, it is impossible to artificially leak the private key by a physical attack.

Therefore, external leakage of the private key provided by the private key module does not occur, enabling device authentication through a PIN generated by the device itself in M2M.

According to an embodiment, using the private key generated by the private key module, the public key generator generates a public key to be used by the device in the public key encryption/decryption communication method, and stores it in the public key storage unit. do. The public key storage unit is a means for storing the generated public key, and according to an embodiment, may be a non-volatile memory.

Of course, the public key storage unit is a configuration that can be employed optionally, and in another embodiment, it is also possible to read the public key generated by the public key generation unit whenever authentication is required without the public key storage unit.

The encryption/decryption processor may be understood as a Crypto-coprocessor that performs normal data encryption and decryption, and the configuration for sending and receiving actual encrypted data to and from the outside in a communication network is a communication interface.

According to an embodiment, it is confirmed that the first-time extracted secret key is a legitimate entity when exchanging a public key with a certification authority (CA), which is a management subject having a legitimate authority to perform secure communication with the device. used only as a means to

That is, although it is the first time, the previously extracted secret key is not directly used for encryption/decryption, but the secret key is used only in the process of sending the public key to the outside using the secret key encryption method, thereby ensuring double security. Therefore, the private key used for actual device authentication is never exposed to the outside.

Hereinafter, the process of manufacturing a device in a factory, the process of distributing or distributing the device, the process of exchanging a public key using a secret key communication method while actually being used, and the process of actually communicating the device by verifying the validity of each other with the CA or other devices The process to be performed will be described in detail below.

First, differences adopted in the embodiments for PUF implementation will be described in comparison with conventional PUF implementations, and then described as an example of a specific implementation.

A Physically Unclonable Function (PUF) may provide an unpredictable digital value. Although individual PUFs are given an exact manufacturing process and are manufactured in the same process, the digital values provided by the individual PUFs are different.

Accordingly, PUF may be referred to as a POWF (Physical One-Way Function practically impossible to be duplicated) that cannot be duplicated, or may also be referred to as a PRF (Physical Random Function).

This PUF may be used to generate an encryption key for security and/or authentication. For example, PUF may be used to provide a unique key to distinguish devices from one another.

Conventionally, in order to implement such a PUF, a coated PUF has been implemented using randomly doped particles in the top layer of the IC, and is generally applied to hardware chips such as latches. Recent butterfly PUFs, which can be implemented in FPGAs, have also been implemented using process variations inside CMOS devices used.

However, in order to be reliable so that the application that utilizes PUF for PIN generation can be commercialized, the physical replication impossibility of the PUF circuit itself, the randomness of the generated PIN value, and the once generated PIN value must not change over time. All time invariance must be guaranteed.

However, since most of the conventional PUF circuits did not guarantee at least one of randomness and time invariance of values that must be satisfied as PUF or PRF at a high level, it was difficult to commercialize them.

The PUF used in the embodiments can be generated at a very low unit cost in a semiconductor manufacturing process while ensuring time invariance and randomness at a very reliable level by solving these conventional problems.

According to an embodiment, in order to simultaneously satisfy the randomness and time-invariance of the PIN generated by the PUF, a random value is generated by using the randomness caused by the short circuit between nodes existing in the semiconductor process.

The PUF according to an embodiment is a size smaller than the design rule, that is, whether the size of a contact or a via used to electrically connect between conductive layers in a semiconductor chip is clearly connected in a process. , so that the short circuit is determined randomly. That is, a random PIN value is generated by intentionally violating a design rule.

Since this new PUF circuit is composed of a very simple short circuit, there is no additional circuit or process in the process, and no special measuring device is required, so it can be easily implemented. And because the characteristics of the process are used, the stability can be satisfied while maintaining the randomness of the values.

In the manufacturing process of the semiconductor chip, in particular, the via (or enable circuit) generated during the SOC (System On Chip) manufacturing process of the present invention extracts the hardware pin setting of e-FUSE as PIN data to generate a private key, , the public key obtained by encrypting the private key with a random random number (QRNG) is decrypted with the private key (PIN data).

Characterized by the SOC (System On Chip) of the present invention, the disconnection signal generated according to the hardware pin setting (via) in the SOC is extracted as PIN data, but is extracted by giving a unique ID to the e-FUSE (electrical-FUSE) do it with

PUF itself cannot be forged or altered, but after removing the PUF chip, it can be mounted on another board (terminal) so that the terminal (board) equipped with the PUF can be tampered with, including a Security ENABLE circuit with e-FUSE and PUF integrated. It is characterized by the first technology developed in the form of SOC Chip.

In particular, even if the booting SOC and PUF are separated through the e-FUSE-equipped SOC, even if the unique physical authentication of the PUF is forged or forged, the boot-ROM program authentication of the e-FUSE-equipped SOC must be mutually authenticated. It features a Security CPU (Security CPU) and One-Time Programmable (OTP) e-FUSE featuring bootable Security ENABLE circuitry.

In one embodiment,

Alice quantum security USB is Alice Boot-ROM connected to Alice System Bus, Alice Main Controller (MCU), Alice System Storage (System M/M; System MEMORY), Alice VPN (Virtual Private Network) , Alice Debugger (QC-DEBUGGER), Alice I/O Port, Alice Serial Peripheral Interface Controller (SPI Controller), Alice True Random Number Generator (TRNG), Alice Secure CPU (Security CPU; Security Central Processing Unit), Alice Security OTP Memory (Security OTP M/M; Security One Time Password MEMORY), Alice PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Alice e-FUSE, Alice PUF Chip It is composed of (Phisycally Unclonable FunctionChip).

Alice main controller (MCU) is Alice boot-ROM (Boot-ROM) connected to Alice system bus (System Bus), Alice system storage (System M/M), Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER) , Alice I/O Port, and Alice Serial Peripheral Interface (SPI Controller) are controlled.

Alice Security CPU (Security CPU) is Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface (SPI Controller), Alice Pure Random Number Generator (TRNG), Alice Secure OTP Memory (Security) OTP M/M), Alice PUF memory (PUF M/M), Alice e-FUSE, and Alice PUF Chip.

The Alice system storage device (System M/M) stores programs and data necessary for the Alice main controller (MCU).

The Alice Serial Peripheral Interface (SPI Controller) is connected to the Alice I/O Device (I/O Port) and controls the Alice I/O Device (I/O Port) according to the control command of the Alice Main Controller (MCU) to turn on the network connection. /OFF control.

Alice Boot-ROM stores programs and data necessary for booting Alice main controller (MCU).

Alice VPN performs 1:1 encrypted communication between Bob VPN inside Bob quantum secure USB connected to the network.

Alice Debugger (QC-DEBUGGER) receives a decoy Qantum Certificate (QC) through the Alice input/output device (I/O Port) and turns on/off the network network through the Alice input/output device (I/O Port) depending on whether or not authentication is performed. OFF control.

The Alice input/output device (I/O Port) is a switch connected to the network network, and it controls the network network ON/OFF and transmits the data received through the network network to the Alice main controller (MCU) through the Alice system bus.

Alice Security CPU (Security CPU) extracts Alice PIN data from Alice PUF Chip and stores it in Bob PUF memory (PUF M/M).

Alice Security CPU sends Alice PIN data to Alice main controller (MCU).

The Alice security CPU (Security CPU) generates the Alice private key combined with the Bob e-FUSE ID (IDentity Address) in the Alice PIN data and stores it in the Alice security OTP memory (Security OTP M/M).

The Alice Security CPU encrypts the Alice private key with the random number generated by the Alice pure random number generator (TRNG), generates the Alice public key, and transmits it to the Alice main controller (MCU).

Bob Quantum Security USB is Bob Boot-ROM (Boot-ROM) connected by Bob System Bus, Bob Main Controller (MCU), Bob System Storage (System M/M; System MEMORY), Bob VPN (Virtual Private Network) , Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface Controller (SPI Controller), Bob True Random Number Generator (TRNG; True Random NumberGenerator), Bob Secure CPU ( Security CPU; Security Central Processing Unit), Bob Security OTP Memory (Security OTP M/M; Security One Time Password MEMORY), Bob PUF Memory (PUF M/M; Phisycally Unclonable FunctionMEMORY), Bob e-FUSE, Bob PUF Chip ( Phisycally Unclonable FunctionChip).

Bob main control unit (MCU) connected by Bob system bus (Boot-ROM), Bob system storage (System M/M), Bob VPN (Virtual Private Network), Bob Debugger (QC-DEBUGGER) , Bob I/O Port, and Bob Serial Peripheral Interface (SPI Controller).

Bob Security CPU (Security CPU) includes Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface (SPI Controller), Bob Pure Random Number Generator (TRNG), and Bob Secure OTP Memory (Security). OTP M/M), Bob PUF memory (PUF M/M), Bob e-FUSE, and Bob PUF Chip.

Bob's system storage (System M/M) stores programs and data necessary for Bob's main control unit (MCU).

Bob Serial Peripheral Interface (SPI Controller) is connected to Bob I/O Port and controls Bob I/O Port according to the control command of Bob's main controller (MCU) to turn on the network connection. /OFF control.

Bob Boot-ROM stores programs and data necessary for booting Bob's main control unit (MCU).

Bob VPN performs 1:1 encrypted communication between Alice VPN inside Alice quantum secure USB connected to the network.

Bob Debugger (QC-DEBUGGER) receives a QuantumCertificate (QC) through Bob's I/O Port and controls network ON/OFF through Bob's I/O Port depending on whether or not authentication is performed. do.

Bob I/O Port is a switch connected to the network network, and controls the network network ON/OFF and transmits the data received through the network network to the Bob main controller (MCU) through the Bob system bus.

Bob Security CPU (Security CPU) extracts Bob PIN data from Bob PUF Chip and stores it in Alice PUF memory (PUF M/M).

Bob Security CPU (Security CPU) sends Bob PIN data to Bob main control unit (MCU).

Bob security CPU (Security CPU) generates Bob private key combined with Alice e-FUSE ID (IDentity Address) in the Bob PIN data, and stores it in Bob's security OTP memory (Security OTP M/M).

The Bob Security CPU (Security CPU) encrypts the Bob private key with the random number generated by the Bob pure random number generator (TRNG), generates the Bob public key, and transmits it to the Bob main controller (MCU).

(QUANTUM Communication Channel)

A quantum random number generator (QRNG; QuantumRandomNumberGenerator) consists of an Alice quantum random number generator (Alice QRNG) in the transmitter and Bob QRNG in the receiver, which generate random quantum random numbers.

A quantum key distributor (QKD; QuantumKeyDistribution) is composed of an Alice quantum key distributor (QKD) of a transmitter including a laser and a Bob quantum key distributor (QKD) of a receiver including a single photon detector.

The Quantum Platform generates a quantum certificate (QC; QuantumCertificate) with the quantum random number generated by Alice QRNG and sends it through the Alice Quantum Key Distributor (QKD). Aliec Quantum Platform and Bob It consists of a Bob Quantum Platform that receives and stores a Quantum Certificate (QC) through a Quantum Key Distributor (QKD).

Random quantum random numbers generated from a transmitting set Alice QRNG are transmitted to the Aliec Quantum Platform.

Aliec Quantum Platform receives the quantum random number, generates a quantum certificate (QC), and transmits it to the integrated control server and Alice Quantum Key Distributor (QKD).

Alice Quantum Key Distributor (QKD) transmits a quantum certificate (QC) to Bob Quantum Key Distributor (QKD) through a quantum communication channel connected by an optical cable.

A receiving set Bob Quantum Key Distributor (QKD) receives the quantum certificate (QC) and stores it in Bob Quantum Platform.

(Non-QUANTUM Communication Channel)

Alice Quantum Secure USB and Bob Quantum Secure USB are connected to ISP (Internet Service Provider) operator network that does not form a quantum communication channel.

Alice main controller (MCU) inside Alice quantum security USB boots through Alice Boot-ROM connected to Alice System Bus, and according to the program stored in Alice system storage (System M/M), Alice Controls the serial peripheral interface (SPI Controller) to control the network network ON/OFF through the Alice input/output device (I/O Port), and sends the Alice public key received through the Alice Security CPU to Bob through Alice VPN. Send to Bob VPN inside quantum secure USB.

Bob's Quantum Security USB's main controller (MCU) boots through Bob's Boot-ROM connected to Bob's System Bus, and according to the program stored in Bob's System Storage (System M/M), Bob By controlling the serial peripheral interface (SPI Controller), the network network ON/OFF is controlled through Bob I/O Port, and the Bob public key received through Bob Security CPU (Security CPU) is transferred to Alice through Bob VPN. Transfer to Alice VPN inside quantum secure USB.

Alice main controller (MCU) inside Alice quantum security USB <Combined with Alice e-FUSE ID (IDentity Address) to Bob PIN data stored in Alice PUF memory (PUF M/M)> with Bob public key received through Alice VPN and send the encrypted Alice KEY to Bob VPN inside Bob quantum security USB through Alice VPN.

Bob's main controller (MCU) inside Bob's quantum security USB is Alice's public key received through Bob VPN <Combined with Bob e-FUSE ID (IDentity Address) to Alice PIN data stored in Bob PUF memory (PUF M/M)> and send the encrypted Bob KEY to Alice VPN inside Alice quantum security USB through Bob VPN.

The Alice main controller (MCU) inside the Alice quantum security USB matches the Alice PIN data obtained by decrypting the Bob KEY encrypted with the Alice public key with the Alice private key, the Alice PIN data extracted from the Alice PUF Chip, and the Alice e-FUSE ID (IDentity Address). and Bob's main controller (MCU) inside Bob's quantum security USB decrypts Alice KEY encrypted with Bob public key with Bob's private key, Bob PIN data, and Bob PIN data extracted from Bob PUF Chip, and Bob e-FUSE ID (IDentity Address) If , the integrated control server connected to the Alice quantum security USB and the local server connected to the Bob quantum security USB connect the I/O port ON contact control to connect the network network login (LOG In), and the integrated control server is inside the CPTED TOWER. Receives the captured video of the surveillance camera through the local server.

The Alice main controller (MCU) inside the Alice quantum security USB receives the quantum certificate (QC) from the integrated control server, encrypts it with Bob's public key, and sends it to Bob VPN inside the Bob quantum security USB through Alice VPN.

Bob Quantum Security The Bob main controller (MCU) inside the USB decrypts the quantum certificate (QC) by decrypting the quantum certificate (QC) encrypted with the Bob public key received through the Bob VPN with the Bob private key.

The local server sends the quantum certificate (QC) stored in Bob's Quantum Platform to Bob's Debugger (QC-DEBUGGER) inside Bob's Quantum Secure USB.

Bob's quantum security Bob's main control unit (MCU) inside the USB transmits the quantum certificate (QC) received from the integrated control server to Bob's debugger (QC-DEBUGGER).

Bob Debugger (QC-DEBUGGER) controls the integrated control by switching the I/O port to the OFF contact when the quantum certificate (QC) received from Alice’s quantum security USB and the quantum certificate (QC) received from the local server do not match. Block the network connection between the server and the local server.

In one embodiment,

The integrated control server to which Alice's quantum security terminal is connected and the local server to which Bob's quantum security terminal is connected are connected to the network.

The quantum security terminal consists of MCU, TRNG, PUF, VPN, memory, and network network breaker, and is divided into Alice quantum security terminal and Bob quantum security terminal.

Alice PIN data is extracted from the Alice PUF inside the Alice quantum secure terminal and stored in Bob's memory inside the Bob quantum secure terminal.

The Bob PIN data is extracted from the Bob PUF inside the Bob quantum secure terminal and stored in Alice's memory inside the Alice quantum secure terminal.

The Alice MCU inside the Alice quantum security terminal extracts the Alice PIN data from the Alice PUF to generate the Alice private key.

Alice TRNG generates a random natural random number and sends it to Alice MCU.

Alice MCU generates Alice public key by encrypting Alice private key with the random natural random number.

Bob MCU inside Bob's quantum security terminal extracts Bob PIN data from Bob PUF to generate Bob's private key.

Bob TRNG generates a random natural random number and sends it to Bob MCU.

Bob MCU generates Bob public key by encrypting Bob private key with the random natural random number.

When the Alice MCU inside the Alice quantum security terminal transmits the Alice public key to Bob VPN through the Alice VPN, the Bob MCU inside the Bob quantum security terminal receives the Alice public key from the Bob VPN.

When Bob MCU inside Bob quantum security terminal sends Bob public key to Alice VPN through Bob VPN, Alice MCU inside Alice quantum security terminal receives Bob public key from Alice VPN.

The Alice MCU inside the Alice quantum security terminal encrypts the Bob PIN data stored in Alice's memory with the Bob public key received through the Alice VPN and transmits it to the Bob VPN inside the Bob quantum security terminal through the Alice VPN.

Bob MCU inside Bob's quantum security terminal encrypts the Alice PIN data stored in Bob's memory with the Alice public key received through Bob VPN and transmits it to Alice VPN inside the Alice quantum security terminal through Bob VPN.

The Alice MCU inside the Alice quantum security terminal matches the Alice PIN data encrypted with the Alice public key and the Alice PIN data decrypted with the Alice private key and the Alice PIN data extracted from the Alice PUF, and the Bob MCU inside the Bob quantum security terminal If the Bob PIN data encrypted with Bob's public key is decrypted with the Bob's private key and the Bob PIN data extracted from Bob PUF match, it is transmitted between the integrated control server connected to the Alice quantum security terminal and the local server connected to the Bob quantum security terminal. I/O Port is controlled by ON contact to connect network network login (LOG In).

In one embodiment,

The UHD surveillance camera consists of an optical unit, a driving unit, a main control unit, an image security processing unit, an image analysis unit, a network security processing unit, and an input/output unit.

The terminal unit includes a sensor unit 46, an AMI 47, one or more switchboards 48, a switchboard priority changer 49, one or more broadcast devices 50, a broadcast device priority changer 51, an LED horizontal / It consists of a security light 52, a dimmer 53, and a terminal 6G SECURITY ENGINE 54, and the optical unit includes a filter unit 10, a filter driving motor 11, a zoom lens 12, a zoom motor 13, and a variable focus. It is composed of a lens 14 , a focus motor 15 , and a focus lens 16 .

The driving unit is composed of a motor driving drive 17 , a driving unit memory 18 , a driving unit control unit 19 , an RS-485 20 , a manual operation unit 21 , and a remote control unit 22 .

The main control unit is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(Machine Control Unit)(27), PUF Chip(28), Security OTP Memory(30), It is composed of a Boot-ROM 31 and a Serial Peripheral Interface (SPI) Controller 32 .

The image security processing unit is composed of an image sensor unit (33), 5G QUANTUM JUMP ENGINE (34), Quantum Entanglement (36), and Decoy Pulse (37).

The image analysis unit is composed of an image analysis module 38 , an object recognition module 39 , and a number recognition module 40 .

The network security processing unit is composed of DEBUGGER (41), QUANTUM BLOCK CHAIN (42), and 1:N BLOCK CHAIN (43).

The quantum communication unit is Bob 6G QUANTUM SERVER(55), Bob QUANTUM SERVER(56), Bob PUF-QRNG TWIN USB(57), Non-QUANTUM CHANNEL(58), QUANTUM CHANNEL(59), Hybrid-QUANTUM CHANNEL(60), It consists of Master QUANTUM SERVER (61), Alice 6G QUANTUM SERVER (62), Alice QUANTUM SERVER (63), QUANTUM 6G SECURITY ENGINE (64), Alice PUF-QRNG TWIN USB (65), and LPWAN communication modem (66).

The filter unit 10 is composed of any one or more of an infrared filter, an ultraviolet filter, and an anti-reflective coating filter.

One of the infrared filter, the ultraviolet filter, and the anti-reflection coating filter is selected by driving the filter driving motor 11 .

By driving the zoom motor 13 for driving the zoom lens 12, the zoom lens magnification is varied.

The focus focus is changed through the focus motor 15 for driving the variable focus lens 14 and the focus lens 16 .

The driving unit control unit 19 programmed by the input data input from RS-485 20 or the manual operation unit 21 or the remote control unit 22 transmits the input data to the driving unit memory 18 and the motor driving drive 17 . By controlling the filter driving motor 11 , the zoom motor 13 , and the focus motor 15 , the optical signal is collected and transmitted to the imaging sensor unit 33 .

The image sensor inside the imaging sensor unit 33 transmits image data converted from an optical signal into an electrical signal to the 5G QUANTUM JUMP ENGINE 34 and the image analysis module 38 .

The image analysis module 38 receives the image data and extracts the object through the object recognition module 39. In the case of a vehicle, the vehicle license plate is converted into text through the number recognition module 40 among object data and object data. It is transmitted to the security processing unit QUANTUM BLOCK CHAIN (42).

The QUANTUM BLOCK CHAIN 42 compares the wanted vehicle vehicle number data received from the 1:N BLOCK CHAIN 43 connected to the block chain and generates a wanted vehicle event if it is the wanted vehicle.

The network security processing unit DEBUGGER 41 verifies a boot error when the main control unit Boot-ROM 31 first boots.

Sensing data collected from the sensor unit 46, measurement data measured from the AMI 47, switchboard status information data collected from one or more switchboards 48, audio/video data collected from one or more broadcasting devices 50, The LPWAN communication modem 66 collects the point/off data collected from the LED street/security light 52 and transmits it to the terminal 6G SECURITY ENGINE 54 .

The terminal 6G SECURITY ENGINE 54 transmits measurement data, switchboard status information data, voice/video data, and on/off data to Bob 6G QUANTUM SERVER 55, and Bob 6G QUANTUM SERVER 55 sends Alice 6G QUANTUM SERVER ( 62), Alice QUANTUM SERVER (63), Alice PUF-QRNG TWIN USB (65) by receiving the switchboard priority changer control data or broadcasting device priority changer control data or dimmer control data from any one of the terminal internal terminal It is transmitted to the 6G SECURITY ENGINE (54).

The terminal 6G SECURITY ENGINE 54 receives the switchboard priority changer control data from Bob 6G QUANTUM SERVER 55 and transmits it to the switchboard priority changer 49 through the LPWAN communication modem 66 and transfers the priority of the broadcasting device Receives the control data and transmits it to the broadcasting device priority changer 51, receives the dimmer control data and transmits it to the dimmer 53, and operates the switchboard priority changer 49 according to the switchboard priority changer control data One or more switchboards 48 are selected and operated by controlling ON/OFF, and one or more broadcasting devices 50 are selected by ON/OFF control of the priority changer 51 of the broadcasting device according to the control data of the priority changer of the broadcasting device. to selectively broadcast, and dimming control the brightness of the LED street/security light 52 through the dimmer 53 according to the dimmer control data.

Main controller MCU(27) is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(27), PUF Chip(28), Security OTP Memory(30), Boot-ROM 31 and SPI Controller 32 are controlled.

The System Memory 24 is a System Memory in which the main control unit MCU 27 operating OS program is stored.

The MCU 27 controls the Security CPU 26 to extract PIN (Personal Identification Number) data from the hardware pin of the PUF Chip 28 and stores it in the PUF-PIN Memory 25 and Alice 6G QUANTUM SERVER 62 do.

The MCU 27 generates and receives a natural random number by controlling the TRNG 23 and transmits it to the Security CPU 26 .

Security CPU 26 generates a private key with PIN (Personal Identification Number) data stored in PUF-PIN Memory 25 and encrypts the private key with the natural random number generated through the TRNG 23 to generate a public key. It is stored in the Security OTP Memory (30).

Bob 6G QUANTUM SERVER 55 receives PIN (Personal Identification Number) data encrypted with a public key from Alice 6G QUANTUM SERVER 62 through the Non-QUANTUM CHANNEL 58 and then transmits it to the MCU 27 through the input/output unit.

When the MCU 27 decrypts the private key and matches the PIN (Personal Identification Number) data stored in the PUF-PIN Memory 25, it boots the Boot-ROM 31 and controls the SPI Controller 32 to control the UHD surveillance camera. and Alice 6G QUANTUM SERVER(62) and login (LOG In) network are connected.

The SPI Controller 32 is a serial peripheral interface (SPI Controller; Serial Peripheral Interface Controller) data communication bus that transmits control data of the MCU 27 to each unit, and the SPI Controller 32 is controlled by the MCU 27 ), boot the Boot-ROM 31 or switch the Network Switch to ON contact to log in/connect the network network.

Alice QUANTUM SERVER (63) and Bob QUANTUM SERVER (56) are connected to QUANTUM CHANNEL (59).

The QUANTUM 6G SECURITY ENGINE (64) generates a QUANTUM KEY from either BB84 or COW (Coherent One Way) and transmits it to Alice QUANTUM SERVER (63).

Alice QUANTUM SERVER (63) transmits the QUANTUM KEY to Bob QUANTUM SERVER (56) through the QUANTUM CHANNEL (59).

The Bob QUANTUM SERVER 56 transmits to the Quantum Entanglement 36 through the input/output unit via the Bob 6G QUANTUM SERVER 55 .

Quantum Entanglement 36 transmits the image 6G SECURITY ENGINE 35 in the case of a QUANTUM KEY generated by a Coherent One Way (COW) generating method.

Image 6G SECURITY ENGINE (35) is verified with Decoy Pulse (37) and in the case of quantum entanglement, it receives image data from 5G QUANTUM JUMP ENGINE (34), encrypts image data with QUANTUM KEY, and uses input/output unit to encrypt Bob 6G QUANTUM SERVER It is transmitted to Bob QUANTUM SERVER (56) via (55).

Bob QUANTUM SERVER 56 transmits the image data encrypted with the QUANTUM KEY to Alice QUANTUM SERVER 63 through QUANTUM CHANNEL 59 .

Alice QUANTUM SERVER (63) decrypts the video data encrypted with the QUANTUM KEY with the QUANTUM KEY received from the 6G SECURITY ENGINE (64).

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are hybrid- consisting of a non-quantum communication channel (Non-QUANTUM Communication Channel (58)) and a quantum communication channel (QUANTUM Communication Channel (59)). connected to QUANTUM CHANNEL (60).

Alice PUF-QRNG TWIN USB 65 is Alice Boot-ROM connected to Alice System Bus, Alice Master Controller (MCU), Alice System Storage Device (System M/M; System MEMORY), and Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface Controller (SPI Controller), Alice True Random Number Generator (TRNG; True Random Number Generator) ), Alice Security CPU (Security Central Processing Unit), Alice Security OTP Memory (Security OTP M/M; Security One Time Password MEMORY), Alice PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Alice PUF It is composed of Chip (Physically Unclonable Function Chip).

Alice main controller (MCU) consists of Alice Boot-ROM, Alice System Storage (System M/M), Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER) connected to Alice System Bus. , Alice I/O Port, and Alice Serial Peripheral Interface (SPI Controller) are controlled.

Alice Security CPU (Security CPU) is Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface (SPI Controller), Alice Pure Random Number Generator (TRNG), Alice Secure OTP Memory (Security) OTP M/M), Alice PUF memory (PUF M/M), and Alice PUF Chip.

The Alice system storage device (System M/M) stores programs and data necessary for the Alice main controller (MCU).

The Alice Serial Peripheral Interface (SPI Controller) is connected to the Alice I/O Device (I/O Port) and controls the Alice I/O Device (I/O Port) according to the control command of the Alice Main Controller (MCU) to turn on the network connection. /OFF control.

Alice Boot-ROM stores programs and data necessary for booting Alice main controller (MCU).

Alice VPN performs 1:1 encrypted communication between Bob VPN inside Bob PUF-QRNG TWIN USB 57 connected to the network.

Alice Debugger (QC-DEBUGGER) receives a decoy Qantum Certificate (QC) through the Alice input/output device (I/O Port) and turns on/off the network network through the Alice input/output device (I/O Port) depending on whether or not authentication is performed. OFF control.

The Alice input/output device (I/O Port) is a switch connected to the network network, and it controls the network network ON/OFF and transmits the data received through the network network to the Alice main controller (MCU) through the Alice system bus.

Alice Security CPU (Security CPU) extracts Alice PIN data from Alice PUF Chip and stores it in Bob PUF memory (PUF M/M).

Alice Security CPU sends Alice PIN data to Alice main controller (MCU).

The Alice security CPU (Security CPU) generates the Alice private key from the Alice PIN data and stores it in the Alice security OTP memory (Security OTP M/M).

The Alice Security CPU encrypts the Alice private key with the random number generated by the Alice pure random number generator (TRNG), generates the Alice public key, and transmits it to the Alice main controller (MCU).

Bob PUF-QRNG TWIN USB (57) is connected to Bob's System Bus (Boot-ROM), Bob's Master Controller (MCU), Bob's System Storage (System M/M; System MEMORY), and Bob VPN (Virtual Private Network), Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface Controller (SPI Controller), Bob True Random Number Generator (TRNG) ), Bob Security CPU (Security Central Processing Unit), Bob Security OTP M/M (Security One Time Password MEMORY), Bob PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Bob PUF It is composed of Chip (Physically Unclonable Function Chip).

Bob main controller (MCU) is connected to Bob's System Bus (Boot-ROM), Bob's System Storage (System M/M), Bob's Virtual Private Network (VPN), and Bob's Debugger (QC-DEBUGGER). , Bob I/O Port, and Bob Serial Peripheral Interface (SPI Controller).

Bob Security CPU (Security CPU) includes Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface (SPI Controller), Bob Pure Random Number Generator (TRNG), and Bob Secure OTP Memory (Security). OTP M/M), Bob PUF memory (PUF M/M), and Bob PUF Chip.

Bob's system storage (System M/M) stores programs and data necessary for Bob's main control unit (MCU).

Bob Serial Peripheral Interface (SPI Controller) is connected to Bob I/O Port and controls Bob I/O Port according to the control command of Bob's main controller (MCU) to turn on the network connection. /OFF control.

Bob Boot-ROM stores programs and data necessary for booting Bob's main control unit (MCU).

Bob VPN performs 1:1 encrypted communication between Alice VPN inside Alice PUF-QRNG TWIN USB 65 connected to the network.

Bob Debugger (QC-DEBUGGER) receives a Quantum Certificate (QC) through Bob's I/O Port and turns on/off the network through Bob's I/O Port depending on whether or not it is authenticated. Control.

Bob I/O Port is a switch connected to the network network, and controls the network network ON/OFF and transmits the data received through the network network to the Bob main controller (MCU) through the Bob system bus.

Bob Security CPU (Security CPU) extracts Bob PIN data from Bob PUF Chip and stores it in Alice PUF memory (PUF M/M).

Bob Security CPU (Security CPU) sends Bob PIN data to Bob main control unit (MCU).

Bob Security CPU (Security CPU) generates Bob private key with the Bob PIN data and stores it in Bob's security OTP memory (Security OTP M/M).

The Bob Security CPU (Security CPU) encrypts the Bob private key with the random number generated by the Bob pure random number generator (TRNG), generates the Bob public key, and transmits it to the Bob main controller (MCU).

Alice PUF-QRNG TWIN USB 65 and Bob PUF-QRNG TWIN USB 57 are connected to a QUANTUM Communication Channel among the Hybrid-QUANTUM CHANNELs 60 .

A Quantum Random Number Generator (QRNG) is composed of an Alice Quantum Random Number Generator (Alice QRNG) in the transmitter and Bob QRNG in the Receiver for generating random quantum random numbers.

Quantum Key Distribution (QKD) consists of an Alice quantum key distributor (QKD) of a transmitter including a laser and a Bob quantum key distributor (QKD) of a receiver including a single photon detector.

The Quantum Platform is an Aliec Quantum Platform that generates a Quantum Certificate (QC) with quantum random numbers generated by Alice QRNG and transmits it through the Alice Quantum Key Distributor (QKD). It consists of a Bob Quantum Platform that receives and stores a Quantum Certificate (QC) through a Bob Quantum Key Distributor (QKD).

Random quantum random numbers generated from a transmitting set Alice QRNG are transmitted to the Aliec Quantum Platform.

Aliec Quantum Platform receives the quantum random number, generates a quantum certificate (QC), and transmits it to Alice Master Server (Alice MASTER SERVER) and Alice Quantum Key Distributor (QKD).

Alice Quantum Key Distributor (QKD) transmits a quantum certificate (QC) to Bob Quantum Key Distributor (QKD) through a quantum communication channel connected by an optical cable.

A receiving set Bob Quantum Key Distributor (QKD) receives the quantum certificate (QC) and stores it in Bob Quantum Platform.

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are connected to an ISP (Internet Service Provider) operator network that does not form a quantum communication channel, and inside Alice PUF-QRNG TWIN USB (65) Alice's main controller (MCU) boots through the Alice boot-ROM connected to the Alice system bus, and according to the program stored in the Alice system storage device (System M/M), the Alice serial peripheral interface ( SPI Controller) to control the network network ON/OFF through the Alice I/O device (I/O Port), and the Alice public key received through the Alice Security CPU (Bob PUF-QRNG TWIN USB) through Alice VPN (57) to the internal Bob VPN.

Bob PUF-QRNG TWIN USB(57) inside Bob's main controller (MCU) boots through Bob's Boot-ROM connected to Bob's System Bus, and stores it in Bob's system storage (System M/M). According to the stored program, it controls the Bob serial peripheral interface (SPI Controller) to control the network ON/OFF through the Bob input/output device (I/O port), and the Bob public key received through the Bob Security CPU (Security CPU) is Send to Alice VPN inside Alice PUF-QRNG TWIN USB 65 via Bob VPN.

Alice PUF-QRNG TWIN USB 65 inside Alice main controller (MCU) uses the Alice KEY that encrypted the Bob PIN data stored in the Alice PUF memory (PUF M/M) with the Bob public key received through the Alice VPN, and the Alice VPN. Through Bob PUF-QRNG TWIN USB 57, it is transmitted to Bob VPN inside.

Bob PUF-QRNG TWIN USB (57) Bob main controller (MCU) inside the Bob VPN, the Bob KEY that encrypted the Alice PIN data stored in the Bob PUF memory (PUF M/M) with the Alice public key received through Bob VPN. Through Alice PUF-QRNG TWIN USB 65, it is transmitted to Alice VPN inside.

Alice PUF-QRNG The Alice main controller (MCU) inside the TWIN USB 65 matches the Alice PIN data obtained by decrypting the Bob KEY encrypted with the Alice public key with the Alice private key and the Alice PIN data extracted from the Alice PUF Chip, and Bob PUF-QRNG When the Bob PIN data obtained by decrypting the Alice KEY encrypted with the Bob public key with the Bob private key and the Bob PIN data extracted from the Bob PUF Chip match, the Bob main controller (MCU) inside the TWIN USB 57 generates the Alice PUF-QRNG TWIN USB ( 65) connected to the Alice master server (Alice MASTER SERVER) and the Bob PUF-QRNG TWIN USB (57) connected to the Bob master server (Bob MASTER SERVER) connected to the network network login (LOG In).

Alice PUF-QRNG TWIN The Alice main controller (MCU) inside the USB 65 receives the quantum certificate (QC) from the Alice master server (Alice MASTER SERVER), encrypts it with the Bob public key, and then through the Alice VPN, the Bob PUF-QRNG TWIN Send to Bob VPN inside USB 57.

Bob PUF-QRNG TWIN USB 57. Bob's main controller (MCU) decrypts the quantum certificate (QC) encrypted with the Bob public key received through the Bob VPN with the Bob private key to decrypt the quantum certificate (QC).

Bob MASTER SERVER transmits the quantum certificate (QC) stored in the Bob Quantum Platform to the Bob Debugger (QC-DEBUGGER) inside the Bob PUF-QRNG TWIN USB 57.

Bob PUF-QRNG TWIN USB 57, Bob's main controller (MCU) transmits the quantum certificate (QC) received from Alice Master Server (Alice MASTER SERVER) to Bob Debugger (QC-DEBUGGER).

Bob Debugger (QC-DEBUGGER) does not match the quantum certificate (QC) received from Alice PUF-QRNG TWIN USB (65) and the quantum certificate (QC) received from the Bob master server (Bob MASTER SERVER) I/ It is characterized in that it blocks the network connection between the Alice master server and the Bob master server by controlling the O Port as OFF contact point.

In one embodiment,

The terminal unit includes a sensor unit 46 , an AMI 47 , a switchboard 48 , a QUANTUM 5G AP 49 , a broadcasting device 50 , an emergency bell 51 , an LED street/security light 52 , a dimmer 53 . , is composed of a terminal SINGLE USB 54.

The SINGLE USB 54 can be replaced with a SINGLE MODULE in the form of a PCI Board.

The AMI 47 is an AMI 47 that receives commercial power, measures power usage, and transmits power usage through a Low Power Wide Area Network (LPWAN) communication modem.

the switchboard 48 is a switchboard 48 that supplies power to the LED street/security lights 52 via the AMI 47;

The LED street/security light 52 is a dimmer 53, QUANTUM 5G AP 49, a broadcast device 50, and an emergency bell 51 attached to or attached to the inside to receive power.

The broadcasting device 50 receives broadcast data from any one of Master QUANTUM SERVER 61, Alice 6G QUANTUM SERVER 62, or Alice QUANTUM SERVER 63, and the terminal SINGLE USB 54 receives and broadcasts the broadcasting device 50 to be.

When the emergency bell 51 operates, the emergency bell operation event is transmitted through the terminal SINGLE USB 54 to either the Master QUANTUM SERVER 61 or Alice 6G QUANTUM SERVER 62 or Alice QUANTUM SERVER 63. )to be.

The sensor unit 46 transmits the data measured through the sensor to either the Master QUANTUM SERVER 61 or the Alice 6G QUANTUM SERVER 62 or the Alice QUANTUM SERVER 63 via the terminal SINGLE USB 54. The sensor unit ( 46).

The dimmer 53 is a dimmer 53 that adjusts the brightness of the LED street/security light 52 according to whether or not a human object is detected through the UHD surveillance camera image analysis unit.

QUANTUM 5G AP (49) receives the captured image data of the UHD surveillance camera and transmits it to either Master QUANTUM SERVER (61) or Alice 6G QUANTUM SERVER (62) or Alice QUANTUM SERVER (63) through a 5G wireless network base station. 5G AP 49.

Terminals SINGLE USB 54 and Master QUANTUM SERVER 61 and Alice 6G QUANTUM SERVER 62 and Alice QUANTUM SERVER 63 store the same symmetric key of a symmetric cryptographic algorithm, so broadcast data, emergency It encrypts/decrypts bell operation event data, data measured through sensors, measurement data, sensor status information data, audio/video data, point/off data, surveillance camera control data, broadcasting device control data, and dimmer control data.

UHD surveillance camera is a UHD level crime prevention CCTV surveillance camera and consists of an optical part, a driving part, a main controller, an image security processing part, an image analysis part, a network security processing part, and an input/output part.

The optical unit includes a filter unit 10 , a filter driving motor 11 , a zoom lens 12 , a zoom motor 13 , a variable focus lens 14 , a focus motor 15 , and a focus lens 16 .

The driving unit is composed of a motor driving drive 17 , a driving unit memory 18 , a driving unit control unit 19 , an RS-485 20 , a manual operation unit 21 , and a remote control unit 22 .

The main control unit is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(Machine Control Unit)(27), PUF Chip(28), Security OTP Memory(30), It is composed of a Boot-ROM 31 and a Serial Peripheral Interface (SPI) Controller 32 .

The image security processing unit is composed of an image sensor unit (33), 5G QUANTUM JUMP ENGINE (34), Quantum Entanglement (36), and Decoy Pulse (37).

The image analysis unit is composed of an image analysis module 38 , an object recognition module 39 , and a number recognition module 40 .

The network security processing unit is composed of DEBUGGER (41), QUANTUM BLOCK CHAIN (42), and 1:N BLOCK CHAIN (43).

The quantum communication unit is Bob 6G QUANTUM SERVER(55), Bob QUANTUM SERVER(56), Bob PUF-QRNG TWIN USB(57), non-QUANTUM CHANNEL(58), QUANTUM CHANNEL(59), hybrid-QUANTUM CHANNEL(60), It consists of Master QUANTUM SERVER (61), Alice 6G QUANTUM SERVER (62), Alice QUANTUM SERVER (63), QUANTUM 6G SECURITY ENGINE (64), Alice PUF-QRNG TWIN USB (65), and LPWAN communication modem (66).

A specific coupling relationship between the components will be described in detail below.

The filter unit 10 is composed of any one or more of an infrared filter, an ultraviolet filter, and an anti-reflective coating filter.

One of the infrared filter, the ultraviolet filter, and the anti-reflection coating filter is selected by driving the filter driving motor 11 .

By driving the zoom motor 13 for driving the zoom lens 12, the zoom lens magnification is varied.

The focus focus is changed through the focus motor 15 for driving the variable focus lens 14 and the focus lens 16 .

The driving unit control unit 19 programmed by the input data input from RS-485 20 or the manual operation unit 21 or the remote control unit 22 transmits the input data to the driving unit memory 18 and the motor driving drive 17 . By controlling the filter driving motor 11 , the zoom motor 13 , and the focus motor 15 , the optical signal is collected and transmitted to the imaging sensor unit 33 .

The image sensor inside the imaging sensor unit 33 transmits image data converted from an optical signal into an electrical signal to the 5G QUANTUM JUMP ENGINE 34 and the image analysis module 38 .

The image analysis module 38 receives the image data and extracts the object through the object recognition module 39. In the case of a vehicle, the vehicle license plate is converted into text through the number recognition module 40 among object data and object data. It is transmitted to the security processing unit QUANTUM BLOCK CHAIN (42).

The QUANTUM BLOCK CHAIN 42 compares the wanted vehicle vehicle number data received from the 1:N BLOCK CHAIN 43 connected to the block chain and generates a wanted vehicle event if it is the wanted vehicle.

The network security processing unit DEBUGGER 41 verifies a boot error when the main control unit Boot-ROM 31 first boots.

Sensing data collected from the sensor unit 46, measurement data measured from the AMI 47, switchboard status information data collected from one or more switchboards 48, audio/video data collected from one or more broadcasting devices 50, The LPWAN communication modem 66 collects the point/off data collected from the LED street/security light 52 and transmits it to the terminal SINGLE USB 54 .

Terminal SINGLE USB 54 transmits measurement data, sensor state information data, voice/video data, and on/off data to Bob 6G QUANTUM SERVER (55), and Bob 6G QUANTUM SERVER (55) is Alice 6G QUANTUM SERVER (62) , Alice QUANTUM SERVER (63), Alice PUF-QRNG TWIN USB (65) from any one of the UHD surveillance camera control data or broadcasting device control data or dimmer control data received and transmitted to the terminal internal terminal SINGLE USB (54) .

The terminal SINGLE USB 54 receives the UHD surveillance camera control data from the Bob 6G QUANTUM SERVER 55 .

The LPWAN communication modem (66) communicates data with the LPWAN terminal, and the main control unit MCU (27) is the TRNG (23), System Memory (24), PUF-PIN Memory (25), Security CPU (26), MCU (27). , PUF Chip 28 , Security OTP Memory 30 , Boot-ROM 31 , and SPI Controller 32 .

The System Memory 24 is a System Memory in which the main control unit MCU 27 operating OS program is stored.

The MCU 27 controls the Security CPU 26 to extract PIN (Personal Identification Number) data from the hardware pin of the PUF Chip 28 and stores it in the PUF-PIN Memory 25 and Alice 6G QUANTUM SERVER 62 do.

The MCU 27 generates and receives a natural random number by controlling the TRNG 23 and transmits it to the Security CPU 26 .

Security CPU 26 formats PIN (Personal Identification Number) data stored in PUF-PIN Memory 25 with a fixed-length format function as a random number seed to form an asymmetric cryptographic algorithm PRIVATE KEY) and then perform an asymmetric cryptographic algorithm by encrypting an asymmetric private key (PRIVATE KEY) and a beta-OR (EX-OR) with the natural random number seed generated through the TRNG (23). A public key (PUBLIC KEY) is generated and stored in the Security OTP Memory (30) and Alice 6G QUANTUM SERVER (62).

Bob 6G QUANTUM SERVER (55) receives PIN (Personal Identification Number) data encrypted with the public key from Alice 6G QUANTUM SERVER (62) through non-QUANTUM CHANNEL (58) and then transmits it to MCU 27 through the input/output unit. .

When the MCU 27 decrypts the private key and matches the PIN (Personal Identification Number) data stored in the PUF-PIN Memory 25, it boots the Boot-ROM 31 and controls the SPI Controller 32 to control the UHD surveillance camera. and Alice 6G QUANTUM SERVER 62 and login (LOG In) network to receive video data from 5G QUANTUM JUMP ENGINE 34 and transmit it to Alice 6G QUANTUM SERVER 62.

The specific coupling relationship between QUANTUM CHANNEL will be described in detail below.

Alice QUANTUM SERVER (63) and Bob QUANTUM SERVER (56) are connected to QUANTUM CHANNEL (59).

The QUANTUM 6G SECURITY ENGINE (64) generates a QUANTUM KEY from either BB84 or COW (Coherent One Way) and transmits it to Alice QUANTUM SERVER (63).

Alice QUANTUM SERVER (63) transmits the QUANTUM KEY to Bob QUANTUM SERVER (56) through the QUANTUM CHANNEL (59).

The Bob QUANTUM SERVER 56 transmits to the Quantum Entanglement 36 through the input/output unit via the Bob 6G QUANTUM SERVER 55 .

Quantum Entanglement 36 transmits the image 6G SECURITY ENGINE 35 in the case of a QUANTUM KEY generated by a Coherent One Way (COW) generating method.

Image 6G SECURITY ENGINE (35) is verified with Decoy Pulse (37) and in the case of quantum entanglement, it receives image data from 5G QUANTUM JUMP ENGINE (34), encrypts image data with QUANTUM KEY, and uses input/output unit to encrypt Bob 6G QUANTUM SERVER It is transmitted to Bob QUANTUM SERVER (56) via (55).

Bob QUANTUM SERVER 56 transmits the image data encrypted with the QUANTUM KEY to Alice QUANTUM SERVER 63 through QUANTUM CHANNEL 59 .

Alice QUANTUM SERVER (63) decrypts the video data encrypted with the QUANTUM KEY with the QUANTUM KEY received from the 6G SECURITY ENGINE (64).

The specific binding relationship between hybrid-QUANTUM CHANNEL will be described in detail.

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are hybrid- consisting of a Non-QUANTUM Communication Channel (58) and a quantum communication channel (QUANTUM Communication Channel (59)). connected to QUANTUM CHANNEL (60).

Alice PUF-QRNG TWIN USB 65 is Alice Boot-ROM connected to Alice System Bus, Alice Master Controller (MCU), Alice System Storage Device (System M/M; System MEMORY), and Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface Controller (SPI Controller), Alice True Random Number Generator (TRNG; True Random Number Generator) ), Alice Security CPU (Security Central Processing Unit), Alice Security OTP Memory (Security OTP M/M; Security One Time Password MEMORY), Alice PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Alice PUF It is composed of Chip (Physically Unclonable Function Chip).

Alice main controller (MCU) consists of Alice Boot-ROM, Alice System Storage (System M/M), Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER) connected to Alice System Bus. , Alice I/O Port, and Alice Serial Peripheral Interface (SPI Controller) are controlled.

Alice Security CPU (Security CPU) is Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface (SPI Controller), Alice Pure Random Number Generator (TRNG), Alice Secure OTP Memory (Security) OTP M/M), Alice PUF memory (PUF M/M), and Alice PUF Chip.

The Alice system storage device (System M/M) stores programs and data necessary for the Alice main controller (MCU).

The Alice Serial Peripheral Interface (SPI Controller) is connected to the Alice I/O Device (I/O Port) and controls the Alice I/O Device (I/O Port) according to the control command of the Alice Main Controller (MCU) to turn on the network connection. /OFF control.

Alice Boot-ROM stores programs and data necessary for booting Alice main controller (MCU).

Alice VPN performs 1:1 encrypted communication between Bob VPN inside Bob PUF-QRNG TWIN USB 57 connected to the network.

Alice Debugger (QC-DEBUGGER) receives a decoy Qantum Certificate (QC) through the Alice input/output device (I/O Port) and turns on/off the network network through the Alice input/output device (I/O Port) depending on whether or not authentication is performed. OFF control.

The Alice input/output device (I/O Port) is a switch connected to the network network, and it controls the network network ON/OFF and transmits the data received through the network network to the Alice main controller (MCU) through the Alice system bus.

Alice Security CPU (Security CPU) extracts Alice PIN data from Alice PUF Chip and stores it in Bob PUF memory (PUF M/M).

Alice Security CPU sends Alice PIN data to Alice main controller (MCU).

The Alice security CPU generates the Alice private key using the Alice PIN data as a random number seed and stores it in the Alice security OTP memory (Security OTP M/M).

The Alice security CPU (Security CPU) is a natural random number seed generated from the Alice pure random number generator (TRNG), and after generating the Alice public key by performing an EX-OR encryption operation with the Alice private key, the Alice main controller ( to the MCU).

Bob PUF-QRNG TWIN USB (57) is connected to Bob's System Bus (Boot-ROM), Bob's Master Controller (MCU), Bob's System Storage (System M/M; System MEMORY), and Bob VPN (Virtual Private Network), Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface Controller (SPI Controller), Bob True Random Number Generator (TRNG) ), Bob Security CPU (Security Central Processing Unit), Bob Security OTP M/M (Security One Time Password MEMORY), Bob PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Bob PUF It is composed of Chip (Physically Unclonable Function Chip).

Bob main controller (MCU) is connected to Bob's System Bus (Boot-ROM), Bob's System Storage (System M/M), Bob's Virtual Private Network (VPN), and Bob's Debugger (QC-DEBUGGER). , Bob I/O Port, and Bob Serial Peripheral Interface (SPI Controller).

Bob Security CPU (Security CPU) includes Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface (SPI Controller), Bob Pure Random Number Generator (TRNG), and Bob Secure OTP Memory (Security). OTP M/M), Bob PUF memory (PUF M/M), and Bob PUF Chip.

Bob's system storage (System M/M) stores programs and data necessary for Bob's main control unit (MCU).

