KR20230045725A - The Ministry spread direction by electronic display board and The anti-crime CCTV system including the civil defense's improved disaster forecast-alarm broadcasting and The way to broadcast using an anti-crime CCTV and The integral unit and The civil defense/disaster forecast-alarm smart bell and The Military Demarcation Line prallel monitoring IR perspective filter backlight camera CCTV blackbox and The block type controller of DMG quantum code electronic protective wall - Google Patents

Abstract

The present invention relates to a method for displaying civil defense warning dissemination guidelines and broadcasting civil defense disaster reports and warnings by using electronic displays and the internal networks of monitoring cameras for crime prevention in the Ministry of Public Administration and Security. An emergency bell-integrated enclosure has camera sets installed on four sides thereof to monitor all directions within 90 degrees, provided on top of the enclosure, each including a pair of a great-focal-distance camera and a small-focal-distance camera. A total of eight emergency bell cameras having a 360-degree monitoring fixed camera function to prevent dead zones are installed. The emergency bell-integrated enclosure includes a switch hub, a power supply, a broadcasting device, an image storage memory, and an Eve SERVER. The Eve SERVER and a Bob SERVER communicate with each other through an unlicensed frequency wireless communication device. Images captured by monitoring cameras for crime prevention are transmitted to an integrated crime prevention center through the switch hub and monitored in real time. Images captured by the emergency bell cameras are stored in the image storage memory. A wireless integrated enclosure has four wireless small-focal-distance cameras installed on top of the enclosure to monitor all directions within 90 degrees. The Eve SERVER and the Bob SERVER communicate with each other through the unlicensed frequency wireless communication device. An emergency bell button is inserted into the front of the wireless integrated enclosure. When the emergency bell button operates, the Eve SERVER connects to the Bob SERVER through an unlicensed frequency wireless private network and establishes a two-way call with an Alice SERVER provided in the integrated crime prevention center. Therefore, the method can achieve the effect of improvements in performance with enhanced security.

Description

Civil defense alarm propagation guideline expression using the Ministry of Public Administration and Security electronic display board using security surveillance camera internal network Civil defense disaster forecasting warning broadcasting method and civil defense alarm propagation instruction display using the Ministry of Public Administration and Security electronic display board Electronic display board and civil defense disaster forecasting warning broadcasting performance improvement Security CCTV system and emergency bell integrated enclosure and civil defense disaster warning alarm smart emergency bell and military demarcation line parallel monitoring IR see-through filter reverse light camera CCTV black box and black box type emergency bell and DMG quantum cryptographic electronic barrier block type controller and quantum barrier The Ministry spread direction by electronic display board and The anti-crime CCTV system including the civil defense's improved disaster forecast-alarm broadcasting and The way to broadcast using an anti-crime CCTV and The integral unit and The civil defense/disaster forecast- alarm smart bell and The Military Demarcation Line pralel monitoring IR perspective filter backlight camera CCTV blackbox and The block type controller of DMG quantum code electronic protective wall}

KC-certified 'Electronic switch' and disaster safety product certification through Public Procurement Service Nara marketplace detailed product number 4617160402 (bell) and 4617160401 (emergency alarm), 4617162201 (video surveillance device), 4511170501 (premise broadcasting device), 4322269601 ( broadcasting device) is related.

It is an electronic display board that displays "Civil Defense Alert Propagation Guidelines Using the Electronic Display Board of the Ministry of Public Administration and Security" operated by the control of the emergency bell integrated enclosure.

It is a crime prevention CCTV system that includes an emergency bell integrated body for improving civil defense/disaster forecasting and warning broadcasting performance.

It is a broadcasting method using the internal network of security surveillance cameras.

It is a block-type controller for civil defense/disaster warning, smart emergency bell, military demarcation line parallel monitoring, IR filter, backlight camera, black box, and DMG quantum cryptographic electronic barrier.

The present invention relates to the following laws and regulations.