Bob Serial Peripheral Interface (SPI Controller) is connected to Bob I/O Port and controls Bob I/O Port according to the control command of Bob's main controller (MCU) to turn on the network connection. /OFF control.

Bob Boot-ROM stores programs and data necessary for booting Bob's main control unit (MCU).

Bob VPN performs 1:1 encrypted communication between Alice VPN inside Alice PUF-QRNG TWIN USB 65 connected to the network.

Bob Debugger (QC-DEBUGGER) receives a Quantum Certificate (QC) through Bob's I/O Port and turns on/off the network through Bob's I/O Port depending on whether or not it is authenticated. Control.

Bob I/O Port is a switch connected to the network network, and controls the network network ON/OFF and transmits the data received through the network network to the Bob main controller (MCU) through the Bob system bus.

Bob Security CPU (Security CPU) extracts Bob PIN data from Bob PUF Chip and stores it in Alice PUF memory (PUF M/M).

Bob Security CPU (Security CPU) sends Bob PIN data to Bob main control unit (MCU).

The Bob security CPU (Security CPU) generates the Bob private key using the Bob PIN data as a random number seed, and stores it in the Bob security OTP memory (Security OTP M/M).

Bob Security CPU (Security CPU) is a natural random number seed generated from Bob's pure random number generator (TRNG). After generating Bob's public key by performing an EX-OR encryption operation with Bob's private key, the Bob main controller ( to the MCU).

The specific coupling relationship in the QUANTUM Communication Channel among hybrid-QUANTUM CHANNEL will be described in detail.

Alice PUF-QRNG TWIN USB 65 and Bob PUF-QRNG TWIN USB 57 are connected to a QUANTUM Communication Channel among hybrid-QUANTUM CHANNELs 60 .

Quantum Random Number Generator (QRNG) is composed of Alice QRNG of the transmitter and Bob QRNG of the receiver that generate random quantum random numbers.

Quantum Key Distribution (QKD) consists of an Alice quantum key distributor (QKD) of a transmitter including a laser and a Bob quantum key distributor (QKD) of a receiver including a single photon detector.

The Quantum Platform is an Aliec Quantum Platform that generates a Quantum Certificate (QC) with quantum random numbers generated by Alice QRNG and transmits it through the Alice Quantum Key Distributor (QKD). It consists of a Bob Quantum Platform that receives and stores a Quantum Certificate (QC) through a Bob Quantum Key Distributor (QKD).

Random quantum random numbers generated from a transmitting set Alice QRNG are transmitted to the Aliec Quantum Platform.

Aliec Quantum Platform receives the quantum random number, generates a quantum certificate (QC), and transmits it to Alice Master Server (Alice MASTER SERVER) and Alice Quantum Key Distributor (QKD).

Alice quantum key distributor (QKD) transmits a quantum certificate (QC) to Bob quantum key distributor (QKD) through a quantum communication channel (QUANTUM Communication Channel) connected by an optical cable;

A receiving set Bob Quantum Key Distributor (QKD) receives the quantum certificate (QC) and stores it in Bob Quantum Platform.

The specific coupling relationship in the non-QUANTUM Communication Channel among hybrid-QUANTUM CHANNEL will be described in detail.

Alice PUF-QRNG TWIN USB 65 and Bob PUF-QRNG TWIN USB 57 are connected to an Internet Service Provider (ISP) operator network that does not form a quantum communication channel.

Alice PUF-QRNG TWIN USB 65 inside Alice main controller (MCU) boots through Alice Boot-ROM connected to Alice System Bus, and is stored in Alice system storage device (System M/M). According to the stored program, it controls the Alice serial peripheral interface (SPI Controller) to control the network network ON/OFF through the Alice input/output device (I/O Port), and the Alice public key received through the Alice security CPU (Security CPU) Send to Bob VPN inside Bob PUF-QRNG TWIN USB 57 through Alice VPN.

Bob PUF-QRNG TWIN USB(57) inside Bob's main controller (MCU) boots through Bob's Boot-ROM connected to Bob's System Bus, and stores it in Bob's system storage (System M/M). According to the stored program, it controls the Bob serial peripheral interface (SPI Controller) to control the network ON/OFF through the Bob input/output device (I/O port), and the Bob public key received through the Bob Security CPU (Security CPU) is Send to Alice VPN inside Alice PUF-QRNG TWIN USB 65 via Bob VPN.

Alice PUF-QRNG TWIN USB 65 inside Alice main controller (MCU) uses the Alice KEY that encrypted the Bob PIN data stored in the Alice PUF memory (PUF M/M) with the Bob public key received through the Alice VPN, and the Alice VPN. Through Bob PUF-QRNG TWIN USB 57, it is transmitted to Bob VPN inside.

Bob PUF-QRNG TWIN USB (57) Bob main controller (MCU) inside the Bob VPN, the Bob KEY that encrypted the Alice PIN data stored in the Bob PUF memory (PUF M/M) with the Alice public key received through Bob VPN. Through Alice PUF-QRNG TWIN USB 65, it is transmitted to Alice VPN inside.

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN USB 65 matches the Alice PIN data obtained by decrypting the Bob KEY encrypted with the Alice public key with the Alice private key and the Alice PIN data extracted from the Alice PUF Chip, and the Bob PUF- When the Bob PIN data obtained by decrypting the Alice KEY encrypted with the Bob public key and the Bob private key matches the Bob PIN data extracted from the Bob PUF Chip, the Bob main control unit (MCU) inside the QRNG TWIN USB 57, Alice PUF-QRNG TWIN USB A network login (LOG In) is connected between the Alice master server (Alice MASTER SERVER) connected to (65) and the Bob master server (Bob MASTER SERVER) connected to the Bob PUF-QRNG TWIN USB (57).

In the network login (LOG In) connection state, the Alice main controller (MCU) inside the Alice PUF-QRNG TWIN USB 65 receives the quantum certificate (QC) from the Alice MASTER SERVER and encrypts it with the Bob public key. After doing this, it is transmitted to Bob VPN inside Bob PUF-QRNG TWIN USB 57 through Alice VPN.

Bob PUF-QRNG TWIN USB 57. Bob's main controller (MCU) decrypts the quantum certificate (QC) encrypted with the Bob public key received through the Bob VPN with the Bob private key to decrypt the quantum certificate (QC).

Bob MASTER SERVER transmits the quantum certificate (QC) stored in the Bob Quantum Platform to the Bob Debugger (QC-DEBUGGER) inside the Bob PUF-QRNG TWIN USB 57.

Bob PUF-QRNG TWIN USB 57, Bob's main controller (MCU) transmits the quantum certificate (QC) received from Alice Master Server (Alice MASTER SERVER) to Bob Debugger (QC-DEBUGGER).

Bob Debugger (QC-DEBUGGER) does not match the quantum certificate (QC) received from Alice PUF-QRNG TWIN USB (65) and the quantum certificate (QC) received from the Bob master server (Bob MASTER SERVER) I/ A hybrid quantum communication network comprising a switchboard, a broadcasting device, a street/security light, and a CCTV surveillance camera terminal for crime prevention, characterized in that the O Port is controlled by the OFF contact to block the network connection between the Alice master server and the Bob master server.

In one embodiment,

As the main component, QUANTUM COLLABO is composed including a quantum random number generator.

The autonomous vehicle is composed of a surveillance camera and a 5G communication modem.

In addition, it consists of QUANTUM 5G AP (Access Point), Alice 6G QUANTUM SERVER, and Bob 6G QUANTUM SERVER.

It is mainly composed of QUANTUM COLLABO, self-driving car, QUANTUM 5G Access Point (AP), Alice 6G QUANTUM SERVER, and Bob 6G QUANTUM SERVER.

In the network configuration, the wired quantum network is composed of any one of QUANTUM CHANNEL, non-QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL. In addition, the 5G wireless network network is additionally configured as a redundant duplex network.

Quantum Key (QKD) that selectively connects wired quantum network own network and ISP operator's 5G wireless network network and encrypts/decrypts with QUANTUM KEY (private key/public key) generated using PUF or QRNG SoC Chip according to data characteristics Distribution) The TLS (Transport Layer Security) system will be described in detail below with its main features.

The core component, QUANTUM COLLABO (QUANTUM encrypt Transport Layer Security protocol DEVICE), is an Eve quantum random number generator, 5G QUANTUM JUMP ENGINE, Boot Mode S/W (SWITCH), JTAG Connector, USB Connector, ETHERNET Connector, RESET S/W ( SWITCH), LED, and I/O Pin Header.

In addition, the 5G QUANTUM JUMP ENGINE inside QUANTUM COLLABO is characterized by including System Memory, PUF-PIN Memory, Security CPU, MCU, eve-PUF Chip, Security OTP Memory, Boot-ROM, and SPI Controller.

The Eve quantum random number generator, which is a core component, is composed of a random number source generator, quantum detection diode, quantum random pulse generator, quantum random number control unit, and input/output unit.

Detailed components and detailed coupling relationships will be described in detail below.

The random number source generator emits quantum particles from any one or more of LED (Light-Emitting Diode), LD (Laser Diode), radioactive isotopes, transistor noise, and thermal noise.

The quantum detection diode detects quantum particles generated from the random number source generator.

The quantum random pulse generator detects a quantum particle event from the quantum detection diode and generates a random pulse corresponding to the detection of the quantum particle.

The quantum random number control unit generates a quantum random number from a random pulse random number source generated through the quantum random pulse generator and transmits it to the 5G QUANTUM JUMP ENGINE internal Security CPU.

Boot Mode S/W (SWITCH) is Boot Mode S/W (S/W) that boots the Boot-ROM through the SPI Controller inside 5G QUANTUM JUMP ENGINE, receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key, and transmits it to the 5G communication modem. SWITCH).

JTAG Connector is a JTAG (Joint Test Action Group) connector that transmits output data or receives input data in a serial communication method for digital input/output.

ETHERNET Connector is an input/output port for ETHERNET communication with an autonomous vehicle.

RESET S/W(SWITCH) is RESET S/W(SWITCH) initializing QUANTUM COLLABO;

It is composed of power supply indicator LED, I/O Pin Header and USB Connector that communicates with each part of QUANTUM COLLABO.

The relationship between components and systems will be described in detail with a focus on the network network.

It consists of a surveillance camera mounted inside an autonomous vehicle, QUANTUM COLLABO, 5G communication modem, and QUANTUM 5G AP and Bob 6G QUANTUM SERVER installed on the road outside the autonomous vehicle. It consists of an Alice 6G QUANTUM SERVER connected to a wired quantum network network and a 5G wireless network network composed of either one.

5G QUANTUM JUMP ENGINE's internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-PUF Chip, Security OTP Memory, Boot-ROM, and SPI Controller.

System Memory is the system memory in which the MCU operating OS program is stored.

MCU controls the Security CPU to extract Eve PIN data from the hardware pin of the eve-PUF Chip and store it in PUF-PIN Memory and Alice 6G QUANTUM SERVER. Create a PRIVATE KEY.

The format function generates an asymmetric cryptographic algorithm PRIVATE KEY using various well-known methods such as a fixed-length hash function and a function expression.

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU.

Security CPU generates Eve QUANTUM public key (PUBLIC KEY) by performing beta-OR (EX-OR) encryption operation on the Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed, and the quantum random number seed ( Seed) and Eve QUANTUM public key are stored in Security OTP Memory and Eve QUANTUM public key (PUBLIC KEY) is transmitted to 5G communication modem.

The beta-OR (EX-OR) cryptographic operation uses a variety of well-known methods such as operators (EX-OR, EX-AND, etc.), fixed-length hash functions, and function expressions. KEY) is created.

The 5G communication modem transmits to Alice 6G QUANTUM SERVER through the 5G base station inside the 5G wireless network.

Alice 6G QUANTUM SERVER is configured by including Alice Quantum Random Number Generator and Alice PUF Chip inside.

Alice 6G QUANTUM SERVER extracts Alice PIN data from the hardware pin of Alice PUF Chip, stores it in QUANTUM COLLABO, and encrypts the Alice PIN data as a random number seed to generate the Alice QUANTUM private key.

Alice QUANTUM public key (PUBLIC KEY) is generated by performing beta-OR (EX-OR) encryption operation with the quantum random number seed that generated quantum random number from Alice quantum random number generator and Alice QUANTUM private key.

The beta-OR (EX-OR) cryptographic operation uses a variety of well-known methods such as operators (EX-OR, EX-AND, etc.), fixed-length hash functions, and function expressions. KEY) is created.

Alice 6G QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored inside with the Eve QUANTUM public key received through the 5G wireless network, and retransmits it to the QUANTUM COLLABO through the 5G wireless network.

QUANTUM COLLABO internal MCU performs the reverse operation of Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the quantum random number seed stored in the Security OTP Memory with the Eve QUANTUM private key and EX-OR decryption to reverse the Alice QUANTUM Decrypt and generate public key and Eve PIN data.

If the decrypted Eve PIN data and the Eve PIN data extracted from the eve-PUF chip match, the MCU boots the Boot-ROM through the SPI Controller and encrypts the video data captured by the surveillance camera with the Alice QUANTUM public key to encrypt the 5G communication modem. send to

The 5G communication modem transmits the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key to the QUANTUM 5G AP through the 5G LAN (Local Area Network) cell network that can communicate. However, if communication with the QUANTUM 5G AP is not possible, the 5G wireless network 5G base station send to

When Bob 6G QUANTUM SERVER receives surveillance camera video data encrypted with Alice QUANTUM public key from QUANTUM 5G AP, Alice 6G QUANTUM through a wired quantum network consisting of any one of QUANTUM CHANNEL, non-QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL Send to SERVER.

Alice 6G QUANTUM SERVER receives SMART QUANTUM G-Cloud using QUANTUM 5G AP that receives video data captured by a surveillance camera encrypted with Alice QUANTUM public key and decrypts it with Alice QUANTUM private key from at least one of wired quantum network and 5G wireless network network. Self-driving car 5G is the autonomous network

In one embodiment,

The autonomous vehicle consists of a QUANTUM COLLABO and a surveillance camera and communication modem.

Outside the autonomous vehicle, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER are configured.

It features a QKD (Quantum Key Distribution) TLS (Transport Layer Security) system that selectively connects wired and wireless private networks and telecommunication service provider wireless networks to encrypt/decrypt communication with QUANTUM KEY.

As the main component,

It consists of a surveillance camera mounted inside an autonomous vehicle, QUANTUM COLLABO, and a communication modem.

It consists of QUANTUM AP and Bob QUANTUM SERVER installed outside the autonomous vehicle.

The network is composed of Alice QUANTUM SERVER connected to wired/wireless network consisting of wired and wireless self-network and telecommunication operator's wireless network.

QUANTUM COLLABO consists of Eve quantum random number generator and QUANTUM JUMP ENGINE.

QUANTUM COLLABO's internal Eve quantum random number generator generates quantum random numbers and sends them to QUANTUM JUMP ENGINE's internal Security CPU.

QUANTUM JUMP ENGINE consists of System Memory, PUF-PIN Memory, Security CPU, MCU, eve-PUF Chip, Security OTP Memory, Boot-ROM, and SPI Controller.

QUANTUM JUMP ENGINE's internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-PUF Chip, Security OTP Memory, Boot-ROM, and SPI Controller.

System Memory is the system memory in which the MCU operating OS program is stored.

The MCU controls the Security CPU to extract Eve PIN data from the hardware pin of the eve-PUF Chip, stores it in PUF-PIN Memory and Alice QUANTUM SERVER, and generates the Eve QUANTUM private key with the Eve PIN data as a random number seed.

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU.

The Security CPU encrypts the Eve QUANTUM private key stored in the PUF-PIN Memory with the quantum random number seed to generate the Eve QUANTUM public key, stores the Eve QUANTUM public key in the Security OTP Memory, and communicates the Eve QUANTUM public key. send to the modem.

The communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the wireless base station inside the wireless network network of the communication service provider.

Alice QUANTUM SERVER is configured by including Alice quantum random number generator and Alice PUF Chip inside.

Alice QUANTUM SERVER extracts Alice PIN data from the hardware pin of Alice PUF Chip, stores it in QUANTUM COLLABO, generates Alice QUANTUM private key as a random number seed, and generates quantum random numbers from Alice quantum random number generator. The Alice QUANTUM public key is generated by encrypting the Alice QUANTUM private key with the quantum random number seed.

Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored inside the Eve QUANTUM public key received through the wireless network network of the telecommunication service provider and retransmits it to the QUANTUM COLLABO through the wireless network of the telecommunication service provider. Eve PIN data encrypted with QUANTUM public key and Alice QUANTUM public key are decrypted with Eve QUANTUM private key to decrypt and generate Alice QUANTUM public key and Eve PIN data, and Eve extracted from the decrypted generated Eve PIN data and eve-PUF Chip If it matches the PIN data,

The MCU boots the Boot-ROM through the SPI Controller, encrypts the video data captured by the surveillance camera with the Alice QUANTUM public key, and sends it to the communication modem.

The communication modem transmits the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key to the QUANTUM AP that can communicate.

When Bob QUANTUM SERVER receives the surveillance camera video data encrypted with the Alice QUANTUM public key from the QUANTUM AP, it transmits it to the Alice QUANTUM SERVER through the wired network;

Alice QUANTUM SERVER receives video data from the surveillance camera encrypted with the Alice QUANTUM public key from at least one of the wired network and the wireless network, and decrypts it with the Alice QUANTUM private key. SMART QUANTUM G-Cloud autonomous vehicle autonomy using QUANTUM AP group self-network.

In one embodiment,

It basically consists of QUANTUM COLLABO, surveillance camera, communication modem, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

QUANTUM COLLABO consists of Eve quantum random number generator and QUANTUM JUMP ENGINE.

QUANTUM COLLABO's internal Eve quantum random number generator generates quantum random numbers and sends them to QUANTUM JUMP ENGINE's internal Security CPU.

QUANTUM JUMP ENGINE consists of System Memory, PUF-PIN Memory, Security CPU, MCU, eve-PUF Chip, Security OTP Memory, Boot-ROM, and SPI Controller.

QUANTUM JUMP ENGINE's internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-PUF Chip, Security OTP Memory, Boot-ROM, and SPI Controller.

System Memory is the system memory in which the MCU operating OS program is stored.

The MCU controls the Security CPU to extract Eve PIN data from the hardware pin of the eve-PUF Chip, stores it in PUF-PIN Memory and Alice QUANTUM SERVER, and generates the Eve QUANTUM private key with the Eve PIN data as the seed.

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU.

The Security CPU generates an Eve QUANTUM public key by encrypting the Eve QUANTUM private key stored in the PUF-PIN memory with the quantum random number, stores the Eve QUANTUM public key in the Security OTP Memory, and transmits it to the communication modem.

The communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the wireless network of the communication service provider.

Alice QUANTUM SERVER is composed of Alice Quantum Random Number Generator and Alice PUF Chip inside. Alice QUANTUM SERVER extracts Alice PIN data from the hardware pin of Alice PUF Chip, stores it in QUANTUM COLLABO, and seeds the Alice PIN data. Asymmetric cryptographic algorithm Alice QUANTUM private key is generated, and the Alice QUANTUM private key is used as a quantum random number generated from Alice quantum random number generator by known asymmetric cryptographic algorithm encryption operation. to generate the Alice QUANTUM public key.

Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored inside with the Eve QUANTUM public key received through the wireless network of the telecommunication service provider and retransmits it to the QUANTUM COLLABO through the wireless network of the telecommunication service provider.

QUANTUM COLLABO internal MCU decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the asymmetric cryptographic algorithm Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data.

If the decrypted Eve PIN data and the Eve PIN data extracted from the eve-PUF chip match, the MCU boots the Boot-ROM through the SPI Controller, encrypts the video data captured by the surveillance camera with the Alice QUANTUM public key, and sends it to the communication modem. send.

The communication modem transmits the surveillance camera video data encrypted with the Alice QUANTUM public key to the Bob QUANTUM SERVER through the wireless self-network QUANTUM AP, but if communication with the wireless self-network QUANTUM AP is impossible, it is sent to the Alice QUANTUM SERVER through the wireless network of the carrier send.

When Bob QUANTUM SERVER receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key from the QUANTUM AP, it transmits it to the Alice QUANTUM SERVER through the wire network.

Alice QUANTUM SERVER is a SMART QUANTUM G-Cloud self-network using QUANTUM AP that receives video data captured by a surveillance camera encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key from one or more of the wired own network and the wireless network of the telecommunication service provider. .

In one embodiment,

It consists of QUANTUM COLLABO, surveillance camera, communication modem, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

QUANTUM COLLABO consists of Eve quantum random number generator and QUANTUM JUMP ENGINE.

QUANTUM COLLABO's internal Eve quantum random number generator generates quantum random numbers and sends them to QUANTUM JUMP ENGINE's internal Security CPU.

QUANTUM JUMP ENGINE consists of System Memory, NFC Memory, Security CPU, MCU, eve-NFC Chip, Security OTP Memory, Boot-ROM, and SPI Controller.

QUANTUM JUMP ENGINE's internal MCU controls System Memory, NFC Memory, Security CPU, eve-NFC Chip, Security OTP Memory, Boot-ROM, and SPI Controller.

System Memory is the system memory in which the MCU operating OS program is stored.

MCU controls Security CPU to extract Eve NFC data from eve-NFC Chip (or eve-NFC card, eve-NFC sticker) and store it in Alice QUANTUM SERVER as NFC Memory and random number seed, then seed Eve NFC data to generate the Eve QUANTUM private key.

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU.

The Security CPU generates an Eve QUANTUM public key by encrypting the Eve QUANTUM private key stored in the NFC Memory with the quantum random number, stores the Eve QUANTUM public key in the Security OTP Memory, and transmits it to the communication modem.

The communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the wireless network of the communication service provider.

Alice QUANTUM SERVER is configured by including Alice quantum random number generator and Alice NFC Chip inside.

Alice QUANTUM SERVER extracts Alice NFC data from Alice NFC Chip, stores it in QUANTUM COLLABO, generates Alice QUANTUM private key with Alice NFC data, and encrypts Alice QUANTUM private key with quantum random number generated from Alice quantum random number generator operation to generate the Alice QUANTUM public key.

Alice QUANTUM SERVER encrypts the Eve NFC data and Alice QUANTUM public key stored inside the Eve QUANTUM public key received through the wireless network of the telecommunication service provider and retransmits it to the QUANTUM COLLABO through the wireless network of the telecommunication service provider.

QUANTUM COLLABO internal MCU decrypts the Eve NFC data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve NFC data.

If the decryption-generated Eve NFC data and the Eve NFC data extracted from the eve-NFC Chip match, the MCU boots the Boot-ROM through the SPI Controller, encrypts the video data captured by the surveillance camera with the Alice QUANTUM public key, and sends it to the communication modem. send.

The communication modem transmits the surveillance camera video data encrypted with the Alice QUANTUM public key to the Bob QUANTUM SERVER through the wireless self-network QUANTUM AP, but if communication with the wireless self-network QUANTUM AP is impossible, it is sent to the Alice QUANTUM SERVER through the wireless network of the carrier send.

When Bob QUANTUM SERVER receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key from the QUANTUM AP, it transmits it to the Alice QUANTUM SERVER through the wire network.

Alice QUANTUM SERVER is a SMART QUANTUM G-Cloud self-network using QUANTUM AP that receives video data captured by a surveillance camera encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key from one or more of the wired own network and the wireless network of the telecommunication service provider. .

In one embodiment,

It basically consists of a terminal, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

The terminal unit is configured including QUANTUM COLLABO, self-wired network communication modem and communication operator communication modem in detail.

The terminal unit QUANTUM COLLABO is connected to the Alice QUANTUM SERVER through the telecommunication carrier's communication modem through the telecommunication carrier's wireless network.

In addition, QUANTUM COLLABO is networked with Alice QUANTUM SERVER connected through its own wired network through Bob QUANTUM SERVER connected with QUANTUM AP through its own wireless network through its own wireless network communication modem.

Telecommunication service provider wireless network: QUANTUM COLLABO ↔ Telecom carrier communication modem ↔ Licensed frequency carrier radio network ↔ Alice QUANTUM SERVER

Self-wired/wireless network: QUANTUM COLLABO ↔ self-wired communication modem ↔ QUANTUM AP ↔ self-wired network (unlicensed frequency closed wireless self-network) ↔ Bob QUANTUM SERVER ↔ self-wired network (QUANTUM CHANNEL, non-QUANTUM CHANNEL, hybrid-QUANT) wired network consisting of any one of them) ↔ Alice QUANTUM SERVER

QUANTUM COLLABO consists of Eve quantum random number generator and QUANTUM JUMP ENGINE.

QUANTUM COLLABO's internal Eve quantum random number generator generates quantum random numbers and sends them to QUANTUM JUMP ENGINE's internal Security CPU.

QUANTUM JUMP ENGINE consists of System Memory, PUF-PIN Memory, Security CPU, MCU, eve-PUF, Security OTP Memory, Network Switch, and SPI Controller.

QUANTUM JUMP ENGINE's internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-PUF, Security OTP Memory, Network Switch, and SPI Controller.

System Memory is the system memory in which the MCU operating OS program is stored.

MCU controls Security CPU to extract Eve PIN data from eve-PUF, store it in PUF-PIN Memory and Alice QUANTUM SERVER, and then creates Eve QUANTUM private key with Eve PIN data as a random number seed.

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU.

The Security CPU encrypts the Eve QUANTUM private key stored in the PUF-PIN Memory with the quantum random number seed to generate the Eve QUANTUM public key, stores the Eve QUANTUM public key in the Security OTP Memory, and communicates the Eve QUANTUM public key. It is transmitted to the operator's communication modem.

The communication operator's communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the communication operator's wireless network.

Alice QUANTUM SERVER is configured by including Alice quantum random number generator and Alice PUF inside.

Alice QUANTUM SERVER extracts Alice PIN data from Alice PUF, stores it in QUANTUM COLLABO, generates Alice QUANTUM private key as a random number seed, and generates a quantum random number seed from Alice quantum random number generator. Seed) to generate the Alice QUANTUM public key by encrypting the Alice QUANTUM private key.

Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored inside the Eve QUANTUM public key received through the wireless network of the operator and retransmits it to the QUANTUM COLLABO through the wireless network of the operator or Alice QUANTUM SERVER uses the wireless network of the operator The Eve PIN data and Alice QUANTUM public key stored inside are encrypted with the Eve QUANTUM public key received through the Eve QUANTUM public key and transmitted to the Bob QUANTUM SERVER through their own wired network. Bob QUANTUM SERVER transmits it to its own wireless network communication modem through the QUANTUM AP. QUANTUM COLLABO receives through wireless network communication modem.

QUANTUM COLLABO receives Eve PIN data and Alice QUANTUM public key encrypted with the Eve QUANTUM public key from either the wireless network of the telecommunication service provider or its own wired network, decrypts the Eve QUANTUM private key, and decrypts the Alice QUANTUM public key and Eve PIN data. If the decrypted generated Eve PIN data matches the Eve PIN data extracted from eve-PUF,

The MCU gradually turns the Network Switch ON through the SPI Controller, encrypts the data with the Alice QUANTUM public key, and transmits it to its own wireless network communication modem and communication operator communication modem.

The self-wired network communication modem transmits the data encrypted with the Alice QUANTUM public key to the available QUANTUM AP, but if communication with the QUANTUM AP is not possible, it transmits it to the telecommunication service provider's wireless network through the operator's communication modem.

When Bob QUANTUM SERVER receives data encrypted with Alice QUANTUM public key from QUANTUM AP, it transmits it to Alice QUANTUM SERVER through its own wired network.

Alice QUANTUM SERVER is a SMART QUANTUM G-Cloud self-network using QUANTUM AP that receives data encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key from one or more of its own wired network and wireless network of a telecommunication service provider.

In one embodiment,

Surveillance Camera (Closed Circuit Camera, or Security Surveillance Camera, Security Surveillance Camera, Surveillance Camera), QUANTUM COLLABO, Alice QUANTUM SERVER, Bob QUANTUM SERVER, QUANTUM DUAL AP(Access Point), Network Separation Server, Quantum Smartphone, NFC It consists of Tag, police-APP, SK Telecom's telecom operator's LoRA wireless network (communication operator's wireless network), SK Telecom's quantum authentication server, and wired/wireless self-network.

Alice QUANTUM SERVER generates the first quantum random number through the Alice Quantum Random Number Generator (QRNG) inside, and generates the QUANTUM symmetric key of the symmetric cryptographic algorithm to create the QUANTUM COLLABO internal PUF-PIN Memory and Alice After logging in to the network network between QUANTUM COLLABO and Alice QUANTUM SERVER by storing it in QUANTUM SERVER, it is characterized in that the video data captured by the surveillance camera (surveillance camera) is encrypted/decrypted data communication with the QUANTUM symmetric key.

(Integrated Crime Prevention Center)

Alice QUANTUM SERVER inside the integrated crime prevention center is connected to SK Telecom's quantum authentication server through any one of SK Telecom's 3G, 4G, 5G, and LoRA wireless networks.

The network separation server inside the integrated crime prevention center consists of an internal network main board and an external network main board. The internal network main board receives video data from Alice QUANTUM SERVER and transmits only the video data in one direction to the external network main board.

(School Zone Control)

The closed enclosure includes a remote locking device and a door open sensor, and the closed enclosure door door open sensor detection data is transmitted to Alice QUANTUM SERVER through Bob QUANTUM SERVER, and Alice QUANTUM SERVER controls the remote locking device to remotely control the opening of the closed enclosure.

It is composed of Bob QUANTUM SERVER, CC certified VPN, and QUANTUM DUAL AP (Access Point) inside a closed enclosure, and Bob QUANTUM SERVER can use non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, PUF-QRNG TWIN USB through CC certified VPN. It is connected to Alice QUANTUM SERVER through any one of the wired networks of the hybrid-QUANTUM CHANNEL.

(School zone terminal)

The terminal is composed of a closed circuit camera, a multi-communication modem, and a QUANTUM COLLABO.

A surveillance camera is a surveillance camera equipped with either a PUF-TRNG SoC (System on Chip) or an eFUSE-TRNG SoC (System on Chip) security chip.

QUANTUM COLLABO controls surveillance cameras. \QUANTUM COLLABO selectively selects unlicensed frequency closed wireless self-network or licensed frequency SK Telecom carrier's LoRA wireless network through QUANTUM AC (Access Controller) in data transmission/reception.

QUANTUM COLLABO controls QUANTUM AC (Access Controller) to connect with Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems, or QUANTUM COLLABO to QUANTUM Controls AC (Access Controller) and connects with Alice QUANTUM SERVER through SK Telecom quantum authentication server authentication connected to the licensed frequency SK Telecom carrier LoRA wireless network through licensed frequency modem among multi-communication modems.

(System Combine - Log In)

QUANTUM COLLABO consists of QUANTUM AC (Access Controller), Eve quantum random number generator, and Encrypt TLS (Transport Layer Security protocol) MODULE.

Encrypt TLS MODULE consists of System Memory, PUF-PIN Memory, Security CPU, Main Control Unit (MCU), eve-NFC Chip, NFC Reader, Security OTP Memory, Boot-ROM, and SPI Controller.

QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE internal Security CPU.

Encrypt TLS MODULE Internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-NFC Chip, NFC Reader, Security OTP Memory, Boot-ROM, SPI Controller.

System Memory is the system memory in which the MCU operating OS program is stored.

The MCU controls the Security CPU and the NFC Reader receives the Eve PIN data stored in the eve-NFC Chip through contactless near field communication, stores it in the PUF-PIN memory, and then converts the Eve PIN data as a random number seed. Asymmetric cryptographic algorithm Eve QUANTUM Generates a private key (PRIVATE KEY).

The eve-NFC Chip is one of the physical PUFs (Physically Unclonable Function) that is replaced every month (or weekly, frequently) during the monthly maintenance service inspection. Input the Eve PIN data through the NFC Writer and send the Eve PIN data to the Alice QUANTUM SERVER. Save.

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU.

Security CPU performs beta-OR (EX-OR) encryption operation of the Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed. OTP (One Time Password) asymmetric cryptographic algorithm Eve QUANTUM A public key (PUBLIC KEY) is generated, the Eve QUANTUM public key is stored in the Security OTP (One Time Password) memory, and the Eve QUANTUM public key is transmitted to the QUANTUM AC (Access Controller).

QUANTUM AC (Access Controller) transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through SK Telecom quantum authentication server authentication connected to the licensed frequency SK Telecom carrier LoRA wireless network through the licensed frequency modem among multi-communication modems.

Alice QUANTUM SERVER is configured by including an Alice Pseudo Random Number Generator (PRNG) and an Alice Quantum Random Number Generator (QRNG) therein.

Alice QUANTUM SERVER generates Alice PIN data with the Alice pseudo-random number seed generated through the Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and uses the Alice PIN data generated with Alice pseudo-random number seed as a random number seed. Generates the Alice QUANTUM private key with , and generates the Alice QUANTUM public key by performing a beta OR (EX-OR) encryption operation on the Alice QUANTUM private key with the quantum random number seed that generated the quantum random number from the Alice quantum random number generator. .

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the SK Telecom carrier LoRA wireless network network to encrypt the licensed frequency with the SK Telecom carrier LoRA wireless network or wired network network and unlicensed. It retransmits to QUANTUM COLLABO through the frequency closed wireless network, and QUANTUM COLLABO internal MCU decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to obtain the Alice QUANTUM public key and Eve PIN data. When the decryption is generated and the decrypted Eve PIN data and the Eve PIN data extracted from the eve-NFC chip match,

MCU boots Boot-ROM through SPI Controller to control QUANTUM AC (Access Controller), and Bob QUANTUM through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems Connect SERVER and network network login (Log In).

(System Combine - DATA Transmission)

QUANTUM AC (Access Controller) transmits video data captured by surveillance camera encrypted with QUANTUM symmetric key through QUANTUM DUAL AP to Bob QUANTUM SERVER who is logged in to network network, but if communication with QUANTUM DUAL AP is impossible, multi-communication modem It is transmitted to Alice QUANTUM SERVER through any one of the 3G, 4G, or 5G wireless network of SK Telecom's licensed frequency through modem.

When Bob QUANTUM SERVER receives the surveillance camera video data encrypted with the QUANTUM symmetric key from the QUANTUM DUAL AP, it is transmitted to the Alice QUANTUM SERVER through one of the wired networks of non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL. do.

Alice QUANTUM SERVER receives the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key from at least one of the wired network and the wireless network and decrypts it with the QUANTUM symmetric key. (Symmetric-key algorithm applied)

(How to combine key component systems)

QUANTUM AC (Access Controller) inside QUANTUM COLLABO uses the Alice QUANTUM public key, and the multi-communication modem is SK Telecom's telecommunication service provider's 3G licensed frequency modem, 4G licensed frequency modem, 5G licensed frequency modem, and LoRA modem. It transmits to Alice QUANTUM SERVER and transmits the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key to the QUANTUM DUAL AP through the unlicensed frequency modem, which has the fastest communication speed among low frequency or high frequency that can be communicated.

QUANTUM DUAL AP is capable of dual transmission and reception of 2.4GHz Low Frequency and 5GHz High Frequency. It selects Low Frequency or High Frequency for data transmission according to the communication environment according to obstacles. Before data transmission, QUANTUM AC (Access Controller) and QUANTUM DUAL A hybrid-QUANTUM CHANNEL One-Way- that selects a frequency with a fast response speed by conducting Low Frequency and High Frequency PING tests, encrypts large-capacity image data with the QUANTUM symmetric key, and transmits them to enhance security and reduce communication costs It features a Ring Network.

(Quantum smartphone service for police work)

It consists of a QRNG SoChip quantum random number generator mounted inside a quantum smartphone (Samsung Electronics Galsxy S11, etc.) to which a police-app for police work certified by SK Telecom's quantum authentication server has been uploaded and an NFC Tag pseudo-random number generator on the outside.

NFC Tag pseudo random number generator stores OTP (One Time Password) pseudo random number through NFC Writer and stores the same OTP (One Time Password) pseudo random number in Alice QUANTUM SERVER.

When a quantum smartphone connects to the external network main board in Alice QUANTUM SERVER,

Alice QUANTUM SERVER generates Alice PIN data with the Alice pseudo-random number seed generated through the Alice pseudo-random number generator, generates the Alice QUANTUM private key with the Alice PIN data as the random number seed, and uses the Alice quantum random number generator. When the Alice QUANTUM private key is subjected to beta-OR (EX-OR) encryption operation with the quantum random number seed generated from the quantum random number, the Alice QUANTUM public key is generated, and the Alice QUANTUM public key is transmitted to the quantum smartphone, The quantum smartphone encrypts and retransmits the OTP (One Time Password) pseudo-random number generated by tagging the NFC Tag to the quantum smartphone NFC chip with the Alice QUANTUM public key.

Alice QUANTUM SERVER decrypts the OTP (One Time Password) pseudo-random number encrypted with the Alice QUANTUM public key with the QUANTUM private key, and if it matches the stored OTP (One Time Password) pseudo-random number, the video data captured by the surveillance camera is transferred to the internal network main of the network separation server. The image data is transmitted to the external network main board through the board, and the quantum smartphone connects to the external network main board and logs in the OTP (One Time Password) pseudo-random number as the one-time password with the quantum smartphone MAC Address as the ID. It is a heterogeneous network QUANTUM KEY distribution hybrid quantum communication closed self-network system, characterized in that it receives

In one embodiment,

Terminal SERVER, QUANTUM COLLABO, Alice QUANTUM SERVER, Bob QUANTUM SERVER, QUANTUM DUAL AP (Access Point), licensed frequency carrier wireless network, unlicensed frequency closed wireless self-network, and wired self-network. The first quantum random number is generated through the Alice Quantum Random Number Generator (QRNG), and the QUANTUM symmetric key of the symmetric cryptographic algorithm is generated and stored in the QUANTUM COLLABO internal PUF-PIN Memory and Alice QUANTUM SERVER. After logging in to the network network between QUANTUM COLLABO and Alice QUANTUM SERVER, it is characterized in that the image data is encrypted/decrypted data communication with the QUANTUM symmetric key.

Alice QUANTUM SERVER is connected to QUANTUM COLLABO through a wireless network network of a licensed frequency carrier.

In addition, Alice QUANTUM SERVER connects to Bob QUANTUM SERVER and a wired network through any one of the 3 non-QUANTUM CHANNEL or BB84 QUANTUM CHANNEL or hybrid-QUANTUM CHANNEL 3 hybrid-QUANTUM CHANNEL via PUF-QRNG TWIN USB via CC-certified VPN. do.

QUANTUM COLLABO is connected to Bob QUANTUM SERVER and wireless network through QUANTUM DUAL AP (Access Point) through closed wireless self-network of unlicensed frequency.

QUANTUM COLLABO selectively selects unlicensed frequency closed wireless self-network or licensed frequency carrier wireless network through QUANTUM AC (Access Controller) in data transmission/reception,

QUANTUM COLLABO controls QUANTUM AC (Access Controller) and is connected to Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems, or QUANTUM COLLABO is QUANTUM It is connected to Alice QUANTUM SERVER through the licensed frequency communication operator wireless network through the licensed frequency modem among the multi communication modems by controlling the AC (Access Controller).

The system coupling relationship between the above components will be described.

QUANTUM COLLABO consists of QUANTUM AC (Access Controller), Eve quantum random number generator, and Encrypt TLS (Transport Layer Security protocol) MODULE.

Encrypt TLS MODULE consists of System Memory, PUF-PIN Memory, Security CPU, MCU (Main Control Unit), eve-NFC Chip, NFC Reader, Security OTP Memory, SPI Controller, and Network Switch.

QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE internal Security CPU.

Encrypt TLS MODULE Internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-NFC Chip, NFC Reader, Security OTP Memory, SPI Controller, and Network Switch.

System Memory is the system memory in which the MCU operating OS program is stored.

The MCU controls the Security CPU and the NFC Reader receives the Eve PIN data stored in the eve-NFC Chip through contactless near field communication, stores it in the PUF-PIN memory, and then converts the Eve PIN data as a random number seed. Asymmetric cryptographic algorithm Eve QUANTUM Generates a private key (PRIVATE KEY).

Input Eve PIN data to eve-NFC Chip through NFC Writer and save to Alice QUANTUM SERVER.

MCU receives from Eve quantum random number generator and performs beta OR (EX-OR) encryption operation on quantum random number seed stored in Security CPU and Eve QUANTUM private key stored in PUF-PIN memory to achieve OTP (One Time Password) asymmetry Asymmetric cryptographic algorithm Generates Eve QUANTUM public key (PUBLIC KEY), stores Eve QUANTUM public key in Security OTP (One Time Password) memory, and transmits Eve QUANTUM public key to QUANTUM AC (Access Controller) .

QUANTUM AC (Access Controller) transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network of the licensed frequency carrier.

Alice QUANTUM SERVER is configured by including an Alice Pseudo Random Number Generator (PRNG) and an Alice Quantum Random Number Generator (QRNG) therein.

Alice QUANTUM SERVER generates Alice PIN data through Alice pseudo-random number generator, stores it in QUANTUM COLLABO, generates Alice QUANTUM private key as a random number seed, and generates quantum random numbers from Alice quantum random number generator. The Alice QUANTUM public key is generated by performing an EX-OR encryption operation on the Alice QUANTUM private key with a quantum random number seed.

Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored inside the Eve QUANTUM public key received through the wireless network network of the licensed frequency carrier, and the licensed frequency carrier wireless network or wired self-network and unlicensed frequency closed radio It retransmits to QUANTUM COLLABO through one of its own networks.

QUANTUM COLLABO internal MCU decrypts Eve PIN data encrypted with Eve QUANTUM public key and Alice QUANTUM public key with Eve QUANTUM private key to decrypt and generate Alice QUANTUM public key and Eve PIN data.

When the decrypted Eve PIN data and the Eve PIN data extracted from the eve-NFC chip match, the MCU switches the Network Switch ON contact and controls the QUANTUM AC (Access Controller) through the SPI Controller to obtain a license among multi-communication modems. Connecting to Bob QUANTUM SERVER and the network network login (Log In) through the QUANTUM DUAL AP (Access Point) connected to the unlicensed frequency closed wireless self-network through the frequency modem;

QUANTUM AC (Access Controller) transmits the data generated by the terminal SERVER encrypted with the QUANTUM symmetric key through the QUANTUM DUAL AP to the Bob QUANTUM SERVER who is logged in to the network network,

The data generated by the terminal server encrypted with the QUANTUM symmetric key is transmitted to the QUANTUM DUAL AP through either a low frequency channel or a high frequency channel that can be communicated through an unlicensed frequency modem, and the QUANTUM DUAL AP transmits the transmission frequency to Low Frequency or High Frequency. Select one of them and send it by encrypting the data generated by the terminal server with the QUANTUM symmetric key.

If communication with QUANTUM DUAL AP is impossible, it is transmitted to Alice QUANTUM SERVER through licensed frequency communication operator wireless network through licensed frequency modem among multi communication modems.

When Bob QUANTUM SERVER receives data generated by the terminal SERVER encrypted with the QUANTUM symmetric key from the QUANTUM DUAL AP, it goes to Alice QUANTUM SERVER through one of the non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL wired networks. send.

Alice QUANTUM SERVER receives the data generated by the terminal server encrypted with the QUANTUM symmetric key from one or more of the wired self-network and the wireless network and decrypts it with the QUANTUM symmetric key to enhance security. Hybrid-QUANTUM improves communication speed and reduces communication charges It is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed self-network system featuring CHANNEL One-Way-Ring Network.

In one embodiment,

It consists of QUANTUM COLLABO, DUAL MODEM, QUANTUM DUAL AP, Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

QUANTUM COLLABO is composed of Eve quantum random number generator, it generates Eve quantum random number for the first time with Eve quantum random number generator and generates Eve QUANTUM private key with Eve quantum random number as a seed, QUANTUM COLLABO generates quantum random number with Eve quantum random number generator Generates Eve QUANTUM public key by encrypting it with Eve QUANTUM private key with random number seed by regenerating it.

DUAL MODEM transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the first network (communicator wireless network or telecommunication operator wired network).

Alice QUANTUM SERVER is configured including the Alice quantum random number generator, and first generates Alice quantum random numbers with the Alice quantum random number generator, and generates the Alice QUANTUM private key with the Alice quantum random number as a seed.

Alice QUANTUM SERVER generates an Alice QUANTUM public key by regenerating a quantum random number with an Alice quantum random number generator and performing an encryption operation with the Alice QUANTUM private key as a random number seed.

Alice QUANTUM SERVER transmits the Alice QUANTUM public key to QUANTUM COLLABO through the first network.

QUANTUM COLLABO encrypts Eve quantum random number with Alice QUANTUM public key and transmits it to Alice QUANTUM SERVER through the first network.

Alice QUANTUM SERVER encrypts Alice quantum random number with the Eve QUANTUM public key and transmits it to QUANTUM COLLABO through the first network.

QUANTUM COLLABO generates QUANTUM symmetric key by decrypting Alice quantum random number encrypted with Eve QUANTUM public key with Eve QUANTUM private key and performing encryption operation with Eve quantum random number stored in internal memory.

Alice QUANTUM SERVER decrypts the Eve quantum random number encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key, and then performs an encryption operation with the Alice quantum random number stored in the internal memory to generate the QUANTUM symmetric key.

QUANTUM COLLABO transmits encrypted data by encrypting internal data with QUANTUM symmetric key to DUAL MODEM.

DUAL MODEM transmits the encrypted data encrypted with the QUANTUM symmetric key to the Bob QUANTUM SERVER through the QUANTUM AP of the second network wireless self-network (local government wireless self-network, unlicensed frequency closed wireless self-network).

When Bob QUANTUM SERVER receives the encrypted data encrypted with the QUANTUM symmetric key from the QUANTUM DUAL AP, it transmits it to Alice QUANTUM SERVER through the second network wired self-network.

The second network is a network in which an unlicensed frequency closed wireless self-network and a wired self-network are combined before and after Bob QUANTUM SERVER.

As an example, the second network is composed of 'QUANTUM COLLABO-Unlicensed frequency closed wireless self-network-Bob QUANTUM SERVER-Cable self-network-Alice QUANTUM SERVER'.

Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed self-network system featuring a Two-Way-Ring Network that receives encrypted data encrypted with the QUANTUM symmetric key from the second network wired self-network and decrypts it with the QUANTUM symmetric key. .

In one embodiment,

It consists of QUANTUM COLLABO, DUAL MODEM, QUANTUM DUAL AP, Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

QUANTUM COLLABO consists of an Eve quantum random number generator, which generates a basic-Eve quantum random number for generating an asymmetric cryptographic algorithm PRIVATE KEY with the Eve quantum random number generator and stores it in the internal memory. Generates an Eve QUANTUM private key with a basic-Eve quantum random number as a seed.

QUANTUM COLLABO is an Eve quantum random number generator that generates a new new-Eve quantum random number to generate an asymmetric cryptographic algorithm public key (PUBLIC KEY) and uses the Eve QUANTUM private key and cryptographic operation (known EX-) as a seed. OR, EX-AND, operators, operation functions, etc.) to generate the Eve QUANTUM public key.

DUAL MODEM transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through either the telecom operator's wired or wireless network.

In the same way as above, Alice QUANTUM SERVER is configured including the Alice quantum random number generator, generates basic-Alice quantum random numbers with the Alice quantum random number generator, stores it in internal memory, and uses the basic-Alice quantum random number as a seed to generate the Alice QUANTUM private key. create

Alice QUANTUM SERVER generates a new new-Alice quantum random number from the Alice quantum random number generator and performs an encryption operation with the Alice QUANTUM private key as a seed to generate the Alice QUANTUM public key.

Alice QUANTUM SERVER transmits the Alice QUANTUM public key to QUANTUM COLLABO through either the telecommunication operator's wired or wireless network.

QUANTUM COLLABO encrypts basic-Eve quantum random number with Alice QUANTUM public key and transmits it to Alice QUANTUM SERVER through either wired or wireless networks of telecommunication service providers.

Alice QUANTUM SERVER encrypts the basic-Alice quantum random number with the Eve QUANTUM public key and transmits it to the QUANTUM COLLABO through the wireless network of the telecommunication service provider.

QUANTUM COLLABO generates a symmetric cryptographic algorithm QUANTUM symmetric key by decrypting the basic-Alice quantum random number encrypted with the Eve QUANTUM private key and the Eve QUANTUM public key, and then performing an encryption operation with the basic-Eve quantum random number stored in the internal memory.

Alice QUANTUM SERVER decrypts the basic-Eve quantum random number encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key, and performs an encryption operation with the basic-Alice quantum random number stored in the internal memory to obtain the symmetric cryptographic algorithm QUANTUM symmetric key as described above. create

That is, QUANTUM COLLABO and Alice QUANTUM SERVER generate the same QUANTUM symmetric key by using the same encryption operator for the same basic-Alice quantum random number and basic-Eve quantum random number, respectively.

Internal data (measured by sensors, etc.) generated in QUANTUM COLLABO is encrypted with QUANTUM symmetric key and encrypted data is transmitted to DUAL MODEM.

DUAL MODEM transmits the encrypted data encrypted with the QUANTUM symmetric key to the Bob QUANTUM SERVER through the wireless self-network QUANTUM AP.

When Bob QUANTUM SERVER receives the encrypted data encrypted with the QUANTUM symmetric key from the QUANTUM DUAL AP, it transmits it to the Alice QUANTUM SERVER through the wired network.

Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed self-network system featuring a Two-Way-Ring Network that receives encrypted data encrypted with the QUANTUM symmetric key from the wired network and decrypts it with the QUANTUM symmetric key.

In one embodiment,

The eve-NFC Chip is one of the physical PUFs (Physically Unclonable Functions) that are replaced during regular inspection. The Eve PIN data is generated through the NFC Writer and stored in the Alice QUANTUM SERVER.

Alice QUANTUM SERVER (including the step of generating Eve PIN data) generates Alice PIN data through the Alice pseudo-random number generator and stores the Alice PIN data in QUANTUM COLLABO.

The QUANTUM JUMP ENGINE inside QUANTUM COLLABO (including the step of generating Alice PIN data) receives the Eve PIN data stored in the eve-NFC Chip through non-contact Near Field Communication and the NFC Reader receives it and stores it in the PUF-PIN Memory. After that, the Eve QUANTUM private key generation step generates the Eve QUANTUM private key using the Eve PIN data as a random number seed.

QUANTUM COLLABO internal Eve quantum random number generator (including the step of generating the Eve QUANTUM private key) generates a quantum random number and performs a beta-OR (EX-OR) encryption operation with the Eve QUANTUM private key as the quantum random number seed to OTP ( One Time Password) Eve QUANTUM public key generation step to generate Eve QUANTUM public key.

QUANTUM AC (Access Controller) inside QUANTUM COLLABO (including the step of generating the Eve QUANTUM public key) sends the Eve QUANTUM public key to the Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the SK Telecom carrier LoRA wireless network. Eve QUANTUM public key transmission step.

Alice QUANTUM SERVER (including the step of transmitting the Eve QUANTUM public key) generates Alice PIN data through the Alice pseudo-random number generator and generates the Alice QUANTUM private key with the Alice PIN data as a random number seed. Alice QUANTUM private key generation step .

Alice QUANTUM SERVER (including the step of generating the Alice QUANTUM private key) is a quantum random number seed that generates a quantum random number through the Alice quantum random number generator. Alice QUANTUM public key generation step to generate QUANTUM public key.

The Alice QUANTUM SERVER (including the step of generating the Alice QUANTUM public key) is the QUANTUM CA (Certification Authority) that encrypted the Eve PIN data and the Alice QUANTUM public key stored inside the Eve QUANTUM public key received through the LoRA wireless network network of SK Telecom telecom operator. certificate) to the Bob QUANTUM SERVER through any one of the non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, or hybrid-QUANTUM CHANNEL via PUF-QRNG TWIN USB wired networks.

Bob QUANTUM SERVER (including the wire network transmission step) QUANTUM CA, which encrypted the Eve PIN data stored inside the Eve QUANTUM public key and the Alice QUANTUM public key, through the QUANTUM DUAL AP (Access Point), QUANTUM CA at 2.4GHz Low Frequency QUANTUM AC transmission stage that transmits to QUANTUM AC (QUANTUM ACcess Controller) inside COLLABO.

QUANTUM COLLABO (including QUANTUM AC transmission step) decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and QUANTUM CA that encrypted the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt the Alice QUANTUM public key and Eve PIN data step.

QUANTUM COLLABO (including the decryption step) extracts the Eve PIN data extracted from the eve-NFC Chip and matches the Eve PIN data generated in the decryption step with the Eve PIN data extracted from the eve-NFC Chip, Alice Video data transmission preparation step of encrypting the video data captured by the surveillance camera with the QUANTUM public key and transmitting it to the QUANTUM AC (Access Controller).

It performs QUANTUM AC (Access Controller) and High Frequency PING tests (including video data transmission preparation stage), selects a frequency with a fast response speed, and transmits the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key to the QUANTUM DUAL AP. Video data transmission step.

When Bob QUANTUM SERVER (including the video data transmission step) receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key from the QUANTUM DUAL AP, one of the non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL Video data receiving step to be transmitted to Alice QUANTUM SERVER through a wired network.

Alice QUANTUM SERVER (including the step of receiving the video data) receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key and decrypts the video data with the Alice QUANTUM private key. A video data decryption step characterized by a One-Way-Ring Network.

When the quantum smartphone connects to the external network main board of the Alice QUANTUM SERVER (including the image data decryption step), the Alice QUANTUM SERVER regenerates the Alice PIN data through the Alice pseudo-random number generator, and seed the Alice PIN data as a random number. ) to regenerate the Alice QUANTUM private key with the Alice QUANTUM private key regeneration step.

(Including the step of regenerating the Alice QUANTUM private key) With a new quantum random number seed that generated a new quantum random number from the Alice quantum random number generator, EX-OR encryption operation of the Alice QUANTUM private key is performed to create a new Alice New Alice QUANTUM public key generation step to generate QUANTUM public key.

When the new Alice QUANTUM public key is transmitted to the quantum smartphone (including the step of generating the new Alice QUANTUM public key), the quantum smartphone tags the NFC Tag with the new Alice QUANTUM public key to the quantum smartphone NFC chip and generates OTP (One Time Password) OTP transmission step of retransmitting the pseudo-random number by encrypting it.

(Including the OTP transmission step) Alice QUANTUM SERVER decrypts the OTP (One Time Password) pseudo-random number encrypted with the new Alice QUANTUM public key with the QUANTUM private key. If it matches the stored OTP (One Time Password) pseudo-random number, the surveillance camera shoots Video export preparation stage in which the video data is transmitted to the external network main board through the internal network main board of the network separation server.

The quantum smartphone (including the image export preparation step) receives the image data by accessing the external network main board and logging in the OTP (One Time Password) pseudo-random number with the quantum smartphone MAC Address as the ID as the One-Time Password. One-Way-Ring/Two-Way-Ring Network QUANTUM KEY distribution method applied to hybrid-QUANTUM CHANNEL, characterized in that

In one embodiment,

The eve-NFC Chip is one of the physical PUFs (Physically Unclonable Functions) that are replaced during regular inspection. The Eve PIN data is generated through the NFC Writer and stored in the Alice QUANTUM SERVER.

Alice QUANTUM SERVER generates Alice PIN data through the Alice pseudo-random number generator and stores the Alice PIN data in QUANTUM COLLABO.

The QUANTUM JUMP ENGINE inside QUANTUM COLLABO receives the Eve PIN data stored in the eve-NFC Chip through contactless near field communication and the NFC Reader stores it in the PUF-PIN memory and then converts the Eve PIN data as a random number seed. Eve QUANTUM private key generation step to generate Eve QUANTUM private key.

QUANTUM COLLABO internal Eve quantum random number generator generates quantum random numbers and performs beta-OR (EX-OR) encryption operation of Eve QUANTUM private key with the quantum random number seed to generate OTP (One Time Password) Eve QUANTUM public key. Eve QUANTUM public key generation step.

QUANTUM AC (Access Controller) inside QUANTUM COLLABO transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the licensed frequency SK Telecom carrier LoRA wireless network.

Alice QUANTUM SERVER generates Alice PIN data through the Alice pseudo-random number generator, and generates the Alice QUANTUM private key using the Alice PIN data as a random number seed. Alice QUANTUM private key generation step.

Alice QUANTUM SERVER generates the Alice QUANTUM public key that generates the Alice QUANTUM public key by performing beta-OR (EX-OR) encryption on the Alice QUANTUM private key with the quantum random number seed that generates the quantum random number through the Alice quantum random number generator. step.

Alice QUANTUM SERVER transfers the Eve PIN data stored inside the Eve QUANTUM public key received through the SK Telecom operator LoRA wireless network network and the QUANTUM CA (Certification Authority certificate) that encrypted the Alice QUANTUM public key to non-QUANTUM CHANNEL or BB84 QUANTUM CHANNEL. Or a wired network transmission step of transmitting to Bob QUANTUM SERVER through any one wired network of hybrid-QUANTUM CHANNEL through PUF-QRNG TWIN USB.

Bob QUANTUM SERVER, through QUANTUM DUAL AP (Access Point), encrypts Eve PIN data stored inside Eve QUANTUM public key and Alice QUANTUM public key to QUANTUM CA at 2.4GHz Low Frequency to QUANTUM AC (QUANTUM ACcess Controller) inside QUANTUM COLLABO Transmitting QUANTUM AC transmission stage.

QUANTUM COLLABO decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and QUANTUM CA that encrypted the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt the Alice QUANTUM public key and Eve PIN data.

QUANTUM COLLABO extracts the Eve PIN data extracted from the eve-NFC Chip and matches the Eve PIN data generated in the decryption step with the Eve PIN data extracted from the eve-NFC Chip, the video captured by the surveillance camera with the Alice QUANTUM public key Video data transmission preparation step by encrypting data and transmitting it to QUANTUM AC (Access Controller).

The video data transmission step of performing QUANTUM AC (Access Controller) and High Frequency PING tests, selecting a frequency with a fast response speed, and transmitting the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key to the QUANTUM DUAL AP.

When Bob QUANTUM SERVER receives the surveillance camera video data encrypted with the Alice QUANTUM public key from the QUANTUM DUAL AP, it goes to Alice QUANTUM SERVER through one of the wired networks of non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL. The step of receiving video data to be transmitted.

Alice QUANTUM SERVER receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key and decrypts the video data with the Alice QUANTUM private key. An image data decryption step characterized by a One-Way-Ring Network.

When the quantum smartphone accesses the external network mainboard of the Alice QUANTUM SERVER, the Alice QUANTUM SERVER regenerates the Alice PIN data through the Alice pseudo-random number generator, and regenerates the Alice QUANTUM private key with the Alice PIN data as a random number seed. Step to regenerate Alice QUANTUM private key.

Create a new Alice QUANTUM public key that generates a new Alice QUANTUM public key by performing an EX-OR encryption operation on the Alice QUANTUM private key with a new quantum random number seed that generates a new quantum random number from the Alice quantum random number generator step.

When the new Alice QUANTUM public key is transmitted to the quantum smartphone, the quantum smartphone encrypts and retransmits the OTP (One Time Password) pseudo-random number generated by tagging the NFC Tag to the quantum smartphone NFC chip with the new Alice QUANTUM public key. OTP transmission step.

Alice QUANTUM SERVER decrypts the OTP (One Time Password) pseudo-random number encrypted with the new Alice QUANTUM public key with the QUANTUM private key, and if it matches the stored OTP (One Time Password) pseudo-random number, the video data captured by the surveillance camera is transferred to the internal network of the network separation server. The video export preparation stage, which is transmitted to the external network main board through the main board.

HYBRID characterized in that the quantum smartphone connects to the external network main board and receives the image data by logging in the OTP (One Time Password) pseudo-random number as the quantum smartphone MAC Address as the ID as the One-Time Password. - ONE-WAY-RING/TWO-WAY-RING NETWORK QUANTUM KEY distribution method applied to QUANTUM CHANNEL.

In one embodiment,

Alice/Bob QUANTUM SERVER generates a random quantum random number by Alice/Bob through the Alice/Bob Quantum Random Number Generator (QRNG) inside and uses the Half Mirror Effect Symmetric Cryptographic Algorithm through encryption operation. Characterized in generating a QUANTUM symmetric key,

Quantum random number generator (QRNG) generates a random number seed early-QRN (Quantum Random Number) for generating QUANTUM symmetric key of symmetric key algorithm and QUANTUM private key (PRIVATE KEY) of asymmetric cryptographic algorithm ), a random number seed for generating basic-QRN (Quantum Random Number) and a QUANTUM public key (PUBLIC KEY) pair, a random number seed for generating new-QRN (Quantum Random Number) new-QRN creation stage.

Alice QUANTUM SERVER is connected to QUANTUM COLLABO through the network of a telecommunication service provider, and Alice QUANTUM SERVER is a non-licensed frequency closed wireless self-network through Bob QUANTUM SERVER connected through one of non-QUANTUM CHANNEL and QUANTUM CHANNEL wired self-network. Network network connection stage to connect QUANTUM COLLABO and network network through

QUANTUM COLLABO is composed of QUANTUM AC and Eve quantum random number generator, QUANTUM COLLABO controls QUANTUM AC and connects to Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems or QUANTUM COLLABO controls QUANTUM AC Network network selection step of connecting with Alice QUANTUM SERVER through the communication operator network network through the communication operator modem among the multi-communication modems.

QUANTUM COLLABO generates basic-QRN random number from Eve quantum random number generator and generates an asymmetric key cryptographic algorithm Eve QUANTUM private key with random number seed Eve QUANTUM private key generation step.

QUANTUM COLLABO generates new-QRN random number from Eve quantum random number generator and encrypts Eve QUANTUM private key and new-QRN random number seed to generate asymmetric key encryption algorithm OTP (One Time Password) Eve QUANTUM public key to QUANTUM AC A transmission step in which QUANTUM AC transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the telecommunication carrier network as a telecommunication carrier modem among multi-communication modems.

Alice QUANTUM SERVER is configured with an Alice quantum random number generator inside. Alice QUANTUM SERVER receives basic-QRN from Alice quantum random number generator and generates an asymmetric key cryptographic algorithm Alice QUANTUM private key as a random number seed Alice QUANTUM private key creation stage.

Alice QUANTUM SERVER receives new-QRN random number from Alice quantum random number generator and encrypts Alice QUANTUM private key and new-QRN random number seed to generate asymmetric key encryption algorithm OTP (One Time Password) Alice QUANTUM public key Alice QUANTUM public key generation.

A key exchange step in which Alice QUANTUM SERVER and QUANTUM COLLABO exchange the Alice QUANTUM public key and the Eve QUANTUM public key by transmitting the Alice QUANTUM public key through the network of the telecommunication service provider.

QUANTUM COLLABO receives the early-Eve QRN from the Eve quantum random number generator, encrypts the early-Eve QRN with the Alice QUANTUM public key, and transmits it to the Alice QUANTUM SERVER through the network of the operator, and the Alice QUANTUM SERVER from the Alice quantum random number generator Transmission step of receiving early-Alice QRN, encrypting early-Alice QRN with the Eve QUANTUM public key, and transmitting it to QUANTUM COLLABO through the carrier network.

QUANTUM COLLABO decrypts early-Alice QRN encrypted with Eve QUANTUM public key with Eve QUANTUM private key, and generates QUANTUM symmetric key of symmetric key algorithm by cryptographic operation with early-Eve QRN. Alice QUANTUM SERVER discloses Alice QUANTUM with Alice QUANTUM private key A symmetric key generation step of generating the QUANTUM symmetric key of the symmetric key algorithm by decrypting the early-Eve QRN encrypted with the key and performing the same encryption operation as the early-Alice QRN.

Alice QUANTUM SERVER encrypts QUANTUM COLLABO's log information with QUATUM symmetric key and transmits it to Bob QUANTUM SERVER through wired self-network, and Bob QUANTUM SERVER encrypts QUANTUM COLLABO's log information with QUATUM symmetric key through unlicensed frequency closed wireless self-network. to QUANTUM COLLABO, and QUANTUM COLLABO decrypts the log information of QUANTUM COLLABO encrypted with the QUATUM symmetric key and decrypts the log information with the QUANTUM symmetric key. If it is the approved log information, it controls QUANTUM AC to close the unlicensed frequency through the unlicensed frequency modem among the multi-communication modems. Login step to connect Bob QUANTUM SERVER and network network login (Log In) through QUANTUM DUAL AP (Access Point) connected by type wireless self-network.

QUANTUM AC transmits video data from surveillance cameras encrypted with QUANTUM symmetric key through QUANTUM DUAL AP to Bob QUANTUM SERVER through a closed wireless self-network with unlicensed frequency that is logged in to the network network, and Bob QUANTUM SERVER shoots surveillance cameras Video data is transmitted to Alice QUANTUM SERVER through any one of non-QUANTUM CHANNEL, QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL wired self-network, and Alice QUANTUM SERVER encrypted surveillance camera video data from the wired self-network with QUANTUM symmetric key. TWO-WAY-RING NETWORK QUANTUM KEY distribution method applied to HYBRID-QUANTUM CHANNEL featuring a hybrid-QUANTUM CHANNEL Two-Way-Ring Network, characterized by receiving and decrypting with a QUANTUM symmetric key.

In one embodiment,

QUANTUM SERVER features QKD (Quantum Key Distribution) that exchanges the random quantum random number generated through the internal quantum random number generator as a seed to generate QUANTUM symmetric key, QUANTUM private key, and QUANTUM public key.

The quantum random number generator generates an early-QRN random number to generate a QUANTUM symmetric key, and a basic-QRN random number to generate a QUANTUM private key and a new-QRN random number to generate a QUANTUM public key.

QUANTUM COLLABO is composed of QUANTUM AC and Eve quantum random number generator, QUANTUM COLLABO selectively selects either the first network or the second network through QUANTUM AC inside, QUANTUM COLLABO uses QUANTUM AC Connected to the first network between QUANTUM COLLABO and Alice QUANTUM SERVER connected to QUANTUM COLLABO through the first network or QUANTUM COLLABO controls QUANTUM AC and Alice QUANTUM connected to Alice QUANTUM SERVER through the second network Network connection step of connecting to the second network between SERVER and QUANTUM COLLABO.

QUANTUM COLLABO generates basic-QRN from Eve quantum random number generator and generates Eve QUANTUM private key with random number seed Eve QUANTUM private key generation step.

QUANTUM COLLABO generates new-QRN from Eve quantum random number generator, encrypts Eve QUANTUM private key and new-QRN random number seed, generates Eve QUANTUM public key, and transmits QUANTUM AC to QUANTUM AC.

QUANTUM AC transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER connected to the first network in the Alice QUANTUM SERVER transmission step.

Alice QUANTUM SERVER is configured with Alice quantum random number generator inside, Alice QUANTUM SERVER generates basic-QRN from Alice quantum random number generator to generate Alice QUANTUM private key as a random number seed, and Alice QUANTUM SERVER generates Alice quantum random number Alice QUANTUM public key generation step of generating a new-QRN from the generator and encrypting the Alice QUANTUM private key and the new-QRN random number seed to generate the Alice QUANTUM public key.

Alice QUANTUM SERVER sends Alice QUANTUM public key to QUANTUM COLLABO through the first network, QUANTUM COLLABO receives early-Eve QRN from Eve quantum random number generator, encrypts early-Eve QRN with Alice QUANTUM public key, and encrypts the first It transmits to Alice QUANTUM SERVER through the network, and Alice QUANTUM SERVER receives the early-Alice QRN from the Alice quantum random number generator, encrypts the early-Alice QRN with the Eve QUANTUM public key, and transmits it to the QUANTUM COLLABO through the first network. QUANTUM COLLABO transfer stage.

QUANTUM COLLABO decrypts the early-Alice QRN encrypted with the Eve QUANTUM public key with the Eve QUANTUM private key, and generates a QUANTUM symmetric key by performing an encryption operation with the early-Eve QRN, and the Alice QUANTUM SERVER early encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key. - QUANTUM symmetric key generation step to generate QUANTUM symmetric key by encrypting with early-Alice QRN after decrypting Eve QRN.

QUANTUM COLLABO transmits internal data encrypted with QUATUM symmetric key to Alice QUANTUM SERVER, and Alice QUANTUM SERVER receives internal data encrypted with QUATUM symmetric key and decrypts with QUANTUM symmetric key hybrid-QUANTUM CHANNEL Two-Way-Ring TWO-WAY-RING NETWORK QUANTUM KEY distribution method applied to HYBRID-QUANTUM CHANNEL featuring Network.

In one embodiment,

Alice QUANTUM SERVER is connected to the licensed frequency carrier wireless network, and Alice QUANTUM SERVER is connected to Bob QUANTUM SERVER through a non-QUANTUM CHANNEL wired network network, and Bob QUANTUM SERVER is connected to QUANTUM COLLABO through QUANTUM DUAL AP. Unlicensed frequency closed wireless self-network is connected,

QUANTUM COLLABO selectively selects unlicensed frequency closed radio self-network or licensed frequency carrier wireless network network through QUANTUM AC in data transmission/reception, QUANTUM COLLABO controls QUANTUM AC to control unlicensed frequency among multi-communication modems Connected to Bob QUANTUM SERVER through QUANTUM DUAL AP connected to unlicensed frequency closed wireless self-network through modem or QUANTUM COLLABO controls QUANTUM AC and Alice through licensed frequency modem among multi-communication modems through licensed frequency carrier wireless network Network network selection step to selectively connect QUANTUM SERVER and connection.

Eve quantum random number generator inside QUANTUM COLLABO generates quantum random number and transmits it to Encrypt TLS MODULE. When Eve PIN data is received from NFC card through contactless near field communication, the Encrypt TLS MODULE stores the Eve PIN data as a random number. Eve QUANTUM private key generation step to generate Eve QUANTUM private key, asymmetric key encryption algorithm with seed

After inputting the Eve PIN data to the NFC card through the NFC Writer, it is stored in Alice QUANTUM SERVER, and the Encrypt TLS MODULE receives the quantum random number from the Eve quantum random number generator and encrypts the Eve QUANTUM private key with the quantum random number seed. OTP (One Time Password) asymmetric key encryption algorithm generates and stores the Eve QUANTUM public key and transmits the Eve QUANTUM public key to QUANTUM AC;

QUANTUM AC transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency communication operator wireless network network through the licensed frequency modem among multi-communication modems. Eve QUANTUM public key generation step.

Alice QUANTUM SERVER is configured with Alice pseudo random number generator (PRNG) and Alice quantum random number generator (QRNG) inside. Alice QUANTUM SERVER generates Alice PIN data through Alice pseudo random number generator and stores it in QUANTUM COLLABO and Alice PIN Alice QUANTUM private key generation step of generating the Alice QUANTUM private key using data as a random number seed.

Alice QUANTUM public key generation step of generating the Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed that generated the quantum random number from the Alice quantum random number generator.

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the wireless network network of the licensed frequency carrier, and the licensed frequency carrier wireless network or wired network and unlicensed frequency closed radio Retransmission step of retransmitting to QUANTUM COLLABO through own network.

QUANTUM COLLABO decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data.

If the Eve PIN data decrypted in the decryption step matches the Eve PIN data stored inside, QUANTUM COLLABO controls QUANTUM AC and QUANTUM DUAL AP connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems Login step to connect Bob QUANTUM SERVER with network login (Log In).

When QUANTUM AC transmits the terminal device generated data encrypted with the Alice QUANTUM public key to the Bob QUANTUM SERVER who is logged in to the network network through the QUANTUM DUAL AP, the terminal device generated data encrypted with the Alice QUANTUM public key is transmitted to the unlicensed frequency modem. Unlicensed frequency data transmission step to be transmitted to QUANTUM DUAL AP through

When Bob QUANTUM SERVER receives the terminal device-generated image data encrypted with the Alice QUANTUM public key from the QUANTUM DUAL AP, it transmits it to the Alice QUANTUM SERVER through the non-QUANTUM CHANNEL wired network.

Alice QUANTUM SERVER receives terminal device-generated data encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key to enhance security, improve communication speed and reduce communication charges. HYBRID- featuring hybrid-QUANTUM CHANNEL One-Way-Ring Network TWO-WAY-RING NETWORK QUANTUM KEY distribution method applied to QUANTUM CHANNEL.

In one embodiment,

QUANTUM COLLABO is composed of Eve quantum random number generator, and Eve QUANTUM private key generation step to generate Eve QUANTUM private key with Eve quantum random number as a seed by first generating Eve quantum random number with Eve quantum random number generator.

QUANTUM COLLABO generates Eve QUANTUM public key that generates Eve QUANTUM public key by regenerating quantum random numbers with Eve quantum random number generator and encrypting Eve QUANTUM private key with random number seed.

DUAL MODEM transmits Eve QUANTUM public key to Alice QUANTUM SERVER through the first network, Eve QUANTUM public key transmission step.

Alice QUANTUM SERVER is configured to include an Alice quantum random number generator, and the Alice QUANTUM private key is generated by first generating an Alice quantum random number with the Alice quantum random number generator and using the Alice quantum random number as a seed to generate the Alice QUANTUM private key.

Alice QUANTUM SERVER generates an Alice QUANTUM public key that generates an Alice QUANTUM public key by regenerating a quantum random number with an Alice quantum random number generator and encrypting it with the Alice QUANTUM private key as a random number seed

Alice QUANTUM SERVER transmits the Alice QUANTUM public key to the QUANTUM COLLABO through the first network, an Alice QUANTUM public key transmission step.

QUANTUM COLLABO encrypts Eve quantum random number with Alice QUANTUM public key and transmits it to Alice QUANTUM SERVER through the first network, and Alice QUANTUM SERVER encrypts Alice quantum random number with Eve QUANTUM public key and transmits it to QUANTUM COLLABO through the first network Quantum random number exchange step.

QUANTUM COLLABO decrypts Alice quantum random number encrypted with Eve QUANTUM public key with Eve QUANTUM private key and performs encryption operation with Eve quantum random number stored in internal memory to generate QUANTUM symmetric key. A QUANTUM symmetric key generation step of generating the same QUANTUM symmetric key by decrypting the encrypted Eve quantum random number and performing an encryption operation with the Alice quantum random number stored in the internal memory.

When QUANTUM COLLABO sends encrypted data encrypted with QUANTUM symmetric key to DUAL MODEM, DUAL MODEM transmits encrypted data encrypted with QUANTUM symmetric key to Alice QUANTUM SERVER through the second network.

Alice QUANTUM SERVER receives the encrypted data encrypted with the QUANTUM symmetric key from the second network and decrypts it with the QUANTUM symmetric key. TWO-WAY- applied to the HYBRID-QUANTUM CHANNEL featuring a Two-Way-Ring Network including a decryption step RING NETWORK QUANTUM KEY distribution method.

10. Filter unit
11. Filter drive motor
12. Zoom Lens
13. Zoom Motor
14. Varifocal Lens
15. Focus Motor
16. Focus Lens
17. Motor drive drive
18. M/M
19. CPU
20. RS-485
21. Manual control panel
22. Remote control unit
23. TRNG
24. System M/M
25. PUF-PIN M/M
26. Security CPU
27. MCU
28. PUF Chip
29. e-FUSE
30. Security OTP M/M
31. Boot-ROM
32. SPI Controller
33. Image sensor unit
34. 5G QUANTUM JUMP ENGINE
35. Video 6G SECURITY ENGINE
36. Quantum Entanglement
37. Decoy Pulse
38. Image analysis module
39. Object Recognition Module
40. Number recognition module
41. DEBUGGER
42. QUANTUM BLOCK CHAIN
43. 1:N BLOCK CHAIN
44. BNC connector
45. RJ-45 connector
46. Sensor unit
47. AMI
48. switchboard
49. QUANTUM 5G Access Point (AP)
50. Broadcasting device
51. Emergency Bell
52. Street/security light
53. Dimmer
54. Terminal SINGLE USB
55. Bob 6G QUANTUM SERVER
56. Bob QUANTUM SERVER
57. Bob PUF-QRNG TWIN USB
58. non-QUANTUM CHANNEL
59. QUANTUM CHANNEL
60. hybrid-QUANTUM CHANNEL
61. Master QUANTUM SERVER
62. Alice 6G QUANTUM SERVER
63. Alice QUANTUM SERVER
64. QUANTUM 6G SECURITY ENGINE
65. Alice PUF-QRNG TWIN USB
66. LPWAN communication modem

Claims (53)

The terminal unit includes a sensor unit 46 , an AMI 47 , a switchboard 48 , a QUANTUM 5G AP 49 , a broadcasting device 50 , an emergency bell 51 , an LED street/security light 52 , a dimmer 53 . , is composed of a terminal SINGLE USB (54),
an AMI 47 that receives commercial power, measures power usage, and transmits power usage through an LPWAN (Low Power Wide Area Network) communication modem;
a switchboard (48) for supplying power to the LED street/security lights (52) via the AMI (47);
a dimmer 53 , QUANTUM 5G AP 49 , a broadcasting device 50 , and an emergency bell 51 attached to the LED street/security light 52 to receive power;
A broadcasting device 50 that receives broadcast data from any one of Master QUANTUM SERVER 61 or Alice 6G QUANTUM SERVER 62 or Alice QUANTUM SERVER 63, and the terminal SINGLE USB 54 receives and broadcasts;
When the emergency bell 51 operates, the emergency bell operation event is transmitted through the terminal SINGLE USB 54 to either the Master QUANTUM SERVER 61 or Alice 6G QUANTUM SERVER 62 or Alice QUANTUM SERVER 63. );
The sensor unit 46 transmits the data measured through the sensor to either the Master QUANTUM SERVER 61 or the Alice 6G QUANTUM SERVER 62 or the Alice QUANTUM SERVER 63 via the terminal SINGLE USB 54. The sensor unit ( 46);
a dimmer 53 that adjusts the brightness of the LED street/security light 52 according to whether a human object is detected or not through the UHD surveillance camera image analysis unit;
QUANTUM 5G AP (49) receives the captured image data of the UHD surveillance camera and transmits it to either Master QUANTUM SERVER (61) or Alice 6G QUANTUM SERVER (62) or Alice QUANTUM SERVER (63) through a 5G wireless network base station. 5G AP 49;
Terminals SINGLE USB 54 and Master QUANTUM SERVER 61 and Alice 6G QUANTUM SERVER 62 and Alice QUANTUM SERVER 63 store the same symmetric key of a symmetric cryptographic algorithm, so broadcast data, emergency Encrypt/decrypt bell operation event data, data measured through a sensor, measurement data, sensor status information data, audio/video data, point/off data, surveillance camera control data, broadcasting device control data, and dimmer control data;
UHD Surveillance Camera is a UHD level crime prevention CCTV surveillance camera and consists of an optical unit, a driving unit, a main control unit, an image security processing unit, an image analysis unit, a network security processing unit, and an input/output unit.
The optical unit includes a filter unit 10 , a filter driving motor 11 , a zoom lens 12 , a zoom motor 13 , a variable focus lens 14 , a focus motor 15 , and a focus lens 16 ;
The driving unit is composed of a motor driving drive 17 , a driving unit memory 18 , a driving unit control unit 19 , an RS-485 20 , a manual operation unit 21 , and a remote control unit 22 ;
The main control unit is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(Machine Control Unit)(27), PUF Chip(28), Security OTP Memory(30), It is composed of a Boot-ROM 31 and a Serial Peripheral Interface (SPI) Controller 32;
The image security processing unit is composed of an image sensor unit (33), 5G QUANTUM JUMP ENGINE (34), Quantum Entanglement (36), and Decoy Pulse (37);
The image analysis unit is composed of an image analysis module 38 , an object recognition module 39 , and a number recognition module 40 ;
The network security processing unit is composed of DEBUGGER (41), QUANTUM BLOCK CHAIN (42), and 1:N BLOCK CHAIN (43);

The quantum communication unit is Bob 6G QUANTUM SERVER(55), Bob QUANTUM SERVER(56), Bob PUF-QRNG TWIN USB(57), non-QUANTUM CHANNEL(58), QUANTUM CHANNEL(59), hybrid-QUANTUM CHANNEL(60), It consists of Master QUANTUM SERVER(61), Alice 6G QUANTUM SERVER(62), Alice QUANTUM SERVER(63), QUANTUM 6G SECURITY ENGINE(64), Alice PUF-QRNG TWIN USB(65), LPWAN communication modem(66),

The filter unit 10 is composed of any one or more of an infrared filter, an ultraviolet filter, and an anti-reflective coating filter;
selecting one of the infrared filter, the ultraviolet filter, and the anti-reflection coating filter by driving the filter driving motor 11;
driving the zoom motor 13 for driving the zoom lens 12 to vary the zoom lens magnification;
a variable focus lens 14 and a focus motor 15 for driving the focus lens 16 to vary the focus focus;
The driving unit control unit 19 programmed by the input data input from RS-485 20 or the manual operation unit 21 or the remote control unit 22 transmits the input data to the driving unit memory 18 and the motor driving drive 17 . control to drive the filter driving motor 11 , the zoom motor 13 , and the focus motor 15 to collect optical signals and transmit them to the image pickup sensor unit 33 ;
The image sensor inside the image sensor unit 33 transmits the image data converted from the optical signal into an electric signal to the 5G QUANTUM JUMP ENGINE 34 and the image analysis module 38;
The image analysis module 38 receives the image data and extracts the object through the object recognition module 39. In the case of a vehicle, the vehicle license plate is converted into text through the number recognition module 40 among object data and object data. transmitted to the security processing unit QUANTUM BLOCK CHAIN (42);
QUANTUM BLOCK CHAIN 42 compares wanted vehicle license plate number data received from 1:N BLOCK CHAIN 43 connected to BLOCK CHAIN and generates a wanted vehicle event if it is a wanted vehicle;
The network security processing unit DEBUGGER 41 verifies a boot error when the main control unit Boot-ROM 31 first boots;

Sensing data collected from the sensor unit 46, measurement data measured from the AMI 47, switchboard status information data collected from one or more switchboards 48, audio/video data collected from one or more broadcasting devices 50, The LPWAN communication modem 66 collects the point/off data collected from the LED street/security light 52 and transmits it to the terminal SINGLE USB 54;
The terminal SINGLE USB 54 transmits measurement data, sensor status information data, audio/video data, and on/off data to the Bob 6G QUANTUM SERVER 55; and
Bob 6G QUANTUM SERVER (55) is from any one of Alice 6G QUANTUM SERVER (62), Alice QUANTUM SERVER (63), and Alice PUF-QRNG TWIN USB (65) UHD surveillance camera control data or broadcasting device control data or dimmer control data to receive and transmit to the terminal internal terminal SINGLE USB 54;
terminal SINGLE USB 54 receives UHD surveillance camera control data from Bob 6G QUANTUM SERVER 55;
The LPWAN communication modem 66 performs data communication with the LPWAN terminal;
Main controller MCU(27) is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(27), PUF Chip(28), Security OTP Memory(30), Controls the Boot-ROM 31 and the SPI Controller 32;
The System Memory 24 is a System Memory in which the main control unit MCU 27 operating OS program is stored;
The MCU 27 controls the Security CPU 26 to extract PIN (Personal Identification Number) data from the hardware pin of the PUF Chip 28 and stores it in the PUF-PIN Memory 25 and Alice 6G QUANTUM SERVER 62 and;
the MCU 27 controls the TRNG 23 to generate and receive a natural random number and transmit it to the Security CPU 26;
Security CPU 26 formats PIN (Personal Identification Number) data stored in PUF-PIN Memory 25 with a fixed-length format function as a random number seed to form an asymmetric cryptographic algorithm PRIVATE KEY) and then perform an asymmetric cryptographic algorithm by encrypting an asymmetric private key (PRIVATE KEY) and a beta-OR (EX-OR) with the natural random number seed generated through the TRNG (23). Generates a public key (PUBLIC KEY) and stores it in the Security OTP Memory (30) and Alice 6G QUANTUM SERVER (62);

Bob 6G QUANTUM SERVER (55) receives PIN (Personal Identification Number) data encrypted with the public key from Alice 6G QUANTUM SERVER (62) through the non-QUANTUM CHANNEL (58) and transmits it to the MCU 27 through the input/output unit. ;
When the MCU 27 decrypts the private key and matches the PIN (Personal Identification Number) data stored in the PUF-PIN Memory 25, it boots the Boot-ROM 31 and controls the SPI Controller 32 to control the UHD surveillance camera. and Alice 6G QUANTUM SERVER 62 and login (LOG In) network to receive video data from 5G QUANTUM JUMP ENGINE 34 and transmit it to Alice 6G QUANTUM SERVER 62;

Alice QUANTUM SERVER (63) and Bob QUANTUM SERVER (56) are connected to QUANTUM CHANNEL (59),
QUANTUM 6G SECURITY ENGINE 64 generates QUANTUM KEY from either BB84 or COW (Coherent One Way) and transmits it to Alice QUANTUM SERVER 63;
Alice QUANTUM SERVER 63 sends QUANTUM KEY to Bob QUANTUM SERVER 56 via QUANTUM CHANNEL 59;
Bob QUANTUM SERVER (56) transmits to Quantum Entanglement (36) through the input/output unit via Bob 6G QUANTUM SERVER (55);
Quantum Entanglement (36) is transmitted to the image 6G SECURITY ENGINE (35) in case of a QUANTUM KEY generated by the Coherent One Way (COW) generation method;
Image 6G SECURITY ENGINE (35) is verified with Decoy Pulse (37) and in the case of quantum entanglement, it receives image data from 5G QUANTUM JUMP ENGINE (34), encrypts image data with QUANTUM KEY, and then uses the input/output unit to encrypt Bob 6G QUANTUM SERVER. via (55) to Bob QUANTUM SERVER (56);
Bob QUANTUM SERVER (56) transmits the image data encrypted with the QUANTUM KEY to Alice QUANTUM SERVER (63) through QUANTUM CHANNEL (59);
Alice QUANTUM SERVER 63 decrypts the video data encrypted with the QUANTUM KEY with the QUANTUM KEY received from the 6G SECURITY ENGINE 64;

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are hybrid- consisting of a Non-QUANTUM Communication Channel (58) and a quantum communication channel (QUANTUM Communication Channel (59)). connected to QUANTUM CHANNEL (60),
Alice PUF-QRNG TWIN USB 65 is Alice Boot-ROM connected to Alice System Bus, Alice Master Controller (MCU), Alice System Storage Device (System M/M; System MEMORY), and Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface Controller (SPI Controller), Alice True Random Number Generator (TRNG; True Random Number Generator) ), Alice Security CPU (Security Central Processing Unit), Alice Security OTP Memory (Security OTP M/M; Security One Time Password MEMORY), Alice PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Alice PUF It is composed of Chip (Physically Unclonable Function Chip),
Alice main controller (MCU) consists of Alice Boot-ROM, Alice System Storage (System M/M), Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER) connected to Alice System Bus. , controlling Alice I/O Port, Alice Serial Peripheral Interface (SPI Controller);
Alice Security CPU (Security CPU) is Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface (SPI Controller), Alice Pure Random Number Generator (TRNG), Alice Secure OTP Memory (Security) OTP M/M), Alice PUF memory (PUF M/M), and Alice PUF Chip;
Alice system storage (System M/M) stores programs and data necessary for Alice main control unit (MCU);
The Alice Serial Peripheral Interface (SPI Controller) is connected to the Alice I/O Device (I/O Port) and controls the Alice I/O Device (I/O Port) according to the control command of the Alice Main Controller (MCU) to turn on the network connection. /OFF control;
Alice Boot-ROM stores programs and data necessary for booting of Alice Main Control Unit (MCU);
Alice VPN performs 1:1 encrypted communication between Bob VPN inside Bob PUF-QRNG TWIN USB 57 connected to the network;
Alice Debugger (QC-DEBUGGER) receives a decoy Qantum Certificate (QC) through the Alice input/output device (I/O Port) and turns on/off the network network through the Alice input/output device (I/O Port) depending on whether or not authentication is performed. OFF control;
Alice input/output device (I/O Port) is a switch connected to the network network, and transmits the network network ON/OFF control and data received through the network network to the Alice main controller (MCU) through the Alice system bus;
Alice Security CPU (Security CPU) extracts Alice PIN data from Alice PUF Chip and stores it in Bob PUF memory (PUF M/M);
Alice Security CPU sends Alice PIN data to Alice Main Control Unit (MCU);
Alice security CPU (Security CPU) generates Alice private key using the Alice PIN data as a random number seed and stores it in Alice security OTP memory (Security OTP M/M);
The Alice security CPU (Security CPU) is a natural random number seed generated from the Alice pure random number generator (TRNG), and after generating the Alice public key by performing an EX-OR encryption operation with the Alice private key, the Alice main controller ( MCU);

Bob PUF-QRNG TWIN USB (57) is connected to Bob's System Bus (Boot-ROM), Bob's Master Controller (MCU), Bob's System Storage (System M/M; System MEMORY), and Bob VPN (Virtual Private Network), Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface Controller (SPI Controller), Bob True Random Number Generator (TRNG) ), Bob Security CPU (Security Central Processing Unit), Bob Security OTP M/M (Security One Time Password MEMORY), Bob PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Bob PUF It is composed of Chip (Physically Unclonable Function Chip),
Bob main controller (MCU) is connected to Bob's System Bus (Boot-ROM), Bob's System Storage (System M/M), Bob's Virtual Private Network (VPN), and Bob's Debugger (QC-DEBUGGER). , control Bob I/O Port, Bob Serial Peripheral Interface (SPI Controller);
Bob Security CPU (Security CPU) includes Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface (SPI Controller), Bob Pure Random Number Generator (TRNG), and Bob Secure OTP Memory (Security). OTP M/M), Bob PUF memory (PUF M/M), and Bob PUF Chip;
Bob's system storage (System M/M) stores programs and data necessary for Bob's main control unit (MCU);
Bob Serial Peripheral Interface (SPI Controller) is connected to Bob I/O Port and controls Bob I/O Port according to the control command of Bob's main controller (MCU) to turn on the network connection. /OFF control;
Bob Boot-ROM stores programs and data necessary for booting Bob's main control unit (MCU);
Bob VPN performs 1:1 encrypted communication between Alice VPN inside Alice PUF-QRNG TWIN USB 65 connected to the network;
Bob Debugger (QC-DEBUGGER) receives a Quantum Certificate (QC) through Bob's I/O Port and turns on/off the network through Bob's I/O Port depending on whether or not it is authenticated. control;
Bob input/output device (I/O Port) is a switch connected to the network network and transmits the network network ON/OFF control and data received through the network network to the Bob main control unit (MCU) through the Bob system bus (System Bus);
Bob Security CPU (Security CPU) extracts Bob PIN data from Bob PUF Chip and stores it in Alice PUF memory (PUF M/M);
Bob Security CPU sends Bob PIN data to Bob main control unit (MCU);
The Bob security CPU (Security CPU) generates the Bob private key using the Bob PIN data as a random number seed and stores it in the Bob security OTP memory (Security OTP M/M);
Bob Security CPU (Security CPU) is a natural random number seed generated from Bob's pure random number generator (TRNG). After generating Bob's public key by performing an EX-OR encryption operation with Bob's private key, the Bob main controller ( MCU);

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are connected to a QUANTUM Communication Channel among hybrid-QUANTUM CHANNEL (60),
Quantum Random Number Generator (QRNG) is composed of Alice QRNG of the transmitter and Bob QRNG of the receiver that generate random quantum random numbers;
Quantum Key Distribution (QKD) is composed of an Alice quantum key distributor (QKD) of a transmitter including a laser and a Bob quantum key distributor (QKD) of a receiver including a single photon detector;
The Quantum Platform is an Aliec Quantum Platform that generates a Quantum Certificate (QC) with quantum random numbers generated by Alice QRNG and transmits it through the Alice Quantum Key Distributor (QKD). Consists of a Bob Quantum Platform that receives and stores a Quantum Certificate (QC) through a Bob Quantum Key Distributor (QKD);
Random quantum random numbers generated from a transmitting set Alice QRNG are transmitted to the Aliec Quantum Platform;
Aliec Quantum Platform receives the quantum random number, generates a quantum certificate (QC), and transmits it to Alice Master Server (Alice MASTER SERVER) and Alice Quantum Key Distributor (QKD);
Alice quantum key distributor (QKD) transmits a quantum certificate (QC) to Bob quantum key distributor (QKD) through a quantum communication channel (QUANTUM Communication Channel) connected by an optical cable;
a receiving set Bob Quantum Key Distributor (QKD) receives the quantum certificate (QC) and stores it in Bob Quantum Platform;

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are connected to an ISP (Internet Service Provider) operator network that does not form a quantum communication channel,
Alice PUF-QRNG TWIN USB 65 inside Alice main controller (MCU) boots through Alice Boot-ROM connected to Alice System Bus, and is stored in Alice system storage device (System M/M). According to the stored program, it controls the Alice serial peripheral interface (SPI Controller) to control the network network ON/OFF through the Alice input/output device (I/O Port), and the Alice public key received through the Alice security CPU (Security CPU) Send to Bob VPN inside Bob PUF-QRNG TWIN USB 57 via Alice VPN;
Bob PUF-QRNG TWIN USB(57) inside Bob's main controller (MCU) boots through Bob's Boot-ROM connected to Bob's System Bus, and stores it in Bob's system storage (System M/M). According to the stored program, it controls the Bob serial peripheral interface (SPI Controller) to control the network ON/OFF through the Bob input/output device (I/O port), and the Bob public key received through the Bob Security CPU (Security CPU) is Send to Alice VPN inside Alice PUF-QRNG TWIN USB 65 via Bob VPN;

Alice PUF-QRNG TWIN USB 65 inside Alice main controller (MCU) uses the Alice KEY that encrypted the Bob PIN data stored in the Alice PUF memory (PUF M/M) with the Bob public key received through the Alice VPN, and the Alice VPN. to Bob VPN inside Bob PUF-QRNG TWIN USB 57 through;
Bob PUF-QRNG TWIN USB (57) Bob main controller (MCU) inside the Bob VPN, the Bob KEY that encrypted the Alice PIN data stored in the Bob PUF memory (PUF M/M) with the Alice public key received through Bob VPN. through Alice PUF-QRNG TWIN USB 65 to Alice VPN inside;

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN USB 65 matches the Alice PIN data obtained by decrypting the Bob KEY encrypted with the Alice public key with the Alice private key and the Alice PIN data extracted from the Alice PUF Chip; and
Bob PUF-QRNG TWIN USB (57) Bob main controller (MCU) inside the Bob PIN data decrypted from Alice KEY encrypted with Bob public key with Bob private key and Bob PIN data extracted from Bob PUF Chip match;

A network login (LOG In) is connected between the Alice Master Server (Alice MASTER SERVER) connected to the Alice PUF-QRNG TWIN USB (65) and the Bob Master Server (Bob MASTER SERVER) connected to the Bob PUF-QRNG TWIN USB (57). ;

Alice PUF-QRNG TWIN The Alice main controller (MCU) inside the USB 65 receives the quantum certificate (QC) from the Alice master server (Alice MASTER SERVER), encrypts it with the Bob public key, and then through Alice VPN, to Bob VPN inside USB 57;
Bob PUF-QRNG TWIN USB 57 inside Bob main controller (MCU) decrypts the quantum certificate (QC) by decrypting the quantum certificate (QC) encrypted with the Bob public key received through Bob VPN with the Bob private key;

Bob MASTER SERVER transmits the quantum certificate (QC) stored in the Bob Quantum Platform to the Bob Debugger (QC-DEBUGGER) inside the Bob PUF-QRNG TWIN USB 57;
Bob PUF-QRNG TWIN USB 57, Bob's main controller (MCU) transmits the quantum certificate (QC) received from Alice Master Server (Alice MASTER SERVER) to Bob Debugger (QC-DEBUGGER);
Bob Debugger (QC-DEBUGGER) does not match the quantum certificate (QC) received from Alice PUF-QRNG TWIN USB (65) and the quantum certificate (QC) received from the Bob master server (Bob MASTER SERVER) I/ A hybrid quantum communication system terminal comprising a switchboard, a broadcasting device, a street/security light, and a CCTV surveillance camera terminal for crime prevention, characterized in that the O Port is controlled by the OFF contact to block the network connection between the Alice master server and the Bob master server .
The terminal unit consists of a broadcasting device 50 and a terminal SINGLE USB 54,
A broadcasting device 50 that receives broadcast data from any one of Master QUANTUM SERVER 61 or Alice 6G QUANTUM SERVER 62 or Alice QUANTUM SERVER 63, and the terminal SINGLE USB 54 receives and broadcasts;
QUANTUM 5G AP (49) receives the captured image data of the UHD surveillance camera and transmits it to either Master QUANTUM SERVER (61) or Alice 6G QUANTUM SERVER (62) or Alice QUANTUM SERVER (63) through a 5G wireless network base station. 5G AP 49;
UHD Surveillance Camera is a UHD level crime prevention CCTV surveillance camera and consists of an optical unit, a driving unit, a main control unit, an image security processing unit, an image analysis unit, a network security processing unit, and an input/output unit.
The optical unit includes a filter unit 10 , a filter driving motor 11 , a zoom lens 12 , a zoom motor 13 , a variable focus lens 14 , a focus motor 15 , and a focus lens 16 ;
The driving unit is composed of a motor driving drive 17 , a driving unit memory 18 , a driving unit control unit 19 , an RS-485 20 , a manual operation unit 21 , and a remote control unit 22 ;
The main control unit is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(Machine Control Unit)(27), PUF Chip(28), Security OTP Memory(30), It is composed of a Boot-ROM 31 and a Serial Peripheral Interface (SPI) Controller 32;
The image security processing unit is composed of an image sensor unit (33), 5G QUANTUM JUMP ENGINE (34), Quantum Entanglement (36), and Decoy Pulse (37);
The image analysis unit is composed of an image analysis module 38 , an object recognition module 39 , and a number recognition module 40 ;
The network security processing unit is composed of DEBUGGER (41), QUANTUM BLOCK CHAIN (42), and 1:N BLOCK CHAIN (43);

The quantum communication unit is Bob 6G QUANTUM SERVER(55), Bob QUANTUM SERVER(56), Bob PUF-QRNG TWIN USB(57), non-QUANTUM CHANNEL(58), QUANTUM CHANNEL(59), hybrid-QUANTUM CHANNEL(60), It consists of Master QUANTUM SERVER(61), Alice 6G QUANTUM SERVER(62), Alice QUANTUM SERVER(63), QUANTUM 6G SECURITY ENGINE(64), Alice PUF-QRNG TWIN USB(65), LPWAN communication modem(66),

The filter unit 10 is composed of any one or more of an infrared filter, an ultraviolet filter, and an anti-reflective coating filter;
selecting one of the infrared filter, the ultraviolet filter, and the anti-reflection coating filter by driving the filter driving motor 11;
driving the zoom motor 13 for driving the zoom lens 12 to vary the zoom lens magnification;
a variable focus lens 14 and a focus motor 15 for driving the focus lens 16 to vary the focus focus;
The driving unit control unit 19 programmed by the input data input from RS-485 20 or the manual operation unit 21 or the remote control unit 22 transmits the input data to the driving unit memory 18 and the motor driving drive 17 . control to drive the filter driving motor 11 , the zoom motor 13 , and the focus motor 15 to collect optical signals and transmit them to the image pickup sensor unit 33 ;
The image sensor inside the image sensor unit 33 transmits the image data converted from the optical signal into an electric signal to the 5G QUANTUM JUMP ENGINE 34 and the image analysis module 38;
The image analysis module 38 receives the image data and extracts the object through the object recognition module 39. In the case of a vehicle, the vehicle license plate is converted into text through the number recognition module 40 among object data and object data. transmitted to the security processing unit QUANTUM BLOCK CHAIN (42);
QUANTUM BLOCK CHAIN 42 compares wanted vehicle license plate number data received from 1:N BLOCK CHAIN 43 connected to BLOCK CHAIN and generates a wanted vehicle event if it is a wanted vehicle;
The network security processing unit DEBUGGER 41 verifies a boot error when the main control unit Boot-ROM 31 first boots;