1. Civil Defense Framework Act Article 33 Paragraph 3, Enforcement Decree Article 55-2 (Civil Defense Alert Dissemination) Including "buildings subject to alert dissemination", additionally alert data for inside/outside public buildings such as schools and government offices (disaster alert , disaster risk, air raid, chemical, biological, chemical, biological, TTS (Text To Speech) data, etc.) based on Article 48 (1) of the Personal Information Protection Guidelines for CCTV systems for crime prevention, including multi-use facility alarm terminals and emergency bells and broadcasting devices It is a project to improve the performance of "emergency bell integrated enclosure" for CCTV registered in the personal information protection comprehensive support system installed and operated in an open place.

2. In accordance with Article 38-2 Paragraph 3 Subparagraphs 2 and 3 of the Framework Act on Disaster and Safety Management, Article 46-2 Paragraph 3 and Article 47 of the Enforcement Decree of the same Act, and Article 11-4 Paragraph 3 of the Enforcement Rule of the same Act This is a disaster text broadcasting technology that is requested from key telecommunications service providers and broadcasting service providers to prevent or reduce damage to the life, body and property of a person.

3. Ministry of Public Administration and Security 'Civil Defense Alert Propagation Guidelines Using Electronic Display Board (2019.6.5)' related.

In the network configuration,

It is composed of one or more of a quantum communication channel (QUANTUM CHannel), a hybrid-QUANTUM CHannel, and a non-QUANTUM CHannel, and the following embodiment configuration is possible.

The Alice QUANTUM SERVER inside the Korea Aerospace Operation Center (KAOC) and the Bob QUANTUM SERVER inside the 1st Civil Defense Warning and Control Center are quantum entanglement of Alice QKD (Quantum Key Distribution) and Bob QKD (Quantum Key Distribution) QUANTUM KEY Through the exchange, a quantum communication channel (QUANTUM CHannel) is formed.

The 1st civil defense alarm control center and the city/province civil defense alarm control center are connected to the civil defense dedicated network through the civil defense control system to transmit alarm data, and between the city/province civil defense alarm control center and the crime prevention CCTV system or premises broadcasting system (PA). The network of is composed of a Hybrid-QUANTUM CHannel to which QRNG (Quantum Random Number Generator) SoC is applied.

The classical communication networks of local governments below the city and provincial civil defense alarm control centers are composed of non-QUANTUM CHannel, but the best enhanced security technologies such as PUF Chip, eFUSE Chip, TRNG Chip, and FIDO authentication are applied.

FIDO is an abbreviation of 'Fast IDentity Online' (fast online authentication), and it is a technology that performs personal authentication more conveniently and safely by using biometric technology without an ID and password in an online environment. Physical characteristics such as fingerprints and irises are mainly used, and biometric information authentication of behavioral characteristics such as motions is also used.

In December 2014, more than 200 global companies, including Samsung Electronics, Google, and Microsoft, announced 'International Authentication Technology Standard FIDO 1.0', which enables safe authentication using biometric technology. We are actively providing basic financial services.

The present invention is a BB84 or COW quantum communication network using quantum entanglement and PUF that cannot be physically reproduced during the semiconductor chip production process, or PIN (Personal Identification Number) DATA of eFUSE first developed by IBM and IDQuantiqe-SK Telecom. It is related to a hybrid quantum communication network or classical communication network that combines a quantum communication network using a QUANTUM KEY using the developed QRNG (Quantum Random Number Generator) random number and a non-quantum communication network.

In addition, it is related to a hybrid quantum communication network in which QUANTUM KEY and FIDO (Fast IDentity Online) authentication are combined.

As a quantum security system based on QUANTUM Communication, it is related to a quantum security system that operates a hybrid lease network of quantum communication and ISP (Internet Service Provider) operators (fixed IP, dynamic IP) communicating through optical cable dedicated lines.

LPWAN (Low Power Wide Area Network)-based LoRA, SigFOX, NB-IoT, etc. IoT (Internet of Things) is a security-related technology for providing services to terminals.