The LPWAN communication modem 66 collects audio/video data collected from the broadcasting device 50 and transmits it to the terminal SINGLE USB 54;
terminal SINGLE USB 54 transmits audio/video data to Bob 6G QUANTUM SERVER 55; and
Bob 6G QUANTUM SERVER (55) receives the UHD surveillance camera control data or broadcasting device control data from any one of Alice 6G QUANTUM SERVER (62), Alice QUANTUM SERVER (63), and Alice PUF-QRNG TWIN USB (65) to the terminal to the secondary internal terminal SINGLE USB 54;
terminal SINGLE USB 54 receives UHD surveillance camera control data from Bob 6G QUANTUM SERVER 55;
The LPWAN communication modem 66 performs data communication with the LPWAN terminal;
Main controller MCU(27) is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(27), PUF Chip(28), Security OTP Memory(30), Controls the Boot-ROM 31 and the SPI Controller 32;
The System Memory 24 is a System Memory in which the main control unit MCU 27 operating OS program is stored;
The MCU 27 controls the Security CPU 26 to extract PIN (Personal Identification Number) data from the hardware pin of the PUF Chip 28 and stores it in the PUF-PIN Memory 25 and Alice 6G QUANTUM SERVER 62 and;
the MCU 27 controls the TRNG 23 to generate and receive a natural random number and transmit it to the Security CPU 26;
Security CPU 26 generates a private key by formatting PIN (Personal Identification Number) data stored in PUF-PIN Memory 25 with a fixed-length format function as a random number seed, and then generated through the TRNG 23. A public key is generated by performing an EX-OR encryption operation with the private key using a natural random number seed and stored in the Security OTP Memory 30 and Alice 6G QUANTUM SERVER 62;

Bob 6G QUANTUM SERVER (55) receives PIN (Personal Identification Number) data encrypted with the public key from Alice 6G QUANTUM SERVER (62) through the non-QUANTUM CHANNEL (58) and transmits it to the MCU 27 through the input/output unit. ;
When the MCU 27 decrypts the private key and matches the PIN (Personal Identification Number) data stored in the PUF-PIN Memory 25, it boots the Boot-ROM 31 and controls the SPI Controller 32 to control the UHD surveillance camera. and Alice 6G QUANTUM SERVER 62 and login (LOG In) network to receive video data from 5G QUANTUM JUMP ENGINE 34 and transmit it to Alice 6G QUANTUM SERVER 62;

Alice QUANTUM SERVER (63) and Bob QUANTUM SERVER (56) are connected to QUANTUM CHANNEL (59),
QUANTUM 6G SECURITY ENGINE 64 generates QUANTUM KEY from either BB84 or COW (Coherent One Way) and transmits it to Alice QUANTUM SERVER 63;
Alice QUANTUM SERVER 63 sends QUANTUM KEY to Bob QUANTUM SERVER 56 via QUANTUM CHANNEL 59;
Bob QUANTUM SERVER (56) transmits to Quantum Entanglement (36) through the input/output unit via Bob 6G QUANTUM SERVER (55);
Quantum Entanglement (36) is transmitted to the image 6G SECURITY ENGINE (35) in case of a QUANTUM KEY generated by the Coherent One Way (COW) generation method;
Image 6G SECURITY ENGINE (35) is verified with Decoy Pulse (37) and in the case of quantum entanglement, it receives image data from 5G QUANTUM JUMP ENGINE (34), encrypts image data with QUANTUM KEY, and then uses the input/output unit to encrypt Bob 6G QUANTUM SERVER. via (55) to Bob QUANTUM SERVER (56);
Bob QUANTUM SERVER (56) transmits the image data encrypted with the QUANTUM KEY to Alice QUANTUM SERVER (63) through QUANTUM CHANNEL (59);
Alice QUANTUM SERVER 63 decrypts the video data encrypted with the QUANTUM KEY with the QUANTUM KEY received from the 6G SECURITY ENGINE 64;

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are hybrid- consisting of a Non-QUANTUM Communication Channel (58) and a quantum communication channel (QUANTUM Communication Channel (59)). connected to QUANTUM CHANNEL (60),
Alice PUF-QRNG TWIN USB 65 is Alice Boot-ROM connected to Alice System Bus, Alice Master Controller (MCU), Alice System Storage Device (System M/M; System MEMORY), and Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface Controller (SPI Controller), Alice True Random Number Generator (TRNG; True Random Number Generator) ), Alice Security CPU (Security Central Processing Unit), Alice Security OTP Memory (Security OTP M/M; Security One Time Password MEMORY), Alice PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Alice PUF It is composed of Chip (Physically Unclonable Function Chip),
Alice main controller (MCU) consists of Alice Boot-ROM, Alice System Storage (System M/M), Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER) connected to Alice System Bus. , controlling Alice I/O Port, Alice Serial Peripheral Interface (SPI Controller);
Alice Security CPU (Security CPU) is Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface (SPI Controller), Alice Pure Random Number Generator (TRNG), Alice Secure OTP Memory (Security) OTP M/M), Alice PUF memory (PUF M/M), and Alice PUF Chip;
Alice system storage (System M/M) stores programs and data necessary for Alice main control unit (MCU);
The Alice Serial Peripheral Interface (SPI Controller) is connected to the Alice I/O Device (I/O Port) and controls the Alice I/O Device (I/O Port) according to the control command of the Alice Main Controller (MCU) to turn on the network connection. /OFF control;
Alice Boot-ROM stores programs and data necessary for booting of Alice Main Control Unit (MCU);
Alice VPN performs 1:1 encrypted communication between Bob VPN inside Bob PUF-QRNG TWIN USB 57 connected to the network;
Alice Debugger (QC-DEBUGGER) receives a decoy Qantum Certificate (QC) through the Alice input/output device (I/O Port) and turns on/off the network network through the Alice input/output device (I/O Port) depending on whether or not authentication is performed. OFF control;
Alice input/output device (I/O Port) is a switch connected to the network network, and transmits the network network ON/OFF control and data received through the network network to the Alice main controller (MCU) through the Alice system bus;
Alice Security CPU (Security CPU) extracts Alice PIN data from Alice PUF Chip and stores it in Bob PUF memory (PUF M/M);
Alice Security CPU sends Alice PIN data to Alice Main Control Unit (MCU);
Alice secure CPU (Security CPU) generates Alice private key with the Alice PIN data and stores it in Alice secure OTP memory (Security OTP M/M);
The Alice Security CPU encrypts the Alice private key with the random number generated by the Alice pure random number generator (TRNG), generates the Alice public key, and transmits it to the Alice main controller (MCU);

Bob PUF-QRNG TWIN USB (57) is connected to Bob's System Bus (Boot-ROM), Bob's Master Controller (MCU), Bob's System Storage (System M/M; System MEMORY), and Bob VPN (Virtual Private Network), Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface Controller (SPI Controller), Bob True Random Number Generator (TRNG) ), Bob Security CPU (Security Central Processing Unit), Bob Security OTP M/M (Security One Time Password MEMORY), Bob PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Bob PUF It is composed of Chip (Physically Unclonable Function Chip),
Bob main controller (MCU) is connected to Bob's System Bus (Boot-ROM), Bob's System Storage (System M/M), Bob's Virtual Private Network (VPN), and Bob's Debugger (QC-DEBUGGER). , control Bob I/O Port, Bob Serial Peripheral Interface (SPI Controller);
Bob Security CPU (Security CPU) includes Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface (SPI Controller), Bob Pure Random Number Generator (TRNG), and Bob Secure OTP Memory (Security). OTP M/M), Bob PUF memory (PUF M/M), and Bob PUF Chip;
Bob's system storage (System M/M) stores programs and data necessary for Bob's main control unit (MCU);
Bob Serial Peripheral Interface (SPI Controller) is connected to Bob I/O Port and controls Bob I/O Port according to the control command of Bob's main controller (MCU) to turn on the network connection. /OFF control;
Bob Boot-ROM stores programs and data necessary for booting Bob's main control unit (MCU);
Bob VPN performs 1:1 encrypted communication between Alice VPN inside Alice PUF-QRNG TWIN USB 65 connected to the network;
Bob Debugger (QC-DEBUGGER) receives a Quantum Certificate (QC) through Bob's I/O Port and turns on/off the network through Bob's I/O Port depending on whether or not it is authenticated. control;
Bob input/output device (I/O Port) is a switch connected to the network network and transmits the network network ON/OFF control and data received through the network network to the Bob main control unit (MCU) through the Bob system bus (System Bus);
Bob Security CPU (Security CPU) extracts Bob PIN data from Bob PUF Chip and stores it in Alice PUF memory (PUF M/M);
Bob Security CPU sends Bob PIN data to Bob main control unit (MCU);
Bob Security CPU (Security CPU) generates Bob private key with the Bob PIN data and stores it in Bob Security OTP memory (Security OTP M/M);
The Bob Security CPU (Security CPU) encrypts the Bob private key with the random number generated by the Bob pure random number generator (TRNG), generates the Bob public key, and transmits it to the Bob main controller (MCU);

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are connected to a QUANTUM Communication Channel among hybrid-QUANTUM CHANNEL (60),
Quantum Random Number Generator (QRNG) is composed of Alice QRNG of the transmitter and Bob QRNG of the receiver that generate random quantum random numbers;
Quantum Key Distribution (QKD) is composed of an Alice quantum key distributor (QKD) of a transmitter including a laser and a Bob quantum key distributor (QKD) of a receiver including a single photon detector;
The Quantum Platform is an Aliec Quantum Platform that generates a Quantum Certificate (QC) with quantum random numbers generated by Alice QRNG and transmits it through the Alice Quantum Key Distributor (QKD). Consists of a Bob Quantum Platform that receives and stores a Quantum Certificate (QC) through a Bob Quantum Key Distributor (QKD);
Random quantum random numbers generated from a transmitting set Alice QRNG are transmitted to the Aliec Quantum Platform;
Aliec Quantum Platform receives the quantum random number, generates a quantum certificate (QC), and transmits it to Alice Master Server (Alice MASTER SERVER) and Alice Quantum Key Distributor (QKD);
Alice quantum key distributor (QKD) transmits a quantum certificate (QC) to Bob quantum key distributor (QKD) through a quantum communication channel (QUANTUM Communication Channel) connected by an optical cable;
a receiving set Bob Quantum Key Distributor (QKD) receives the quantum certificate (QC) and stores it in Bob Quantum Platform;

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are connected to an ISP (Internet Service Provider) operator network that does not form a quantum communication channel,
Alice PUF-QRNG TWIN USB 65 inside Alice main controller (MCU) boots through Alice Boot-ROM connected to Alice System Bus, and is stored in Alice system storage device (System M/M). According to the stored program, it controls the Alice serial peripheral interface (SPI Controller) to control the network network ON/OFF through the Alice input/output device (I/O Port), and the Alice public key received through the Alice security CPU (Security CPU) Send to Bob VPN inside Bob PUF-QRNG TWIN USB 57 via Alice VPN;
Bob PUF-QRNG TWIN USB(57) inside Bob's main controller (MCU) boots through Bob's Boot-ROM connected to Bob's System Bus, and stores it in Bob's system storage (System M/M). According to the stored program, it controls the Bob serial peripheral interface (SPI Controller) to control the network ON/OFF through the Bob input/output device (I/O port), and the Bob public key received through the Bob Security CPU (Security CPU) is Send to Alice VPN inside Alice PUF-QRNG TWIN USB 65 via Bob VPN;

Alice PUF-QRNG TWIN USB 65 inside Alice main controller (MCU) uses the Alice KEY that encrypted the Bob PIN data stored in the Alice PUF memory (PUF M/M) with the Bob public key received through the Alice VPN, and the Alice VPN. to Bob VPN inside Bob PUF-QRNG TWIN USB 57 through;
Bob PUF-QRNG TWIN USB (57) Bob main controller (MCU) inside the Bob VPN, the Bob KEY that encrypted the Alice PIN data stored in the Bob PUF memory (PUF M/M) with the Alice public key received through Bob VPN. through Alice PUF-QRNG TWIN USB 65 to Alice VPN inside;

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN USB 65 matches the Alice PIN data obtained by decrypting the Bob KEY encrypted with the Alice public key with the Alice private key and the Alice PIN data extracted from the Alice PUF Chip; and
Bob PUF-QRNG TWIN USB (57) Bob main controller (MCU) inside the Bob PIN data decrypted from Alice KEY encrypted with Bob public key with Bob private key and Bob PIN data extracted from Bob PUF Chip match;

A network login (LOG In) is connected between the Alice Master Server (Alice MASTER SERVER) connected to the Alice PUF-QRNG TWIN USB (65) and the Bob Master Server (Bob MASTER SERVER) connected to the Bob PUF-QRNG TWIN USB (57). ;

Alice PUF-QRNG TWIN The Alice main controller (MCU) inside the USB 65 receives the quantum certificate (QC) from the Alice master server (Alice MASTER SERVER), encrypts it with the Bob public key, and then through Alice VPN, to Bob VPN inside USB 57;
Bob PUF-QRNG TWIN USB 57 inside Bob main controller (MCU) decrypts the quantum certificate (QC) by decrypting the quantum certificate (QC) encrypted with the Bob public key received through Bob VPN with the Bob private key;

Bob MASTER SERVER transmits the quantum certificate (QC) stored in the Bob Quantum Platform to the Bob Debugger (QC-DEBUGGER) inside the Bob PUF-QRNG TWIN USB 57;
Bob PUF-QRNG TWIN USB 57, Bob's main controller (MCU) transmits the quantum certificate (QC) received from Alice Master Server (Alice MASTER SERVER) to Bob Debugger (QC-DEBUGGER);
Bob Debugger (QC-DEBUGGER) does not match the quantum certificate (QC) received from Alice PUF-QRNG TWIN USB (65) and the quantum certificate (QC) received from the Bob master server (Bob MASTER SERVER) I/ A hybrid quantum communication system terminal including a broadcasting device terminal, characterized in that the O Port is controlled by the OFF contact to block the network connection between the Alice master server and the Bob master server.
The terminal is composed of LED street/security light 52, AMI 47, dimmer 53, and terminal SINGLE USB 54,
an AMI 47 that receives commercial power, measures power usage, and transmits power usage through an LPWAN communication modem;
a dimmer 53 that adjusts the brightness of the LED street/security light 52 according to whether a human object is detected or not through the UHD surveillance camera image analysis unit;

UHD Surveillance Camera is a UHD level crime prevention CCTV surveillance camera and consists of an optical unit, a driving unit, a main control unit, an image security processing unit, an image analysis unit, a network security processing unit, and an input/output unit.
The optical unit includes a filter unit 10 , a filter driving motor 11 , a zoom lens 12 , a zoom motor 13 , a variable focus lens 14 , a focus motor 15 , and a focus lens 16 ;
The driving unit is composed of a motor driving drive 17 , a driving unit memory 18 , a driving unit control unit 19 , an RS-485 20 , a manual operation unit 21 , and a remote control unit 22 ;
The main control unit is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(Machine Control Unit)(27), PUF Chip(28), Security OTP Memory(30), It is composed of a Boot-ROM 31 and a Serial Peripheral Interface (SPI) Controller 32;
The image security processing unit is composed of an image sensor unit (33), 5G QUANTUM JUMP ENGINE (34), Quantum Entanglement (36), and Decoy Pulse (37);
The image analysis unit is composed of an image analysis module 38 , an object recognition module 39 , and a number recognition module 40 ;
The network security processing unit is composed of DEBUGGER (41), QUANTUM BLOCK CHAIN (42), and 1:N BLOCK CHAIN (43);

The quantum communication unit is Bob 6G QUANTUM SERVER(55), Bob QUANTUM SERVER(56), Bob PUF-QRNG TWIN USB(57), non-QUANTUM CHANNEL(58), QUANTUM CHANNEL(59), hybrid-QUANTUM CHANNEL(60), It consists of Master QUANTUM SERVER(61), Alice 6G QUANTUM SERVER(62), Alice QUANTUM SERVER(63), QUANTUM 6G SECURITY ENGINE(64), Alice PUF-QRNG TWIN USB(65), LPWAN communication modem(66),

The filter unit 10 is composed of any one or more of an infrared filter, an ultraviolet filter, and an anti-reflective coating filter;
selecting one of the infrared filter, the ultraviolet filter, and the anti-reflection coating filter by driving the filter driving motor 11;
driving the zoom motor 13 for driving the zoom lens 12 to vary the zoom lens magnification;
a variable focus lens 14 and a focus motor 15 for driving the focus lens 16 to vary the focus focus;
The driving unit control unit 19 programmed by the input data input from RS-485 20 or the manual operation unit 21 or the remote control unit 22 transmits the input data to the driving unit memory 18 and the motor driving drive 17 . control to drive the filter driving motor 11 , the zoom motor 13 , and the focus motor 15 to collect optical signals and transmit them to the image pickup sensor unit 33 ;
The image sensor inside the image sensor unit 33 transmits the image data converted from the optical signal into an electric signal to the 5G QUANTUM JUMP ENGINE 34 and the image analysis module 38;
The image analysis module 38 receives the image data and extracts the object through the object recognition module 39. In the case of a vehicle, the vehicle license plate is converted into text through the number recognition module 40 among object data and object data. transmitted to the security processing unit QUANTUM BLOCK CHAIN (42);
QUANTUM BLOCK CHAIN 42 compares wanted vehicle license plate number data received from 1:N BLOCK CHAIN 43 connected to BLOCK CHAIN and generates a wanted vehicle event if it is a wanted vehicle;
The network security processing unit DEBUGGER 41 verifies a boot error when the main control unit Boot-ROM 31 first boots;

The measurement data measured from the AMI 47 and the point/off data collected from the LED street/security light 52 are collected by the LPWAN communication modem 66 and transmitted to the terminal SINGLE USB 54;
terminal SINGLE USB 54 transmits on/off data to Bob 6G QUANTUM SERVER 55; and
Bob 6G QUANTUM SERVER (55) receives UHD surveillance camera control data or dimmer control data from any one of Alice 6G QUANTUM SERVER (62), Alice QUANTUM SERVER (63), and Alice PUF-QRNG TWIN USB (65) to the terminal unit transmit to the internal terminal SINGLE USB 54;
terminal SINGLE USB 54 receives UHD surveillance camera control data from Bob 6G QUANTUM SERVER 55;
The LPWAN communication modem 66 performs data communication with the LPWAN terminal;
Main controller MCU(27) is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(27), PUF Chip(28), Security OTP Memory(30), Controls the Boot-ROM 31 and the SPI Controller 32;
The System Memory 24 is a System Memory in which the main control unit MCU 27 operating OS program is stored;
The MCU 27 controls the Security CPU 26 to extract PIN (Personal Identification Number) data from the hardware pin of the PUF Chip 28 and stores it in the PUF-PIN Memory 25 and Alice 6G QUANTUM SERVER 62 and;
the MCU 27 controls the TRNG 23 to generate and receive a natural random number and transmit it to the Security CPU 26;
Security CPU 26 generates a private key by formatting PIN (Personal Identification Number) data stored in PUF-PIN Memory 25 with a fixed-length format function as a random number seed, and then generated through the TRNG 23. A public key is generated by performing an EX-OR encryption operation with the private key using a natural random number seed and stored in the Security OTP Memory 30 and Alice 6G QUANTUM SERVER 62;

Bob 6G QUANTUM SERVER (55) receives PIN (Personal Identification Number) data encrypted with the public key from Alice 6G QUANTUM SERVER (62) through the non-QUANTUM CHANNEL (58) and transmits it to the MCU 27 through the input/output unit. ;
When the MCU 27 decrypts the private key and matches the PIN (Personal Identification Number) data stored in the PUF-PIN Memory 25, it boots the Boot-ROM 31 and controls the SPI Controller 32 to control the UHD surveillance camera. and Alice 6G QUANTUM SERVER 62 and login (LOG In) network to receive video data from 5G QUANTUM JUMP ENGINE 34 and transmit it to Alice 6G QUANTUM SERVER 62;

Alice QUANTUM SERVER (63) and Bob QUANTUM SERVER (56) are connected to QUANTUM CHANNEL (59),
QUANTUM 6G SECURITY ENGINE 64 generates QUANTUM KEY from either BB84 or COW (Coherent One Way) and transmits it to Alice QUANTUM SERVER 63;
Alice QUANTUM SERVER 63 sends QUANTUM KEY to Bob QUANTUM SERVER 56 via QUANTUM CHANNEL 59;
Bob QUANTUM SERVER (56) transmits to Quantum Entanglement (36) through the input/output unit via Bob 6G QUANTUM SERVER (55);
Quantum Entanglement (36) is transmitted to the image 6G SECURITY ENGINE (35) in case of a QUANTUM KEY generated by the Coherent One Way (COW) generation method;
Image 6G SECURITY ENGINE (35) is verified with Decoy Pulse (37) and in the case of quantum entanglement, it receives image data from 5G QUANTUM JUMP ENGINE (34), encrypts image data with QUANTUM KEY, and then uses the input/output unit to encrypt Bob 6G QUANTUM SERVER. via (55) to Bob QUANTUM SERVER (56);
Bob QUANTUM SERVER (56) transmits the image data encrypted with the QUANTUM KEY to Alice QUANTUM SERVER (63) through QUANTUM CHANNEL (59);
Alice QUANTUM SERVER 63 decrypts the video data encrypted with the QUANTUM KEY with the QUANTUM KEY received from the 6G SECURITY ENGINE 64;

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are hybrid- consisting of a Non-QUANTUM Communication Channel (58) and a quantum communication channel (QUANTUM Communication Channel (59)). connected to QUANTUM CHANNEL (60),
Alice PUF-QRNG TWIN USB 65 is Alice Boot-ROM connected to Alice System Bus, Alice Master Controller (MCU), Alice System Storage Device (System M/M; System MEMORY), and Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface Controller (SPI Controller), Alice True Random Number Generator (TRNG; True Random Number Generator) ), Alice Security CPU (Security Central Processing Unit), Alice Security OTP Memory (Security OTP M/M; Security One Time Password MEMORY), Alice PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Alice PUF It is composed of Chip (Physically Unclonable Function Chip),
Alice main controller (MCU) consists of Alice Boot-ROM, Alice System Storage (System M/M), Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER) connected to Alice System Bus. , controlling Alice I/O Port, Alice Serial Peripheral Interface (SPI Controller);
Alice Security CPU (Security CPU) is Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface (SPI Controller), Alice Pure Random Number Generator (TRNG), Alice Secure OTP Memory (Security) OTP M/M), Alice PUF memory (PUF M/M), and Alice PUF Chip;
Alice system storage (System M/M) stores programs and data necessary for Alice main control unit (MCU);
The Alice Serial Peripheral Interface (SPI Controller) is connected to the Alice I/O Device (I/O Port) and controls the Alice I/O Device (I/O Port) according to the control command of the Alice Main Controller (MCU) to turn on the network connection. /OFF control;
Alice Boot-ROM stores programs and data necessary for booting of Alice Main Control Unit (MCU);
Alice VPN performs 1:1 encrypted communication between Bob VPN inside Bob PUF-QRNG TWIN USB 57 connected to the network;
Alice Debugger (QC-DEBUGGER) receives a decoy Qantum Certificate (QC) through the Alice input/output device (I/O Port) and turns on/off the network network through the Alice input/output device (I/O Port) depending on whether or not authentication is performed. OFF control;
Alice input/output device (I/O Port) is a switch connected to the network network, and transmits the network network ON/OFF control and data received through the network network to the Alice main controller (MCU) through the Alice system bus;
Alice Security CPU (Security CPU) extracts Alice PIN data from Alice PUF Chip and stores it in Bob PUF memory (PUF M/M);
Alice Security CPU sends Alice PIN data to Alice Main Control Unit (MCU);
Alice secure CPU (Security CPU) generates Alice private key with the Alice PIN data and stores it in Alice secure OTP memory (Security OTP M/M);
The Alice Security CPU encrypts the Alice private key with the random number generated by the Alice pure random number generator (TRNG), generates the Alice public key, and transmits it to the Alice main controller (MCU);

Bob PUF-QRNG TWIN USB (57) is connected to Bob's System Bus (Boot-ROM), Bob's Master Controller (MCU), Bob's System Storage (System M/M; System MEMORY), and Bob VPN (Virtual Private Network), Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface Controller (SPI Controller), Bob True Random Number Generator (TRNG) ), Bob Security CPU (Security Central Processing Unit), Bob Security OTP M/M (Security One Time Password MEMORY), Bob PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Bob PUF It is composed of Chip (Physically Unclonable Function Chip),
Bob main controller (MCU) is connected to Bob's System Bus (Boot-ROM), Bob's System Storage (System M/M), Bob's Virtual Private Network (VPN), and Bob's Debugger (QC-DEBUGGER). , control Bob I/O Port, Bob Serial Peripheral Interface (SPI Controller);
Bob Security CPU (Security CPU) includes Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface (SPI Controller), Bob Pure Random Number Generator (TRNG), and Bob Secure OTP Memory (Security). OTP M/M), Bob PUF memory (PUF M/M), and Bob PUF Chip;
Bob's system storage (System M/M) stores programs and data necessary for Bob's main control unit (MCU);
Bob Serial Peripheral Interface (SPI Controller) is connected to Bob I/O Port and controls Bob I/O Port according to the control command of Bob's main controller (MCU) to turn on the network connection. /OFF control;
Bob Boot-ROM stores programs and data necessary for booting Bob's main control unit (MCU);
Bob VPN performs 1:1 encrypted communication between Alice VPN inside Alice PUF-QRNG TWIN USB 65 connected to the network;
Bob Debugger (QC-DEBUGGER) receives a Quantum Certificate (QC) through Bob's I/O Port and turns on/off the network through Bob's I/O Port depending on whether or not it is authenticated. control;
Bob input/output device (I/O Port) is a switch connected to the network network and transmits the network network ON/OFF control and data received through the network network to the Bob main control unit (MCU) through the Bob system bus (System Bus);
Bob Security CPU (Security CPU) extracts Bob PIN data from Bob PUF Chip and stores it in Alice PUF memory (PUF M/M);
Bob Security CPU sends Bob PIN data to Bob main control unit (MCU);
Bob Security CPU (Security CPU) generates Bob private key with the Bob PIN data and stores it in Bob Security OTP memory (Security OTP M/M);
The Bob Security CPU (Security CPU) encrypts the Bob private key with the random number generated by the Bob pure random number generator (TRNG), generates the Bob public key, and transmits it to the Bob main controller (MCU);

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are connected to a QUANTUM Communication Channel among hybrid-QUANTUM CHANNEL (60),
Quantum Random Number Generator (QRNG) is composed of Alice QRNG of the transmitter and Bob QRNG of the receiver that generate random quantum random numbers;
Quantum Key Distribution (QKD) is composed of an Alice quantum key distributor (QKD) of a transmitter including a laser and a Bob quantum key distributor (QKD) of a receiver including a single photon detector;
The Quantum Platform is an Aliec Quantum Platform that generates a Quantum Certificate (QC) with quantum random numbers generated by Alice QRNG and transmits it through the Alice Quantum Key Distributor (QKD). Consists of a Bob Quantum Platform that receives and stores a Quantum Certificate (QC) through a Bob Quantum Key Distributor (QKD);
Random quantum random numbers generated from a transmitting set Alice QRNG are transmitted to the Aliec Quantum Platform;
Aliec Quantum Platform receives the quantum random number, generates a quantum certificate (QC), and transmits it to Alice Master Server (Alice MASTER SERVER) and Alice Quantum Key Distributor (QKD);
Alice quantum key distributor (QKD) transmits a quantum certificate (QC) to Bob quantum key distributor (QKD) through a quantum communication channel (QUANTUM Communication Channel) connected by an optical cable;
a receiving set Bob Quantum Key Distributor (QKD) receives the quantum certificate (QC) and stores it in Bob Quantum Platform;

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are connected to an ISP (Internet Service Provider) operator network that does not form a quantum communication channel,
Alice PUF-QRNG TWIN USB 65 inside Alice main controller (MCU) boots through Alice Boot-ROM connected to Alice System Bus, and is stored in Alice system storage device (System M/M). According to the stored program, it controls the Alice serial peripheral interface (SPI Controller) to control the network network ON/OFF through the Alice input/output device (I/O Port), and the Alice public key received through the Alice security CPU (Security CPU) Send to Bob VPN inside Bob PUF-QRNG TWIN USB 57 via Alice VPN;
Bob PUF-QRNG TWIN USB(57) inside Bob's main controller (MCU) boots through Bob's Boot-ROM connected to Bob's System Bus, and stores it in Bob's system storage (System M/M). According to the stored program, it controls the Bob serial peripheral interface (SPI Controller) to control the network ON/OFF through the Bob input/output device (I/O port), and the Bob public key received through the Bob Security CPU (Security CPU) is Send to Alice VPN inside Alice PUF-QRNG TWIN USB 65 via Bob VPN;

Alice PUF-QRNG TWIN USB 65 inside Alice main controller (MCU) uses the Alice KEY that encrypted the Bob PIN data stored in the Alice PUF memory (PUF M/M) with the Bob public key received through the Alice VPN, and the Alice VPN. to Bob VPN inside Bob PUF-QRNG TWIN USB 57 through;
Bob PUF-QRNG TWIN USB (57) Bob main controller (MCU) inside the Bob VPN, the Bob KEY that encrypted the Alice PIN data stored in the Bob PUF memory (PUF M/M) with the Alice public key received through Bob VPN. through Alice PUF-QRNG TWIN USB 65 to Alice VPN inside;

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN USB 65 matches the Alice PIN data obtained by decrypting the Bob KEY encrypted with the Alice public key with the Alice private key and the Alice PIN data extracted from the Alice PUF Chip; and
Bob PUF-QRNG TWIN USB (57) Bob main controller (MCU) inside the Bob PIN data decrypted from Alice KEY encrypted with Bob public key with Bob private key and Bob PIN data extracted from Bob PUF Chip match;

A network login (LOG In) is connected between the Alice Master Server (Alice MASTER SERVER) connected to the Alice PUF-QRNG TWIN USB (65) and the Bob Master Server (Bob MASTER SERVER) connected to the Bob PUF-QRNG TWIN USB (57). ;

Alice PUF-QRNG TWIN The Alice main controller (MCU) inside the USB 65 receives the quantum certificate (QC) from the Alice master server (Alice MASTER SERVER), encrypts it with the Bob public key, and then through Alice VPN, to Bob VPN inside USB 57;
Bob PUF-QRNG TWIN USB 57 inside Bob main controller (MCU) decrypts the quantum certificate (QC) by decrypting the quantum certificate (QC) encrypted with the Bob public key received through Bob VPN with the Bob private key;

Bob MASTER SERVER transmits the quantum certificate (QC) stored in the Bob Quantum Platform to the Bob Debugger (QC-DEBUGGER) inside the Bob PUF-QRNG TWIN USB 57;
Bob PUF-QRNG TWIN USB 57, Bob's main controller (MCU) transmits the quantum certificate (QC) received from Alice Master Server (Alice MASTER SERVER) to Bob Debugger (QC-DEBUGGER);
Bob Debugger (QC-DEBUGGER) does not match the quantum certificate (QC) received from Alice PUF-QRNG TWIN USB (65) and the quantum certificate (QC) received from the Bob master server (Bob MASTER SERVER) I/ A hybrid quantum communication system terminal including a street/security light terminal, characterized in that it blocks the network connection between the Alice master server and the Bob master server by controlling the O Port OFF contact point.
The terminal switchboard 48 includes a sensor unit 46 , an AMI 47 , a QUANTUM 5G AP 49 , a broadcasting device 50 , an emergency bell 51 , a dimmer 53 , and a terminal SINGLE USB 54 . composed by
The AMI 47 inside the switchboard 48 is an AMI 47 that receives commercial power, measures the power usage, and transmits the power usage through the LPWAN communication modem;
The switchboard 48 supplies power to the LED street/security light 52 via the AMI 47 therein;
The broadcasting device 50 inside the switchboard 48 receives broadcast data from either the Master QUANTUM SERVER 61 or the Alice 6G QUANTUM SERVER 62 or the Alice QUANTUM SERVER 63, and the terminal SINGLE USB 54 receives and broadcasts the broadcast data. a broadcasting device 50 that does;
When the emergency bell 51 operates, the switchboard 48 transmits an emergency bell operation event to either the Master QUANTUM SERVER 61 or Alice 6G QUANTUM SERVER 62 or Alice QUANTUM SERVER 63 via the terminal SINGLE USB 54 is an emergency bell (51);
The sensor unit 46 inside the switchboard 48 transmits the data measured through the sensor to either the Master QUANTUM SERVER 61 or the Alice 6G QUANTUM SERVER 62 or the Alice QUANTUM SERVER 63. through the sensor unit 46;
The dimmer 53 inside the switchboard 48 is a dimmer 53 that adjusts the brightness of the LED street/security light 52 according to whether or not a human object is detected through the UHD surveillance camera image analysis unit;
QUANTUM 5G AP (49) receives the captured image data of the UHD surveillance camera and transmits it to either Master QUANTUM SERVER (61) or Alice 6G QUANTUM SERVER (62) or Alice QUANTUM SERVER (63) through a 5G wireless network base station. 5G AP 49;

UHD Surveillance Camera is a UHD level crime prevention CCTV surveillance camera and consists of an optical unit, a driving unit, a main control unit, an image security processing unit, an image analysis unit, a network security processing unit, and an input/output unit.
The optical unit includes a filter unit 10 , a filter driving motor 11 , a zoom lens 12 , a zoom motor 13 , a variable focus lens 14 , a focus motor 15 , and a focus lens 16 ;
The driving unit is composed of a motor driving drive 17 , a driving unit memory 18 , a driving unit control unit 19 , an RS-485 20 , a manual operation unit 21 , and a remote control unit 22 ;
The main control unit is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(Machine Control Unit)(27), PUF Chip(28), Security OTP Memory(30), It is composed of a Boot-ROM 31 and a Serial Peripheral Interface (SPI) Controller 32;
The image security processing unit is composed of an image sensor unit (33), 5G QUANTUM JUMP ENGINE (34), Quantum Entanglement (36), and Decoy Pulse (37);
The image analysis unit is composed of an image analysis module 38 , an object recognition module 39 , and a number recognition module 40 ;
The network security processing unit is composed of DEBUGGER (41), QUANTUM BLOCK CHAIN (42), and 1:N BLOCK CHAIN (43);

The quantum communication unit is Bob 6G QUANTUM SERVER(55), Bob QUANTUM SERVER(56), Bob PUF-QRNG TWIN USB(57), non-QUANTUM CHANNEL(58), QUANTUM CHANNEL(59), hybrid-QUANTUM CHANNEL(60), It consists of Master QUANTUM SERVER(61), Alice 6G QUANTUM SERVER(62), Alice QUANTUM SERVER(63), QUANTUM 6G SECURITY ENGINE(64), Alice PUF-QRNG TWIN USB(65), LPWAN communication modem(66),

The filter unit 10 is composed of any one or more of an infrared filter, an ultraviolet filter, and an anti-reflective coating filter;
selecting one of the infrared filter, the ultraviolet filter, and the anti-reflection coating filter by driving the filter driving motor 11;
driving the zoom motor 13 for driving the zoom lens 12 to vary the zoom lens magnification;
a variable focus lens 14 and a focus motor 15 for driving the focus lens 16 to vary the focus focus;
The driving unit control unit 19 programmed by the input data input from RS-485 20 or the manual operation unit 21 or the remote control unit 22 transmits the input data to the driving unit memory 18 and the motor driving drive 17 . control to drive the filter driving motor 11 , the zoom motor 13 , and the focus motor 15 to collect optical signals and transmit them to the image pickup sensor unit 33 ;
The image sensor inside the image sensor unit 33 transmits the image data converted from the optical signal into an electric signal to the 5G QUANTUM JUMP ENGINE 34 and the image analysis module 38;
The image analysis module 38 receives the image data and extracts the object through the object recognition module 39. In the case of a vehicle, the vehicle license plate is converted into text through the number recognition module 40 among object data and object data. transmitted to the security processing unit QUANTUM BLOCK CHAIN (42);
QUANTUM BLOCK CHAIN 42 compares wanted vehicle license plate number data received from 1:N BLOCK CHAIN 43 connected to BLOCK CHAIN and generates a wanted vehicle event if it is a wanted vehicle;
The network security processing unit DEBUGGER 41 verifies a boot error when the main control unit Boot-ROM 31 first boots;

Sensing data collected from the sensor unit 46, measurement data measured from the AMI 47, switchboard status information data collected from one or more switchboards 48, audio/video data collected from one or more broadcasting devices 50, The LPWAN communication modem 66 collects the point/off data collected from the LED street/security light 52 and transmits it to the terminal SINGLE USB 54;
The terminal SINGLE USB 54 transmits measurement data, sensor status information data, audio/video data, and on/off data to the Bob 6G QUANTUM SERVER 55; and
Bob 6G QUANTUM SERVER (55) is from any one of Alice 6G QUANTUM SERVER (62), Alice QUANTUM SERVER (63), and Alice PUF-QRNG TWIN USB (65) UHD surveillance camera control data or broadcasting device control data or dimmer control data to receive and transmit to the terminal internal terminal SINGLE USB 54;
terminal SINGLE USB 54 receives UHD surveillance camera control data from Bob 6G QUANTUM SERVER 55;
The LPWAN communication modem 66 performs data communication with the LPWAN terminal;
Main controller MCU(27) is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(27), PUF Chip(28), Security OTP Memory(30), Controls the Boot-ROM 31 and the SPI Controller 32;
The System Memory 24 is a System Memory in which the main control unit MCU 27 operating OS program is stored;
The MCU 27 controls the Security CPU 26 to extract PIN (Personal Identification Number) data from the hardware pin of the PUF Chip 28 and stores it in the PUF-PIN Memory 25 and Alice 6G QUANTUM SERVER 62 and;
the MCU 27 controls the TRNG 23 to generate and receive a natural random number and transmit it to the Security CPU 26;
Security CPU 26 generates a private key by formatting PIN (Personal Identification Number) data stored in PUF-PIN Memory 25 with a fixed-length format function as a random number seed, and then generated through the TRNG 23. A public key is generated by performing an EX-OR encryption operation with the private key using a natural random number seed and stored in the Security OTP Memory 30 and Alice 6G QUANTUM SERVER 62;

Bob 6G QUANTUM SERVER (55) receives PIN (Personal Identification Number) data encrypted with the public key from Alice 6G QUANTUM SERVER (62) through the non-QUANTUM CHANNEL (58) and transmits it to the MCU 27 through the input/output unit. ;
When the MCU 27 decrypts the private key and matches the PIN (Personal Identification Number) data stored in the PUF-PIN Memory 25, it boots the Boot-ROM 31 and controls the SPI Controller 32 to control the UHD surveillance camera. and Alice 6G QUANTUM SERVER 62 and login (LOG In) network to receive video data from 5G QUANTUM JUMP ENGINE 34 and transmit it to Alice 6G QUANTUM SERVER 62;

Alice QUANTUM SERVER (63) and Bob QUANTUM SERVER (56) are connected to QUANTUM CHANNEL (59),
QUANTUM 6G SECURITY ENGINE 64 generates QUANTUM KEY from either BB84 or COW (Coherent One Way) and transmits it to Alice QUANTUM SERVER 63;
Alice QUANTUM SERVER 63 sends QUANTUM KEY to Bob QUANTUM SERVER 56 via QUANTUM CHANNEL 59;
Bob QUANTUM SERVER (56) transmits to Quantum Entanglement (36) through the input/output unit via Bob 6G QUANTUM SERVER (55);
Quantum Entanglement (36) is transmitted to the image 6G SECURITY ENGINE (35) in case of a QUANTUM KEY generated by the Coherent One Way (COW) generation method;
Image 6G SECURITY ENGINE (35) is verified with Decoy Pulse (37) and in the case of quantum entanglement, it receives image data from 5G QUANTUM JUMP ENGINE (34), encrypts image data with QUANTUM KEY, and then uses the input/output unit to encrypt Bob 6G QUANTUM SERVER. via (55) to Bob QUANTUM SERVER (56);
Bob QUANTUM SERVER (56) transmits the image data encrypted with the QUANTUM KEY to Alice QUANTUM SERVER (63) through QUANTUM CHANNEL (59);
Alice QUANTUM SERVER 63 decrypts the video data encrypted with the QUANTUM KEY with the QUANTUM KEY received from the 6G SECURITY ENGINE 64;

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are hybrid- consisting of a Non-QUANTUM Communication Channel (58) and a quantum communication channel (QUANTUM Communication Channel (59)). connected to QUANTUM CHANNEL (60),
Alice PUF-QRNG TWIN USB 65 is Alice Boot-ROM connected to Alice System Bus, Alice Master Controller (MCU), Alice System Storage Device (System M/M; System MEMORY), and Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface Controller (SPI Controller), Alice True Random Number Generator (TRNG; True Random Number Generator) ), Alice Security CPU (Security Central Processing Unit), Alice Security OTP Memory (Security OTP M/M; Security One Time Password MEMORY), Alice PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Alice PUF It is composed of Chip (Physically Unclonable Function Chip),
Alice main controller (MCU) consists of Alice Boot-ROM, Alice System Storage (System M/M), Alice VPN (Virtual Private Network), Alice Debugger (QC-DEBUGGER) connected to Alice System Bus. , controlling Alice I/O Port, Alice Serial Peripheral Interface (SPI Controller);
Alice Security CPU (Security CPU) is Alice Debugger (QC-DEBUGGER), Alice I/O Device (I/O Port), Alice Serial Peripheral Interface (SPI Controller), Alice Pure Random Number Generator (TRNG), Alice Secure OTP Memory (Security) OTP M/M), Alice PUF memory (PUF M/M), and Alice PUF Chip;
Alice system storage (System M/M) stores programs and data necessary for Alice main control unit (MCU);
The Alice Serial Peripheral Interface (SPI Controller) is connected to the Alice I/O Device (I/O Port) and controls the Alice I/O Device (I/O Port) according to the control command of the Alice Main Controller (MCU) to turn on the network connection. /OFF control;
Alice Boot-ROM stores programs and data necessary for booting of Alice Main Control Unit (MCU);
Alice VPN performs 1:1 encrypted communication between Bob VPN inside Bob PUF-QRNG TWIN USB 57 connected to the network;
Alice Debugger (QC-DEBUGGER) receives a decoy Qantum Certificate (QC) through the Alice input/output device (I/O Port) and turns on/off the network network through the Alice input/output device (I/O Port) depending on whether or not authentication is performed. OFF control;
Alice input/output device (I/O Port) is a switch connected to the network network, and transmits the network network ON/OFF control and data received through the network network to the Alice main controller (MCU) through the Alice system bus;
Alice Security CPU (Security CPU) extracts Alice PIN data from Alice PUF Chip and stores it in Bob PUF memory (PUF M/M);
Alice Security CPU sends Alice PIN data to Alice Main Control Unit (MCU);
Alice secure CPU (Security CPU) generates Alice private key with the Alice PIN data and stores it in Alice secure OTP memory (Security OTP M/M);
The Alice Security CPU encrypts the Alice private key with the random number generated by the Alice pure random number generator (TRNG), generates the Alice public key, and transmits it to the Alice main controller (MCU);

Bob PUF-QRNG TWIN USB (57) is connected to Bob's System Bus (Boot-ROM), Bob's Master Controller (MCU), Bob's System Storage (System M/M; System MEMORY), and Bob VPN (Virtual Private Network), Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface Controller (SPI Controller), Bob True Random Number Generator (TRNG) ), Bob Security CPU (Security Central Processing Unit), Bob Security OTP M/M (Security One Time Password MEMORY), Bob PUF Memory (PUF M/M; Phisycally Unclonable Function MEMORY), Bob PUF It is composed of Chip (Physically Unclonable Function Chip),
Bob main controller (MCU) is connected to Bob's System Bus (Boot-ROM), Bob's System Storage (System M/M), Bob's Virtual Private Network (VPN), and Bob's Debugger (QC-DEBUGGER). , control Bob I/O Port, Bob Serial Peripheral Interface (SPI Controller);
Bob Security CPU (Security CPU) includes Bob Debugger (QC-DEBUGGER), Bob I/O Port, Bob Serial Peripheral Interface (SPI Controller), Bob Pure Random Number Generator (TRNG), and Bob Secure OTP Memory (Security). OTP M/M), Bob PUF memory (PUF M/M), and Bob PUF Chip;
Bob's system storage (System M/M) stores programs and data necessary for Bob's main control unit (MCU);
Bob Serial Peripheral Interface (SPI Controller) is connected to Bob I/O Port and controls Bob I/O Port according to the control command of Bob's main controller (MCU) to turn on the network connection. /OFF control;
Bob Boot-ROM stores programs and data necessary for booting Bob's main control unit (MCU);
Bob VPN performs 1:1 encrypted communication between Alice VPN inside Alice PUF-QRNG TWIN USB 65 connected to the network;
Bob Debugger (QC-DEBUGGER) receives a Quantum Certificate (QC) through Bob's I/O Port and turns on/off the network through Bob's I/O Port depending on whether or not it is authenticated. control;
Bob input/output device (I/O Port) is a switch connected to the network network and transmits the network network ON/OFF control and data received through the network network to the Bob main control unit (MCU) through the Bob system bus (System Bus);
Bob Security CPU (Security CPU) extracts Bob PIN data from Bob PUF Chip and stores it in Alice PUF memory (PUF M/M);
Bob Security CPU sends Bob PIN data to Bob main control unit (MCU);
Bob Security CPU (Security CPU) generates Bob private key with the Bob PIN data and stores it in Bob Security OTP memory (Security OTP M/M);
The Bob Security CPU (Security CPU) encrypts the Bob private key with the random number generated by the Bob pure random number generator (TRNG), generates the Bob public key, and transmits it to the Bob main controller (MCU);

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are connected to a QUANTUM Communication Channel among hybrid-QUANTUM CHANNEL (60),
Quantum Random Number Generator (QRNG) is composed of Alice QRNG of the transmitter and Bob QRNG of the receiver that generate random quantum random numbers;
Quantum Key Distribution (QKD) is composed of an Alice quantum key distributor (QKD) of a transmitter including a laser and a Bob quantum key distributor (QKD) of a receiver including a single photon detector;
The Quantum Platform is an Aliec Quantum Platform that generates a Quantum Certificate (QC) with quantum random numbers generated by Alice QRNG and transmits it through the Alice Quantum Key Distributor (QKD). Consists of a Bob Quantum Platform that receives and stores a Quantum Certificate (QC) through a Bob Quantum Key Distributor (QKD);
Random quantum random numbers generated from a transmitting set Alice QRNG are transmitted to the Aliec Quantum Platform;
Aliec Quantum Platform receives the quantum random number, generates a quantum certificate (QC), and transmits it to Alice Master Server (Alice MASTER SERVER) and Alice Quantum Key Distributor (QKD);
Alice quantum key distributor (QKD) transmits a quantum certificate (QC) to Bob quantum key distributor (QKD) through a quantum communication channel (QUANTUM Communication Channel) connected by an optical cable;
a receiving set Bob Quantum Key Distributor (QKD) receives the quantum certificate (QC) and stores it in Bob Quantum Platform;

Alice PUF-QRNG TWIN USB (65) and Bob PUF-QRNG TWIN USB (57) are connected to an ISP (Internet Service Provider) operator network that does not form a quantum communication channel,
Alice PUF-QRNG TWIN USB 65 inside Alice main controller (MCU) boots through Alice Boot-ROM connected to Alice System Bus, and is stored in Alice system storage device (System M/M). According to the stored program, it controls the Alice serial peripheral interface (SPI Controller) to control the network network ON/OFF through the Alice input/output device (I/O Port), and the Alice public key received through the Alice security CPU (Security CPU) Send to Bob VPN inside Bob PUF-QRNG TWIN USB 57 via Alice VPN;
Bob PUF-QRNG TWIN USB(57) inside Bob's main controller (MCU) boots through Bob's Boot-ROM connected to Bob's System Bus, and stores it in Bob's system storage (System M/M). According to the stored program, it controls the Bob serial peripheral interface (SPI Controller) to control the network ON/OFF through the Bob input/output device (I/O port), and the Bob public key received through the Bob Security CPU (Security CPU) is Send to Alice VPN inside Alice PUF-QRNG TWIN USB 65 via Bob VPN;

Alice PUF-QRNG TWIN USB 65 inside Alice main controller (MCU) uses the Alice KEY that encrypted the Bob PIN data stored in the Alice PUF memory (PUF M/M) with the Bob public key received through the Alice VPN, and the Alice VPN. to Bob VPN inside Bob PUF-QRNG TWIN USB 57 through;
Bob PUF-QRNG TWIN USB (57) Bob main controller (MCU) inside the Bob VPN, the Bob KEY that encrypted the Alice PIN data stored in the Bob PUF memory (PUF M/M) with the Alice public key received through Bob VPN. through Alice PUF-QRNG TWIN USB 65 to Alice VPN inside;

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN USB 65 matches the Alice PIN data obtained by decrypting the Bob KEY encrypted with the Alice public key with the Alice private key and the Alice PIN data extracted from the Alice PUF Chip; and
Bob PUF-QRNG TWIN USB (57) Bob main controller (MCU) inside the Bob PIN data decrypted from Alice KEY encrypted with Bob public key with Bob private key and Bob PIN data extracted from Bob PUF Chip match;

A network login (LOG In) is connected between the Alice Master Server (Alice MASTER SERVER) connected to the Alice PUF-QRNG TWIN USB (65) and the Bob Master Server (Bob MASTER SERVER) connected to the Bob PUF-QRNG TWIN USB (57). ;

Alice PUF-QRNG TWIN The Alice main controller (MCU) inside the USB 65 receives the quantum certificate (QC) from the Alice master server (Alice MASTER SERVER), encrypts it with the Bob public key, and then through Alice VPN, to Bob VPN inside USB 57;
Bob PUF-QRNG TWIN USB 57 inside Bob main controller (MCU) decrypts the quantum certificate (QC) by decrypting the quantum certificate (QC) encrypted with the Bob public key received through Bob VPN with the Bob private key;

Bob MASTER SERVER transmits the quantum certificate (QC) stored in the Bob Quantum Platform to the Bob Debugger (QC-DEBUGGER) inside the Bob PUF-QRNG TWIN USB 57;
Bob PUF-QRNG TWIN USB 57, Bob's main controller (MCU) transmits the quantum certificate (QC) received from Alice Master Server (Alice MASTER SERVER) to Bob Debugger (QC-DEBUGGER);
Bob Debugger (QC-DEBUGGER) does not match the quantum certificate (QC) received from Alice PUF-QRNG TWIN USB (65) and the quantum certificate (QC) received from the Bob master server (Bob MASTER SERVER) I/ A hybrid quantum communication system terminal including a switchboard terminal, characterized in that the O Port is controlled by the OFF contact to block the network connection between the Alice master server and the Bob master server.
It consists of QUANTUM COLLABO including quantum random number generator, self-driving car including surveillance camera and 5G communication modem, QUANTUM 5G AP (Access Point), Alice 6G QUANTUM SERVER, and Bob 6G QUANTUM SERVER;
Connected with wired quantum network and 5G wireless network consisting of any one of QUANTUM CHANNEL, non-QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL;
QKD (Quantum Key Distribution) TLS (Quantum Key Distribution) that selectively accesses wired quantum network and ISP operator 5G wireless network network and encrypts/decrypts with QUANTUM KEY (private key/public key) using PUF and QRNG SoC Chip according to data characteristics Transport Layer Security) system,

QUANTUM COLLABO (QUANTUM encrypt Transport Layer Security protocol DEVICE) is an Eve quantum random number generator, 5G QUANTUM JUMP ENGINE, Boot Mode S/W (SWITCH), JTAG Connector, USB Connector, ETHERNET Connector, RESET S/W (SWITCH), LED, Consists of I/O Pin Header,
QUANTUM COLLABO internal 5G QUANTUM JUMP ENGINE consists of System Memory, PUF-PIN Memory, Security CPU, MCU, eve-PUF Chip, Security OTP Memory, Boot-ROM, and SPI Controller.