True Random Number Generator (TRNG) using micro-sized PUF (Phisycally Unclonable Function) Chip and TRNG (True Random Number Generator) Chip through process deviations that occur in the semiconductor manufacturing process related to security key generation and distribution, A random number generated by extracting PIN (Personal Identification Number) data from the eFUSE Chip to generate a PRIVATE KEY and using a True Random Number Generator (TRNG) using QRNG (Quantum Random Number Generator). Generate a public key with

Unlike the conventional technology that performs login (Log-IN) user authentication with OTP QUANTUM KEY using QRNG (Quantum Random Number Generator), in the present invention, 'Fast IDentity Online' (quick online authentication) FIDO2 technology and physical network separation server Security is strengthened by physically separating different networks and transmitting data to different networks in one direction.

It is an intruder and black box type low-speed drone detection technology by applying a thermal imaging (Thermo-Graphic) camera and a fluoroscopic camera equipped with an IR (Infrared) see-through filter for surveillance of the Military Demarcation Line (MDL).

It is a technology that additionally propagates civil defense alarms of multi-use facility alarm terminals or civil defense alarm-linked servers that propagate civil defense alarms for multi-use facilities through emergency bell performance improvement using the CCTV internal network for security purposes.

Cameras using infrared rays include a thermo-graphic camera, an optical gas imaging (OGI) camera, and a see-through camera equipped with an IR (Infrared) see-through filter.

It is a network technology that applies QRNG (Quantum Random Number Generator) System One Chip quantum cryptography security to a classical communication network.

Quantum Cryptography and Quantum Key Distribution (QKD) technology using quantum mechanical properties for secure communication. It is a technology that transmits qubits (Quantum Teleportation) rather than the transfer of physical particles. Information is recorded and transmitted in Quantum States, and as soon as an attacker measures the quantum state for eavesdropping, the quantum state itself changes and is related to technology that makes eavesdropping impossible.

Therefore, the receiver can detect attempts to eavesdrop on the data and discard the received information, and accordingly, the information recorded in the quantum state is fundamentally impossible to eavesdrop.

Apparatus and method for generating an identification key for hardware security, performing physical entity authentication by applying a device and method for generating an identification key by implementing a physically unclonable function (PUF) or eFUSE using a process deviation during semiconductor manufacturing Enhance security by applying technology that

In general, IP cameras are also capable of software security, but since the software method is added after the hardware has already been formed, there is always a possibility of being tampered with.

Therefore, in order to fundamentally solve data security, data security must be designed from the beginning of the design of hardware to process data.

The present invention is hardware-implemented physical security and has no memory burden and high processing speed.

After generating a PIN (Personal Identification Number) value through the PUF using the hardware PIN deviation that occurs in the production process of an IC (Integrated Circuit) chip, it is stored in the public authentication platform and includes the PIN value of the PUF installed in the terminal. When the requested authentication key is received from the public authentication platform and the PIN values match, the authentication procedure is performed.

If the PUF authenticates the physical terminal in hardware, a PIN value of the PUF is characterized in that an authentication request key (PRIVATE KEY/PUBLIC KEY) is generated using a one-time quantum random number OTP (One Time Password).

The asymmetric public key cryptosystem, developed in the 1970s and widely used in communication systems such as the Internet, encrypts information using a mathematical problem that is very difficult to solve as a public key and decrypts it using the solution as a secret key. It is based on mathematical "computational complexity".

Representatively, the RSA public key cryptosystem developed by Rivest, Shamir, and Adleman uses the fact that it is very difficult to factorize a very large number.

In other words, mathematically, the calculation time of the prime factorization problem increases exponentially as the size of the problem increases, so if the sender and the receiver use a sufficiently large prime factorization problem as a public key, it is practically impossible for an eavesdropper to decrypt the ciphertext. Take advantage of what would be impossible.

However, the safety of cryptosystems based on mathematical computational complexity is being questioned as more sophisticated algorithms are developed, and in 1994, Peter Shor of AT&T developed a prime factorization algorithm using a quantum computer, and when a quantum computer is developed, The RSA cryptosystem is proving to be fundamentally crackable.