Eve quantum random number generator consists of random number source generator, quantum detection diode, quantum random pulse generator, quantum random number control unit, input/output unit,
The random number source generator emits quantum particles from any one or more of a Light-Emitting Diode (LED), a Laser Diode (LD), a radioactive isotope, transistor noise, and thermal noise;
the quantum detection diode detects quantum particles generated from the random number source generator;
the quantum random pulse generator detects a quantum particle event from the quantum detection diode and generates a random pulse corresponding to the detection of the quantum particle;
the quantum random number control unit generates a quantum random number from a random pulse random number source generated through the quantum random pulse generator and transmits it to the 5G QUANTUM JUMP ENGINE internal Security CPU;
Boot Mode S/W (SWITCH) is Boot Mode S/W (S/W) that boots the Boot-ROM through the SPI Controller inside 5G QUANTUM JUMP ENGINE, receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key, and transmits it to the 5G communication modem. SWITCH);
JTAG Connector is a Joint Test Action Group (JTAG) Connector that transmits output data or receives input data in a serial communication method for digital input/output, and inputs and outputs an autonomous vehicle operation program;
ETHERNET Connector is an input/output port for ETHERNET communication with an autonomous vehicle;
RESET S/W(SWITCH) is RESET S/W(SWITCH) initializing QUANTUM COLLABO;
Consists of power supply indicator LED and I/O Pin Header and USB Connector that communicates with each part of QUANTUM COLLABO;

Surveillance camera mounted inside autonomous vehicle, QUANTUM COLLABO, 5G communication modem; and
QUANTUM 5G AP, Bob 6G QUANTUM SERVER installed on the road outside the autonomous vehicle; and
It consists of a wired quantum network consisting of any one of QUANTUM CHANNEL, non-QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL and Alice 6G QUANTUM SERVER connected to a 5G wireless network,

5G QUANTUM JUMP ENGINE internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-PUF Chip, Security OTP Memory, Boot-ROM, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
MCU controls the Security CPU to extract Eve PIN data from the hardware pin of the eve-PUF Chip and store it in PUF-PIN Memory and Alice 6G QUANTUM SERVER. generate a key;

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU;
Security CPU generates Eve QUANTUM public key by performing beta-OR (EX-OR) encryption operation of Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed, and the quantum random number seed and Eve storing QUANTUM public key in Security OTP Memory and transmitting Eve QUANTUM public key to 5G communication modem;
5G communication modem transmits to Alice 6G QUANTUM SERVER through 5G base station inside 5G wireless network;

Alice 6G QUANTUM SERVER is composed of Alice Quantum Random Number Generator and Alice PUF Chip inside,
Alice 6G QUANTUM SERVER extracts Alice PIN data from the hardware pin of Alice PUF Chip, stores it in QUANTUM COLLABO, and encrypts the Alice PIN data with a random number seed format function to generate the Alice QUANTUM private key; and
generating the Alice QUANTUM public key by performing an EX-OR encryption operation with the quantum random number seed that generated the quantum random number from the Alice quantum random number generator and the Alice QUANTUM private key;

Alice 6G QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored therein with the Eve QUANTUM public key received through the 5G wireless network network and retransmits it to the QUANTUM COLLABO through the 5G wireless network; and
QUANTUM COLLABO internal MCU performs Eve PIN data encrypted with Eve QUANTUM public key and Alice QUANTUM public key with Eve QUANTUM private key with quantum random number seed stored in Security OTP Memory and beta-OR (EX-OR) decryption operation to reveal Alice QUANTUM decrypt and generate the key and Eve PIN data; and
If the decrypted Eve PIN data and the Eve PIN data extracted from the eve-PUF Chip match,
MCU boots Boot-ROM through SPI Controller, encrypts surveillance camera video data with Alice QUANTUM public key, and transmits it to 5G communication modem;
The 5G communication modem transmits the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key to the QUANTUM 5G AP through the 5G LAN (Local Area Network) cell network that can communicate. However, if communication with the QUANTUM 5G AP is not possible, the 5G wireless network 5G base station sent to;
When Bob 6G QUANTUM SERVER receives surveillance camera video data encrypted with Alice QUANTUM public key from QUANTUM 5G AP, Alice 6G QUANTUM through a wired quantum network consisting of any one of QUANTUM CHANNEL, non-QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL send to SERVER;
Alice 6G QUANTUM SERVER receives SMART QUANTUM G-Cloud using QUANTUM 5G AP that receives video data captured by a surveillance camera encrypted with Alice QUANTUM public key and decrypts it with Alice QUANTUM private key from at least one of wired quantum network and 5G wireless network network. Self-driving car hybrid quantum communication system terminal.
It consists of QUANTUM COLLABO including quantum random number generator, self-driving car including surveillance camera and 5G communication modem, QUANTUM 5G AP (Access Point), Alice 6G QUANTUM SERVER, and Bob 6G QUANTUM SERVER;
Connected to a wired network or a wireless network composed of any one of QUANTUM CHANNEL, non-QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL;
It features a QKD (Quantum Key Distribution) TLS (Transport Layer Security) system that selectively accesses wired quantum networks and wireless network networks of telecommunication providers and encrypts/decrypts them with QUANTUM KEY using PUF and QRNG SoC Chip according to data characteristics. ,

QUANTUM COLLABO (QUANTUM encrypt Transport Layer Security protocol DEVICE) is an Eve quantum random number generator, 5G QUANTUM JUMP ENGINE, Boot Mode S/W (SWITCH), JTAG Connector, USB Connector, ETHERNET Connector, RESET S/W (SWITCH), LED, Consists of I/O Pin Header,
Eve Quantum Random Number Generator generates quantum random number through QRNG (Quantum Random Number Generator) SoC (System On Chip) Chip inside and transmits it to 5G QUANTUM JUMP ENGINE internal Security CPU;
Boot Mode S/W (SWITCH) is Boot Mode S/W (S/W) that boots the Boot-ROM through the SPI Controller inside 5G QUANTUM JUMP ENGINE, receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key, and transmits it to the 5G communication modem. SWITCH);
JTAG Connector is a Joint Test Action Group (JTAG) Connector that transmits output data or receives input data in a serial communication method for digital input/output, and inputs and outputs an autonomous vehicle operation program;
ETHERNET Connector is an input/output port for ETHERNET communication with an autonomous vehicle;
RESET S/W(SWITCH) is RESET S/W(SWITCH) initializing QUANTUM COLLABO;
Consists of power supply indicator LED and I/O Pin Header and USB Connector that communicates with each part of QUANTUM COLLABO;

Surveillance camera mounted inside autonomous vehicle, QUANTUM COLLABO, 5G communication modem; and
QUANTUM 5G AP, Bob 6G QUANTUM SERVER installed outside the autonomous vehicle; and
It consists of Alice 6G QUANTUM SERVER connected to a wired network and a wireless network consisting of any one of QUANTUM CHANNEL, non-QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL,

QUANTUM COLLABO internal 5G QUANTUM JUMP ENGINE consists of System Memory, PUF-PIN Memory, Security CPU, MCU, eve-PUF Chip, Security OTP Memory, Boot-ROM, SPI Controller;
5G QUANTUM JUMP ENGINE internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-PUF Chip, Security OTP Memory, Boot-ROM, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
MCU controls the Security CPU to extract Eve PIN data from the hardware pin of the eve-PUF Chip and store it in PUF-PIN Memory and Alice 6G QUANTUM SERVER. generate a key;

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU;
Security CPU generates Eve QUANTUM public key by performing beta-OR (EX-OR) encryption operation of Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed, and the quantum random number seed and Eve storing QUANTUM public key in Security OTP Memory and transmitting Eve QUANTUM public key to 5G communication modem;
5G communication modem transmits to Alice 6G QUANTUM SERVER through the 5G base station inside the wireless network;

Alice 6G QUANTUM SERVER is composed of Alice Quantum Random Number Generator and Alice PUF Chip inside,
Alice 6G QUANTUM SERVER extracts Alice PIN data from the hardware pin of Alice PUF Chip, stores it in QUANTUM COLLABO, and encrypts the Alice PIN data with a random number seed format function to generate the Alice QUANTUM private key; and
generating the Alice QUANTUM public key by performing an EX-OR encryption operation with the quantum random number seed that generated the quantum random number from the Alice quantum random number generator and the Alice QUANTUM private key;

Alice 6G QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored therein with the Eve QUANTUM public key received through the wireless network and retransmits it to the QUANTUM COLLABO through the wireless network; and
QUANTUM COLLABO internal MCU performs Eve PIN data encrypted with Eve QUANTUM public key and Alice QUANTUM public key with Eve QUANTUM private key with quantum random number seed stored in Security OTP Memory and beta-OR (EX-OR) decryption operation to reveal Alice QUANTUM decrypt and generate the key and Eve PIN data; and
If the decrypted Eve PIN data and the Eve PIN data extracted from the eve-PUF Chip match,
MCU boots Boot-ROM through SPI Controller, encrypts surveillance camera video data with Alice QUANTUM public key, and transmits it to 5G communication modem;
The 5G communication modem transmits the surveillance camera video data encrypted with the Alice QUANTUM public key to the QUANTUM 5G AP through the 5G LAN (Local Area Network) cell network that can communicate, but if communication with the QUANTUM 5G AP is not possible, it is sent to the 5G base station of the wireless network network. transmit;
When Bob 6G QUANTUM SERVER receives surveillance camera video data encrypted with Alice QUANTUM public key from QUANTUM 5G AP, Alice 6G QUANTUM SERVER through a wired network consisting of any one of QUANTUM CHANNEL, non-QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL sent to;
Alice 6G QUANTUM SERVER receives video data from the surveillance camera encrypted with the Alice QUANTUM public key from one or more of the wired network and the wireless network, and decrypts it with the Alice QUANTUM private key SMART QUANTUM G-Cloud autonomous driving using QUANTUM 5G AP Primary hybrid quantum communication system terminal.
It consists of QUANTUM COLLABO including quantum random number generator, self-driving car including surveillance camera and 5G communication modem, QUANTUM AP (Access Point), Alice 6G QUANTUM SERVER, Bob 6G QUANTUM SERVER;
5G communication modem is connected to Bob 6G QUANTUM SERVER through a wireless network through QUANTUM AP (Access Point); and
5G communication modem is connected to Alice 6G QUANTUM SERVER and wireless network through LPWAN (Low Power Wide Area Network) or LTE or LoRA or NB-IoT or any one of the 5G network networks through the wireless network network of the operator; and
Alice 6G QUANTUM SERVER and Bob 6G QUANTUM SERVER are connected through a wired network;
Features a QKD (Quantum Key Distribution) TLS (Transport Layer Security) system that selectively accesses wired/wireless networks and wireless networks of telecommunication service providers and encrypts/decrypts them with QUANTUM KEY using PUF and QRNG SoC chips according to data characteristics to,

QUANTUM COLLABO (QUANTUM encrypt Transport Layer Security protocol DEVICE) is an Eve quantum random number generator, 5G QUANTUM JUMP ENGINE, Boot Mode S/W (SWITCH), JTAG Connector, USB Connector, ETHERNET Connector, RESET S/W (SWITCH), LED, Consists of I/O Pin Header,
Eve Quantum Random Number Generator generates quantum random number through QRNG (Quantum Random Number Generator) SoC (System On Chip) Chip inside and transmits it to 5G QUANTUM JUMP ENGINE internal Security CPU;
Boot Mode S/W (SWITCH) is Boot Mode S/W (S/W) that boots the Boot-ROM through the SPI Controller inside 5G QUANTUM JUMP ENGINE, receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key, and transmits it to the 5G communication modem. SWITCH);
JTAG Connector is a Joint Test Action Group (JTAG) Connector that transmits output data or receives input data in a serial communication method for digital input/output, and inputs and outputs an autonomous vehicle operation program;
ETHERNET Connector is an input/output port for ETHERNET communication with an autonomous vehicle;
RESET S/W(SWITCH) is RESET S/W(SWITCH) initializing QUANTUM COLLABO;
Consists of power supply indicator LED and I/O Pin Header and USB Connector that communicates with each part of QUANTUM COLLABO;

Surveillance camera mounted inside autonomous vehicle, QUANTUM COLLABO, 5G communication modem; and
QUANTUM AP, Bob 6G QUANTUM SERVER installed outside the autonomous vehicle; and
It consists of Alice 6G QUANTUM SERVER connected to the wired/wireless network,

QUANTUM COLLABO internal 5G QUANTUM JUMP ENGINE consists of System Memory, PUF-PIN Memory, Security CPU, MCU, eve-PUF Chip, Security OTP Memory, Boot-ROM, SPI Controller;
5G QUANTUM JUMP ENGINE internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-PUF Chip, Security OTP Memory, Boot-ROM, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
MCU controls the Security CPU to extract Eve PIN data from the hardware pin of the eve-PUF Chip and store it in PUF-PIN Memory and Alice 6G QUANTUM SERVER. generate a key;

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU;
Security CPU generates Eve QUANTUM public key by performing beta-OR (EX-OR) encryption operation of Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed, and the quantum random number seed and Eve storing QUANTUM public key in Security OTP Memory and transmitting Eve QUANTUM public key to 5G communication modem;
5G communication modem transmits to Alice 6G QUANTUM SERVER through the 5G base station inside the wireless network;

Alice 6G QUANTUM SERVER is composed of Alice Quantum Random Number Generator and Alice PUF Chip inside,
Alice 6G QUANTUM SERVER extracts Alice PIN data from the hardware pin of Alice PUF Chip, stores it in QUANTUM COLLABO, and encrypts the Alice PIN data with a random number seed format function to generate the Alice QUANTUM private key; and
generating the Alice QUANTUM public key by performing an EX-OR encryption operation with the quantum random number seed that generated the quantum random number from the Alice quantum random number generator and the Alice QUANTUM private key;

Alice 6G QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored therein with the Eve QUANTUM public key received through the wireless network and retransmits it to the QUANTUM COLLABO through the wireless network; and
QUANTUM COLLABO internal MCU performs Eve PIN data encrypted with Eve QUANTUM public key and Alice QUANTUM public key with Eve QUANTUM private key with quantum random number seed stored in Security OTP Memory and beta-OR (EX-OR) decryption operation to reveal Alice QUANTUM decrypt and generate the key and Eve PIN data; and
If the decrypted Eve PIN data and the Eve PIN data extracted from the eve-PUF Chip match,
MCU boots Boot-ROM through SPI Controller, encrypts surveillance camera video data with Alice QUANTUM public key, and transmits it to 5G communication modem;
The 5G communication modem transmits the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key to the QUANTUM AP through the 5G LAN (Local Area Network) cell network that can communicate, but if communication with the QUANTUM AP is not possible, it is transmitted to the 5G base station of the wireless network network. ;
When Bob 6G QUANTUM SERVER receives surveillance camera video data encrypted with Alice QUANTUM public key from QUANTUM AP, it transmits it to Alice 6G QUANTUM SERVER through wired network;
Alice 6G QUANTUM SERVER is a SMART QUANTUM G-Cloud autonomous vehicle using QUANTUM AP that receives video data from a surveillance camera encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key from one or more of the wired network and the wireless network. Hybrid quantum communication system terminal.
Consists of QUANTUM COLLABO and self-driving cars including surveillance cameras and communication modems, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER;
It features a QKD (Quantum Key Distribution) TLS (Transport Layer Security) system that selectively connects wired/wireless own networks and wireless networks of telecommunication providers to encrypt/decrypt with QUANTUM KEY.
Surveillance camera, QUANTUM COLLABO, communication modem mounted inside an autonomous vehicle; and
QUANTUM AP, Bob QUANTUM SERVER installed outside the autonomous vehicle; and
It consists of Alice QUANTUM SERVER connected to the wired/wireless network,

QUANTUM COLLABO consists of Eve quantum random number generator and QUANTUM JUMP ENGINE,
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to QUANTUM JUMP ENGINE internal Security CPU;
QUANTUM JUMP ENGINE consists of System Memory, PUF-PIN Memory, Security CPU, MCU, eve-PUF Chip, Security OTP Memory, Boot-ROM, and SPI Controller;
QUANTUM JUMP ENGINE internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-PUF Chip, Security OTP Memory, Boot-ROM, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
MCU controls Security CPU to extract Eve PIN data from the hardware pin of eve-PUF Chip, store it in PUF-PIN Memory and Alice QUANTUM SERVER, and generate Eve QUANTUM private key with Eve PIN data as a random number seed;

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU;
Security CPU generates Eve QUANTUM public key by encrypting Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed, stores Eve QUANTUM public key in Security OTP Memory, and communicates Eve QUANTUM public key transmit by modem;
The communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the wireless base station inside the wireless network network of the operator;

Alice QUANTUM SERVER is composed of Alice quantum random number generator and Alice PUF Chip inside,
Alice QUANTUM SERVER extracts Alice PIN data from hardware pin of Alice PUF Chip, stores it in QUANTUM COLLABO, and generates Alice QUANTUM private key with Alice PIN data as a random number seed; and
generating an Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored therein with the Eve QUANTUM public key received through the wireless network of the telecommunication service provider, and retransmits it to the QUANTUM COLLABO through the wireless network of the carrier; and
QUANTUM COLLABO internal MCU decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the Eve PIN data extracted from the eve-PUF Chip match,
MCU boots Boot-ROM through SPI Controller, encrypts surveillance camera video data with Alice QUANTUM public key, and transmits it to communication modem;
The communication modem transmits the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key to the QUANTUM AP that can communicate, but when communication with the QUANTUM AP is not possible, it transmits it to the wireless base station of the wireless network network of the communication service provider;
When Bob QUANTUM SERVER receives the surveillance camera video data encrypted with the Alice QUANTUM public key from the QUANTUM AP, it transmits it to the Alice QUANTUM SERVER through the wired network;
Alice QUANTUM SERVER is a SMART QUANTUM G-Cloud autonomous vehicle hybrid using QUANTUM AP, which receives video data from a surveillance camera encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key from one or more of the wired network and the wireless network. Quantum communication system terminal.
It consists of QUANTUM COLLABO, surveillance camera, communication modem, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER,

QUANTUM COLLABO consists of Eve quantum random number generator and QUANTUM JUMP ENGINE,
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to QUANTUM JUMP ENGINE internal Security CPU;
QUANTUM JUMP ENGINE consists of System Memory, PUF-PIN Memory, Security CPU, MCU, eve-PUF Chip, Security OTP Memory, Boot-ROM, and SPI Controller;
QUANTUM JUMP ENGINE internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-PUF Chip, Security OTP Memory, Boot-ROM, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
MCU controls Security CPU to extract Eve PIN data from the hardware pin of eve-PUF Chip, store it in PUF-PIN Memory and Alice QUANTUM SERVER, and generate Eve QUANTUM private key with Eve PIN data;

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU;
The Security CPU generates an Eve QUANTUM public key by encrypting the Eve QUANTUM private key stored in the PUF-PIN Memory with the quantum random number, stores the Eve QUANTUM public key in the Security OTP Memory, and transmits the Eve QUANTUM public key to the communication modem;
The communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the wireless network of the carrier;

Alice QUANTUM SERVER is composed of Alice quantum random number generator and Alice PUF Chip inside,
The Alice QUANTUM SERVER extracts the Alice PIN data from the hardware pin of the Alice PUF Chip, stores it in the QUANTUM COLLABO, and generates the Alice QUANTUM private key with the Alice PIN data; and
encrypting the Alice QUANTUM private key with the quantum random number generated from the Alice quantum random number generator to generate the Alice QUANTUM public key;

Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored therein with the Eve QUANTUM public key received through the wireless network of the telecommunication service provider and retransmits it to the QUANTUM COLLABO through the wireless network of the carrier; and
QUANTUM COLLABO internal MCU decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the Eve PIN data extracted from the eve-PUF Chip match,
MCU boots Boot-ROM through SPI Controller, encrypts surveillance camera video data with Alice QUANTUM public key, and transmits it to communication modem;
The communication modem transmits the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key to the Bob QUANTUM SERVER through the QUANTUM AP of the wireless self-network network. transmit;
When Bob QUANTUM SERVER receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key from the QUANTUM AP, it transmits it to the Alice QUANTUM SERVER through the wired network;
Alice QUANTUM SERVER is a hybrid quantum communication system terminal using a QUANTUM AP that receives video data captured by a surveillance camera encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key from one or more of the wired self network and the wireless network of the telecommunication service provider.
It consists of QUANTUM COLLABO, surveillance camera, communication modem, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

QUANTUM COLLABO consists of Eve quantum random number generator and QUANTUM JUMP ENGINE,
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to QUANTUM JUMP ENGINE internal Security CPU;
QUANTUM JUMP ENGINE consists of System Memory, NFC Memory, Security CPU, MCU, eve-NFC Chip, Security OTP Memory, Boot-ROM, and SPI Controller;
QUANTUM JUMP ENGINE internal MCU controls System Memory, NFC Memory, Security CPU, eve-NFC Chip, Security OTP Memory, Boot-ROM, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
MCU controls Security CPU to extract Eve NFC data from eve-NFC Chip, store it in NFC Memory and Alice QUANTUM SERVER, and generate Eve QUANTUM private key with Eve NFC data;

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU;
The Security CPU generates an Eve QUANTUM public key by encrypting the Eve QUANTUM private key stored in the NFC Memory with the quantum random number, stores the Eve QUANTUM public key in the Security OTP Memory, and transmits the Eve QUANTUM public key to the communication modem;
The communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the wireless network of the carrier;

Alice QUANTUM SERVER is composed of Alice quantum random number generator and Alice NFC Chip inside,
Alice QUANTUM SERVER extracts Alice NFC data from Alice NFC Chip, stores it in QUANTUM COLLABO and generates Alice QUANTUM private key with Alice NFC data; and
encrypting the Alice QUANTUM private key with the quantum random number generated from the Alice quantum random number generator to generate the Alice QUANTUM public key;

Alice QUANTUM SERVER encrypts the Eve NFC data and Alice QUANTUM public key stored therein with the Eve QUANTUM public key received through the wireless network of the telecommunication service provider and retransmits it to the QUANTUM COLLABO through the wireless network of the carrier; and
QUANTUM COLLABO internal MCU decrypts the Eve NFC data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve NFC data; and
When the decrypted Eve NFC data and the Eve NFC data extracted from the eve-NFC Chip match,
MCU boots Boot-ROM through SPI Controller, encrypts surveillance camera video data with Alice QUANTUM public key, and transmits it to communication modem;
The communication modem transmits the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key to the Bob QUANTUM SERVER through the QUANTUM AP of the wireless self-network network. transmit;
When Bob QUANTUM SERVER receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key from the QUANTUM AP, it transmits it to the Alice QUANTUM SERVER through the wired network;
Alice QUANTUM SERVER is a hybrid quantum communication system terminal using a QUANTUM AP that receives video data captured by a surveillance camera encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key from one or more of the wired self network and the wireless network of the telecommunication service provider.
The terminal unit includes a sensor unit 46 , an AMI 47 , a switchboard 48 , a QUANTUM 5G AP 49 , a broadcasting device 50 , an emergency bell 51 , an LED street/security light 52 , a dimmer 53 . , is composed of a terminal SINGLE MODULE,
an AMI 47 that receives commercial power, measures power usage, and transmits power usage through an LPWAN (Low Power Wide Area Network) communication modem;
a switchboard (48) for supplying power to the LED street/security lights (52) via the AMI (47);
a dimmer 53 , QUANTUM 5G AP 49 , a broadcasting device 50 , and an emergency bell 51 attached to the LED street/security light 52 to receive power;
A broadcasting device 50 that receives and broadcasts broadcast data from any one of Master QUANTUM SERVER 61, Alice 6G QUANTUM SERVER 62, or Alice QUANTUM SERVER 63;
When the emergency bell 51 operates, the emergency bell operation event is transmitted to either the Master QUANTUM SERVER 61 or Alice 6G QUANTUM SERVER 62 or Alice QUANTUM SERVER 63 through the terminal SINGLE MODULE;
The sensor unit 46 transmits the data measured through the sensor to either the Master QUANTUM SERVER 61 or the Alice 6G QUANTUM SERVER 62 or the Alice QUANTUM SERVER 63 through the terminal SINGLE MODULE. ;
a dimmer 53 that adjusts the brightness of the LED street/security light 52 according to whether or not a human object is detected through the surveillance camera image analysis unit;
QUANTUM 5G AP (49) receives the video data captured by the surveillance camera and transmits it to either Master QUANTUM SERVER (61) or Alice 6G QUANTUM SERVER (62) or Alice QUANTUM SERVER (63) through a 5G wireless network base station. AP 49;
Terminal SINGLE MODULE and Alice 6G QUANTUM SERVER 62 store the same symmetric key of a symmetric cryptographic algorithm, so broadcast data, emergency bell operation event data, data measured through a sensor, measurement data, and sensor state Encrypt/decrypt information data, audio/video data, point/off data, surveillance camera control data, broadcasting device control data, and dimmer control data;
The surveillance camera is a UHD level crime prevention CCTV surveillance camera and consists of an optical unit, a driving unit, a main control unit, an image security processing unit, an image analysis unit, a network security processing unit, and an input/output unit
The optical unit includes a filter unit 10 , a filter driving motor 11 , a zoom lens 12 , a zoom motor 13 , a variable focus lens 14 , a focus motor 15 , and a focus lens 16 ;
The driving unit is composed of a motor driving drive 17 , a driving unit memory 18 , a driving unit control unit 19 , an RS-485 20 , a manual operation unit 21 , and a remote control unit 22 ;
The main control unit is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(Machine Control Unit)(27), PUF Chip(28), Security OTP Memory(30), It is composed of a Boot-ROM 31 and a Serial Peripheral Interface (SPI) Controller 32;
The image security processing unit is composed of an image sensor unit (33), 5G QUANTUM JUMP ENGINE (34), Quantum Entanglement (36), and Decoy Pulse (37);
The image analysis unit is composed of an image analysis module 38 , an object recognition module 39 , and a number recognition module 40 ;
The network security processing unit is composed of DEBUGGER (41), QUANTUM BLOCK CHAIN (42), and 1:N BLOCK CHAIN (43);

The filter unit 10 is composed of any one or more of an infrared filter, an ultraviolet filter, and an anti-reflective coating filter;
selecting one of the infrared filter, the ultraviolet filter, and the anti-reflection coating filter by driving the filter driving motor 11;
driving the zoom motor 13 for driving the zoom lens 12 to vary the zoom lens magnification;
a variable focus lens 14 and a focus motor 15 for driving the focus lens 16 to vary the focus focus;
The driving unit control unit 19 programmed by the input data input from RS-485 20 or the manual operation unit 21 or the remote control unit 22 transmits the input data to the driving unit memory 18 and the motor driving drive 17 . control to drive the filter driving motor 11 , the zoom motor 13 , and the focus motor 15 to collect optical signals and transmit them to the image pickup sensor unit 33 ;
The image sensor inside the image sensor unit 33 transmits the image data converted from the optical signal into an electric signal to the 5G QUANTUM JUMP ENGINE 34 and the image analysis module 38;
The image analysis module 38 receives the image data and extracts the object through the object recognition module 39. In the case of a vehicle, the vehicle license plate is converted into text through the number recognition module 40 among object data and object data. transmitted to the security processing unit QUANTUM BLOCK CHAIN (42);
QUANTUM BLOCK CHAIN 42 compares wanted vehicle license plate number data received from 1:N BLOCK CHAIN 43 connected to BLOCK CHAIN and generates a wanted vehicle event if it is a wanted vehicle;
The network security processing unit DEBUGGER 41 verifies a boot error when the main control unit Boot-ROM 31 first boots;

Sensing data collected from the sensor unit 46, measurement data measured from the AMI 47, switchboard status information data collected from one or more switchboards 48, audio/video data collected from one or more broadcasting devices 50, The LPWAN communication modem 66 collects the point/off data collected from the LED street/security light 52 and transmits it to the terminal SINGLE MODULE;
The terminal SINGLE MODULE transmits measurement data, sensor status information data, audio/video data, and on/off data to Bob 6G QUANTUM SERVER (55); and
Bob 6G QUANTUM SERVER (55) receives the surveillance camera control data or broadcasting device control data or dimmer control data from any one of Alice 6G QUANTUM SERVER (62), Alice QUANTUM SERVER (63), and Alice PUF-QRNG TWIN MODULE to the terminal transmitted to the secondary internal terminal SINGLE MODULE;
The terminal SINGLE MODULE receives surveillance camera control data from Bob 6G QUANTUM SERVER (55);
The LPWAN communication modem 66 performs data communication with the LPWAN terminal;
Main controller MCU(27) is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(27), PUF Chip(28), Security OTP Memory(30), Controls the Boot-ROM 31 and the SPI Controller 32;
The System Memory 24 is a System Memory in which the main control unit MCU 27 operating OS program is stored;
The MCU 27 controls the Security CPU 26 to extract PIN (Personal Identification Number) data from the hardware pin of the PUF Chip 28 and stores it in the PUF-PIN Memory 25 and Alice 6G QUANTUM SERVER 62 and;
the MCU 27 controls the TRNG 23 to generate and receive a natural random number and transmit it to the Security CPU 26;
Security CPU 26 formats PIN (Personal Identification Number) data stored in PUF-PIN Memory 25 with a fixed-length format function as a random number seed to form an asymmetric cryptographic algorithm PRIVATE KEY) and then perform an asymmetric cryptographic algorithm by encrypting an asymmetric private key (PRIVATE KEY) and a beta-OR (EX-OR) with the natural random number seed generated through the TRNG (23). Generates a public key (PUBLIC KEY) and stores it in the Security OTP Memory (30) and Alice 6G QUANTUM SERVER (62);

Bob 6G QUANTUM SERVER (55) receives PIN (Personal Identification Number) data encrypted with the public key from Alice 6G QUANTUM SERVER (62) through the non-QUANTUM CHANNEL (58) and transmits it to the MCU 27 through the input/output unit. ;
When the MCU 27 decrypts the private key and matches the PIN (Personal Identification Number) data stored in the PUF-PIN Memory 25, it boots the Boot-ROM 31 and controls the SPI Controller 32 to communicate with the surveillance camera. Alice 6G QUANTUM SERVER 62 and the login (LOG In) network connection to receive video data from 5G QUANTUM JUMP ENGINE 34 and transmit it to Alice 6G QUANTUM SERVER 62;

Alice PUF-QRNG TWIN MODULE and Bob PUF-QRNG TWIN MODULE are connected to the ISP (Internet Service Provider) operator network that does not form a quantum communication channel,
The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE boots through the Alice Boot-ROM connected to the Alice system bus, and accesses the program stored in the Alice system storage device (System M/M). Accordingly, by controlling the Alice serial peripheral interface (SPI Controller), the network network ON/OFF is controlled through the Alice input/output device (I/O Port), and the Alice public key received through the Alice security CPU (Security CPU) is transferred to Alice VPN. to Bob VPN inside Bob PUF-QRNG TWIN MODULE 57;
Bob PUF-QRNG TWIN MODULE (57) Bob main controller (MCU) inside the Bob boot ROM (Boot-ROM) connected to the Bob system bus (System Bus), and to the Bob system storage (System M/M) According to the stored program, it controls the Bob serial peripheral interface (SPI Controller) to control the network ON/OFF through the Bob I/O device (I/O Port), and the Bob public key received through the Bob Security CPU (Security CPU) is Send to Alice VPN inside Alice PUF-QRNG TWIN MODULE via Bob VPN;

Alice PUF-QRNG TWIN MODULE The Alice main controller (MCU) inside the Alice VPN uses the Bob public key received through Alice VPN to encrypt the Bob PIN data stored in the Alice PUF memory (PUF M/M), and returns the Alice KEY to Bob PUF through Alice VPN. - send to Bob VPN inside QRNG TWIN MODULE 57;
Bob's main controller (MCU) inside Bob PUF-QRNG TWIN MODULE(57) uses Alice's public key received through Bob VPN to send the encrypted Alice PIN data stored in Bob PUF memory (PUF M/M) to Bob VPN. through Alice PUF-QRNG TWIN MODULE to Alice VPN inside;

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE matches the Alice PIN data obtained by decrypting the Bob KEY encrypted with the Alice public key with the Alice private key and the Alice PIN data extracted from the Alice PUF Chip; and
The Bob main controller (MCU) inside the Bob PUF-QRNG TWIN MODULE (57) matches the Bob PIN data obtained by decrypting the Alice KEY encrypted with the Bob public key with the Bob private key and the Bob PIN data extracted from the Bob PUF Chip;

network login (LOG In) connection between the Alice master server (Alice MASTER SERVER) connected to the Alice PUF-QRNG TWIN MODULE and the Bob master server (Bob MASTER SERVER) connected to the Bob PUF-QRNG TWIN MODULE (57);

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE receives the quantum certificate (QC) from the Alice master server (Alice MASTER SERVER), encrypts it with the Bob public key, and then through the Alice VPN, the Bob PUF-QRNG TWIN MODULE (57). ) to the internal Bob VPN;
Bob main controller (MCU) inside Bob PUF-QRNG TWIN MODULE 57 decrypts the quantum certificate (QC) encrypted with the Bob public key received through Bob VPN with the Bob private key to decrypt the quantum certificate (QC);

Bob MASTER SERVER transmits the quantum certificate (QC) stored in the Bob Quantum Platform to the Bob Debugger (QC-DEBUGGER) inside the Bob PUF-QRNG TWIN MODULE 57;
Bob PUF-QRNG TWIN MODULE 57, the internal Bob main controller (MCU) transmits the quantum certificate (QC) received from the Alice master server (Alice MASTER SERVER) to the Bob debugger (QC-DEBUGGER);
Bob Debugger (QC-DEBUGGER) sends the I/O port when the quantum certificate (QC) received from Alice PUF-QRNG TWIN MODULE and the quantum certificate (QC) received from the Bob MASTER SERVER do not match. A hybrid quantum communication system terminal including a switchboard, a broadcasting device, a street/security light, and a CCTV surveillance camera terminal for crime prevention, characterized in that the OFF contact control blocks the network connection between the Alice master server and the Bob master server.
The terminal unit is composed of a broadcasting device 50 and a terminal SINGLE MODULE,
A broadcasting device 50 that receives and broadcasts broadcast data from any one of Master QUANTUM SERVER 61, Alice 6G QUANTUM SERVER 62, or Alice QUANTUM SERVER 63;
QUANTUM 5G AP (49) receives the video data captured by the surveillance camera and transmits it to either Master QUANTUM SERVER (61) or Alice 6G QUANTUM SERVER (62) or Alice QUANTUM SERVER (63) through a 5G wireless network base station. AP 49;
The surveillance camera is a UHD level crime prevention CCTV surveillance camera and consists of an optical unit, a driving unit, a main control unit, an image security processing unit, an image analysis unit, a network security processing unit, and an input/output unit
The optical unit includes a filter unit 10 , a filter driving motor 11 , a zoom lens 12 , a zoom motor 13 , a variable focus lens 14 , a focus motor 15 , and a focus lens 16 ;
The driving unit is composed of a motor driving drive 17 , a driving unit memory 18 , a driving unit control unit 19 , an RS-485 20 , a manual operation unit 21 , and a remote control unit 22 ;
The main control unit is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(Machine Control Unit)(27), PUF Chip(28), Security OTP Memory(30), It is composed of a Boot-ROM 31 and a Serial Peripheral Interface (SPI) Controller 32;
The image security processing unit is composed of an image sensor unit (33), 5G QUANTUM JUMP ENGINE (34), Quantum Entanglement (36), and Decoy Pulse (37);
The image analysis unit is composed of an image analysis module 38 , an object recognition module 39 , and a number recognition module 40 ;
The network security processing unit is composed of DEBUGGER (41), QUANTUM BLOCK CHAIN (42), and 1:N BLOCK CHAIN (43);

The filter unit 10 is composed of any one or more of an infrared filter, an ultraviolet filter, and an anti-reflective coating filter;
selecting one of the infrared filter, the ultraviolet filter, and the anti-reflection coating filter by driving the filter driving motor 11;
driving the zoom motor 13 for driving the zoom lens 12 to vary the zoom lens magnification;
a variable focus lens 14 and a focus motor 15 for driving the focus lens 16 to vary the focus focus;
The driving unit control unit 19 programmed by the input data input from RS-485 20 or the manual operation unit 21 or the remote control unit 22 transmits the input data to the driving unit memory 18 and the motor driving drive 17 . control to drive the filter driving motor 11 , the zoom motor 13 , and the focus motor 15 to collect optical signals and transmit them to the image pickup sensor unit 33 ;
The image sensor inside the image sensor unit 33 transmits the image data converted from the optical signal into an electric signal to the 5G QUANTUM JUMP ENGINE 34 and the image analysis module 38;
The image analysis module 38 receives the image data and extracts the object through the object recognition module 39. In the case of a vehicle, the vehicle license plate is converted into text through the number recognition module 40 among object data and object data. transmitted to the security processing unit QUANTUM BLOCK CHAIN (42);
QUANTUM BLOCK CHAIN 42 compares wanted vehicle license plate number data received from 1:N BLOCK CHAIN 43 connected to BLOCK CHAIN and generates a wanted vehicle event if it is a wanted vehicle;
The network security processing unit DEBUGGER 41 verifies a boot error when the main control unit Boot-ROM 31 first boots;

The LPWAN communication modem 66 collects the audio/video data collected from the broadcasting device 50 and transmits it to the terminal SINGLE MODULE;
The terminal SINGLE MODULE transmits audio/video data to Bob 6G QUANTUM SERVER 55; and
Bob 6G QUANTUM SERVER (55) receives the surveillance camera control data or broadcasting device control data from any one of Alice 6G QUANTUM SERVER (62), Alice QUANTUM SERVER (63), and Alice PUF-QRNG TWIN MODULE to receive the terminal internal terminal SINGLE Send to MODULE;
The terminal SINGLE MODULE receives surveillance camera control data from Bob 6G QUANTUM SERVER (55);
The LPWAN communication modem 66 performs data communication with the LPWAN terminal;
Main controller MCU(27) is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(27), PUF Chip(28), Security OTP Memory(30), Controls the Boot-ROM 31 and the SPI Controller 32;
The System Memory 24 is a System Memory in which the main control unit MCU 27 operating OS program is stored;
The MCU 27 controls the Security CPU 26 to extract PIN (Personal Identification Number) data from the hardware pin of the PUF Chip 28 and stores it in the PUF-PIN Memory 25 and Alice 6G QUANTUM SERVER 62 and;
the MCU 27 controls the TRNG 23 to generate and receive a natural random number and transmit it to the Security CPU 26;
Security CPU 26 generates a private key by formatting PIN (Personal Identification Number) data stored in PUF-PIN Memory 25 with a fixed-length format function as a random number seed, and then generated through the TRNG 23. A public key is generated by performing an EX-OR encryption operation with the private key using a natural random number seed and stored in the Security OTP Memory 30 and Alice 6G QUANTUM SERVER 62;

Bob 6G QUANTUM SERVER (55) receives PIN (Personal Identification Number) data encrypted with the public key from Alice 6G QUANTUM SERVER (62) through the non-QUANTUM CHANNEL (58) and transmits it to the MCU 27 through the input/output unit. ;
When the MCU 27 decrypts the private key and matches the PIN (Personal Identification Number) data stored in the PUF-PIN Memory 25, it boots the Boot-ROM 31 and controls the SPI Controller 32 to communicate with the surveillance camera. Alice 6G QUANTUM SERVER 62 and the login (LOG In) network connection to receive video data from 5G QUANTUM JUMP ENGINE 34 and transmit it to Alice 6G QUANTUM SERVER 62;

Alice PUF-QRNG TWIN MODULE and Bob PUF-QRNG TWIN MODULE are connected to the ISP (Internet Service Provider) operator network that does not form a quantum communication channel,
The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE boots through the Alice Boot-ROM connected to the Alice system bus, and accesses the program stored in the Alice system storage device (System M/M). Accordingly, by controlling the Alice serial peripheral interface (SPI Controller), the network network ON/OFF is controlled through the Alice input/output device (I/O Port), and the Alice public key received through the Alice security CPU (Security CPU) is transferred to Alice VPN. to Bob VPN inside Bob PUF-QRNG TWIN MODULE 57;
Bob PUF-QRNG TWIN MODULE (57) Bob main controller (MCU) inside the Bob boot ROM (Boot-ROM) connected to the Bob system bus (System Bus), and to the Bob system storage (System M/M) According to the stored program, it controls the Bob serial peripheral interface (SPI Controller) to control the network ON/OFF through the Bob I/O device (I/O Port), and the Bob public key received through the Bob Security CPU (Security CPU) is Send to Alice VPN inside Alice PUF-QRNG TWIN MODULE via Bob VPN;

Alice PUF-QRNG TWIN MODULE The Alice main controller (MCU) inside the Alice VPN uses the Bob public key received through Alice VPN to encrypt the Bob PIN data stored in the Alice PUF memory (PUF M/M), and returns the Alice KEY to Bob PUF through Alice VPN. - send to Bob VPN inside QRNG TWIN MODULE 57;
Bob's main controller (MCU) inside Bob PUF-QRNG TWIN MODULE(57) uses Alice's public key received through Bob VPN to send the encrypted Alice PIN data stored in Bob PUF memory (PUF M/M) to Bob VPN. through Alice PUF-QRNG TWIN MODULE to Alice VPN inside;

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE matches the Alice PIN data obtained by decrypting the Bob KEY encrypted with the Alice public key with the Alice private key and the Alice PIN data extracted from the Alice PUF Chip; and
The Bob main controller (MCU) inside the Bob PUF-QRNG TWIN MODULE (57) matches the Bob PIN data obtained by decrypting the Alice KEY encrypted with the Bob public key with the Bob private key and the Bob PIN data extracted from the Bob PUF Chip;

network login (LOG In) connection between the Alice master server (Alice MASTER SERVER) connected to the Alice PUF-QRNG TWIN MODULE and the Bob master server (Bob MASTER SERVER) connected to the Bob PUF-QRNG TWIN MODULE (57);

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE receives the quantum certificate (QC) from the Alice master server (Alice MASTER SERVER), encrypts it with the Bob public key, and then through the Alice VPN, the Bob PUF-QRNG TWIN MODULE (57). ) to the internal Bob VPN;
Bob main controller (MCU) inside Bob PUF-QRNG TWIN MODULE 57 decrypts the quantum certificate (QC) encrypted with the Bob public key received through Bob VPN with the Bob private key to decrypt the quantum certificate (QC);

Bob MASTER SERVER transmits the quantum certificate (QC) stored in the Bob Quantum Platform to the Bob Debugger (QC-DEBUGGER) inside the Bob PUF-QRNG TWIN MODULE 57;
Bob PUF-QRNG TWIN MODULE 57, the internal Bob main controller (MCU) transmits the quantum certificate (QC) received from the Alice master server (Alice MASTER SERVER) to the Bob debugger (QC-DEBUGGER);
Bob Debugger (QC-DEBUGGER) uses the I/O port when the quantum certificate (QC) received from Alice PUF-QRNG TWIN MODULE and the quantum certificate (QC) received from the Bob master server (Bob MASTER SERVER) do not match. A hybrid quantum communication system terminal comprising a broadcasting device terminal, characterized in that the OFF contact control blocks the network connection between the Alice master server and the Bob master server.
The terminal part is composed of LED street/security light (52), AMI (47), dimmer (53), and terminal single module
an AMI 47 that receives commercial power, measures power usage, and transmits power usage through an LPWAN communication modem;
a dimmer 53 that adjusts the brightness of the LED street/security light 52 according to whether or not a human object is detected through the surveillance camera image analysis unit;

The surveillance camera is a UHD level crime prevention CCTV surveillance camera and consists of an optical unit, a driving unit, a main control unit, an image security processing unit, an image analysis unit, a network security processing unit, and an input/output unit
The optical unit includes a filter unit 10 , a filter driving motor 11 , a zoom lens 12 , a zoom motor 13 , a variable focus lens 14 , a focus motor 15 , and a focus lens 16 ;
The driving unit is composed of a motor driving drive 17 , a driving unit memory 18 , a driving unit control unit 19 , an RS-485 20 , a manual operation unit 21 , and a remote control unit 22 ;
The main control unit is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(Machine Control Unit)(27), PUF Chip(28), Security OTP Memory(30), It is composed of a Boot-ROM 31 and a Serial Peripheral Interface (SPI) Controller 32;
The image security processing unit is composed of an image sensor unit (33), 5G QUANTUM JUMP ENGINE (34), Quantum Entanglement (36), and Decoy Pulse (37);
The image analysis unit is composed of an image analysis module 38 , an object recognition module 39 , and a number recognition module 40 ;
The network security processing unit is composed of DEBUGGER (41), QUANTUM BLOCK CHAIN (42), and 1:N BLOCK CHAIN (43);

The filter unit 10 is composed of any one or more of an infrared filter, an ultraviolet filter, and an anti-reflective coating filter;
selecting one of the infrared filter, the ultraviolet filter, and the anti-reflection coating filter by driving the filter driving motor 11;
driving the zoom motor 13 for driving the zoom lens 12 to vary the zoom lens magnification;
a variable focus lens 14 and a focus motor 15 for driving the focus lens 16 to vary the focus focus;
The driving unit control unit 19 programmed by the input data input from RS-485 20 or the manual operation unit 21 or the remote control unit 22 transmits the input data to the driving unit memory 18 and the motor driving drive 17 . control to drive the filter driving motor 11 , the zoom motor 13 , and the focus motor 15 to collect optical signals and transmit them to the image pickup sensor unit 33 ;
The image sensor inside the image sensor unit 33 transmits the image data converted from the optical signal into an electric signal to the 5G QUANTUM JUMP ENGINE 34 and the image analysis module 38;
The image analysis module 38 receives the image data and extracts the object through the object recognition module 39. In the case of a vehicle, the vehicle license plate is converted into text through the number recognition module 40 among object data and object data. transmitted to the security processing unit QUANTUM BLOCK CHAIN (42);
QUANTUM BLOCK CHAIN 42 compares wanted vehicle license plate number data received from 1:N BLOCK CHAIN 43 connected to BLOCK CHAIN and generates a wanted vehicle event if it is a wanted vehicle;
The network security processing unit DEBUGGER 41 verifies a boot error when the main control unit Boot-ROM 31 first boots;

The measurement data measured from the AMI 47 and the point/off data collected from the LED street/security light 52 are collected by the LPWAN communication modem 66 and transmitted to the terminal SINGLE MODULE;
The terminal SINGLE MODULE transmits on/off data to Bob 6G QUANTUM SERVER 55; and
Bob 6G QUANTUM SERVER (55) receives surveillance camera control data or dimmer control data from any one of Alice 6G QUANTUM SERVER (62), Alice QUANTUM SERVER (63), and Alice PUF-QRNG TWIN MODULE to receive the terminal internal terminal SINGLE MODULE sent to;
The terminal SINGLE MODULE receives surveillance camera control data from Bob 6G QUANTUM SERVER (55);
The LPWAN communication modem 66 performs data communication with the LPWAN terminal;
Main controller MCU(27) is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(27), PUF Chip(28), Security OTP Memory(30), Controls the Boot-ROM 31 and the SPI Controller 32;
The System Memory 24 is a System Memory in which the main control unit MCU 27 operating OS program is stored;
The MCU 27 controls the Security CPU 26 to extract PIN (Personal Identification Number) data from the hardware pin of the PUF Chip 28 and stores it in the PUF-PIN Memory 25 and Alice 6G QUANTUM SERVER 62 and;
the MCU 27 controls the TRNG 23 to generate and receive a natural random number and transmit it to the Security CPU 26;
Security CPU 26 generates a private key by formatting PIN (Personal Identification Number) data stored in PUF-PIN Memory 25 with a fixed-length format function as a random number seed, and then generated through the TRNG 23. A public key is generated by performing an EX-OR encryption operation with the private key using a natural random number seed and stored in the Security OTP Memory 30 and Alice 6G QUANTUM SERVER 62;