Quantum cryptography technology, which has emerged as an alternative to solve these security problems, is not based on mathematical computational complexity but on the principle of quantum mechanics, which is a fundamental law of nature, so it is very difficult to eavesdrop and wiretap, and has recently attracted great attention. .

In other words, quantum cryptographic communication technology is a technology that distributes an encryption key (one-time random number table) between a sender and a receiver in real time absolutely safely based on the laws of quantum physics such as “quantum non-reproducibility” and is called “quantum key distribution technology (QKD). )" is also known as

The first quantum cryptographic protocol was developed in 1984 by IBM's C.H. Bennett and G. Brassard of the University of Montreal.

Named the BB84 protocol after its inventors, the protocol uses four quantum states (eg, the polarization state of a single photon) that form two basis.

However, according to the above prior art, in order to transmit and receive quantum cryptography, a dedicated transmission/reception device between a communication terminal and a server is required, and there is a limit in that the cost burden of a dedicated transmission/reception device between a communication terminal and a server increases. Build a hybrid quantum communication network in which quantum communication networks are combined.

A server is a computer that stores information commonly used in one computer in a communication network connecting several computers with a communication line, or a computer that collects programs that use a lot of computer resources such as memory. Other computers connected to the communication network retrieve and receive necessary information from the server, or send data to be processed by the program in the server and receive the result back, and these are called clients. In some cases, information and programs are not concentrated in one computer, but each computer has information and programs in a distributed manner. In this case, all computers have a server/client relationship with each other. In the Internet, a computer that provides information is called a web server, and a computer that accesses the web server and searches for information becomes a client.

A microprocessor is a TTL or CMOS IC that moves only according to the set characteristics, but a microprocessor allows the manager to inject a program into the processor to implement the desired operating characteristics. It is automatically controlled according to the processor map determined to be present, and it is manufactured in the form of USB (Universal Serial Bus) or PCI Board (Peripheral Component Interconnect Board) equipped with a microprocessor (or MCU (Micro Control Unit)) to replace the server. .

The OTP (One Time Password) authentication security generated through the physical object authentication PUF (Phisycally Unclonable Function) Chip of the present invention and the QRNG (Quantum Random Number Generator) that generates natural random numbers has the highest security.

PIN (Personal Identification Number) attached to eFUSE/PUF Chip through process deviations that occur in the semiconductor manufacturing process related to the generation and distribution of security keys using micro-sized PUF (Phisycally Unclonable Function) Chip or eFUSE and QRNG (Quantum Random Number Generator) Chip A private key is generated by extracting data, and a public key is generated by encrypting the private key through random quantum random numbers generated through QRNG.

According to one 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 a process variation occurring during the PUF manufacturing process.

In addition, this PIN may be a time-invariant digital value that does not change according to the surrounding environment after PIN DATA is extracted and generated once through eFUSE originally developed by IBM. Since this PIN is not exposed to the outside, it is possible to prevent security threats to the authentication system of the device according to an embodiment.

Among the currently commonly used terms, an abbreviated word for bonditmal is expressed as follows.

Program Random Number Generator (PRNG), System On Chip (SoC), Quantum Random Number Generator (QRNG), Transport Layer Security (TLS), Physically Unclonable Function (PUF), Main Control Unit (MCU), Fast IDentity Online 2 (FIDO2) ), TRNG (True Random Number Generator), QKD (Quantum Key Distribution), O/S (Operating Systems)

10-2019-0063480 Key automatic renewal type join method, device and program 10-2018-0082006 Implicit authentication method, system and program for FIDO-based authentication 10-2018-0154749 Lock system using FIDO certification

The present invention utilizes "IR X-RAY VISION CCTV FILTERS" of Japan 'KAYA' as a known prior art. (URL http://www.kaya-optics.com/)

CCTV surveillance cameras for crime prevention generally monitor and monitor images captured by the main camera (upper camera) consisting of a pan/tilt camera and a fixed camera at a height of 4 to 6 m.

Although there is a subminiature camera in the video emergency bell, usually when the emergency bell push button is operated, power is supplied to make a two-way video call, and there is no surveillance function for normal security.

If a camera on the top of the enclosure that can accurately capture the face of a human object at the height of a human face is applied, it will be very effective in preventing blind spots and recognizing faces.

However, while transmitting video from one pan/tilt camera and one fixed fisheye camera or from one pan/tilt camera and four to six fixed 360-degree cameras from one location IP, additionally 4 to 9 images taken from the top of the enclosure are transmitted. Sending camera images to the CCTV control center (integrated crime prevention center) and storing them in memory for 30 days is costly.

In particular, the expansion of storage devices in the CCTV control center (integrated crime prevention center) according to the expansion of security cameras causes not only the cost of storage devices, but also problems that cannot be solved by simply increasing the total floor area of buildings. .

As shown in FIG. 6, the pan/tilt camera at the top of the pole monitors Zone A in a wide area, and Zone B can be configured with a fixed camera or vice versa.

Zone C under the pole was a blind spot and could not be monitored or had to be supplemented with a fisheye camera.

However, the fisheye camera has severe distortion, especially in the center, so the crime prevention function cannot be expected. Since it shoots from the top to the bottom, it is impossible to recognize a person's face, and as it moves toward the center, only the person's head is filmed, so the crime prevention function cannot be expected. There was no

In the present invention, the upper camera of the housing at an eye level of 1.5 to 2.5M from the ground can capture a person's face through eye level camera shooting without distortion like a fisheye camera.

The integrated crime prevention center monitors monitor about 50 camera images, but in practice, they can only monitor 1 or 2 images intensively.

In normal times, the video is stored in a black box type, and only when an emergency bell is activated or an abnormal sound source is detected, it is transmitted to the control center through the wireless communication network. Receives data through the network of wireless telecommunications carriers of the integrated rate plan that is deducted.

Although emergency bells are safety equipment that must operate in an emergency, they are often operated in a malfunctioning state.

A self-diagnosis function technique for solving the above problems is known.

[0003] In addition, techniques such as dual configuration of amplifiers in a broadcasting apparatus are known.

It is to solve the problem of the so-called 'stuck emergency bell' with a broken emergency bell, and it has a difference from a simple redundant emergency bell that simply consists of two redundant emergency bells or two amplifiers.

It is differentiated from known technologies such as remote power ON/OFF control as a self-diagnosis of an emergency bell or a countermeasure through line inspection through a simple ping test.

QUANTUM PUBLIC KEY, QUANTUM PRIVATE KEY through QRNG (Quantum Random Number Generator) SoC and unique PRIVATE KEY security through PUF (Phisycally Unclonable Function) Chip or eFUSE first developed by IBM as a task for classical communication network .

In the field of IoT communication, a device generates a password on its own using a new technology called eFUSE/PUF and uses it for authentication to identify each other between devices and perform security authentication to verify whether they are legitimate entities at a reliable level. A device and method are provided.

In particular, quantum coherence and pulse arrival time are randomly selected and measured on a dedicated line connected by optical cables of IDQuantiqe S.A. Quantum communication and quantum communication are characterized by being composed of qubits with non-empty pulse positions and defending against coherence attacks with decoy pulses (decoi-PULSE DEBUGGER). It is a quantum communication system that strengthens security through quantum authentication of data in ISP (Internet Service Provider) operator rental (dedicated/own) networks that do not form communication channels.

In the application of a device or system in which secure communication using encryption/decryption performs machine intelligence communication, a security authentication device and method robust against physical attacks or unauthorized access to the security authentication system of the device are provided.

Despite high security such as quantum cryptographic security, there is no comparable technology and there is no authentication standard such as NIS CC certification, so a technology such as NIS CC certified SSL-VPN is added, but the more security, the more there will be no shortage. .

Surveillance cameras are sometimes operated under adverse conditions depending on the installation location.