Bob 6G QUANTUM SERVER (55) receives PIN (Personal Identification Number) data encrypted with the public key from Alice 6G QUANTUM SERVER (62) through the non-QUANTUM CHANNEL (58) and transmits it to the MCU 27 through the input/output unit. ;
When the MCU 27 decrypts the private key and matches the PIN (Personal Identification Number) data stored in the PUF-PIN Memory 25, it boots the Boot-ROM 31 and controls the SPI Controller 32 to communicate with the surveillance camera. Alice 6G QUANTUM SERVER 62 and the login (LOG In) network connection to receive video data from 5G QUANTUM JUMP ENGINE 34 and transmit it to Alice 6G QUANTUM SERVER 62;

Alice PUF-QRNG TWIN MODULE and Bob PUF-QRNG TWIN MODULE are connected to the ISP (Internet Service Provider) operator network that does not form a quantum communication channel,
The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE boots through the Alice Boot-ROM connected to the Alice system bus, and accesses the program stored in the Alice system storage device (System M/M). Accordingly, by controlling the Alice serial peripheral interface (SPI Controller), the network network ON/OFF is controlled through the Alice input/output device (I/O Port), and the Alice public key received through the Alice security CPU (Security CPU) is transferred to Alice VPN. to Bob VPN inside Bob PUF-QRNG TWIN MODULE 57;
Bob PUF-QRNG TWIN MODULE (57) Bob main controller (MCU) inside the Bob boot ROM (Boot-ROM) connected to the Bob system bus (System Bus), and to the Bob system storage (System M/M) According to the stored program, it controls the Bob serial peripheral interface (SPI Controller) to control the network ON/OFF through the Bob I/O device (I/O Port), and the Bob public key received through the Bob Security CPU (Security CPU) is Send to Alice VPN inside Alice PUF-QRNG TWIN MODULE via Bob VPN;

Alice PUF-QRNG TWIN MODULE The Alice main controller (MCU) inside the Alice VPN uses the Bob public key received through Alice VPN to encrypt the Bob PIN data stored in the Alice PUF memory (PUF M/M), and returns the Alice KEY to Bob PUF through Alice VPN. - send to Bob VPN inside QRNG TWIN MODULE 57;
Bob's main controller (MCU) inside Bob PUF-QRNG TWIN MODULE(57) uses Alice's public key received through Bob VPN to send the encrypted Alice PIN data stored in Bob PUF memory (PUF M/M) to Bob VPN. through Alice PUF-QRNG TWIN MODULE to Alice VPN inside;

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE matches the Alice PIN data obtained by decrypting the Bob KEY encrypted with the Alice public key with the Alice private key and the Alice PIN data extracted from the Alice PUF Chip; and
The Bob main controller (MCU) inside the Bob PUF-QRNG TWIN MODULE (57) matches the Bob PIN data obtained by decrypting the Alice KEY encrypted with the Bob public key with the Bob private key and the Bob PIN data extracted from the Bob PUF Chip;

network login (LOG In) connection between the Alice master server (Alice MASTER SERVER) connected to the Alice PUF-QRNG TWIN MODULE and the Bob master server (Bob MASTER SERVER) connected to the Bob PUF-QRNG TWIN MODULE (57);

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE receives the quantum certificate (QC) from the Alice master server (Alice MASTER SERVER), encrypts it with the Bob public key, and then through the Alice VPN, the Bob PUF-QRNG TWIN MODULE (57). ) to the internal Bob VPN;
Bob main controller (MCU) inside Bob PUF-QRNG TWIN MODULE 57 decrypts the quantum certificate (QC) encrypted with the Bob public key received through Bob VPN with the Bob private key to decrypt the quantum certificate (QC);

Bob MASTER SERVER transmits the quantum certificate (QC) stored in the Bob Quantum Platform to the Bob Debugger (QC-DEBUGGER) inside the Bob PUF-QRNG TWIN MODULE 57;
Bob PUF-QRNG TWIN MODULE 57, the internal Bob main controller (MCU) transmits the quantum certificate (QC) received from the Alice master server (Alice MASTER SERVER) to the Bob debugger (QC-DEBUGGER);
Bob Debugger (QC-DEBUGGER) uses the I/O port when the quantum certificate (QC) received from Alice PUF-QRNG TWIN MODULE and the quantum certificate (QC) received from the Bob master server (Bob MASTER SERVER) do not match. A hybrid quantum communication system terminal including a street/security light terminal, characterized in that the OFF contact control blocks the network connection between the Alice master server and the Bob master server.
The terminal switchboard 48 includes a sensor unit 46, an AMI 47, a QUANTUM 5G AP 49, a broadcasting device 50, an emergency bell 51, a dimmer 53, and a terminal SINGLE MODULE. ,
The AMI 47 inside the switchboard 48 is an AMI 47 that receives commercial power, measures the power usage, and transmits the power usage through the LPWAN communication modem;
The switchboard 48 supplies power to the LED street/security light 52 via the AMI 47 therein;
The broadcasting device 50 inside the switchboard 48 is a broadcasting device that the terminal SINGLE MODULE receives and broadcasts broadcasting data from any one of Master QUANTUM SERVER 61, Alice 6G QUANTUM SERVER 62, or Alice QUANTUM SERVER 63 (50);
When the emergency bell 51 operates, the switchboard 48 transmits an emergency bell operation event to either the Master QUANTUM SERVER 61 or Alice 6G QUANTUM SERVER 62 or Alice QUANTUM SERVER 63 through the terminal SINGLE MODULE. (51);
The sensor unit 46 inside the switchboard 48 transmits the data measured through the sensor to either the Master QUANTUM SERVER 61 or the Alice 6G QUANTUM SERVER 62 or the Alice QUANTUM SERVER 63 through the terminal SINGLE MODULE. a sensor unit 46;
The dimmer 53 inside the switchboard 48 is a dimmer 53 that adjusts the brightness of the LED street/security light 52 according to whether or not a human object is detected through the surveillance camera image analysis unit;
QUANTUM 5G AP (49) receives the video data captured by the surveillance camera and transmits it to either Master QUANTUM SERVER (61) or Alice 6G QUANTUM SERVER (62) or Alice QUANTUM SERVER (63) through a 5G wireless network base station. AP 49;

The surveillance camera is a UHD level crime prevention CCTV surveillance camera and consists of an optical unit, a driving unit, a main control unit, an image security processing unit, an image analysis unit, a network security processing unit, and an input/output unit
The optical unit includes a filter unit 10 , a filter driving motor 11 , a zoom lens 12 , a zoom motor 13 , a variable focus lens 14 , a focus motor 15 , and a focus lens 16 ;
The driving unit is composed of a motor driving drive 17 , a driving unit memory 18 , a driving unit control unit 19 , an RS-485 20 , a manual operation unit 21 , and a remote control unit 22 ;
The main control unit is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(Machine Control Unit)(27), PUF Chip(28), Security OTP Memory(30), It is composed of a Boot-ROM 31 and a Serial Peripheral Interface (SPI) Controller 32;
The image security processing unit is composed of an image sensor unit (33), 5G QUANTUM JUMP ENGINE (34), Quantum Entanglement (36), and Decoy Pulse (37);
The image analysis unit is composed of an image analysis module 38 , an object recognition module 39 , and a number recognition module 40 ;
The network security processing unit is composed of DEBUGGER (41), QUANTUM BLOCK CHAIN (42), and 1:N BLOCK CHAIN (43);

The filter unit 10 is composed of any one or more of an infrared filter, an ultraviolet filter, and an anti-reflective coating filter;
selecting one of the infrared filter, the ultraviolet filter, and the anti-reflection coating filter by driving the filter driving motor 11;
driving the zoom motor 13 for driving the zoom lens 12 to vary the zoom lens magnification;
a variable focus lens 14 and a focus motor 15 for driving the focus lens 16 to vary the focus focus;
The driving unit control unit 19 programmed by the input data input from RS-485 20 or the manual operation unit 21 or the remote control unit 22 transmits the input data to the driving unit memory 18 and the motor driving drive 17 . control to drive the filter driving motor 11 , the zoom motor 13 , and the focus motor 15 to collect optical signals and transmit them to the image pickup sensor unit 33 ;
The image sensor inside the image sensor unit 33 transmits the image data converted from the optical signal into an electric signal to the 5G QUANTUM JUMP ENGINE 34 and the image analysis module 38;
The image analysis module 38 receives the image data and extracts the object through the object recognition module 39. In the case of a vehicle, the vehicle license plate is converted into text through the number recognition module 40 among object data and object data. transmitted to the security processing unit QUANTUM BLOCK CHAIN (42);
QUANTUM BLOCK CHAIN 42 compares wanted vehicle license plate number data received from 1:N BLOCK CHAIN 43 connected to BLOCK CHAIN and generates a wanted vehicle event if it is a wanted vehicle;
The network security processing unit DEBUGGER 41 verifies a boot error when the main control unit Boot-ROM 31 first boots;

Sensing data collected from the sensor unit 46, measurement data measured from the AMI 47, switchboard status information data collected from one or more switchboards 48, audio/video data collected from one or more broadcasting devices 50, The LPWAN communication modem 66 collects the point/off data collected from the LED street/security light 52 and transmits it to the terminal SINGLE MODULE;
The terminal SINGLE MODULE transmits measurement data, sensor status information data, audio/video data, and on/off data to Bob 6G QUANTUM SERVER (55); and
Bob 6G QUANTUM SERVER (55) receives the surveillance camera control data or broadcasting device control data or dimmer control data from any one of Alice 6G QUANTUM SERVER (62), Alice QUANTUM SERVER (63), and Alice PUF-QRNG TWIN MODULE to the terminal transmitted to the secondary internal terminal SINGLE MODULE;
The terminal SINGLE MODULE receives surveillance camera control data from Bob 6G QUANTUM SERVER (55);
The LPWAN communication modem 66 performs data communication with the LPWAN terminal;
Main controller MCU(27) is TRNG(23), System Memory(24), PUF-PIN Memory(25), Security CPU(26), MCU(27), PUF Chip(28), Security OTP Memory(30), Controls the Boot-ROM 31 and the SPI Controller 32;
The System Memory 24 is a System Memory in which the main control unit MCU 27 operating OS program is stored;
The MCU 27 controls the Security CPU 26 to extract PIN (Personal Identification Number) data from the hardware pin of the PUF Chip 28 and stores it in the PUF-PIN Memory 25 and Alice 6G QUANTUM SERVER 62 and;
the MCU 27 controls the TRNG 23 to generate and receive a natural random number and transmit it to the Security CPU 26;
Security CPU 26 generates a private key by formatting PIN (Personal Identification Number) data stored in PUF-PIN Memory 25 with a fixed-length format function as a random number seed, and then generated through the TRNG 23. A public key is generated by performing an EX-OR encryption operation with the private key using a natural random number seed and stored in the Security OTP Memory 30 and Alice 6G QUANTUM SERVER 62;

Bob 6G QUANTUM SERVER (55) receives PIN (Personal Identification Number) data encrypted with the public key from Alice 6G QUANTUM SERVER (62) through the non-QUANTUM CHANNEL (58) and transmits it to the MCU 27 through the input/output unit. ;
When the MCU 27 decrypts the private key and matches the PIN (Personal Identification Number) data stored in the PUF-PIN Memory 25, it boots the Boot-ROM 31 and controls the SPI Controller 32 to communicate with the surveillance camera. Alice 6G QUANTUM SERVER 62 and the login (LOG In) network connection to receive video data from 5G QUANTUM JUMP ENGINE 34 and transmit it to Alice 6G QUANTUM SERVER 62;

Alice PUF-QRNG TWIN MODULE and Bob PUF-QRNG TWIN MODULE are connected to the ISP (Internet Service Provider) operator network that does not form a quantum communication channel,
The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE boots through the Alice Boot-ROM connected to the Alice system bus, and accesses the program stored in the Alice system storage device (System M/M). Accordingly, by controlling the Alice serial peripheral interface (SPI Controller), the network network ON/OFF is controlled through the Alice input/output device (I/O Port), and the Alice public key received through the Alice security CPU (Security CPU) is transferred to Alice VPN. to Bob VPN inside Bob PUF-QRNG TWIN MODULE 57;
Bob PUF-QRNG TWIN MODULE (57) Bob main controller (MCU) inside the Bob boot ROM (Boot-ROM) connected to the Bob system bus (System Bus), and to the Bob system storage (System M/M) According to the stored program, it controls the Bob serial peripheral interface (SPI Controller) to control the network ON/OFF through the Bob I/O device (I/O Port), and the Bob public key received through the Bob Security CPU (Security CPU) is Send to Alice VPN inside Alice PUF-QRNG TWIN MODULE via Bob VPN;

Alice PUF-QRNG TWIN MODULE The Alice main controller (MCU) inside the Alice VPN uses the Bob public key received through Alice VPN to encrypt the Bob PIN data stored in the Alice PUF memory (PUF M/M), and returns the Alice KEY to Bob PUF through Alice VPN. - send to Bob VPN inside QRNG TWIN MODULE 57;
Bob's main controller (MCU) inside Bob PUF-QRNG TWIN MODULE(57) uses Alice's public key received through Bob VPN to send the encrypted Alice PIN data stored in Bob PUF memory (PUF M/M) to Bob VPN. through Alice PUF-QRNG TWIN MODULE to Alice VPN inside;

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE matches the Alice PIN data obtained by decrypting the Bob KEY encrypted with the Alice public key with the Alice private key and the Alice PIN data extracted from the Alice PUF Chip; and
The Bob main controller (MCU) inside the Bob PUF-QRNG TWIN MODULE (57) matches the Bob PIN data obtained by decrypting the Alice KEY encrypted with the Bob public key with the Bob private key and the Bob PIN data extracted from the Bob PUF Chip;

network login (LOG In) connection between the Alice master server (Alice MASTER SERVER) connected to the Alice PUF-QRNG TWIN MODULE and the Bob master server (Bob MASTER SERVER) connected to the Bob PUF-QRNG TWIN MODULE (57);

The Alice main controller (MCU) inside the Alice PUF-QRNG TWIN MODULE receives the quantum certificate (QC) from the Alice master server (Alice MASTER SERVER), encrypts it with the Bob public key, and then through the Alice VPN, the Bob PUF-QRNG TWIN MODULE (57). ) to the internal Bob VPN;
Bob main controller (MCU) inside Bob PUF-QRNG TWIN MODULE 57 decrypts the quantum certificate (QC) encrypted with the Bob public key received through Bob VPN with the Bob private key to decrypt the quantum certificate (QC);

Bob MASTER SERVER transmits the quantum certificate (QC) stored in the Bob Quantum Platform to the Bob Debugger (QC-DEBUGGER) inside the Bob PUF-QRNG TWIN MODULE 57;
Bob PUF-QRNG TWIN MODULE 57, the internal Bob main controller (MCU) transmits the quantum certificate (QC) received from the Alice master server (Alice MASTER SERVER) to the Bob debugger (QC-DEBUGGER);
Bob Debugger (QC-DEBUGGER) uses the I/O port when the quantum certificate (QC) received from Alice PUF-QRNG TWIN MODULE and the quantum certificate (QC) received from the Bob master server (Bob MASTER SERVER) do not match. A hybrid quantum communication system terminal including a switchboard terminal, characterized in that the OFF contact control blocks the network connection between the Alice master server and the Bob master server.
Closed Circuit Camera, QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, QUANTUM DUAL AP (Access Point), network separation server, quantum smartphone, NFC Tag, police-APP, SK Telecom’s telecommunication service provider LoRA wireless network, SK It consists of a telecom quantum authentication server,
Alice QUANTUM SERVER generates the first quantum random number through the Alice Quantum Random Number Generator (QRNG) inside, and generates the QUANTUM symmetric key of the symmetric cryptographic algorithm to create the QUANTUM COLLABO internal PUF-PIN Memory and Alice It is stored in QUANTUM SERVER and encrypted/decrypted data is communicated between QUANTUM COLLABO and Alice QUANTUM SERVER after logging in (Log In) and then encrypting/decrypting image data with QUANTUM symmetric key.

(Integrated Crime Prevention Center)
Alice QUANTUM SERVER inside the integrated crime prevention center is connected to the SK Telecom quantum authentication server through any one of SK Telecom's 3G, 4G, 5G, and LoRA wireless networks;
The network separation server inside the integrated crime prevention center is composed of an internal network main board and an external network main board. The internal network main board receives video data from Alice QUANTUM SERVER and transmits only the video data in one direction to the external network main board;

(School Zone Control)
The closed enclosure includes a remote locking device and a door open sensor, and the closed enclosure door open sensor detection data is transmitted to Alice QUANTUM SERVER through Bob QUANTUM SERVER, and Alice QUANTUM SERVER controls the remote locking device to remotely open the enclosed enclosure;
It consists of Bob QUANTUM SERVER, CC certified VPN, and QUANTUM DUAL AP (Access Point) inside a closed enclosure.
Bob QUANTUM SERVER is connected to Alice QUANTUM SERVER through one of the wired networks of non-QUANTUM CHANNEL through CC-certified VPN, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL through PUF-QRNG TWIN USB;

(School zone terminal)
The terminal part consists of a closed circuit camera, a multi-communication modem, and a QUANTUM COLLABO.
The surveillance camera is a surveillance camera equipped with either a PUF-TRNG SoC (System on Chip) or an eFUSE-TRNG SoC (System on Chip) security chip;
QUANTUM COLLABO controls surveillance cameras;
QUANTUM COLLABO selectively selects unlicensed frequency closed wireless self-network or licensed frequency SK Telecom carrier LoRA wireless network network through QUANTUM AC (Access Controller) in data transmission/reception,
QUANTUM COLLABO controls QUANTUM AC (Access Controller) and is connected to Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems;
QUANTUM COLLABO controls QUANTUM AC (Access Controller) and is connected to Alice QUANTUM SERVER through SK Telecom quantum authentication server authentication connected to the licensed frequency SK Telecom carrier LoRA wireless network through the licensed frequency modem among multi-communication modems;

(System Combine - Log In)
QUANTUM COLLABO consists of QUANTUM AC (Access Controller), Eve quantum random number generator, and Encrypt TLS (Transport Layer Security protocol) MODULE,
Encrypt TLS MODULE consists of System Memory, PUF-PIN Memory, Security CPU, MCU (Main Control Unit), eve-NFC Chip, NFC Reader, Security OTP Memory, Boot-ROM, SPI Controller;
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE internal Security CPU;
Encrypt TLS MODULE Internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-NFC Chip, NFC Reader, Security OTP Memory, Boot-ROM, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
The MCU controls the Security CPU and the NFC Reader receives the Eve PIN data stored in the eve-NFC Chip through contactless near field communication, stores it in the PUF-PIN memory, and then converts the Eve PIN data as a random number seed. generate an asymmetric cryptographic algorithm Eve QUANTUM PRIVATE KEY;
The eve-NFC Chip is one of the Physically Unclonable Functions (PUFs) that are replaced during monthly periodic inspections. It inputs Eve PIN data through NFC Writer and stores Eve PIN data in Alice QUANTUM SERVER;
MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU;
Security CPU performs beta-OR (EX-OR) encryption operation of the Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed. OTP (One Time Password) asymmetric cryptographic algorithm Eve QUANTUM generating a public key (PUBLIC KEY), storing the Eve QUANTUM public key in a Security One Time Password (OTP) memory, and transmitting the Eve QUANTUM public key to the QUANTUM Access Controller (QUANTUM AC);
QUANTUM AC (Access Controller) transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the SK Telecom quantum authentication server authentication connected to the licensed frequency SK Telecom carrier LoRA wireless network through the licensed frequency modem among the multi-communication modems;

Alice QUANTUM SERVER is configured by including Alice Pseudo Random Number Generator (PRNG) and Alice Quantum Random Number Generator (QRNG) inside,
Alice QUANTUM SERVER generates Alice PIN data with the Alice pseudo-random number seed generated through the Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and uses the Alice PIN data generated with Alice pseudo-random number seed as a random number seed. to generate the Alice QUANTUM private key; and
generating the Alice QUANTUM public key by performing an EX-OR encryption operation on the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the SK Telecom carrier LoRA wireless network network, and licenses the licensed frequency with the SK Telecom carrier LoRA wireless network or wired network network and unlicensed. retransmit to QUANTUM COLLABO over a closed-frequency radio network; and
QUANTUM COLLABO internal MCU decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the Eve PIN data extracted from the eve-NFC chip match,
MCU boots Boot-ROM through SPI Controller to control QUANTUM AC (Access Controller), and Bob QUANTUM through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems SERVER and network network login (Log In) connection;

(System Combine - DATA Transmission)
QUANTUM AC (Access Controller) transmits video data captured by surveillance camera encrypted with QUANTUM symmetric key through QUANTUM DUAL AP to Bob QUANTUM SERVER logged in to network network,
If communication with QUANTUM DUAL AP is not possible, it is transmitted to Alice QUANTUM SERVER through any one of the 3G, 4G, or 5G wireless networks of SK Telecom's licensed frequency network through licensed frequency modems among multi-communication modems;
When Bob QUANTUM SERVER receives surveillance camera video data encrypted with QUANTUM symmetric key from QUANTUM DUAL AP,
transmitted to Alice QUANTUM SERVER through any one of non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL wired networks;
Alice QUANTUM SERVER receives the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key from at least one of the wired network and the wireless network, and decrypts it with the QUANTUM symmetric key;

(How to combine key component systems)
QUANTUM AC (Access Controller) inside QUANTUM COLLABO sends the Alice QUANTUM public key to the wireless network network through any one of SK Telecom’s telecom operator’s 3G licensed frequency modem, 4G licensed frequency modem, 5G licensed frequency modem, and LoRA modem. to Alice QUANTUM SERVER; and
It transmits the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key to the QUANTUM DUAL AP through the unlicensed frequency modem, which has the fastest communication speed among low frequency or high frequency that can be communicated.
QUANTUM DUAL AP is capable of dual transmission and reception of 2.4GHz Low Frequency and 5GHz High Frequency. It selects Low Frequency or High Frequency for data transmission according to the communication environment according to obstacles. Before data transmission, QUANTUM AC (Access Controller) and QUANTUM DUAL AP conducts Low Frequency and High Frequency PING tests, selects a frequency with a fast response speed, encrypts large-capacity image data with QUANTUM symmetric key and transmits them to enhance security, improves communication speed and reduces communication charges. Hybrid-QUANTUM CHANNEL One-Way- Features a Ring Network;

(Quantum smartphone service for police work)
It consists of a QRNG SoChip quantum random number generator mounted inside a quantum smartphone to which the police-APP for police work certified by SK Telecom quantum authentication server has been uploaded, and an NFC Tag pseudo random number generator on the outside.
NFC Tag pseudo random number generator stores OTP (One Time Password) pseudo random number through NFC Writer and stores the same OTP (One Time Password) pseudo random number in Alice QUANTUM SERVER;

When the quantum smartphone connects to the external network main board in Alice QUANTUM SERVER,
The Alice QUANTUM SERVER generates Alice PIN data with the Alice pseudo-random number seed generated through the Alice pseudo-random number generator, and generates the Alice QUANTUM private key with the Alice PIN data as the random number seed; And
Generates the Alice QUANTUM public key by performing an EX-OR encryption operation on the Alice QUANTUM private key with the quantum random number seed that generates the quantum random number from the Alice quantum random number generator; and
When the Alice QUANTUM public key is transmitted to the quantum smartphone, the quantum smartphone encrypts and retransmits the OTP (One Time Password) pseudo-random number generated by tagging the NFC Tag to the quantum smartphone NFC chip with the Alice QUANTUM public key; And
Alice QUANTUM SERVER decrypts the OTP (One Time Password) pseudo-random number encrypted with the Alice QUANTUM public key with the QUANTUM private key, and if it matches the stored OTP (One Time Password) pseudo-random number, the video data captured by the surveillance camera is transmitted to the through the board to the external network main board; and
Quantum smart phone connects to an external network main board and logs in the OTP (One Time Password) pseudo-random number as the quantum smart phone MAC Address as the ID as the One-Time Password to receive the image data. terminal.
Surveillance Camera (Closed Circuit Camera), QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, QUANTUM DUAL AP (Access Point), wireless network of telecommunication service providers, self-wired network, and closed wireless self-network.
Alice QUANTUM SERVER generates the first quantum random number through the Alice Quantum Random Number Generator (QRNG) inside, and generates the QUANTUM symmetric key of the symmetric cryptographic algorithm to create the QUANTUM COLLABO internal PUF-PIN Memory and Alice It is stored in QUANTUM SERVER and encrypted/decrypted data is communicated between QUANTUM COLLABO and Alice QUANTUM SERVER after logging in (Log In) and then encrypting/decrypting image data with QUANTUM symmetric key.

Alice QUANTUM SERVER connects to QUANTUM COLLABO through the wireless network network of the telecommunication service provider; and
Alice QUANTUM SERVER connects to Bob QUANTUM SERVER and Bob QUANTUM SERVER through any one of non-QUANTUM CHANNEL or BB84 QUANTUM CHANNEL or hybrid-QUANTUM CHANNEL via PUF-QRNG TWIN USB via CC-certified VPN's own wired network; and
Bob QUANTUM SERVER is connected to QUANTUM COLLABO through a QUANTUM DUAL AP (Access Point) through a closed wireless network;

QUANTUM COLLABO selectively selects unlicensed frequency closed wireless self-network or licensed frequency carrier wireless network network through QUANTUM AC (Access Controller) in data transmission/reception,
QUANTUM COLLABO controls QUANTUM AC (Access Controller) and is connected to Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems;
QUANTUM COLLABO controls QUANTUM AC (Access Controller) to connect with Alice QUANTUM SERVER through licensed frequency modem among multi-communication modems through licensed frequency carrier wireless network;

(System Combine - Log In)
QUANTUM COLLABO consists of QUANTUM AC (Access Controller), Eve quantum random number generator, and Encrypt TLS (Transport Layer Security protocol) MODULE,
Encrypt TLS MODULE consists of System Memory, PUF-PIN Memory, Security CPU, MCU (Main Control Unit), eve-NFC Chip, NFC Reader, Security OTP Memory, SPI Controller, and Network Switch;
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE internal Security CPU;
Encrypt TLS MODULE Internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-NFC Chip, NFC Reader, Security OTP Memory, SPI Controller, Network Switch;
System Memory is System Memory in which MCU operating OS program is stored;
The MCU controls the Security CPU and the NFC Reader receives the Eve PIN data stored in the eve-NFC Chip through contactless near field communication, stores it in the PUF-PIN memory, and then converts the Eve PIN data as a random number seed. generate an asymmetric cryptographic algorithm Eve QUANTUM PRIVATE KEY;
The eve-NFC Chip is one of the Physically Unclonable Functions (PUFs) that are replaced during monthly periodic inspections. It inputs Eve PIN data through NFC Writer and stores Eve PIN data in Alice QUANTUM SERVER;
MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU;
Security CPU performs beta-OR (EX-OR) encryption operation of the Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed. OTP (One Time Password) asymmetric cryptographic algorithm Eve QUANTUM generating a public key (PUBLIC KEY), storing the Eve QUANTUM public key in a Security One Time Password (OTP) memory, and transmitting the Eve QUANTUM public key to the QUANTUM Access Controller (QUANTUM AC);
QUANTUM AC (Access Controller) transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network network of the licensed frequency communication service provider;

Alice QUANTUM SERVER is configured by including Alice Pseudo Random Number Generator (PRNG) and Alice Quantum Random Number Generator (QRNG) inside,
Alice QUANTUM SERVER generates Alice PIN data with the Alice pseudo-random number seed generated through the Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and generates the Alice QUANTUM private key with the Alice PIN data as the random number seed; And
generating the Alice QUANTUM public key by performing an EX-OR encryption operation on the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the wireless network network of the telecommunication service provider, so that the licensed frequency carrier wireless network or self-wired network and unlicensed frequency closed radio retransmit over the network to QUANTUM COLLABO; and
QUANTUM COLLABO internal MCU decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the Eve PIN data extracted from the eve-NFC chip match,
MCU uses SPI Controller to switch ON contact and controls QUANTUM AC (Access Controller) to control the QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems. QUANTUM SERVER and network network login (Log In) connection;

(System Combine - DATA Transmission)
QUANTUM AC (Access Controller) transmits the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key through the QUANTUM DUAL AP to the Bob QUANTUM SERVER that is logged in to the network,
It transmits the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key to the QUANTUM DUAL AP through the unlicensed frequency modem, which has the fastest communication speed among low frequency or high frequency that can be communicated.
QUANTUM DUAL AP is capable of dual transmission and reception of 2.4GHz Low Frequency and 5GHz High Frequency. It selects Low Frequency or High Frequency for data transmission according to the communication environment according to obstacles. Before data transmission, QUANTUM AC (Access Controller) and QUANTUM DUAL AP conducts Low Frequency and High Frequency PING tests, selects a frequency with fast response speed, encrypts large-capacity image data with QUANTUM symmetric key, and transmits;
If communication with QUANTUM DUAL AP is impossible, it is transmitted to Alice QUANTUM SERVER through a licensed frequency communication operator wireless network through a licensed frequency modem among multi-communication modems;
When Bob QUANTUM SERVER receives surveillance camera video data encrypted with QUANTUM symmetric key from QUANTUM DUAL AP,
Any one of non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL transmits to Alice QUANTUM SERVER through a wired network;

Alice QUANTUM SERVER is a hybrid that enhances security by receiving surveillance camera video data encrypted with QUANTUM symmetric key from any one or more of its own wired network and wireless network network of a telecommunication service provider and decrypting it with QUANTUM symmetric key to enhance security and reduce communication costs. - A hybrid quantum communication system terminal featuring the QUANTUM CHANNEL One-Way-Ring Network.
Surveillance Camera (Closed Circuit Camera), QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, QUANTUM DUAL AP (Access Point), wireless network of telecommunication service providers, and self-wired/wireless network.
Alice QUANTUM SERVER connects to QUANTUM COLLABO through the wireless network network of the telecommunication service provider; and
Alice QUANTUM SERVER is networked with Bob QUANTUM SERVER through any one of non-QUANTUM CHANNEL through CC-certified VPN or hybrid-QUANTUM CHANNEL through PUF-QRNG TWIN USB through its own wired network;
Bob QUANTUM SERVER is connected to his own wireless network with QUANTUM COLLABO through QUANTUM DUAL AP (Access Point);

QUANTUM COLLABO selectively selects unlicensed frequency closed wireless self-network or licensed frequency carrier wireless network network through QUANTUM AC (Access Controller) in data transmission/reception,
QUANTUM COLLABO controls QUANTUM AC (Access Controller) and is connected to Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems;
QUANTUM COLLABO controls QUANTUM AC (Access Controller) to connect with Alice QUANTUM SERVER through licensed frequency modem among multi-communication modems through licensed frequency carrier wireless network;

(System Combine)
QUANTUM COLLABO consists of QUANTUM AC (Access Controller), Eve quantum random number generator, and Encrypt TLS (Transport Layer Security protocol) MODULE,
Encrypt TLS MODULE consists of System Memory, PUF-PIN Memory, Security CPU, MCU (Main Control Unit), eve-NFC Chip, NFC Reader, Security OTP Memory, SPI Controller, and Network Switch;
Storing the QUANTUM symmetric key of the symmetric cryptographic algorithm in the Encrypt TLS MODULE internal PUF-PIN Memory and Alice QUANTUM SERVER to encrypt/decrypt image data after logging in to the network network;
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE internal Security CPU;
Encrypt TLS MODULE Internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-NFC Chip, NFC Reader, Security OTP Memory, SPI Controller, Network Switch;
System Memory is System Memory in which MCU operating OS program is stored;
The MCU controls the Security CPU and the NFC Reader receives the Eve PIN data stored in the eve-NFC Chip through contactless near field communication, stores it in the PUF-PIN memory, and then converts the Eve PIN data as a random number seed. generate an asymmetric cryptographic algorithm Eve QUANTUM PRIVATE KEY;
The eve-NFC Chip is a physical PUF (Physically Unclonable Function) that is replaced during monthly periodic inspection, and it stores Eve PIN data through NFC Writer and stores it in Alice QUANTUM SERVER;
Security CPU encrypts the Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed to generate OTP (One Time Password) asymmetric cryptographic algorithm Eve QUANTUM public key (PUBLIC KEY) and storing the Eve QUANTUM public key in the Security One Time Password (OTP) Memory and transmitting the Eve QUANTUM public key to the QUANTUM Access Controller (AC);
QUANTUM AC (Access Controller) transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network network of the licensed frequency communication service provider;

Alice QUANTUM SERVER is configured by including Alice Pseudo Random Number Generator (PRNG) and Alice Quantum Random Number Generator (QRNG) inside,
Alice QUANTUM SERVER generates Alice PIN data from Alice pseudo-random number seed through Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and generates Alice QUANTUM private key with Alice PIN data; and
generating an Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the wireless network network of the telecommunication service provider, so that the licensed frequency carrier wireless network or self-wired network and unlicensed frequency closed radio retransmit over the network to QUANTUM COLLABO; and
QUANTUM COLLABO internal MCU decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the Eve PIN data extracted from the eve-NFC chip match,
MCU uses SPI Controller to switch ON contact and controls QUANTUM AC (Access Controller) to control the QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems. QUANTUM SERVER and network network login (Log In) connection;

QUANTUM AC (Access Controller) transmits the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key through the QUANTUM DUAL AP to the Bob QUANTUM SERVER that is logged in to the network,
The communication method between QUANTUM AC (Access Controller) and QUANTUM DUAL AP is QUANTUM AC (Access Controller) inside QUANTUM COLLABO, Alice QUANTUM public key, Multi-communication modem, Alice QUANTUM through the operator’s license frequency modem to the operator’s wireless network to SERVER; and
It transmits the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key to the QUANTUM DUAL AP through the unlicensed frequency modem, which has the fastest communication speed among low frequency or high frequency that can be communicated.
QUANTUM DUAL AP is capable of dual transmission and reception of 2.4GHz Low Frequency and 5GHz High Frequency. It selects Low Frequency or High Frequency for data transmission according to the communication environment according to obstacles. Before data transmission, QUANTUM AC (Access Controller) and QUANTUM DUAL AP conducts Low Frequency and High Frequency PING tests, selects a frequency with fast response speed, encrypts large-capacity image data with QUANTUM symmetric key, and transmits;
If communication with QUANTUM DUAL AP is impossible, it is transmitted to Alice QUANTUM SERVER through a licensed frequency communication operator wireless network through a licensed frequency modem among multi-communication modems;
When Bob QUANTUM SERVER receives surveillance camera video data encrypted with QUANTUM symmetric key from QUANTUM DUAL AP,
Any one of non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL transmits to Alice QUANTUM SERVER through a wired network;
Alice QUANTUM SERVER is a hybrid that enhances security by receiving surveillance camera video data encrypted with QUANTUM symmetric key from any one or more of its own wired network and wireless network network of a telecommunication service provider and decrypting it with QUANTUM symmetric key to enhance security and reduce communication costs. - A hybrid quantum communication system terminal featuring the QUANTUM CHANNEL One-Way-Ring Network.
It consists of surveillance camera, QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, QUANTUM DUAL AP, and wireless network of telecommunication service providers
Alice QUANTUM SERVER is connected to the wireless network network of the carrier; and
Alice QUANTUM SERVER is connected to Bob QUANTUM SERVER through any wired network of non-QUANTUM CHANNEL through CC-certified VPN or hybrid-QUANTUM CHANNEL through BB84 QUANTUM CHANNEL or PUF-QRNG TWIN USB;

QUANTUM COLLABO is to selectively select an unlicensed frequency closed wireless self-network network or a licensed frequency carrier wireless network network through QUANTUM AC in data transmission/reception,
QUANTUM COLLABO controls QUANTUM AC to connect with Bob QUANTUM SERVER through QUANTUM DUAL AP connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems; or
QUANTUM COLLABO controls QUANTUM AC to connect to Alice QUANTUM SERVER through licensed frequency modem among multi-communication modems through licensed frequency communication operator wireless network;

QUANTUM COLLABO consists of QUANTUM AC, Eve quantum random number generator, and Encrypt TLS MODULE,
The QUANTUM symmetric key is stored in the Encrypt TLS MODULE and in Alice QUANTUM SERVER to encrypt/decrypt video data after logging in to the network network;
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE;
Encrypt TLS MODULE generates an asymmetric key encryption algorithm Eve QUANTUM private key by storing Eve PIN data as a random number seed after storing when Eve PIN data is received from an NFC card through contactless near field communication;
The NFC card is a physical PUF (Physically Unclonable Function) that is replaced at the time of monthly maintenance, and after inputting Eve PIN data into the NFC card through the NFC Writer, it is stored in Alice QUANTUM SERVER;
Encrypt TLS MODULE receives quantum random number from Eve quantum random number generator and encrypts the Eve QUANTUM private key with the quantum random number seed to generate OTP (One Time Password) asymmetric key encryption algorithm Eve QUANTUM public key and store it and Eve QUANTUM public key to QUANTUM AC;
QUANTUM AC transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network network of the licensed frequency carrier;

Alice QUANTUM SERVER is composed of Alice pseudo random number generator (PRNG) and Alice quantum random number generator (QRNG) inside,
Alice QUANTUM SERVER generates Alice PIN data as an Alice pseudo-random number seed through the Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and generates the Alice QUANTUM private key by storing the Alice PIN data as a random number seed; and
generating an Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the wireless network network of the telecommunication service provider, and the licensed frequency carrier wireless network or wired network and unlicensed frequency closed wireless self-network. retransmit to QUANTUM COLLABO via; and
QUANTUM COLLABO decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the internally stored Eve PIN data match,
QUANTUM COLLABO controls QUANTUM AC to connect Bob QUANTUM SERVER and network network login (Log In) through QUANTUM DUAL AP, which is connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems;
QUANTUM AC transmits the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key through the QUANTUM DUAL AP to the Bob QUANTUM SERVER that is logged in to the network,
As for the communication method between QUANTUM AC and QUANTUM DUAL AP, QUANTUM AC inside QUANTUM COLLABO transmits Alice QUANTUM public key to Alice QUANTUM SERVER through the wireless network network through the telecommunication operator licensed frequency modem; and
It transmits the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key to the QUANTUM DUAL AP through the unlicensed frequency modem, which has the fastest communication speed among low frequency or high frequency that can be communicated.
QUANTUM DUAL AP is capable of dual transmission and reception of 2.4GHz Low Frequency and 5GHz High Frequency. It selects Low Frequency or High Frequency as the data transmission frequency according to the communication environment according to obstacles. Before data transmission, QUANTUM AC and QUANTUM DUAL AP have Low Frequency and a High Frequency PING test to select a frequency with a fast response speed and encrypt and transmit large-capacity image data with the QUANTUM symmetric key;
If communication with QUANTUM DUAL AP is impossible, it is transmitted to Alice QUANTUM SERVER through a licensed frequency communication operator wireless network through a licensed frequency modem among multi-communication modems;
When Bob QUANTUM SERVER receives surveillance camera video data encrypted with QUANTUM symmetric key from QUANTUM DUAL AP,
transmitted to Alice QUANTUM SERVER through any one of non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL wired networks;
Alice QUANTUM SERVER receives video data from a surveillance camera encrypted with QUANTUM symmetric key from at least one of wired network and wireless network, and decrypts it with QUANTUM symmetric key to enhance security. Hybrid-QUANTUM CHANNEL improves communication speed and reduces communication charges Hybrid quantum communication system terminal featuring One-Way-Ring Network.
Security camera, QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, QUANTUM DUAL AP, wireless network of telecommunication service providers, self-wired network, self-closing wireless self-network,
Alice QUANTUM SERVER is connected to Bob QUANTUM SERVER through a wireless network network of a telecommunication service provider and a self-wired network network;

QUANTUM COLLABO is to selectively select unlicensed frequency closed wireless self-network or licensed frequency carrier wireless network through QUANTUM AC inside in data transmission/reception,
QUANTUM COLLABO controls QUANTUM AC inside and connects with Bob QUANTUM SERVER through QUANTUM DUAL AP connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems; or
QUANTUM COLLABO controls QUANTUM AC to connect to Alice QUANTUM SERVER through licensed frequency modem among multi-communication modems through licensed frequency communication operator wireless network;

QUANTUM COLLABO consists of QUANTUM AC, Eve quantum random number generator, and Encrypt TLS MODULE,
The QUANTUM symmetric key is stored in the Encrypt TLS MODULE and in Alice QUANTUM SERVER to encrypt/decrypt video data after logging in to the network network;
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE;
Encrypt TLS MODULE generates Eve QUANTUM private key as a random number seed after storing Eve PIN data when receiving Eve PIN data from NFC card through contactless short-distance wireless communication;
The NFC card is a physical PUF, and after inputting Eve PIN data to the NFC card through the NFC Writer, it is stored in the Alice QUANTUM SERVER;
Encrypt TLS MODULE receives quantum random number from Eve quantum random number generator, encrypts the Eve QUANTUM private key with the quantum random number seed, generates Eve QUANTUM public key, stores it, and transmits Eve QUANTUM public key to QUANTUM AC and;
QUANTUM AC transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network network of the licensed frequency carrier;

Alice QUANTUM SERVER is composed of Alice pseudo random number generator (PRNG) and Alice quantum random number generator (QRNG) inside,
Alice QUANTUM SERVER generates Alice PIN data through Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and generates Alice QUANTUM private key with Alice PIN data as a random number seed; And
generating an Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the wireless network network of the telecommunication service provider, and the licensed frequency carrier wireless network or wired network and unlicensed frequency closed wireless self-network. retransmit to QUANTUM COLLABO via; and
QUANTUM COLLABO decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the internally stored Eve PIN data match,
QUANTUM COLLABO controls QUANTUM AC to connect Bob QUANTUM SERVER and network network login (Log In) through QUANTUM DUAL AP, which is connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems;

Transmitting the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key to the QUANTUM DUAL AP through a low frequency or high frequency unlicensed frequency modem that can communicate;
When Bob QUANTUM SERVER receives surveillance camera video data encrypted with QUANTUM symmetric key from QUANTUM DUAL AP, it transmits it to Alice QUANTUM SERVER through its own wired network;
Alice QUANTUM SERVER is a hybrid that enhances security by receiving surveillance camera video data encrypted with QUANTUM symmetric key from any one or more of its own wired network and wireless network network of a telecommunication service provider and decrypting it with QUANTUM symmetric key to enhance security and reduce communication costs. - A hybrid quantum communication system terminal featuring the QUANTUM CHANNEL One-Way-Ring Network.
It consists of QUANTUM COLLABO and a terminal unit including a wireless network communication modem and a communication service provider communication modem, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER;
The terminal unit QUANTUM COLLABO is connected to the Alice QUANTUM SERVER network through the telecommunication carrier communication modem through the telecommunication carrier wireless network; and
QUANTUM COLLABO is connected to the QUANTUM AP through its own wireless network through its own wireless network communication modem and then to the Alice QUANTUM SERVER connected to its own wired network through Bob QUANTUM SERVER.