In particular, when installed on the Military Demarcation Line (MDL) of the Korean Peninsula, the camera on the top of the hull with an eye level of 1.5 to 2.5M is installed higher, and the top surveillance camera is equipped with an IR filter for 360-degree shooting, such as a fisheye camera installed upside down. A backlight surveillance camera is applied.

In addition, various sensors such as lidar sensors and thermal imaging cameras or IR see-through cameras are applied.

In order to meet the protection requirements against surges, etc., while complying with KS C IEC 61643 (surge protector test method) standard, EMP is propagated into the air and the energy induced in the line, that is, PCI, is MIL-STD-188-125-1 (US military It has high voltage and large current characteristics that can meet the protection standards of standard high-frequency pulse current protection standard), and the filter coil (reactor) applied to remove wideband surge and PCI ranging from 10Hz to 300MHz has several coils with specific frequency characteristics. and capacitor are used in combination, but there is no way to solve this problem by responding to a wide range of frequencies with one reactor.

Function Formula 1: F(x) = QKD Key(QRNG)

Function Expression 2: F(x) = DATA RECORDER Key (QRNG+PRNG)

Function Expression 3: F(x) = DATA STORAGE Key (QRNG+PRNG)

As shown in Function Equation 1, encryption/decryption is performed with a Quantum Random Number Generator (QRNG) Quantum Key as a quantum random number seed in a quantum communication QKD (Quantum Key Distribution) section.

As shown in Function Equation 2, the captured image is encrypted/decrypted and stored using a Program Random Number Generator (PRNG) and a Quantum Random Number Generator (QRNG) hybrid random number seed key.

Data is encrypted/decrypted and stored using a Program Random Number Generator (PRNG) and a Quantum Random Number Generator (QRNG) Hybrid-QUANTUM Key, as shown in Function Formula 3 above.

FIDO2 (Fast IDentity Online 2) is applied for Log IN/OUT access to server and storage device.

CCTV for security or integrated security lights Black box type CCTV supports are 4m, 5m, and 6m, and security cameras are attached to each upper layer.

In the case of a lamp arm, a security camera is attached at a height of about 5.7 m.

The video emergency bell is a combination of a small camera and an emergency bell, and is installed between 1.5m and 2m.

Looking at the characteristics according to the type and installation height of security cameras,

(Type A) The pan/tilt camera installed at a height of 4~6m tracks and monitors a specific object through zoom in/out, and has the highest resolution and the longest shooting distance.

In the case of daytime, in the case of 4K to 8K cameras with more than 10M pixels, object recognition of more than 100m is possible.

The maximum shooting distance depends on the performance of the night IR emitter.

(Type B) Fixed cameras installed at a height of 4 to 6 m do not have a zoom in/out function like a pan/tilt camera, and usually use a fisheye camera combining 4 to 8 cameras to take a 360-degree wide angle.

So, one panoramic image that combines 360 images in software is transmitted, or the integrated crime prevention center receives 4 to 8 captured images and combines them into a panoramic image. Edge Server) processes it as a panorama image and compresses it for transmission.

(Type C) Facial recognition, which calculates the coordinates of the nose, lips, ears, etc. based on the distance between the two eyes of a person by object recognition, has a high recognition rate indoors, but a lower recognition rate in an outdoor environment. / It is mainly applied to face object recognition.

The recognition rate is high when face recognition is performed based on the distance between the pupils through infrared rays reflected in the pupils of the face, but the shooting angle of the shooting height is limited to calculate the pupil distance at a height of 4 to 6 m, such as an outdoor security CCTV camera. there is.

The civil defense/disaster warning emergency bell of the present invention combines left and right blocks with CCTV poles and combines other functional blocks (broadcasting block, electric car charger block, defibrillator block, signage block, etc.) As a structure that completes the box-type smart pole, the civil defense/disaster warning emergency bell is an emergency bell with a length of 1m or more, with a minimum of 1m and a maximum of 2m on the ground, considering the heights of wheelchairs and children for the disabled.

Civil defense/disaster warning emergency bell has two emergency bell push buttons installed at the bottom and top, and a 360-degree fixed fisheye camera is installed at a location of 1.5 to 1.75m, which is optimized for photographing the face of a human object, and a sense of presence at the integrated crime prevention center Enables monitoring of augmented reality images.

(D type) A video call camera is added to make a video call while looking at the face when the emergency bell button of the civil defense/disaster warning emergency bell is operated.

In the integrated crime prevention center, it is recommended that one controller monitor the images taken by less than 50 cameras, but in the field, it is easy to find cases where more camera images are monitored.

Therefore, it is possible to intensively monitor the event video through various intelligent analyzes such as the fall of the sound source such as the abnormal sound source "Please help me" and the recorded video, merging/collecting, weapon object recognition, and abnormal sudden behavior analysis.

As for the images taken by the cameras according to the present invention, at least one A-type pan/tilt camera, four B-type fixed cameras, and one to four C-type fisheye cameras should be used to process images taken by at least six cameras.

Rather than processing the individual images of IP cameras in the integrated crime prevention center, it is more efficient to transmit the integrated images pre-processed by the local edge server to the integrated crime prevention center and store them in large-capacity storage for less than 30 days. It is a technical task of the present invention to propose that 9 individual images are stored in a local edge server for 30 days, and that the integrated crime prevention center transmits an integrated image that does not interfere with monitoring, or transmits one integrated image and a video taken by a main camera. .

The present invention applies a conventionally known method in which an event image selected by various known methods such as abnormal sound source and object behavior analysis is popped up on a monitor and monitored by a monitor personnel.

However, with the specialized technology of the present invention, 1 or 2 compressed images are usually transmitted, but when adopted as an event image, at least 6 images are displayed through augmented reality through the individual monitors of the monitor agent under the control of the monitor agent. characterized by

As an example,

One or more images taken by A-type, B-type, and C-type cameras are selectively transmitted by various control programs (VMS) installed in conventional integrated crime prevention centers, and are usually displayed on large monitors.

Monitor personnel individually access and monitor all camera footage of IP addresses classified as event videos.

That is, it is characterized in that it is operated independently of the conventional VMS control program.

The screen is a split screen, and A screen controls the pan/tilt of the A-type camera for intensive monitoring, B screen monitors the entire video, C screen monitors the upper part of the enclosure, and D screen makes a video call with the emergency bell operator. An embodiment of doing is possible.

The present invention is implemented as a hardware configuration rather than a software implementation.

The local edge server receives the video data line and bidirectional control data line from the A-type camera through the A-type I/O port, automatically deletes the video data after storing it for 30 days, and monitors the camera and integrated crime prevention center for OTP QUANTUM. KEY, Half Mirror Effect symmetric key, PRIVATE/PUBLIC KEY, etc. through well-known prior art, control two-way communication and control A-type camera with Joystick/Keyboard.

The local edge server receives images from 4 to 8 cameras taken from B-type cameras through the B-type I/O Port, automatically deletes the image data after storing it for 30 days, and converts the captured images into panoramic images by synthesizing images. Known prior technologies such as Half Mirror Effect symmetric key and PRIVATE/PUBLIC KEY can be applied in transmitting a panoramic image to the control server of a monitor agent logged in through OTP QUANTUM KEY authentication.

The local edge server divides 4 images taken from C-type cameras and images from up to 8 B-type cameras 360 degrees and adjusts them into 4 areas whose shooting angles are matched. Known prior technologies such as Half Mirror Effect symmetric key and PRIVATE/PUBLIC KEY can be applied in transmitting the augmented reality image synthesized from the panoramic image to the control server of the logged-in monitor agent through OTP QUANTUM KEY authentication. Instead of synthesizing augmented reality images, panoramic images synthesized from C-type cameras are transmitted to the integrated crime prevention center.)