QUANTUM COLLABO consists of Eve quantum random number generator and QUANTUM JUMP ENGINE;
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to QUANTUM JUMP ENGINE internal Security CPU;
QUANTUM JUMP ENGINE consists of System Memory, PUF-PIN Memory, Security CPU, MCU, eve-PUF, Security OTP Memory, Network Switch, and SPI Controller;
QUANTUM JUMP ENGINE internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-PUF, Security OTP Memory, Network Switch, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
MCU controls Security CPU to extract Eve PIN data from eve-PUF, store it in PUF-PIN Memory and Alice QUANTUM SERVER, and generate Eve QUANTUM private key with Eve PIN data as a random number seed;

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU;
Security CPU generates Eve QUANTUM public key by encrypting Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed, stores Eve QUANTUM public key in Security OTP Memory, and communicates Eve QUANTUM public key transmitted to the operator communication modem;
The communication operator's communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the communication operator's wireless network;

Alice QUANTUM SERVER is composed of Alice quantum random number generator and Alice PUF inside,
Alice QUANTUM SERVER extracts Alice PIN data from Alice PUF, stores it in QUANTUM COLLABO, and generates Alice QUANTUM private key with Alice PIN data as a random number seed; and
generating an Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored therein with the Eve QUANTUM public key received through the wireless network of the carrier and retransmits it to the QUANTUM COLLABO through the wireless network of the carrier; or
Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored inside the Eve QUANTUM public key received through the wireless network of the telecommunication service provider and transmits it to the Bob QUANTUM SERVER through its own wired network. When it is transmitted through the wireless network communication modem, QUANTUM COLLABO receives it through its own wireless network communication modem;

QUANTUM COLLABO receives the Eve PIN data and Alice QUANTUM public key encrypted with the Eve QUANTUM public key from either the wireless network of the telecommunication service provider or the self-wired network, and decrypts the Alice QUANTUM public key and Eve PIN data by decrypting the Eve QUANTUM private key ;and
If the decrypted generated Eve PIN data matches the Eve PIN data extracted from eve-PUF,
MCU gradually turns the Network Switch ON through the SPI Controller, encrypts data with the Alice QUANTUM public key, and transmits it to its own wireless network communication modem and communication operator communication modem;
The self-wireless network communication modem transmits the data encrypted with the Alice QUANTUM public key to the communicable QUANTUM AP, but if communication with the QUANTUM AP is not possible, it transmits it to the telecommunication operator's wireless network through the communication operator's communication modem;
When Bob QUANTUM SERVER receives data encrypted with Alice QUANTUM public key from QUANTUM AP, it transmits it to Alice QUANTUM SERVER through its own wired network;
Alice QUANTUM SERVER is a heterogeneous network QUANTUM KEY distribution hybrid quantum communication closed network system using QUANTUM AP that receives data encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key from one or more of its own wired network and wireless network of a telecommunication service provider.
It consists of QUANTUM COLLABO, communication modem, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

QUANTUM COLLABO consists of Eve quantum random number generator and QUANTUM JUMP ENGINE,
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to QUANTUM JUMP ENGINE internal Security CPU;
QUANTUM JUMP ENGINE consists of System Memory, PUF-PIN Memory, Security CPU, MCU, eve-PUF, Security OTP Memory, Network Switch, and SPI Controller;
QUANTUM JUMP ENGINE internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-PUF, Security OTP Memory, Network Switch, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
MCU controls Security CPU to extract Eve PIN data from eve-PUF, store it in PUF-PIN Memory and Alice QUANTUM SERVER, and generate Eve QUANTUM private key with Eve PIN data;

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU;
The Security CPU generates an Eve QUANTUM public key by encrypting the Eve QUANTUM private key stored in the PUF-PIN Memory with the quantum random number, stores the Eve QUANTUM public key in the Security OTP Memory, and transmits the Eve QUANTUM public key to the communication modem;
The communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the wireless network of the carrier;

Alice QUANTUM SERVER is composed of Alice quantum random number generator and Alice PUF inside,
Alice QUANTUM SERVER extracts Alice PIN data from Alice PUF and stores it in QUANTUM COLLABO and generates Alice QUANTUM private key with Alice PIN data; and
encrypting the Alice QUANTUM private key with the quantum random number generated from the Alice quantum random number generator to generate the Alice QUANTUM public key;

Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored therein with the Eve QUANTUM public key received through the wireless network of the carrier and retransmits it to the QUANTUM COLLABO through the wireless network of the carrier; or
Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored inside the Eve QUANTUM public key received through the wireless network of the telecommunication service provider and transmits it to the Bob QUANTUM SERVER through its own wired network, and Bob QUANTUM SERVER communicates through the QUANTUM AP. Transmitting via modem, QUANTUM COLLABO receives via modem;

QUANTUM COLLABO internal MCU decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted generated Eve PIN data matches the Eve PIN data extracted from eve-PUF,
The MCU controls the SPI Controller to encrypt data with the Alice QUANTUM public key through the Network Switch and transmits it to the communication modem;
The communication modem transmits the data encrypted with the Alice QUANTUM public key to the Bob QUANTUM SERVER through the wireless self-network QUANTUM AP, but if communication with the wireless self-network QUANTUM AP is impossible, it transmits it to the Alice QUANTUM SERVER through the wireless network of the carrier;
When Bob QUANTUM SERVER receives the data encrypted with the Alice QUANTUM public key from the QUANTUM AP, it transmits it to the Alice QUANTUM SERVER through the wire network;
Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system using QUANTUM AP that receives data encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key from either the wired self-network or the wireless network of a telecommunication service provider.
It consists of QUANTUM COLLABO, communication modem, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

QUANTUM COLLABO consists of Eve quantum random number generator and QUANTUM JUMP ENGINE,
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to QUANTUM JUMP ENGINE internal Security CPU;
QUANTUM JUMP ENGINE consists of System Memory, NFC Memory, Security CPU, MCU, eve-NFC, Security OTP Memory, Network Switch, and SPI Controller;
QUANTUM JUMP ENGINE internal MCU controls System Memory, NFC Memory, Security CPU, eve-NFC, Security OTP Memory, Network Switch, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
MCU controls Security CPU to extract Eve NFC data from eve-NFC, store it in NFC Memory and Alice QUANTUM SERVER, and generate Eve QUANTUM private key with Eve NFC data;

MCU receives quantum random number from Eve quantum random number generator and sends it to Security CPU;
The Security CPU generates an Eve QUANTUM public key by encrypting the Eve QUANTUM private key stored in the NFC Memory with the quantum random number, stores the Eve QUANTUM public key in the Security OTP Memory, and transmits the Eve QUANTUM public key to the communication modem;
The communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the wireless network of the carrier;

Alice QUANTUM SERVER is composed of Alice quantum random number generator and Alice NFC inside,
Alice QUANTUM SERVER extracts Alice NFC data from Alice NFC and stores it in QUANTUM COLLABO and generates Alice QUANTUM private key with Alice NFC data; and
encrypting the Alice QUANTUM private key with the quantum random number generated from the Alice quantum random number generator to generate the Alice QUANTUM public key;

Alice QUANTUM SERVER encrypts the Eve NFC data and Alice QUANTUM public key stored therein with the Eve QUANTUM public key received through the wireless network of the carrier and retransmits it to the QUANTUM COLLABO through the wireless network of the carrier; or
Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored inside the Eve QUANTUM public key received through the wireless network of the telecommunication service provider and transmits it to Bob QUANTUM SERVER through the wired self-network, and Bob QUANTUM SERVER uses the QUANTUM AP When transmitting through the communication modem, QUANTUM COLLABO receives it through the communication modem;

QUANTUM COLLABO internal MCU decrypts the Eve NFC data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve NFC data; and
When the decrypted generated Eve NFC data matches the Eve NFC data extracted from eve-NFC,
MCU transmits data to communication modem by encrypting data with Alice QUANTUM public key through Network Switch through SPI Controller;
The communication modem transmits the data encrypted with the Alice QUANTUM public key to the Bob QUANTUM SERVER through the wireless self-network QUANTUM AP, but if communication with the wireless self-network QUANTUM AP is impossible, it transmits it to the Alice QUANTUM SERVER through the wireless network of the carrier;
When Bob QUANTUM SERVER receives the data encrypted with the Alice QUANTUM public key from the QUANTUM AP, it transmits it to the Alice QUANTUM SERVER through the wire network;
Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system using QUANTUM AP that receives data encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key from either the wired self-network or the wireless network of a telecommunication service provider.
It consists of QUANTUM COLLABO, communication modem, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

Extracting Eve PIN data from QUANTUM COLLABO internal eve-PUF, storing it in internal memory and storing it in Alice QUANTUM SERVER, and generating Eve QUANTUM private key with Eve PIN data as seed;
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random numbers, encrypts the Eve QUANTUM private key with a quantum random number to generate an Eve QUANTUM public key, stores the Eve QUANTUM public key in the internal memory, and transmits the Eve QUANTUM public key to the communication modem;
The communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the wireless network of the carrier;

Alice QUANTUM SERVER extracts Alice PIN data from Alice PUF inside, stores it in QUANTUM COLLABO, and generates Alice QUANTUM private key with Alice PIN data as a seed;
Alice QUANTUM SERVER generates an Alice QUANTUM public key by encrypting the Alice QUANTUM private key with a quantum random number generated from an internal Alice quantum random number generator;

Alice QUANTUM SERVER transmits the Eve PIN data stored inside the Eve QUANTUM public key and the encrypted data obtained by encrypting the Alice QUANTUM public key received through the wireless network of the telecommunication service provider to the Bob QUANTUM SERVER through the wired network;
Bob QUANTUM SERVER transmits the encrypted data to QUANTUM AP through its own wireless network to a communication modem, and QUANTUM COLLABO receives it through a communication modem;

QUANTUM COLLABO decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the encrypted data encrypted with the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; And
when the decrypted Eve PIN data and the Eve PIN data extracted from the eve-PUF match, the terminal data generated by QUANTUM COLLABO is encrypted with the Alice QUANTUM public key and transmitted to the communication modem;
The communication modem transmits the terminal data encrypted with the Alice QUANTUM public key to the Bob QUANTUM SERVER through the wireless self-network QUANTUM AP;
When Bob QUANTUM SERVER receives terminal data encrypted with the Alice QUANTUM public key from the QUANTUM AP, it transmits it to the Alice QUANTUM SERVER through the wired self-network;
Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system using QUANTUM AP that receives terminal data encrypted with the Alice QUANTUM public key from the wired network and decrypts it with the Alice QUANTUM private key.
It consists of QUANTUM COLLABO, communication modem, QUANTUM AP, Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

Extracting Eve NFC data from eve-NFC inside QUANTUM COLLABO, storing it in Alice QUANTUM SERVER, and generating Eve QUANTUM private key with Eve NFC data as seed;
QUANTUM COLLABO internal Eve quantum random number generator generates a quantum random number, encrypts the Eve QUANTUM private key with the quantum random number as a seed, generates the Eve QUANTUM public key, stores the Eve QUANTUM public key in the internal memory, and transmits it to the communication modem. ;
The communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the wireless network of the carrier;

Alice QUANTUM SERVER extracts Alice NFC data from Alice NFC and stores it in QUANTUM COLLABO and generates Alice QUANTUM private key with Alice NFC data as seed; and
Alice QUANTUM SERVER generates the Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number generated from the internal Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data and Alice QUANTUM public key stored inside the Eve QUANTUM public key received through the wireless network of the telecommunication service provider and transmits it to Bob QUANTUM SERVER through the wired self-network, and Bob QUANTUM SERVER uses the QUANTUM AP When transmitting through the communication modem, QUANTUM COLLABO receives it through the communication modem;

QUANTUM COLLABO decrypts the Eve NFC data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve NFC data; and
When the decrypted generated Eve NFC data matches the Eve NFC data extracted from eve-NFC,
Encrypting QUANTUM COLLABO internal data with the Alice QUANTUM public key and transmitting it to the communication modem;
The communication modem transmits QUANTUM COLLABO internal data encrypted with the Alice QUANTUM public key to Bob QUANTUM SERVER through the wireless self-network QUANTUM AP;
When Bob QUANTUM SERVER receives QUANTUM COLLABO internal data encrypted with Alice QUANTUM public key from QUANTUM AP, it transmits it to Alice QUANTUM SERVER through its own wire network;
Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system using QUANTUM AP that receives QUANTUM COLLABO internal data encrypted with the Alice QUANTUM public key from the wired network and decrypts it with the Alice QUANTUM private key.
It consists of QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, QUANTUM AP, wireless network of telecommunication service providers, and wired/wireless self-network.
Alice QUANTUM SERVER is networked with Bob QUANTUM SERVER through the wireless network of the telecommunication service provider and wired/wireless self-network;

QUANTUM COLLABO is to selectively select an unlicensed frequency radio self-network or a licensed radio operator's radio network in data transmission/reception,
QUANTUM COLLABO connects with Bob QUANTUM SERVER through QUANTUM AP connected to unlicensed frequency radio self-network through unlicensed frequency modem; or
QUANTUM COLLABO connects with Alice QUANTUM SERVER through licensed frequency carrier wireless network through licensed frequency modem;
storing the QUANTUM symmetric key in QUANTUM COLLABO and Alice QUANTUM SERVER to encrypt/decrypt data after logging in to the network network;

QUANTUM COLLABO generates the Eve QUANTUM private key with the random number seed generated by the Eve pseudo-random number generator;
Encrypting the Eve QUANTUM private key using the quantum random number generated through the Eve quantum random number generator as a seed to generate an Eve QUANTUM public key, storing and transmitting the Eve QUANTUM public key to QUANTUM AC;
QUANTUM AC transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network of the licensed frequency carrier;

Alice QUANTUM SERVER is composed of Alice pseudo random number generator and Alice quantum random number generator inside,
Alice QUANTUM SERVER generates the Alice QUANTUM private key with the random number seed generated through the Alice pseudo-random number generator; and
Encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator to generate the Alice QUANTUM public key;

Alice QUANTUM SERVER encrypts the Alice QUANTUM public key with the Eve QUANTUM public key received through the carrier's wireless network and retransmits it to QUANTUM COLLABO through the licensed frequency carrier's wireless network or wired/wireless self-network; and
QUANTUM COLLABO decrypts the Alice QUANTUM public key encrypted with the Eve QUANTUM public key and decrypts the Alice QUANTUM public key with the Eve QUANTUM private key to generate and decrypts the Alice QUANTUM public key; and
QUANTUM AC transmits the data encrypted with the Alice QUANTUM public key to Bob QUANTUM SERVER through the QUANTUM AP,
transmitting the data encrypted with the Alice QUANTUM public key to the QUANTUM AP through a wireless private network unlicensed frequency modem channel that can communicate;
When Bob QUANTUM SERVER receives data encrypted with the Alice QUANTUM public key from the QUANTUM AP, it transmits it to the Alice QUANTUM SERVER through its own wired network;
Alice QUANTUM SERVER receives data encrypted with the Alice QUANTUM public key from one or more of the wired own network and the wireless network of a telecommunication service provider, and decrypts it with the Alice QUANTUM private key to enhance security. Hybrid-QUANTUM CHANNEL One improves communication speed and reduces communication charges -Heterogeneous network QUANTUM KEY distribution hybrid quantum communication closed network system featuring Way-Ring Network.
Terminal SERVER, QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, QUANTUM DUAL AP (Access Point), licensed frequency carrier wireless network network, unlicensed frequency closed wireless self-network, and wired self-network. The QUANTUM symmetric key of the symmetric cryptographic algorithm is generated by generating the first quantum random number through the Quantum Random Number Generator (QRNG) and stored in the QUANTUM COLLABO internal PUF-PIN Memory and Alice QUANTUM SERVER, It is to communicate data encryption/decryption data with QUANTUM symmetric key after network network login (Log In) between and Alice QUANTUM SERVER.

Alice QUANTUM SERVER connects QUANTUM COLLABO and QUANTUM COLLABO through the licensed frequency carrier wireless network network; and
Alice QUANTUM SERVER is networked with Bob QUANTUM SERVER through any one of non-QUANTUM CHANNEL via CC-certified VPN or hybrid-QUANTUM CHANNEL via PUF-QRNG TWIN USB via a wired own network;
QUANTUM COLLABO is networked with Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) through a closed radio self-network of unlicensed frequency;

QUANTUM COLLABO selectively selects unlicensed frequency closed wireless self-network or licensed frequency carrier wireless network network through QUANTUM AC (Access Controller) in data transmission/reception,
QUANTUM COLLABO controls QUANTUM AC (Access Controller) to connect with Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems; or
QUANTUM COLLABO controls QUANTUM AC (Access Controller) to connect with Alice QUANTUM SERVER through licensed frequency modem among multi-communication modems through licensed frequency carrier wireless network;

(System Combine)
QUANTUM COLLABO consists of QUANTUM AC (Access Controller), Eve quantum random number generator, and Encrypt TLS (Transport Layer Security protocol) MODULE,
Encrypt TLS MODULE consists of System Memory, PUF-PIN Memory, Security CPU, MCU (Main Control Unit), eve-NFC Chip, NFC Reader, Security OTP Memory, SPI Controller, and Network Switch;
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE internal Security CPU;
Encrypt TLS MODULE Internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-NFC Chip, NFC Reader, Security OTP Memory, SPI Controller, Network Switch;
System Memory is System Memory in which MCU operating OS program is stored;
The MCU controls the Security CPU and the NFC Reader receives the Eve PIN data stored in the eve-NFC Chip through contactless near field communication, stores it in the PUF-PIN memory, and then converts the Eve PIN data as a random number seed. generate an asymmetric cryptographic algorithm Eve QUANTUM PRIVATE KEY;
Input Eve PIN data to eve-NFC Chip through NFC Writer and store it in Alice QUANTUM SERVER;
MCU receives from Eve quantum random number generator and performs beta OR (EX-OR) encryption operation on quantum random number seed stored in Security CPU and Eve QUANTUM private key stored in PUF-PIN memory to achieve OTP (One Time Password) asymmetry Asymmetric cryptographic algorithm Generates Eve QUANTUM public key (PUBLIC KEY), stores Eve QUANTUM public key in Security OTP (One Time Password) Memory, and transmits Eve QUANTUM public key to QUANTUM AC (Access Controller). ;
QUANTUM AC (Access Controller) transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network network of the licensed frequency communication service provider;

Alice QUANTUM SERVER is configured by including Alice Pseudo Random Number Generator (PRNG) and Alice Quantum Random Number Generator (QRNG) inside,
Alice QUANTUM SERVER generates Alice PIN data through Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and generates Alice QUANTUM private key with Alice PIN data as a random number seed; And
generating the Alice QUANTUM public key by performing an EX-OR encryption operation on the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;
Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the licensed frequency carrier wireless network network, and the licensed frequency carrier wireless network or wired self-network and unlicensed frequency closed radio retransmit to QUANTUM COLLABO over any of its own networks; and
QUANTUM COLLABO internal MCU decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the Eve PIN data extracted from the eve-NFC chip match,
MCU uses SPI Controller to switch ON contact and controls QUANTUM AC (Access Controller) to control the QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems. QUANTUM SERVER and network network login (Log In) connection;

(System Combine - Log In)
QUANTUM AC (Access Controller) transmits the data generated by the terminal SERVER encrypted with the QUANTUM symmetric key through the QUANTUM DUAL AP to the Bob QUANTUM SERVER logged in to the network,
By transmitting the data generated by the terminal SERVER encrypted with the QUANTUM symmetric key to the QUANTUM DUAL AP through either a low frequency channel or a high frequency channel that can be communicated through an unlicensed frequency modem,
QUANTUM DUAL AP selects one of Low Frequency or High Frequency as a transmission frequency and encrypts data generated by the terminal server with the QUANTUM symmetric key and transmits;
When communication with the QUANTUM DUAL AP is impossible, data generated by the terminal SERVER is encrypted with the QUANTUM symmetric key and transmitted to the Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network of the licensed frequency carrier;
When Bob QUANTUM SERVER receives data generated by the terminal SERVER encrypted with the QUANTUM symmetric key from the QUANTUM DUAL AP,
transmitted to Alice QUANTUM SERVER through any one of non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL wired self-network;

Alice QUANTUM SERVER receives the data generated by the terminal server encrypted with the QUANTUM symmetric key from one or more of the wired own network and the wireless network of the telecommunication service provider, and decrypts it with the QUANTUM symmetric key to enhance security. -QUANTUM CHANNEL Heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system featuring One-Way-Ring Network.
It consists of a terminal device, QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, and QUANTUM DUAL AP (Access Point),
Alice QUANTUM SERVER is connected to QUANTUM COLLABO through a wireless network of a licensed frequency carrier; and
Alice QUANTUM SERVER is networked with Bob QUANTUM SERVER through either a non-QUANTUM CHANNEL or a QUANTUM CHANNEL wired network;
Bob QUANTUM SERVER is connected to the QUANTUM COLLABO through the QUANTUM DUAL AP (Access Point) and the unlicensed frequency closed wireless self-network;

QUANTUM COLLABO selectively selects unlicensed frequency closed wireless self-network or licensed frequency carrier wireless network network through QUANTUM AC (Access Controller) in data transmission/reception,
QUANTUM COLLABO controls QUANTUM AC (Access Controller) to connect with Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems; or
QUANTUM COLLABO controls QUANTUM AC (Access Controller) to connect with Alice QUANTUM SERVER through licensed frequency modem among multi-communication modems through licensed frequency carrier wireless network;

QUANTUM COLLABO consists of QUANTUM AC (Access Controller), Eve quantum random number generator, and Encrypt TLS (Transport Layer Security protocol) MODULE,
Encrypt TLS MODULE consists of System Memory, PUF-PIN Memory, Security CPU, MCU (Main Control Unit), eve-NFC Chip, NFC Reader, Security OTP Memory, SPI Controller, and Network Switch;
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE internal Security CPU;
Encrypt TLS MODULE Internal MCU controls System Memory, PUF-PIN Memory, Security CPU, eve-NFC Chip, NFC Reader, Security OTP Memory, SPI Controller, Network Switch;
System Memory is System Memory in which MCU operating OS program is stored;
The MCU controls the Security CPU and the NFC Reader receives the Eve PIN data stored in the eve-NFC Chip through contactless near field communication, stores it in the PUF-PIN memory, and then converts the Eve PIN data as a random number seed. generate an asymmetric cryptographic algorithm Eve QUANTUM PRIVATE KEY;
input Eve PIN data to eve-NFC through NFC Writer and store it in Alice QUANTUM SERVER;
Security CPU encrypts the Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed to generate OTP (One Time Password) asymmetric cryptographic algorithm Eve QUANTUM public key (PUBLIC KEY) and storing the Eve QUANTUM public key in the Security One Time Password (OTP) Memory and transmitting the Eve QUANTUM public key to the QUANTUM Access Controller (AC);
QUANTUM AC (Access Controller) transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network network of the licensed frequency communication service provider;
Alice QUANTUM SERVER is configured by including Alice Pseudo Random Number Generator (PRNG) and Alice Quantum Random Number Generator (QRNG) inside,
Alice QUANTUM SERVER generates Alice PIN data through Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and generates Alice QUANTUM private key with Alice PIN data as a random number seed; And
generating an Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the wireless network network of the licensed frequency carrier, and the licensed frequency carrier wireless network or wired network and unlicensed frequency closed radio retransmit to QUANTUM COLLABO over your own network; and
QUANTUM COLLABO internal MCU decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the Eve PIN data extracted from eve-NFC match,
MCU uses SPI Controller to switch ON contact and controls QUANTUM AC (Access Controller) to control the QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems. QUANTUM SERVER and network network login (Log In) connection;

QUANTUM AC (Access Controller) transmits the terminal device generated data encrypted with the Alice QUANTUM public key through the QUANTUM DUAL AP to the Bob QUANTUM SERVER that is logged in to the network network,
Transmitting the terminal device generated data encrypted with the Alice QUANTUM public key to the QUANTUM DUAL AP through a communicable low frequency or high frequency unlicensed frequency modem;
If communication with QUANTUM DUAL AP is impossible, it is transmitted to Alice QUANTUM SERVER through a licensed frequency communication operator wireless network through a licensed frequency modem among multi-communication modems;
When Bob QUANTUM SERVER receives terminal device generated data encrypted with Alice QUANTUM public key from QUANTUM DUAL AP,
transmitted to Alice QUANTUM SERVER through any one of the non-QUANTUM CHANNEL and QUANTUM CHANNEL wired networks;
Alice QUANTUM SERVER receives terminal device-generated data encrypted with the Alice QUANTUM public key from one or more of the wired network network and the wireless network network of a licensed frequency carrier, and decrypts it with the Alice QUANTUM private key to enhance security. Improve communication speed and reduce communication charges. A heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system featuring a hybrid-QUANTUM CHANNEL One-Way-Ring Network.
It consists of a terminal device, QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, and QUANTUM DUAL AP,
Alice QUANTUM SERVER is connected to the licensed frequency carrier wireless network; and
Alice QUANTUM SERVER is networked with Bob QUANTUM SERVER through the non-QUANTUM CHANNEL wired network;
Bob QUANTUM SERVER is connected to the QUANTUM COLLABO through the QUANTUM DUAL AP through the unlicensed frequency closed radio self-network;

QUANTUM COLLABO is to selectively select an unlicensed frequency closed wireless self-network network or a licensed frequency carrier wireless network network through QUANTUM AC in data transmission/reception,
QUANTUM COLLABO controls QUANTUM AC to connect with Bob QUANTUM SERVER through QUANTUM DUAL AP connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems; or
QUANTUM COLLABO controls QUANTUM AC to connect to Alice QUANTUM SERVER through licensed frequency modem among multi-communication modems through licensed frequency communication operator wireless network;

After entering the Eve PIN data through the NFC Writer on the NFC card, it is stored in Alice QUANTUM SERVER;

QUANTUM COLLABO consists of QUANTUM AC, Eve quantum random number generator, and Encrypt TLS MODULE,
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE;
Encrypt TLS MODULE generates an asymmetric key encryption algorithm Eve QUANTUM private key by storing Eve PIN data as a random number seed after storing when Eve PIN data is received from an NFC card through contactless near field communication;

Encrypt TLS MODULE receives quantum random number from Eve quantum random number generator and encrypts the Eve QUANTUM private key with the quantum random number seed to generate OTP (One Time Password) asymmetric key encryption algorithm Eve QUANTUM public key and store it and Eve QUANTUM public key to QUANTUM AC;
QUANTUM AC transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network network of the licensed frequency carrier;

Alice QUANTUM SERVER is composed of Alice pseudo random number generator (PRNG) and Alice quantum random number generator (QRNG) inside,
Alice QUANTUM SERVER generates Alice PIN data through Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and generates Alice QUANTUM private key with Alice PIN data as a random number seed; And
generating an Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the wireless network network of the licensed frequency carrier, and the licensed frequency carrier wireless network or wired network and unlicensed frequency closed radio retransmit to QUANTUM COLLABO over your own network; and
QUANTUM COLLABO decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the internally stored Eve PIN data match,
QUANTUM COLLABO controls QUANTUM AC to connect Bob QUANTUM SERVER and network network login (Log In) through QUANTUM DUAL AP, which is connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems;
QUANTUM AC transmits the terminal device generated data encrypted with the Alice QUANTUM public key through the QUANTUM DUAL AP to the Bob QUANTUM SERVER that is logged in to the network network,

Transmitting the terminal device generated data encrypted with the Alice QUANTUM public key to the QUANTUM DUAL AP through a non-licensed frequency modem of either a communicable low frequency or a high frequency;
When Bob QUANTUM SERVER receives terminal device generated data encrypted with Alice QUANTUM public key from QUANTUM DUAL AP,
transmitted to Alice QUANTUM SERVER through the non-QUANTUM CHANNEL wired network;
Alice QUANTUM SERVER receives terminal device-generated data encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key to enhance security QUANTUM KEY Distributed Hybrid Quantum Communication Closed Network System.
It consists of a terminal device, QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, and QUANTUM AP,
Alice QUANTUM SERVER is connected to the licensed frequency carrier wireless network; and
Alice QUANTUM SERVER is networked with Bob QUANTUM SERVER through the non-QUANTUM CHANNEL wired network;
Bob QUANTUM SERVER is connected to the QUANTUM COLLABO through the QUANTUM AP and the unlicensed frequency closed wireless network;

QUANTUM COLLABO is to selectively select an unlicensed frequency closed wireless self-network network or a licensed frequency carrier wireless network network through QUANTUM AC in data transmission/reception,
QUANTUM COLLABO controls QUANTUM AC and connects with Bob QUANTUM SERVER through QUANTUM AP connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems; or
QUANTUM COLLABO controls QUANTUM AC to connect to Alice QUANTUM SERVER through licensed frequency modem among multi-communication modems through licensed frequency communication operator wireless network;

QUANTUM COLLABO consists of QUANTUM AC, Eve quantum random number generator, and Encrypt TLS MODULE,
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE;
Encrypt TLS MODULE generates an asymmetric key encryption algorithm Eve QUANTUM private key by storing Eve PIN data as a random number seed after storing when Eve PIN data is received from an NFC card through contactless near field communication;
After entering the Eve PIN data through the NFC Writer on the NFC card, it is stored in Alice QUANTUM SERVER;
Encrypt TLS MODULE receives quantum random number from Eve quantum random number generator and encrypts the Eve QUANTUM private key with the quantum random number seed to generate OTP (One Time Password) asymmetric key encryption algorithm Eve QUANTUM public key and store it and Eve QUANTUM public key to QUANTUM AC;
QUANTUM AC transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network network of the licensed frequency carrier;

Alice QUANTUM SERVER is composed of Alice pseudo random number generator (PRNG) and Alice quantum random number generator (QRNG) inside,
Alice QUANTUM SERVER generates Alice PIN data through Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and generates Alice QUANTUM private key with Alice PIN data as a random number seed; And
generating an Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the wireless network network of the licensed frequency carrier, and the licensed frequency carrier wireless network or wired network and unlicensed frequency closed radio retransmit to QUANTUM COLLABO over your own network; and
QUANTUM COLLABO decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the internally stored Eve PIN data match,
QUANTUM COLLABO controls QUANTUM AC to connect Bob QUANTUM SERVER and network network login (Log In) through QUANTUM AP connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems;
QUANTUM AC transmits the terminal device generated data encrypted with the Alice QUANTUM public key through the QUANTUM AP to the Bob QUANTUM SERVER that is logged in to the network network,

transmitting the terminal device generated data encrypted with the Alice QUANTUM public key to the QUANTUM AP through the unlicensed frequency modem;
When Bob QUANTUM SERVER receives terminal device generated data encrypted with Alice QUANTUM public key from QUANTUM AP,
transmitted to Alice QUANTUM SERVER through the non-QUANTUM CHANNEL wired network;
Alice QUANTUM SERVER receives terminal device-generated data encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key to enhance security QUANTUM KEY Distributed Hybrid Quantum Communication Closed Network System.
It consists of a terminal device, QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, and QUANTUM AP,
Alice QUANTUM SERVER is connected to Bob QUANTUM SERVER through a wireless network network of a telecommunication service provider and a self-wired network network;
Bob QUANTUM SERVER is connected to the QUANTUM COLLABO through the QUANTUM AP and the unlicensed frequency closed wireless network;

QUANTUM COLLABO is to selectively select unlicensed frequency closed wireless self-network or licensed frequency carrier wireless network through QUANTUM AC inside in data transmission/reception,
QUANTUM COLLABO controls QUANTUM AC inside and connects with Bob QUANTUM SERVER through QUANTUM AP connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems; or
QUANTUM COLLABO controls QUANTUM AC to connect to Alice QUANTUM SERVER through licensed frequency modem among multi-communication modems through licensed frequency communication operator wireless network;

QUANTUM COLLABO consists of QUANTUM AC, Eve quantum random number generator, and Encrypt TLS MODULE,
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE;
Encrypt TLS MODULE receives and stores Eve PIN data through contactless short-range wireless communication from NFC card, generates Eve QUANTUM private key with Eve PIN data as a random number seed, and stores Eve PIN data in Alice QUANTUM SERVER;
Encrypt TLS MODULE receives quantum random number from Eve quantum random number generator, encrypts the Eve QUANTUM private key with the quantum random number seed, generates Eve QUANTUM public key, stores it, and transmits Eve QUANTUM public key to QUANTUM AC and;
QUANTUM AC transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network network of the licensed frequency carrier;

Alice QUANTUM SERVER is composed of Alice pseudo random number generator (PRNG) and Alice quantum random number generator (QRNG) inside,
Alice QUANTUM SERVER generates Alice PIN data through Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and generates Alice QUANTUM private key with Alice PIN data as a random number seed; And
generating an Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the wireless network network of the telecommunication service provider, so that the licensed frequency carrier wireless network or self-wired network and unlicensed frequency closed radio retransmit over the network to QUANTUM COLLABO; and
QUANTUM COLLABO decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data; and
If the decrypted Eve PIN data and the internally stored Eve PIN data match,
QUANTUM COLLABO controls QUANTUM AC to connect Bob QUANTUM SERVER and network network login (Log In) through QUANTUM AP connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems;
transmitting the terminal device generated data encrypted with the Alice QUANTUM public key to the QUANTUM AP through a communicable unlicensed frequency modem;
When Bob QUANTUM SERVER receives terminal device generated data encrypted with Alice QUANTUM public key from QUANTUM AP, it transmits it to Alice QUANTUM SERVER through its own wired network;
Alice QUANTUM SERVER receives terminal device-generated data encrypted with the Alice QUANTUM private key from one or more of its own wired network and the wireless network of an unlicensed frequency carrier, and decrypts it with the Alice QUANTUM private key to enhance security. Heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system featuring a hybrid-QUANTUM CHANNEL One-Way-Ring Network that saves money.
QUANTUM COLLABO is to selectively select an unlicensed frequency radio self-network or a licensed radio operator's radio network in data transmission/reception,
QUANTUM COLLABO connects with Bob QUANTUM SERVER through QUANTUM AP connected to unlicensed frequency radio self-network through unlicensed frequency modem; or
QUANTUM COLLABO connects with Alice QUANTUM SERVER through licensed frequency carrier wireless network through licensed frequency modem;

QUANTUM COLLABO generates an Eve QUANTUM private key with a random number seed generated through an internal Eve pseudo-random number generator;
QUANTUM COLLABO encrypts the Eve QUANTUM private key with the quantum random number generated through the internal Eve quantum random number generator as a seed, generates the Eve QUANTUM public key, stores it, and transmits the Eve QUANTUM public key to QUANTUM AC;
QUANTUM AC transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the wireless network of the licensed frequency carrier;

Alice QUANTUM SERVER is composed of Alice pseudo random number generator and Alice quantum random number generator inside,
Alice QUANTUM SERVER generates the Alice QUANTUM private key with the random number seed generated through the Alice pseudo-random number generator; and
Encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator to generate the Alice QUANTUM public key;
Alice QUANTUM SERVER encrypts the Alice QUANTUM public key with the Eve QUANTUM public key received through the licensed frequency carrier wireless network, and retransmits it to QUANTUM COLLABO through the licensed frequency carrier wireless network or its own wired network and unlicensed frequency wireless own network; and
QUANTUM COLLABO decrypts the Alice QUANTUM public key encrypted with the Eve QUANTUM public key and decrypts the Alice QUANTUM public key with the Eve QUANTUM private key to generate and decrypts the Alice QUANTUM public key; and
QUANTUM AC transmits the data encrypted with the Alice QUANTUM public key to Bob QUANTUM SERVER through the QUANTUM AP,
Transmitting data encrypted with the Alice QUANTUM public key to the QUANTUM AP through a communicable unlicensed frequency modem channel;
When Bob QUANTUM SERVER receives data encrypted with Alice QUANTUM public key from QUANTUM AP, it transmits it to Alice QUANTUM SERVER through its own wired network;
Alice QUANTUM SERVER receives data encrypted with the Alice QUANTUM public key from its own wired network and decrypts it with the Alice QUANTUM private key to enhance security. It features a hybrid-QUANTUM CHANNEL One-Way-Ring Network that improves communication speed and reduces communication costs. Heterogeneous Network QUANTUM KEY Distribution Hybrid Quantum Communication Closed Network System.
It consists of QUANTUM COLLABO, surveillance camera, communication modem, QUANTUM AP (Access Point), Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

QUANTUM COLLABO consists of Eve quantum random number generator and Eve pseudo random number generator and QUANTUM JUMP ENGINE.
QUANTUM COLLABO internal Eve quantum random number generator generates Eve quantum random number and sends it to QUANTUM JUMP ENGINE internal Security CPU;
QUANTUM JUMP ENGINE consists of System Memory, MCU, Security OTP Memory, Boot-ROM, and SPI Controller;
QUANTUM JUMP ENGINE internal MCU controls System Memory, Security OTP Memory, Boot-ROM, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
MCU receives Eve quantum random number from Eve quantum random number generator and stores it in Security OTP Memory and generates Eve QUANTUM private key (PRIVATE KEY) with Eve quantum random number as a seed;
MCU receives Eve pseudo-random number from Eve pseudo-random number generator, stores it in Security OTP Memory, and uses Eve pseudo-random number as a seed. Eve QUANTUM private key (PRIVATE KEY) and asymmetric cryptographic algorithm beta OR (EX-OR) cryptographic operation to generate an Eve QUANTUM public key (PUBLIC KEY);
MCU stores Eve QUANTUM public key in Security OTP Memory and transmits it to communication modem;
The communication modem transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the wireless network of the carrier;

Alice QUANTUM SERVER is composed of Alice quantum random number generator and Alice pseudo random number generator inside,
Alice QUANTUM SERVER receives Alice quantum random number from Alice quantum random number generator, generates Alice QUANTUM private key (PRIVATE KEY) with Alice quantum random number as a seed and stores it in internal memory;
Alice QUANTUM SERVER receives Alice pseudo-random number from Alice pseudo-random number generator, stores it in internal memory, and uses Alice pseudo-random number as a seed Alice QUANTUM private key (PRIVATE KEY) and asymmetric cryptographic algorithm Exclusive generating an Alice QUANTUM public key (PUBLIC KEY) by performing an EX-OR cryptographic operation;
Alice QUANTUM SERVER transmits the Alice QUANTUM public key to QUANTUM COLLABO through the wireless network of the carrier;

QUANTUM COLLABO encrypts Eve quantum random number with Alice QUANTUM public key and transmits it to Alice QUANTUM SERVER through the wireless network of the telecommunication service provider;
Alice QUANTUM SERVER encrypts Alice quantum random number with the Eve QUANTUM public key and transmits it to QUANTUM COLLABO through the wireless network of the telecommunication service provider;
QUANTUM COLLABO decrypts Alice quantum random number encrypted with Eve QUANTUM public key with Eve QUANTUM private key and performs beta-OR (EX-OR) encryption operation with Eve quantum random number stored in Security OTP Memory. generate a key;
Alice QUANTUM SERVER decrypts the Eve quantum random number encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key, and then performs an EX-OR encryption operation with the Alice quantum random number stored in the internal memory to perform QUANTUM symmetry of the symmetric cryptographic algorithm. generate a key;
Alice QUANTUM SERVER encrypts QUANTUM COLLABO's log information (ID/Password) with the QUANTUM symmetric key, and QUANTUM COLLABO decrypts it with the QUANTUM symmetric key. booting, encrypting the video data captured by the surveillance camera with the QUANTUM symmetric key and transmitting it to the communication modem;
The communication modem transmits the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key to the Bob QUANTUM SERVER through the QUANTUM AP in the wireless self-network network. and;
When Bob QUANTUM SERVER receives the surveillance camera video data encrypted with the QUANTUM symmetric key from the QUANTUM AP, it transmits it to the Alice QUANTUM SERVER through the wire network;
Alice QUANTUM SERVER is a heterogeneous network featuring a Two-Way-Ring Network that receives video data captured by a surveillance camera encrypted with a QUANTUM symmetric key and decrypts it with a QUANTUM symmetric key from any one or more of a wired self-network and a wireless network of a telecommunication service provider. Distributed Hybrid Quantum Communication Closed Network System.
It consists of QUANTUM COLLABO, surveillance camera, DUAL MODEM, QUANTUM DUAL AP(Access Point), Alice QUANTUM SERVER, Bob QUANTUM SERVER,

QUANTUM COLLABO is composed of Eve quantum random number generator, generates basic-Eve quantum random number with Eve quantum random number generator, stores it in internal memory, and uses basic-Eve quantum random number as seed Eve QUANTUM private key (PRIVATE KEY) generate; and
QUANTUM COLLABO is an Eve quantum random number generator that generates a new new-Eve quantum random number, and as a seed, Eve QUANTUM private key (PRIVATE KEY) and asymmetric cryptographic algorithm beta-OR (EX-OR) encryption operation to generate an Eve QUANTUM public key (PUBLIC KEY);
DUAL MODEM transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the carrier's wireless network;

Alice QUANTUM SERVER is configured including Alice quantum random number generator, receives basic-Alice quantum random number from Alice quantum random number generator, stores it in internal memory, and uses basic-Alice quantum random number as a seed Alice QUANTUM private key (PRIVATE) KEY); and
Alice QUANTUM SERVER generates a new new-Alice quantum random number from Alice quantum random number generator, and as a seed, Alice QUANTUM private key (PRIVATE KEY) and asymmetric cryptographic algorithm beta OR (EX-OR) generate an Alice QUANTUM public key (PUBLIC KEY) by cryptographic operation;
Alice QUANTUM SERVER transmits the Alice QUANTUM public key to QUANTUM COLLABO through the wireless network of the carrier;

QUANTUM COLLABO encrypts basic-Eve quantum random number with Alice QUANTUM public key and transmits it to Alice QUANTUM SERVER through the wireless network of the telecommunication service provider;
Alice QUANTUM SERVER encrypts the basic-Alice quantum random number with the Eve QUANTUM public key and transmits it to the QUANTUM COLLABO through the wireless network of the carrier;
QUANTUM COLLABO decrypts the basic-Alice quantum random number encrypted with the Eve QUANTUM private key with the Eve QUANTUM private key and then performs an EX-OR encryption operation with the basic-Eve quantum random number stored in the internal memory to create a symmetric cryptographic algorithm. generate a QUANTUM symmetric key of ;
Alice QUANTUM SERVER decrypts the basic-Eve quantum random number encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key, then performs an EX-OR encryption operation with the basic-Alice quantum random number stored in the internal memory to perform a symmetric cryptographic algorithm. ) to generate a QUANTUM symmetric key;
QUANTUM COLLABO encrypts video data captured by surveillance camera with QUANTUM symmetric key and transmits it to DUAL MODEM;
DUAL MODEM transmits surveillance camera video data encrypted with QUANTUM symmetric key to Bob QUANTUM SERVER through QUANTUM AP in wireless self-network, but if communication with QUANTUM AP is not possible, it is transmitted to Alice QUANTUM SERVER through wireless network and;
When Bob QUANTUM SERVER receives the surveillance camera video data encrypted with the QUANTUM symmetric key from the QUANTUM DUAL AP, it transmits it to Alice QUANTUM SERVER through the wired network;
Alice QUANTUM SERVER is a heterogeneous network featuring a Two-Way-Ring Network that receives video data captured by a surveillance camera encrypted with a QUANTUM symmetric key and decrypts it with a QUANTUM symmetric key from any one or more of a wired self-network and a wireless network of a telecommunication service provider. Distributed Hybrid Quantum Communication Closed Network System.
It consists of QUANTUM COLLABO, DUAL MODEM, QUANTUM DUAL AP, Alice QUANTUM SERVER, and Bob QUANTUM SERVER.

QUANTUM COLLABO consists of an Eve quantum random number generator, generating basic-Eve quantum random numbers with the Eve quantum random number generator, storing them in internal memory, and using the basic-Eve quantum random numbers as seeds to generate the Eve QUANTUM private key; and
QUANTUM COLLABO is an Eve quantum random number generator that generates a new new-Eve quantum random number and performs cryptographic operations with the Eve QUANTUM private key as a seed to generate the Eve QUANTUM public key;
DUAL MODEM transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through either the telecom operator's wired or wireless network;

Alice QUANTUM SERVER is configured to include an Alice quantum random number generator, generating basic-Alice quantum random numbers with the Alice quantum random number generator, storing them in internal memory, and using the basic-Alice quantum random number as a seed to generate the Alice QUANTUM private key; And
Alice QUANTUM SERVER generates a new new-Alice quantum random number from the Alice quantum random number generator and performs cryptographic operation with the Alice QUANTUM private key as a seed to generate the Alice QUANTUM public key;
Alice QUANTUM SERVER transmits the Alice QUANTUM public key to QUANTUM COLLABO through either the wired or wireless network of the telecommunication service provider;

QUANTUM COLLABO encrypts basic-Eve quantum random number with Alice QUANTUM public key and transmits it to Alice QUANTUM SERVER through either wired or wireless network of a telecommunication service provider;
Alice QUANTUM SERVER encrypts the basic-Alice quantum random number with the Eve QUANTUM public key and transmits it to the QUANTUM COLLABO through the telecommunication operator wired or wireless network;

QUANTUM COLLABO generates a QUANTUM symmetric key by decrypting the basic-Alice quantum random number encrypted with the Eve QUANTUM public key with the Eve QUANTUM private key and performing encryption operations with the basic-Eve quantum random number stored in the internal memory;
Alice QUANTUM SERVER decrypts the basic-Eve quantum random number encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key, and then performs an encryption operation with the basic-Alice quantum random number stored in the internal memory to generate the QUANTUM symmetric key;
QUANTUM COLLABO transmits encrypted data by encrypting internal data with QUANTUM symmetric key to DUAL MODEM;
DUAL MODEM transmits the encrypted data encrypted with the QUANTUM symmetric key to Bob QUANTUM SERVER through the wireless self-network QUANTUM AP;
When Bob QUANTUM SERVER receives the encrypted data encrypted with the QUANTUM symmetric key from the QUANTUM DUAL AP, it transmits it to the Alice QUANTUM SERVER through the wire network;
Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system featuring a Two-Way-Ring Network that receives encrypted data encrypted with the QUANTUM symmetric key from the wired network and decrypts it with the QUANTUM symmetric key.
It consists of QUANTUM COLLABO, DUAL MODEM, QUANTUM DUAL AP, Alice QUANTUM SERVER, and Bob QUANTUM SERVER.
QUANTUM COLLABO is configured to include an Eve quantum random number generator, first generating an Eve quantum random number with the Eve quantum random number generator, and using the Eve quantum random number as a seed to generate an Eve QUANTUM private key; and
QUANTUM COLLABO generates an Eve QUANTUM public key by regenerating a quantum random number with an Eve quantum random number generator and performing an encryption operation with the Eve QUANTUM private key as a random number seed;
DUAL MODEM transmits Eve QUANTUM public key to Alice QUANTUM SERVER through the first network;
Alice QUANTUM SERVER is configured to include an Alice quantum random number generator, to initially generate an Alice quantum random number with the Alice quantum random number generator, and use the Alice quantum random number as a seed to generate the Alice QUANTUM private key; and
Alice QUANTUM SERVER generates an Alice QUANTUM public key by regenerating a quantum random number with an Alice quantum random number generator and performing an encryption operation with the Alice QUANTUM private key as a random number seed;
Alice QUANTUM SERVER sends the Alice QUANTUM public key to QUANTUM COLLABO through the first network;
QUANTUM COLLABO encrypts Eve quantum random number with Alice QUANTUM public key and transmits it to Alice QUANTUM SERVER through the first network;
Alice QUANTUM SERVER encrypts Alice quantum random number with the Eve QUANTUM public key and transmits it to QUANTUM COLLABO through the first network;
QUANTUM COLLABO decrypts Alice's quantum random number encrypted with Eve QUANTUM public key with Eve QUANTUM private key and performs encryption operation with Eve quantum random number stored in internal memory to generate QUANTUM symmetric key;
Alice QUANTUM SERVER decrypts the Eve quantum random number encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key and performs an encryption operation with the Alice quantum random number stored in the internal memory to generate the QUANTUM symmetric key;
QUANTUM COLLABO transmits encrypted data by encrypting internal data with QUANTUM symmetric key to DUAL MODEM;
DUAL MODEM transmits the encrypted data encrypted with QUANTUM symmetric key to Bob QUANTUM SERVER through the second network wireless self-network QUANTUM AP;
When Bob QUANTUM SERVER receives the encrypted data encrypted with the QUANTUM symmetric key from the QUANTUM DUAL AP, it transmits it to Alice QUANTUM SERVER through the second network wired self-network;
Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system featuring a Two-Way-Ring Network that receives encrypted data encrypted with the QUANTUM symmetric key from the second network wired self-network and decrypts it with the QUANTUM symmetric key.
It consists of QUANTUM COLLABO, DUAL MODEM, QUANTUM DUAL AP, Alice QUANTUM SERVER, and Bob QUANTUM SERVER.
QUANTUM COLLABO is configured to include an Eve quantum random number generator, first generating an Eve quantum random number with the Eve quantum random number generator, and using the Eve quantum random number as a seed to generate an Eve QUANTUM private key; and
QUANTUM COLLABO generates an Eve QUANTUM public key by regenerating a quantum random number with an Eve quantum random number generator and performing an encryption operation with the Eve QUANTUM private key as a random number seed;
DUAL MODEM transmits Eve QUANTUM public key to Alice QUANTUM SERVER through the first network;
Alice QUANTUM SERVER is configured to include an Alice quantum random number generator, to initially generate an Alice quantum random number with the Alice quantum random number generator, and use the Alice quantum random number as a seed to generate the Alice QUANTUM private key; and
Alice QUANTUM SERVER generates an Alice QUANTUM public key by regenerating a quantum random number with an Alice quantum random number generator and performing an encryption operation with the Alice QUANTUM private key as a random number seed;
Alice QUANTUM SERVER sends the Alice QUANTUM public key to QUANTUM COLLABO through the first network;
QUANTUM COLLABO encrypts Eve quantum random number with Alice QUANTUM public key and transmits it to Alice QUANTUM SERVER through the first network;
Alice QUANTUM SERVER encrypts Alice quantum random number with the Eve QUANTUM public key and transmits it to QUANTUM COLLABO through the first network;
QUANTUM COLLABO decrypts Alice's quantum random number encrypted with Eve QUANTUM public key with Eve QUANTUM private key and performs encryption operation with Eve quantum random number stored in internal memory to generate QUANTUM symmetric key;
Alice QUANTUM SERVER decrypts the Eve quantum random number encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key and performs an encryption operation with the Alice quantum random number stored in the internal memory to generate the QUANTUM symmetric key;
QUANTUM COLLABO transmits encrypted data by encrypting internal data with QUANTUM symmetric key to DUAL MODEM;
DUAL MODEM transmits encrypted data encrypted with QUANTUM symmetric key to Alice QUANTUM SERVER through the second network;
Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system featuring a Two-Way-Ring Network that receives encrypted data encrypted with the QUANTUM symmetric key from the second network and decrypts it with the QUANTUM symmetric key.
Security camera, QUANTUM COLLABO, Alice/Bob QUANTUM SERVER, QUANTUM DUAL AP (Access Point), SK Telecom's telecom operator LoRA wireless network
Alice/Bob QUANTUM SERVER generates a random quantum random number by Alice/Bob through the Alice/Bob Quantum Random Number Generator (QRNG) inside, It is characterized by generating the QUANTUM symmetric key of the Half Mirror Effect key generation Symmetric Cryptographic Algorithm that affects it,

Quantum Random Number Generator (QRNG) generates a random number seed early-QRN (Quantum Random Number) for generating a QUANTUM symmetric key of a Symmetric Cryptographic Algorithm and generates an asymmetric key cryptographic algorithm (asymmetric) cryptographic algorithm) Random number seed for generating QUANTUM private key (PRIVATE KEY) basic-QRN (Quantum Random Number), Random number seed for generating QUANTUM public key (PUBLIC KEY) new-QRN (Quantum Random) Number);

Alice QUANTUM SERVER inside the integrated crime prevention center is connected to SK Telecom's telecom operator's LoRA wireless network and wired self-network;

Bob QUANTUM SERVER is connected to Alice QUANTUM SERVER through any one of the non-QUANTUM CHANNEL via CC-certified VPN, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL via PUF-QRNG TWIN USB cable;

The terminal part consists of a security surveillance camera, a multi-communication modem, and a QUANTUM COLLABO.
QUANTUM COLLABO controls security surveillance cameras;
QUANTUM COLLABO selectively selects unlicensed frequency closed wireless self-network or licensed frequency SK Telecom carrier LoRA wireless network network through QUANTUM AC (Access Controller) in data transmission/reception,
QUANTUM COLLABO controls QUANTUM AC (Access Controller) to connect with Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems; or
QUANTUM COLLABO controls QUANTUM AC (Access Controller) and is connected to Alice QUANTUM SERVER through licensed frequency SK Telecom carrier LoRA wireless network network through licensed frequency modem among multi-communication modems;

QUANTUM COLLABO consists of QUANTUM AC (Access Controller), Eve quantum random number generator, and Encrypt TLS (Transport Layer Security protocol) MODULE,
Encrypt TLS MODULE consists of System Memory, MCU (Main Control Unit), Security OTP Memory, Boot-ROM, and SPI Controller;
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and sends it to Encrypt TLS MODULE internal MCU;
Encrypt TLS MODULE Internal MCU controls System Memory, Security OTP Memory, Boot-ROM, SPI Controller;
System Memory is System Memory in which MCU operating OS program is stored;
MCU receives basic-QRN from Eve quantum random number generator and generates an asymmetric cryptographic algorithm Eve QUANTUM PRIVATE KEY as a random number seed;
MCU receives new-QRN random number from Eve quantum random number generator and performs beta-OR (EX-OR) encryption operation with new-QRN random number seed on Eve QUANTUM private key, OTP (One Time Password) asymmetric key encryption algorithm (asymmetric cryptographic algorithm) generating an Eve QUANTUM public key (PUBLIC KEY), storing the Eve QUANTUM public key in a Security One Time Password (OTP) Memory, and transmitting the Eve QUANTUM public key to a QUANTUM Access Controller (AC);
QUANTUM AC (Access Controller) transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency SK Telecom carrier LoRA wireless network network through the licensed frequency modem among the multi-communication modems;

Alice QUANTUM SERVER is configured by including Alice Quantum Random Number Generator (QRNG) inside,
Alice QUANTUM SERVER receives basic-QRN from Alice quantum random number generator and generates an asymmetric cryptographic algorithm Alice QUANTUM private key (PRIVATE KEY) with a random number seed; and
Alice QUANTUM SERVER receives new-QRN random number from Alice quantum random number generator, performs beta-OR (EX-OR) encryption operation on Alice QUANTUM private key with the new-QRN random number seed, and OTP (One Time Password) asymmetry generate an asymmetric cryptographic algorithm Alice QUANTUM PUBLIC KEY;
Alice QUANTUM SERVER and QUANTUM COLLABO exchange the Alice QUANTUM public key and the Eve QUANTUM public key with each other through the licensed frequency SK Telecom carrier LoRA wireless network;

QUANTUM COLLABO receives early-Eve QRN from Eve quantum random number generator, encrypts early-Eve QRN with Alice QUANTUM public key, and transmits to Alice QUANTUM SERVER through licensed frequency SK Telecom carrier LoRA wireless network;
Alice QUANTUM SERVER receives early-Alice QRN from Alice quantum random number generator, encrypts early-Alice QRN with Eve QUANTUM public key, and transmits it to QUANTUM COLLABO through the licensed frequency SK Telecom carrier LoRA wireless network;

QUANTUM COLLABO decrypts the early-Alice QRN encrypted with the Eve QUANTUM public key with the Eve QUANTUM private key, and then performs an EX-OR encryption operation with the early-Eve QRN stored inside the QUANTUM symmetric of the symmetric cryptographic algorithm. generate a key;
Alice QUANTUM SERVER decrypts the early-Eve QRN encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key, and performs beta-OR (EX-OR) encryption with the early-Alice QRN stored inside the QUANTUM of the symmetric cryptographic algorithm. generate a symmetric key;

Alice QUANTUM SERVER encrypts QUANTUM COLLABO's log information (ID/Password) with QUANTUM symmetric key and transmits it to Bob QUANTUM SERVER through any one of non-QUANTUM CHANNEL, QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL wired self-network;
Bob QUANTUM SERVER transmits QUANTUM COLLABO's log information (ID/Password) encrypted with the QUANTUM symmetric key to the unlicensed frequency modem connected to the unlicensed frequency closed wireless self-network through the QUANTUM DUAL AP (Access Point);
QUANTUM COLLABO receives the log information (ID/Password) of QUANTUM COLLABO encrypted with the QUANTUM symmetric key through the unlicensed frequency modem and decrypts it with the QUANTUM symmetric key. to boot;
QUANTUM COLLABO controls QUANTUM AC (Access Controller) to connect Bob QUANTUM SERVER and network network login (Log In) through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network with unlicensed frequency modem among multi-communication modems and;

QUANTUM AC (Access Controller) transmits video data captured by security cameras encrypted with QUANTUM symmetric key through QUANTUM DUAL AP to Bob QUANTUM SERVER through a closed wireless self-network with unlicensed frequency that is logged in to the network network.
If communication with QUANTUM DUAL AP is not possible, it is transmitted to Alice QUANTUM SERVER through any one of the 3G, 4G, or 5G wireless networks of SK Telecom's licensed frequency network through licensed frequency modems among multi-communication modems;
When Bob QUANTUM SERVER receives video data from the QUANTUM symmetric key encrypted with the QUANTUM symmetric key from the QUANTUM DUAL AP through the unlicensed frequency closed wireless network, one of non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL transmitted to Alice QUANTUM SERVER through the wired self-network of
Alice QUANTUM SERVER receives the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key from any one or more of the wired own network and the LoRA wireless network network of SK Telecom, and decrypts it with the QUANTUM symmetric key;

QUANTUM AC (Access Controller) inside QUANTUM COLLABO transmits the Alice QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency modem to the SK Telecom carrier LoRA wireless network; and
Transmitting the video data captured by the security surveillance camera encrypted with the QUANTUM symmetric key to the QUANTUM DUAL AP through the unlicensed frequency modem, which has the fastest communication speed among low frequency or high frequency,
QUANTUM DUAL AP is capable of dual transmission and reception of 2.4GHz Low Frequency and 5GHz High Frequency. It selects Low Frequency or High Frequency for data transmission according to the communication environment according to obstacles. Before data transmission, QUANTUM AC (Access Controller) AP conducts Low-Frequency and High-Frequency PING tests, selects a frequency with fast response speed, and encrypts and transmits large-capacity surveillance camera video data with QUANTUM symmetric key to enhance security and reduce communication costs. Heterogeneous Network QUANTUM KEY Distribution Hybrid Quantum Communication Closed Network System featuring CHANNEL Two-Way-Ring Network.
It consists of QUANTUM COLLABO, Alice QUANTUM SERVER, Bob QUANTUM SERVER, QUANTUM DUAL AP (Access Point), multi-communication modem, telecommunication operator network, wired/wireless self-network,
Alice/Bob QUANTUM SERVER generates a random quantum random number by Alice/Bob through the Alice/Bob Quantum Random Number Generator (QRNG) inside, and uses the Half Mirror Effect Symmetric Cryptographic Algorithm through encryption operation. Characterized in generating a QUANTUM symmetric key,

Quantum random number generator (QRNG) generates a random number seed early-QRN (Quantum Random Number) for generating QUANTUM symmetric key of symmetric key algorithm and QUANTUM private key (PRIVATE KEY) of asymmetric cryptographic algorithm ), a random number seed for generating basic-QRN (Quantum Random Number) and a random number seed for generating QUANTUM public key (PUBLIC KEY) new-QRN (Quantum Random Number);

Alice QUANTUM SERVER is networked with QUANTUM COLLABO through a carrier network network; and
Alice QUANTUM SERVER is connected to QUANTUM COLLABO through a non-QUANTUM CHANNEL and QUANTUM CHANNEL wired self-network, via Bob QUANTUM SERVER, and through a closed wireless self-network with unlicensed frequency;

QUANTUM COLLABO is composed of QUANTUM AC (Access Controller) and Eve quantum random number generator. as,
QUANTUM COLLABO controls QUANTUM AC and connects with Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems; or
QUANTUM COLLABO controls QUANTUM AC and is connected to Alice QUANTUM SERVER through a telecommunication carrier network through a telecommunication carrier modem among multi-communication modems;

QUANTUM COLLABO generates basic-QRN random number from Eve quantum random number generator and generates an asymmetric key cryptographic algorithm Eve QUANTUM private key with random number seed;
QUANTUM COLLABO generates new-QRN random number from Eve quantum random number generator and encrypts Eve QUANTUM private key and new-QRN random number seed to generate asymmetric key encryption algorithm OTP (One Time Password) Eve QUANTUM public key to QUANTUM AC transmit;
QUANTUM AC transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the telecommunication carrier network as a carrier modem among multi-communication modems;

Alice QUANTUM SERVER is composed of Alice quantum random number generator inside,
Alice QUANTUM SERVER receives basic-QRN from Alice quantum random number generator and generates an asymmetric key cryptographic algorithm Alice QUANTUM private key with a random number seed; and
Alice QUANTUM SERVER receives new-QRN random number from Alice quantum random number generator and encrypts Alice QUANTUM private key and new-QRN random number seed to generate an asymmetric key encryption algorithm OTP (One Time Password) Alice QUANTUM public key;
Alice QUANTUM SERVER and QUANTUM COLLABO exchange the Alice QUANTUM public key and the Eve QUANTUM public key with each other through the carrier network;

QUANTUM COLLABO receives early-Eve QRN from Eve quantum random number generator, encrypts early-Eve QRN with Alice QUANTUM public key, and transmits it to Alice QUANTUM SERVER through network of telecommunication service providers;
Alice QUANTUM SERVER receives early-Alice QRN from Alice quantum random number generator, encrypts early-Alice QRN with Eve QUANTUM public key, and transmits it to QUANTUM COLLABO through network of telecommunication service providers;

QUANTUM COLLABO decrypts the early-Alice QRN encrypted with the Eve QUANTUM public key with the Eve QUANTUM private key, and performs encryption operations with the early-Eve QRN to generate the QUANTUM symmetric key of the symmetric key algorithm;
Alice QUANTUM SERVER decrypts the early-Eve QRN encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key, and then performs the same encryption operation with the early-Alice QRN to generate the QUANTUM symmetric key of the symmetric key algorithm;
Alice QUANTUM SERVER encrypts the log information of QUANTUM COLLABO with the QUATUM symmetric key and transmits it to Bob QUANTUM SERVER through the wired self-network;
Bob QUANTUM SERVER transmits the log information of QUANTUM COLLABO encrypted with QUATUM symmetric key to QUANTUM COLLABO through the unlicensed frequency closed wireless self-network;
QUANTUM COLLABO uses the QUANTUM symmetric key to decrypt the QUANTUM COLLABO's log information encrypted with the QUANTUM symmetric key, and if it is the approved log information, QUANTUM AC controls QUANTUM AC to control QUANTUM AC through unlicensed frequency modem among multi-communication modems. Connect with Bob QUANTUM SERVER through DUAL AP (Access Point) through network login (Log In);

QUANTUM AC transmits QUANTUM COLLABO internal data encrypted with QUANTUM symmetric key through QUANTUM DUAL AP to Bob QUANTUM SERVER through network network login (Log In) unlicensed frequency closed wireless self-network;
Bob QUANTUM SERVER transmits QUANTUM COLLABO internal data to Alice QUANTUM SERVER through any one of non-QUANTUM CHANNEL, QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL wireline networks;
Alice QUANTUM SERVER is a hybrid-QUANTUM CHANNEL Two-Way-Ring Network characterized by a hybrid-QUANTUM CHANNEL Two-Way-Ring Network, characterized by receiving QUANTUM COLLABO internal data encrypted with QUANTUM symmetric key from a wired network and decrypting it with QUANTUM symmetric key. Quantum communication closed network system.
It consists of QUANTUM COLLABO, Alice QUANTUM SERVER, Bob QUANTUM SERVER, QUANTUM DUAL AP, multi-communication modem, the first network, and the second network,

QUANTUM SERVER generates the QUANTUM symmetric key of the symmetric key algorithm and the QUANTUM private key and QUANTUM public key of the asymmetric key encryption algorithm through cryptographic operation of the random quantum random number generated through the quantum random number generator inside,
The quantum random number generator generates an early-QRN (Quantum Random Number) random number for generating the QUANTUM symmetric key of the symmetric key algorithm and basic-QRN (Quantum Random Number) for generating the asymmetric key cryptographic algorithm QUANTUM private key (PRIVATE KEY) generate a random number and a new-QRN (Quantum Random Number) random number for generating a QUANTUM PUBLIC KEY;

Alice QUANTUM SERVER is connected to QUANTUM COLLABO through a dual network of the first network and the second network;

QUANTUM COLLABO is composed of QUANTUM AC and Eve quantum random number generator, and QUANTUM COLLABO selectively selects either the first network or the second network through QUANTUM AC inside,
QUANTUM COLLABO controls QUANTUM AC and is connected to the first network between QUANTUM COLLABO and Alice QUANTUM SERVER, which is connected to a telecommunication operator wired network or wireless network with a multi-communication modem; or
QUANTUM COLLABO is a multi-communication modem that controls QUANTUM AC and connects to QUANTUM DUAL AP through a closed wireless self-network of unlicensed frequency or a second network network between QUANTUM COLLABO and Bob QUANTUM SERVER that is connected to Bob QUANTUM SERVER through a wired self-network connected to;

QUANTUM COLLABO generates basic-QRN random number from Eve quantum random number generator to generate Eve QUANTUM private key with random number seed;
QUANTUM COLLABO generates new-QRN random number from Eve quantum random number generator and encrypts Eve QUANTUM private key and new-QRN random number seed to generate Eve QUANTUM public key and sends it to QUANTUM AC;
QUANTUM AC transmits the Eve QUANTUM public key to Alice QUANTUM SERVER connected to the first network through the multi-communication modem;

Alice QUANTUM SERVER is composed of Alice quantum random number generator inside,
Alice QUANTUM SERVER generates basic-QRN random number from Alice quantum random number generator to generate Alice QUANTUM private key as a random number seed; and
Alice QUANTUM SERVER generates new-QRN random number from Alice quantum random number generator, and encrypts Alice QUANTUM private key and new-QRN random number seed to generate Alice QUANTUM public key;
Alice QUANTUM SERVER sends the Alice QUANTUM public key to QUANTUM COLLABO through the first network;

QUANTUM COLLABO receives early-Eve QRN random number from Eve quantum random number generator, encrypts early-Eve QRN with Alice QUANTUM public key, and transmits it to Alice QUANTUM SERVER through the first network;
Alice QUANTUM SERVER receives early-Alice QRN from Alice quantum random number generator, encrypts early-Alice QRN with Eve QUANTUM public key, and transmits it to QUANTUM COLLABO through the first network;

QUANTUM COLLABO decrypts the early-Alice QRN encrypted with the Eve QUANTUM public key with the Eve QUANTUM private key, and then performs an encryption operation with the early-Eve QRN to generate the QUANTUM symmetric key;
Alice QUANTUM SERVER decrypts the early-Eve QRN encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key and performs encryption operations with the early-Alice QRN to generate the QUANTUM symmetric key;
Alice QUANTUM SERVER encrypts the log information of QUANTUM COLLABO with the QUATUM symmetric key and transmits it to Bob QUANTUM SERVER to QUANTUM COLLABO through a second network;
QUANTUM COLLABO uses the QUANTUM symmetric key to decrypt the QUANTUM COLLABO's log information encrypted with the QUANTUM symmetric key, and if it is the approved log information, it controls QUANTUM AC to Alice QUANTUM SERVER through Bob QUANTUM SERVER connected to the second network with a multi-communication modem. Transmits internal data encrypted with the QUATUM symmetric key;
Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system featuring a hybrid-QUANTUM CHANNEL Two-Way-Ring Network that receives internal data encrypted with the QUANTUM symmetric key and decrypts it with the QUANTUM symmetric key.
It consists of QUANTUM COLLABO, Alice QUANTUM SERVER, Bob QUANTUM SERVER, QUANTUM DUAL AP, multi-communication modem, the first network, and the second network,

QUANTUM SERVER is characterized by generating QUANTUM symmetric key, QUANTUM private key, and QUANTUM public key through cryptographic operation using random quantum random numbers generated through internal quantum random number generator.
The quantum random number generator generates an early-QRN (Quantum Random Number) random number for generating the QUANTUM symmetric key of the symmetric key algorithm and basic-QRN (Quantum Random Number) for generating the asymmetric key cryptographic algorithm QUANTUM private key (PRIVATE KEY) generate a random number and a new-QRN (Quantum Random Number) random number for generating a QUANTUM PUBLIC KEY;

Alice QUANTUM SERVER and QUANTUM COLLABO are connected by a dual network of the first network and the second network;

QUANTUM COLLABO is composed of QUANTUM AC and Eve quantum random number generator, and QUANTUM COLLABO selectively selects either the first network or the second network through QUANTUM AC inside,
QUANTUM COLLABO controls QUANTUM AC and is a multi-communication modem connected to the first network between QUANTUM COLLABO and Alice QUANTUM SERVER, which is connected to QUANTUM COLLABO through a network of carriers;
QUANTUM COLLABO controls QUANTUM AC and connects to QUANTUM DUAL AP through a closed wireless self-network of unlicensed frequency with a multi-communication modem between Alice QUANTUM SERVER and QUANTUM COLLABO, which is connected to Alice QUANTUM SERVER through a wired self-network via Bob QUANTUM SERVER connected to a second network of

QUANTUM COLLABO generates basic-QRN from Eve quantum random number generator to generate Eve QUANTUM private key with random number seed;
QUANTUM COLLABO generates new-QRN from Eve quantum random number generator and encrypts Eve QUANTUM private key and new-QRN random number seed to generate Eve QUANTUM public key and sends it to QUANTUM AC;
QUANTUM AC transmits the Eve QUANTUM public key to Alice QUANTUM SERVER connected to the first network through the multi-communication modem;

Alice QUANTUM SERVER is composed of Alice quantum random number generator inside,
Alice QUANTUM SERVER generates basic-QRN from Alice quantum random number generator to generate Alice QUANTUM private key as a random number seed; and
Alice QUANTUM SERVER generates new-QRN from Alice quantum random number generator and encrypts Alice QUANTUM private key and new-QRN random number seed to generate Alice QUANTUM public key;
Alice QUANTUM SERVER sends the Alice QUANTUM public key to QUANTUM COLLABO through the first network;

QUANTUM COLLABO receives early-Eve QRN from Eve quantum random number generator, encrypts early-Eve QRN with Alice QUANTUM public key, and transmits it to Alice QUANTUM SERVER through the first network;
Alice QUANTUM SERVER receives early-Alice QRN from Alice quantum random number generator, encrypts early-Alice QRN with Eve QUANTUM public key, and transmits it to QUANTUM COLLABO through the first network;

QUANTUM COLLABO decrypts the early-Alice QRN encrypted with the Eve QUANTUM public key with the Eve QUANTUM private key, and then performs an encryption operation with the early-Eve QRN to generate the QUANTUM symmetric key;
Alice QUANTUM SERVER decrypts the early-Eve QRN encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key and performs encryption operations with the early-Alice QRN to generate the QUANTUM symmetric key;
Alice QUANTUM SERVER encrypts the log information of QUANTUM COLLABO with the QUATUM symmetric key and transmits it to Bob QUANTUM SERVER to QUANTUM COLLABO through a second network;
QUANTUM COLLABO uses the QUANTUM symmetric key to decrypt the QUANTUM COLLABO's log information encrypted with the QUANTUM symmetric key, and if it is the approved log information, it controls QUANTUM AC to Alice QUANTUM SERVER through Bob QUANTUM SERVER connected to the second network with a multi-communication modem. Transmits internal data encrypted with the QUATUM symmetric key;
Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system featuring a hybrid-QUANTUM CHANNEL Two-Way-Ring Network that receives internal data encrypted with the QUANTUM symmetric key and decrypts it with the QUANTUM symmetric key.
It consists of QUANTUM COLLABO, Alice QUANTUM SERVER, Bob QUANTUM SERVER, the first network, and the second network,

QUANTUM SERVER is characterized by generating QUANTUM symmetric key, QUANTUM private key, and QUANTUM public key using random quantum random numbers generated through internal quantum random number generator.
The quantum random number generator generates an early-QRN random number for generating a QUANTUM symmetric key, a basic-QRN random number for generating a QUANTUM private key, and a new-QRN random number for generating a QUANTUM public key;

Alice QUANTUM SERVER and QUANTUM COLLABO are connected to a dual network of the first network and the second network;

QUANTUM COLLABO is composed of QUANTUM AC and Eve quantum random number generator, and QUANTUM COLLABO selectively selects either the first network or the second network through QUANTUM AC inside,
QUANTUM COLLABO controls QUANTUM AC to connect to the first network between QUANTUM COLLABO and Alice QUANTUM SERVER, which are connected to QUANTUM COLLABO through the first network; or
QUANTUM COLLABO is connected to a second network between Alice QUANTUM SERVER and QUANTUM COLLABO, which is connected to Alice QUANTUM SERVER through a second network by controlling QUANTUM AC;

QUANTUM COLLABO generates basic-QRN from Eve quantum random number generator to generate Eve QUANTUM private key with random number seed;
QUANTUM COLLABO generates new-QRN from Eve quantum random number generator and encrypts Eve QUANTUM private key and new-QRN random number seed to generate Eve QUANTUM public key and sends it to QUANTUM AC;
QUANTUM AC transmits the Eve QUANTUM public key to Alice QUANTUM SERVER connected to the first network;

Alice QUANTUM SERVER is composed of Alice quantum random number generator inside,
Alice QUANTUM SERVER generates basic-QRN from Alice quantum random number generator to generate Alice QUANTUM private key as a random number seed; and
Alice QUANTUM SERVER generates new-QRN from Alice quantum random number generator and encrypts Alice QUANTUM private key and new-QRN random number seed to generate Alice QUANTUM public key;
Alice QUANTUM SERVER sends the Alice QUANTUM public key to QUANTUM COLLABO through the first network;

QUANTUM COLLABO receives early-Eve QRN from Eve quantum random number generator, encrypts early-Eve QRN with Alice QUANTUM public key, and transmits it to Alice QUANTUM SERVER through the first network;
Alice QUANTUM SERVER receives early-Alice QRN from Alice quantum random number generator, encrypts early-Alice QRN with Eve QUANTUM public key, and transmits it to QUANTUM COLLABO through the first network;

QUANTUM COLLABO decrypts the early-Alice QRN encrypted with the Eve QUANTUM public key with the Eve QUANTUM private key, and then performs an encryption operation with the early-Eve QRN to generate the QUANTUM symmetric key;
Alice QUANTUM SERVER decrypts the early-Eve QRN encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key and performs encryption operations with the early-Alice QRN to generate the QUANTUM symmetric key;
QUANTUM COLLABO transmits internal data encrypted with QUATUM symmetric key to Alice QUANTUM SERVER through the second network;
Alice QUANTUM SERVER is a heterogeneous QUANTUM KEY distribution hybrid quantum communication closed network system featuring a hybrid-QUANTUM CHANNEL Two-Way-Ring Network that receives internal data encrypted with the QUANTUM symmetric key and decrypts it with the QUANTUM symmetric key.
Claims 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 Claims 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, Claims 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38 42. The method of any one of claims 39, 40, 41,
QUANTUM COLLABO includes an Eve quantum random number generator, which generates early-Eve quantum random numbers, basic-Eve quantum random numbers and new-Eve quantum random numbers and stores them in the internal memory;
QUANTUM COLLABO generates an Eve QUANTUM private key with a basic-Eve quantum random number as a seed; and
QUANTUM COLLABO uses the new-Eve quantum random number as the seed, and either the Eve QUANTUM private key and the beta-OR (EX-OR) or beta-OR (EX-AND) or fixed-length hash function or AES encryption or cryptographic function expression or cryptographic operator. generate an Eve QUANTUM public key by cryptographic operation through one;
DUAL MODEM transmits Eve QUANTUM public key to Alice QUANTUM SERVER through the first network;

Alice QUANTUM SERVER includes an Alice quantum random number generator, and the Alice quantum random number generator generates early-Alice quantum random numbers, basic-Alice quantum random numbers, and new-Alice quantum random numbers, and stores them in the internal memory;
Alice QUANTUM SERVER generates the Alice QUANTUM private key with the basic-Alice quantum random number as a seed; and
Alice QUANTUM SERVER uses new-Alice quantum random number as a seed, and either a beta OR (EX-OR) or beta OR (EX-AND) or fixed-length hash function or AES encryption or cryptographic function expression or cryptographic operator with the Alice QUANTUM private key. generate an Alice QUANTUM public key by cryptographic operation through any one;
Alice QUANTUM SERVER sends the Alice QUANTUM public key to QUANTUM COLLABO through the first network;

Alice QUANTUM SERVER encrypts the early-Alice quantum random number with the Eve QUANTUM public key and transmits it to the QUANTUM COLLABO through the first network;
QUANTUM COLLABO encrypts the early-Eve quantum random number with the Alice QUANTUM public key and transmits it to the Alice QUANTUM SERVER through the first network;

QUANTUM COLLABO decrypts the early-Alice quantum random number encrypted with the Eve QUANTUM public key with the Eve QUANTUM private key, and performs encryption operations with the early-Eve quantum random number stored in the internal memory to generate the QUANTUM symmetric key;
Alice QUANTUM SERVER decrypts the early-Eve quantum random number encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key and performs encryption operations with the early-Alice quantum random number stored in the internal memory to generate the QUANTUM symmetric key;
QUANTUM COLLABO transmits encrypted data by encrypting internal data with QUANTUM symmetric key to DUAL MODEM;
DUAL MODEM transmits encrypted data encrypted with QUANTUM symmetric key to Alice QUANTUM SERVER through the second network;
Alice QUANTUM SERVER features a Two-Way-Ring Network that receives encrypted data encrypted with the QUANTUM symmetric key from the second network and decrypts it with the QUANTUM symmetric key.
Claims 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 Claims 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, Claims 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38 42. The method of any one of claims 39, 40, 41,
QUANTUM AC inside QUANTUM COLLABO transmits the Alice QUANTUM public key to the Alice QUANTUM SERVER through the operator's modem to the operator's network network; and
It transmits the video data captured by the surveillance camera encrypted with the QUANTUM symmetric key to the QUANTUM DUAL AP through the unlicensed frequency modem, which has the fastest communication speed among low frequency or high frequency that can be communicated.
QUANTUM DUAL AP is capable of dual transmission and reception of 2.4GHz Low Frequency and 5GHz High Frequency. It selects Low Frequency or High Frequency for data transmission according to the communication environment according to obstacles. Before data transmission, QUANTUM AC and QUANTUM DUAL AP have and High Frequency PING test, selects a frequency with a fast response speed, encrypts large data with the QUANTUM symmetric key and transmits it to enhance security, improve communication speed and reduce communication charges.
Claims 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 Claims 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, Claims 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38 42. The method of any one of claims 39, 40, 41,
extracting PIN data and encrypting it with an encryption function (HASH; fixed-length hash function) to generate a private key <HASH(PIN DATA)>;
Receive a quantum random number (QRN) from a QRNG quantum random number generator and beta-OR (EX-OR/+) the private key <HASH(PIN DATA)> with the quantum random number (QRN) to encrypt the public key <HASH(PIN DATA) generate +(QRN)>;
It is characterized in that data <HASH(PIN DATA)+(QRN)|DATA> is generated by encrypting data with the public key <HASH(PIN DATA)+(QRN)>
Claims 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 Claims 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, Claims 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38 42. The method of any one of claims 39, 40, 41,
extracting PIN data and encrypting it with an encryption function to generate a private key <HASH(PIN DATA)>;
receiving a quantum random number (QRN) from a QRNG quantum random number generator and encrypting the private key <HASH(PIN DATA)> with the quantum random number (QRN) to generate a public key <HASH(PIN DATA)+(QRN)>;
It is characterized in that data <HASH(PIN DATA)+(QRN)|DATA> is generated by encrypting data with the public key <HASH(PIN DATA)+(QRN)>
Claims 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 Claims 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, Claims 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38 42. The method of any one of claims 39, 40, 41,
The QRNG (Quantum Random Number Generator) quantum random number generator is characterized in that it is replaced by a TRNG (True Random Number Generator) natural random number generator.
Claims 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 Claims 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, Claims 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38 42. The method of any one of claims 39, 40, 41,
PUF (Physically Unclonable Function) is replaced by NFC (Near Field Communication),
It is characterized in that PIN (Personal Identification Number) data is input to NFC (Near Field Communication) through NFC Writer, and PIN (Personal Identification Number) data is read and output through NFC Reader.
The eve-NFC Chip is one of the physical PUFs (Physically Unclonable Functions) that are replaced during regular inspection, and the Eve PIN data generation step of inputting the Eve PIN data through the NFC Writer and storing it in the Alice QUANTUM SERVER;
Alice QUANTUM SERVER generates Alice PIN data through the Alice pseudo-random number generator inside and stores the Alice PIN data in QUANTUM COLLABO;
The QUANTUM JUMP ENGINE inside QUANTUM COLLABO receives the Eve PIN data stored in the eve-NFC Chip through contactless near field communication, and the NFC Reader stores it in the PUF-PIN memory and then converts the Eve PIN data as a random number seed. Eve QUANTUM private key generation step of generating the Eve QUANTUM private key;
QUANTUM COLLABO internal Eve quantum random number generator generates quantum random numbers and performs beta-OR (EX-OR) encryption operation of Eve QUANTUM private key with the quantum random number seed to generate OTP (One Time Password) Eve QUANTUM public key. Eve QUANTUM public key generation step;
QUANTUM COLLABO internal QUANTUM AC (Access Controller) transmits the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency modem among the multi-communication modems through the licensed frequency SK Telecom carrier LoRA wireless network network Eve QUANTUM public key transmission step;
Alice QUANTUM SERVER generates Alice PIN data through the Alice pseudo-random number generator, and generates the Alice QUANTUM private key by using the Alice PIN data as a random number seed to generate the Alice QUANTUM private key;
Alice QUANTUM SERVER generates the Alice QUANTUM public key that generates the Alice QUANTUM public key by performing an EX-OR encryption operation on the Alice QUANTUM private key with a quantum random number seed that generates a quantum random number through the Alice quantum random number generator. step;
Alice QUANTUM SERVER transfers the Eve PIN data stored inside the Eve QUANTUM public key received through SK Telecom’s LoRA wireless network network and the QUANTUM CA (Certification Authority certificate) that encrypted the Alice QUANTUM public key to non-QUANTUM CHANNEL or BB84 QUANTUM CHANNEL. or a wired network transmission step of transmitting to Bob QUANTUM SERVER through any one wired network of hybrid-QUANTUM CHANNEL through PUF-QRNG TWIN USB;
Bob QUANTUM SERVER uses QUANTUM DUAL AP (Access Point) to encrypt QUANTUM CA, which has encrypted Eve PIN data stored inside Eve QUANTUM public key and Alice QUANTUM public key, to QUANTUM COLLABO internal QUANTUM AC (QUANTUM Access Controller) at 2.4GHz Low Frequency. QUANTUM AC transmission step of transmitting;
QUANTUM COLLABO decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and QUANTUM CA that encrypted the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt the Alice QUANTUM public key and Eve PIN data;
QUANTUM COLLABO extracts the Eve PIN data extracted from the eve-NFC Chip and matches the Eve PIN data generated in the decryption step with the Eve PIN data extracted from the eve-NFC Chip, the video captured by the surveillance camera with the Alice QUANTUM public key image data transmission preparation step of encrypting data and transmitting it to QUANTUM AC (Access Controller);
A video data transmission step of performing QUANTUM AC (Access Controller) and High Frequency PING tests, selecting a frequency with a fast response speed, and transmitting the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key to the QUANTUM DUAL AP;
When Bob QUANTUM SERVER receives the surveillance camera video data encrypted with the Alice QUANTUM public key from QUANTUM DUAL AP, it goes to Alice QUANTUM SERVER through one of the wired networks of non-QUANTUM CHANNEL, BB84 QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL. receiving image data to be transmitted;
Alice QUANTUM SERVER receives the video data captured by the surveillance camera encrypted with the Alice QUANTUM public key and decrypts the video data with the Alice QUANTUM private key;
When the quantum smartphone accesses the external network mainboard of the Alice QUANTUM SERVER, the Alice QUANTUM SERVER regenerates the Alice PIN data through the Alice pseudo-random number generator, and regenerates the Alice QUANTUM private key with the Alice PIN data as a random number seed. regenerating the Alice QUANTUM private key;
Create a new Alice QUANTUM public key that generates a new Alice QUANTUM public key by performing an EX-OR cryptographic operation on the Alice QUANTUM private key with the new quantum random number seed that generates a new quantum random number from the Alice quantum random number generator step;
When the new Alice QUANTUM public key is transmitted to the quantum smartphone, the quantum smartphone encrypts and retransmits the OTP (One Time Password) pseudo-random number generated by tagging the NFC Tag to the quantum smartphone NFC chip with the new Alice QUANTUM public key. OTP transmission step;
Alice QUANTUM SERVER decrypts the OTP (One Time Password) pseudo-random number encrypted with the new Alice QUANTUM public key with the QUANTUM private key, and if it matches the stored OTP (One Time Password) pseudo-random number, the video data captured by the surveillance camera is transferred to the internal network of the network separation server. image export preparation step of transmitting to the external network main board through the main board;
An image export step of receiving the image data by connecting the quantum smartphone to an external network main board and logging in the OTP (One Time Password) pseudo-random number as the quantum smartphone MAC Address as the ID as the One-Time Password; characterized in that ONE-WAY-RING/TWO-WAY-RING NETWORK QUANTUM KEY distribution method applied to HYBRID-QUANTUM CHANNEL.
Alice/Bob QUANTUM SERVER generates a random quantum random number by Alice/Bob through the Alice/Bob Quantum Random Number Generator (QRNG) inside, and uses the Half Mirror Effect Symmetric Cryptographic Algorithm through encryption operation. Characterized in generating a QUANTUM symmetric key,

Quantum random number generator (QRNG) generates a random number seed early-QRN (Quantum Random Number) for generating QUANTUM symmetric key of symmetric key algorithm and QUANTUM private key (PRIVATE KEY) of asymmetric cryptographic algorithm ), a random number seed for generating basic-QRN (Quantum Random Number) and a QUANTUM public key (PUBLIC KEY) pair, a random number seed for generating new-QRN (Quantum Random Number) new-QRN creation step;

Alice QUANTUM SERVER is connected to QUANTUM COLLABO through the network of a telecommunication service provider, and Alice QUANTUM SERVER is a non-licensed frequency closed wireless self-network through Bob QUANTUM SERVER connected through one of non-QUANTUM CHANNEL and QUANTUM CHANNEL wired self-network. A network connection step of connecting QUANTUM COLLABO and the network through the network;

QUANTUM COLLABO is composed of QUANTUM AC (Access Controller) and Eve quantum random number generator. QUANTUM COLLABO controls QUANTUM AC and connects to Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems or QUANTUM COLLABO controls QUANTUM AC a network network selection step of connecting to Alice QUANTUM SERVER through a communication operator network network through a communication operator modem among multi-communication modems;

QUANTUM COLLABO generates a basic-QRN random number from the Eve quantum random number generator and generates an asymmetric key cryptographic algorithm Eve QUANTUM private key with a random number seed Eve QUANTUM private key generation step;
QUANTUM COLLABO generates new-QRN random number from Eve quantum random number generator and encrypts Eve QUANTUM private key and new-QRN random number seed to generate asymmetric key encryption algorithm OTP (One Time Password) Eve QUANTUM public key to QUANTUM AC Transmitting, QUANTUM AC transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER through the telecommunication carrier network as a telecommunication carrier modem among multi-communication modems;

Alice QUANTUM SERVER is configured with an Alice quantum random number generator inside. Alice QUANTUM SERVER receives basic-QRN from Alice quantum random number generator and generates an asymmetric key cryptographic algorithm Alice QUANTUM private key as a random number seed Alice QUANTUM private key creation step;
Alice QUANTUM SERVER receives new-QRN random number from Alice quantum random number generator and encrypts Alice QUANTUM private key and new-QRN random number seed to generate asymmetric key encryption algorithm OTP (One Time Password) Alice QUANTUM public key Alice QUANTUM public key generation step;
A key exchange step in which Alice QUANTUM SERVER and QUANTUM COLLABO exchange the Alice QUANTUM public key and the Eve QUANTUM public key with each other through a network of a telecommunication service provider;

QUANTUM COLLABO receives the early-Eve QRN from the Eve quantum random number generator, encrypts the early-Eve QRN with the Alice QUANTUM public key, and transmits it to the Alice QUANTUM SERVER through the network of the operator, and the Alice QUANTUM SERVER from the Alice quantum random number generator A random number transmission step of receiving the early-Alice QRN, encrypting the early-Alice QRN with the Eve QUANTUM public key, and transmitting it to the QUANTUM COLLABO through the network of the telecommunication service provider;

QUANTUM COLLABO decrypts early-Alice QRN encrypted with Eve QUANTUM public key with Eve QUANTUM private key, and generates QUANTUM symmetric key of symmetric key algorithm by cryptographic operation with early-Eve QRN. Alice QUANTUM SERVER discloses Alice QUANTUM with Alice QUANTUM private key A symmetric key generation step of generating a QUANTUM symmetric key of a symmetric key algorithm by decrypting the early-Eve QRN encrypted with the key and performing the same encryption operation as the early-Alice QRN;
Alice QUANTUM SERVER encrypts QUANTUM COLLABO's log information with QUATUM symmetric key and transmits it to Bob QUANTUM SERVER through wired self-network, and Bob QUANTUM SERVER encrypts QUANTUM COLLABO's log information with QUATUM symmetric key through unlicensed frequency closed wireless self-network. to QUANTUM COLLABO, and QUANTUM COLLABO decrypts the log information of QUANTUM COLLABO encrypted with the QUATUM symmetric key and decrypts the log information with the QUANTUM symmetric key. If it is the approved log information, it controls QUANTUM AC to close the unlicensed frequency through the unlicensed frequency modem among the multi-communication modems. A login step of connecting Bob QUANTUM SERVER and a network network login (Log In) through a QUANTUM DUAL AP (Access Point) connected through a wireless type wireless network;

QUANTUM AC transmits video data from surveillance cameras encrypted with QUANTUM symmetric key through QUANTUM DUAL AP to Bob QUANTUM SERVER through a closed wireless self-network with unlicensed frequency that is logged in to the network network, and Bob QUANTUM SERVER shoots surveillance cameras Video data is transmitted to Alice QUANTUM SERVER through any one of non-QUANTUM CHANNEL, QUANTUM CHANNEL, and hybrid-QUANTUM CHANNEL wired self-network, and Alice QUANTUM SERVER encrypted surveillance camera video data from the wired self-network with QUANTUM symmetric key. TWO-WAY-RING NETWORK QUANTUM KEY distribution method applied to HYBRID-QUANTUM CHANNEL featuring a hybrid-QUANTUM CHANNEL Two-Way-Ring Network, characterized by receiving and decrypting with a QUANTUM symmetric key.
QUANTUM SERVER features QKD (Quantum Key Distribution) that generates and exchanges a QUANTUM symmetric key, QUANTUM private key, and QUANTUM public key using a random quantum random number generated through a quantum random number generator inside.

The quantum random number generator generates an early-QRN random number for generating a QUANTUM symmetric key and a random number generation step of generating a basic-QRN random number for generating a QUANTUM private key and a new-QRN random number for generating a QUANTUM public key;

QUANTUM COLLABO is composed of QUANTUM AC and Eve quantum random number generator, QUANTUM COLLABO selectively selects either the first network or the second network through QUANTUM AC inside, QUANTUM COLLABO uses QUANTUM AC Connected to the first network between QUANTUM COLLABO and Alice QUANTUM SERVER connected to QUANTUM COLLABO through the first network or QUANTUM COLLABO controls QUANTUM AC and Alice QUANTUM connected to Alice QUANTUM SERVER through the second network Network network connection step of connecting to a second network network between the SERVER and QUANTUM COLLABO;

QUANTUM COLLABO generates basic-QRN from Eve quantum random number generator and generates Eve QUANTUM private key with random number seed Eve QUANTUM private key generation step;
QUANTUM COLLABO generates new-QRN from Eve quantum random number generator, encrypts Eve QUANTUM private key and new-QRN random number seed, generates Eve QUANTUM public key, and transmits QUANTUM AC to QUANTUM AC;
QUANTUM AC transmits the Eve QUANTUM public key to the Alice QUANTUM SERVER connected to the first network in the Alice QUANTUM SERVER transmission step;

Alice QUANTUM SERVER is configured with Alice quantum random number generator inside, Alice QUANTUM SERVER generates basic-QRN from Alice quantum random number generator to generate Alice QUANTUM private key as a random number seed, and Alice QUANTUM SERVER generates Alice quantum random number Alice QUANTUM public key generation step of generating a new-QRN from the generator and encrypting the Alice QUANTUM private key and the new-QRN random number seed to generate the Alice QUANTUM public key;
Alice QUANTUM SERVER sends Alice QUANTUM public key to QUANTUM COLLABO through the first network, QUANTUM COLLABO receives early-Eve QRN from Eve quantum random number generator, encrypts early-Eve QRN with Alice QUANTUM public key, and encrypts the first It transmits to Alice QUANTUM SERVER through the network, and Alice QUANTUM SERVER receives the early-Alice QRN from the Alice quantum random number generator, encrypts the early-Alice QRN with the Eve QUANTUM public key, and transmits it to the QUANTUM COLLABO through the first network. QUANTUM COLLABO transmission step;

QUANTUM COLLABO decrypts early-Alice QRN encrypted with Eve QUANTUM public key with Eve QUANTUM private key, and generates QUANTUM symmetric key by cryptographic operation with early-Eve QRN. Alice QUANTUM SERVER early encrypted with Alice QUANTUM public key with Alice QUANTUM private key - QUANTUM symmetric key generation step of generating QUANTUM symmetric key by encrypting with early-Alice QRN after decrypting Eve QRN;
QUANTUM COLLABO transmits internal data encrypted with QUATUM symmetric key to Alice QUANTUM SERVER, and Alice QUANTUM SERVER receives internal data encrypted with QUATUM symmetric key and decrypts with QUANTUM symmetric key hybrid-QUANTUM CHANNEL Two-Way-Ring TWO-WAY-RING NETWORK QUANTUM KEY distribution method applied to HYBRID-QUANTUM CHANNEL featuring Network.
Alice QUANTUM SERVER is a wireless network connection step of connecting the QUANTUM COLLABO and the network network through the licensed frequency carrier wireless network network;
A wired network connection step of Alice QUANTUM SERVER and Bob QUANTUM SERVER through any one of the non-QUANTUM CHANNEL and QUANTUM CHANNEL wired networks;
Bob QUANTUM SERVER is a wireless self-network connection step of connecting QUANTUM COLLABO and unlicensed frequency closed wireless self-network through QUANTUM DUAL AP (Access Point);

QUANTUM COLLABO selectively selects unlicensed frequency closed wireless self-network or licensed frequency carrier wireless network through QUANTUM AC (Access Controller) in data transmission/reception, QUANTUM COLLABO uses QUANTUM AC (Access Controller) Control and connect with Bob QUANTUM SERVER through QUANTUM DUAL AP (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi communication modems or QUANTUM COLLABO controls QUANTUM AC (Access Controller) to control multi communication modem a network network selection connection step of connecting with Alice QUANTUM SERVER through a wireless network network of a licensed frequency communication service provider through a medium licensed frequency modem;

QUANTUM COLLABO internal Eve quantum random number generator generates quantum random number and transmits it to Encrypt TLS MODULE internal Security CPU, MCU controls Security CPU and Eve PIN data stored in eve-NFC Chip through contactless Near Field Communication Eve QUANTUM private key generation step of generating an asymmetric cryptographic algorithm Eve QUANTUM private key (PRIVATE KEY) with the Eve PIN data as a random number seed after receiving it by the NFC reader and storing it in the PUF-PIN memory;
Input Eve PIN data to eve-NFC through NFC Writer and store it in Alice QUANTUM SERVER, Security CPU encrypts Eve QUANTUM private key stored in PUF-PIN Memory with the quantum random number seed Password) an asymmetric cryptographic algorithm Eve QUANTUM public key generation step of generating an Eve QUANTUM public key (PUBLIC KEY);
Eve QUANTUM public key is stored in Security OTP (One Time Password) Memory and Eve QUANTUM public key is transmitted to QUANTUM AC (Access Controller), and QUANTUM AC (Access Controller) sends Eve QUANTUM public key to licensed frequency modem among multi-communication modems. Eve QUANTUM public key transmission step of the licensed frequency wireless network network transmitting to Alice QUANTUM SERVER through the licensed frequency communication operator wireless network network through the;

Alice QUANTUM SERVER generates Alice PIN data through the Alice pseudo-random number generator, stores it in QUANTUM COLLABO, and generates Alice QUANTUM private key generating Alice QUANTUM private key with Alice PIN data as a random number seed;
Alice QUANTUM public key generation step of generating the Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the wireless network network of the licensed frequency carrier, and the licensed frequency carrier wireless network or wired network and unlicensed frequency closed radio a retransmission step of retransmitting to QUANTUM COLLABO through the own network;
QUANTUM COLLABO internal MCU decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data, and then uses the decrypted generated Eve PIN data and eve-NFC If the Eve PIN data extracted from the data matches, the MCU switches the Network Switch to ON contact through the SPI Controller and controls QUANTUM AC (Access Controller) to connect to the unlicensed frequency closed wireless self-network through the unlicensed frequency modem among the multi communication modems A login step of connecting Bob QUANTUM SERVER and network network login (Log In) through QUANTUM DUAL AP (Access Point);

QUANTUM AC (Access Controller) transmits the terminal device generated data encrypted with the Alice QUANTUM public key through the QUANTUM DUAL AP to the Bob QUANTUM SERVER who is logged in to the network network, and transmits the terminal device generated data encrypted with the Alice QUANTUM public key. Transmission to QUANTUM DUAL AP through low frequency or high frequency unlicensed frequency modem that can communicate or, if communication with QUANTUM DUAL AP is not possible, through licensed frequency modem among multi communication modems to Alice QUANTUM SERVER through licensed frequency carrier wireless network When Bob QUANTUM SERVER receives terminal device-generated data encrypted with the Alice QUANTUM public key from QUANTUM DUAL AP, it transmits the data to Alice QUANTUM SERVER through either the non-QUANTUM CHANNEL or QUANTUM CHANNEL wired network. ;
Alice QUANTUM SERVER receives terminal device generated data encrypted with the Alice QUANTUM public key from any one or more of a wired network network and a wireless network network of a licensed frequency carrier and decrypts it with the Alice QUANTUM private key; a HYBRID-QUANTUM comprising a TWO-WAY-RING NETWORK QUANTUM KEY distribution method applied to CHANNEL.
Alice QUANTUM SERVER is connected to licensed frequency carrier wireless network, Alice QUANTUM SERVER is connected to Bob QUANTUM SERVER through non-QUANTUM CHANNEL wired network, Bob QUANTUM SERVER is connected to QUANTUM COLLABO through QUANTUM DUAL AP Unlicensed frequency closed wireless self network connected,

QUANTUM COLLABO selectively selects unlicensed frequency closed radio self-network or licensed frequency carrier wireless network network through QUANTUM AC in data transmission/reception, QUANTUM COLLABO controls QUANTUM AC to control unlicensed frequency among multi-communication modems Connected to Bob QUANTUM SERVER through QUANTUM DUAL AP connected to unlicensed frequency closed wireless self-network through modem or QUANTUM COLLABO controls QUANTUM AC and Alice through licensed frequency modem among multi-communication modems through licensed frequency carrier wireless network Network network selection step of selectively connecting QUANTUM SERVER and connection;

Eve quantum random number generator inside QUANTUM COLLABO generates quantum random number and transmits it to Encrypt TLS MODULE. When Eve PIN data is received from NFC card through contactless near field communication, the Encrypt TLS MODULE stores the Eve PIN data as a random number. Eve QUANTUM private key generation step of generating an asymmetric key encryption algorithm Eve QUANTUM private key as a seed;
After inputting the Eve PIN data to the NFC card through the NFC Writer, it is stored in Alice QUANTUM SERVER, and the Encrypt TLS MODULE receives the quantum random number from the Eve quantum random number generator and encrypts the Eve QUANTUM private key with the quantum random number seed. A transmission step of generating an OTP (One Time Password) asymmetric key encryption algorithm Eve QUANTUM public key by calculating, storing and transmitting the Eve QUANTUM public key to QUANTUM AC;
QUANTUM AC is an Eve QUANTUM public key generation step of transmitting the Eve QUANTUM public key to Alice QUANTUM SERVER through the licensed frequency communication operator wireless network network through the licensed frequency modem among the multi-communication modems;

Alice QUANTUM SERVER is configured with Alice pseudo random number generator (PRNG) and Alice quantum random number generator (QRNG) inside. Alice QUANTUM SERVER generates Alice PIN data through Alice pseudo random number generator and stores it in QUANTUM COLLABO and Alice PIN Alice QUANTUM private key generation step of generating an Alice QUANTUM private key using data as a random number seed;
Alice QUANTUM public key generation step of generating the Alice QUANTUM public key by encrypting the Alice QUANTUM private key with the quantum random number seed generated from the Alice quantum random number generator;

Alice QUANTUM SERVER encrypts the Eve PIN data stored inside and the Alice QUANTUM public key with the Eve QUANTUM public key received through the wireless network network of the licensed frequency carrier, and the licensed frequency carrier wireless network or wired network and unlicensed frequency closed radio a retransmission step of retransmitting to QUANTUM COLLABO through the own network;
QUANTUM COLLABO decrypts the Eve PIN data encrypted with the Eve QUANTUM public key and the Alice QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key and Eve PIN data;
If the Eve PIN data decrypted in the decryption step matches the Eve PIN data stored inside, QUANTUM COLLABO controls QUANTUM AC and QUANTUM DUAL AP connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems Login step of connecting Bob QUANTUM SERVER and network login (Log In) through

When QUANTUM AC transmits the terminal device generated data encrypted with the Alice QUANTUM public key to the Bob QUANTUM SERVER who is logged in to the network network through the QUANTUM DUAL AP, the terminal device generated data encrypted with the Alice QUANTUM public key is transmitted to the unlicensed frequency modem. Unlicensed frequency data transmission step of transmitting to QUANTUM DUAL AP through;
When the Bob QUANTUM SERVER receives the terminal device-generated image data encrypted with the Alice QUANTUM public key from the QUANTUM DUAL AP, it is transmitted to the Alice QUANTUM SERVER through the non-QUANTUM CHANNEL wired network network.
The TWO-WAY-RING NETWORK QUANTUM KEY distribution method applied to the HYBRID-QUANTUM CHANNEL, characterized in that Alice QUANTUM SERVER receives the terminal device generated data encrypted with the Alice QUANTUM public key and decrypts it with the Alice QUANTUM private key.
QUANTUM COLLABO includes an Eve quantum random number generator, and the Eve QUANTUM private key generation step of first generating an Eve quantum random number with the Eve quantum random number generator and generating the Eve QUANTUM private key using the Eve quantum random number as a seed;
QUANTUM COLLABO generates an Eve QUANTUM public key that generates an Eve QUANTUM public key by regenerating a quantum random number with an Eve quantum random number generator and performing an encryption operation with the Eve QUANTUM private key as a random number seed;
DUAL MODEM transmits Eve QUANTUM public key to Alice QUANTUM SERVER through the first network Eve QUANTUM public key transmission step;
Alice QUANTUM SERVER is configured to include an Alice quantum random number generator, generating an Alice QUANTUM private key that initially generates an Alice quantum random number with the Alice quantum random number generator and generates an Alice QUANTUM private key using the Alice quantum random number as a seed;
Alice QUANTUM SERVER generates an Alice QUANTUM public key generating an Alice QUANTUM public key that generates an Alice QUANTUM public key by regenerating a quantum random number with an Alice quantum random number generator and performing an encryption operation with the Alice QUANTUM private key as a random number seed;
Alice QUANTUM SERVER, Alice QUANTUM public key transmission step of transmitting the Alice QUANTUM public key to QUANTUM COLLABO through the first network;
QUANTUM COLLABO encrypts Eve quantum random number with Alice QUANTUM public key and transmits it to Alice QUANTUM SERVER through the first network, and Alice QUANTUM SERVER encrypts Alice quantum random number with Eve QUANTUM public key and transmits it to QUANTUM COLLABO through the first network a quantum random number exchange step;
QUANTUM COLLABO decrypts Alice quantum random number encrypted with Eve QUANTUM public key with Eve QUANTUM private key and performs encryption operation with Eve quantum random number stored in internal memory to generate QUANTUM symmetric key. Also, Alice QUANTUM SERVER uses Alice QUANTUM private key with Alice QUANTUM public key A QUANTUM symmetric key generation step of generating the same QUANTUM symmetric key by decrypting the encrypted Eve quantum random number and performing an encryption operation with the Alice quantum random number stored in the internal memory;
When QUANTUM COLLABO transmits encrypted data encrypted with QUANTUM symmetric key to DUAL MODEM, DUAL MODEM transmits encrypted data encrypted with QUANTUM symmetric key to Alice QUANTUM SERVER through a second network;
Alice QUANTUM SERVER receives the encrypted data encrypted with the QUANTUM symmetric key from the second network and decrypts it with the QUANTUM symmetric key. -RING NETWORK QUANTUM KEY distribution method

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