Through OTP QUANTUM KEY authentication, the local edge server receives air raid/disaster risk/disaster warning/nurturing/TTS broadcasting data issued from the civil defense alarm control center or disaster situation room through civil defense/disaster warning emergency bell, and uses its own amplifier-integrated speaker of 20W or more. broadcast through

In the present invention, in addition to the video taken at a height of 4 to 6 m, blind spots around the CCTV posts are prevented through 360-degree shooting at a height of 1.5 m to 2 m.

As described above, structural stability is increased because the arm is not required or may be short to prevent blind spots around the post.

Create a physically non-replicable private key (PRIVATE KEY) through PUF (Phisycally Unclonable Function) Chip or eFUSE System On Chip.

It is characterized by encoding unique biometric information with a public key generated through an unpredictable QRNG (Quantum Random Number Generator) Chip through a small USB fingerprint recognition device that is easy to carry.

PUF (Phisycally Unclonable Function) Chip, a physically unique chip that cannot be duplicated, or a unique PRIVATE KEY through eFUSE first developed by IBM and QRNG (Quantum Random Number Generator) developed by SK Telecom and ID Quantique SA FIDO authentication based on QUANTUM public key (PUBLIC KEY) that encrypts biometric information such as fingerprint with OTP QUANTUM KEY (One Time Password QUANTUM Key) generated through A quantum communication network through a quantum security platform (Quantum-Platform) using hybrid quantum communication interval encryption or quantum key distribution QKD (Quantum Key Distribution) of is applied.

Summarizing the differentiated features applied to the network of the present invention,

1. Generate a symmetric key through the same PRNG,

2. Forming a first Log IN network through a first physical network separation server through QRNG;

3. After exchanging different QRNs with symmetric keys through different QRNGs in the first network

4. By generating the same OTP encryption/decryption key with each different QRN and performing encryption/decryption communication through the OTP encryption/decryption key between the second physical network separation servers through the second network,

5. The first network and the second network are physically a single self-network of one line, but the network is a virtual two-line network, and the server is the first and second physical network separation servers,

6. Log-in network data communication and data communication through encryption/decryption keys are performed by a physical network separation server through one line of its own network,

7. Efficient operation of 4 to 9 cameras at the top of the enclosure to be added and integrated design All-in-one emergency bell integrated enclosure with all functions in the enclosure.

It has the effect of improving performance with enhanced security for surveillance without blind spots and distortion and effective dissemination of civil defense/disaster warning.

It is simple to install by manufacturing all the equipment, functions and additional things necessary for the conventional security CCTV system except for the security camera and arm in an integrated emergency bell integrated enclosure.

Referring to Figure 6,

The A to B zones monitored by security pan-tilt cameras or fixed surveillance cameras installed on top of poles, and the C Zone, which was the surveillance area of fisheye cameras with a conventional blind spot or severe distortion, are monitored without blind spots and distortions with eye-level cameras, It is subdivided into D Zone, which is monitored through a wireless integrated enclosure connected to a network through an unlicensed frequency wireless private network or a wireless communication provider (SKT, KT, LGT, ID Powerel, AOM-SNET, etc.) network, realizing a surveillance network without blind spots.

1 to 6 are explanatory diagrams for understanding the present invention
7 to 9 are explanatory diagrams for understanding the IR see-through filter (source http://www.kaya-optics.com/)
10 to 15 are explanatory diagrams through an embodiment

Civil Defense Framework Act Article 33 Paragraph 3, Enforcement Decree Article 55-2 (Civil Defense Alert Propagation) Including "buildings subject to alert dissemination" and additionally emergency broadcasting inside/outside public buildings such as high crime areas, roads, schools, government offices, etc. Personal Information Protection Guidelines for CCTV systems for crime prevention, including multi-use facility alarm terminals broadcasting alarm data (disaster alert, disaster risk, air raid, chemical, biological, text to speech (TTS) data, etc.), emergency bell, and broadcasting device It is related to the performance improvement project for CCTVs (1,148,770 as of 2019, 115,891 (up 11.2%) from the previous year, approximately 1 million) registered in the personal information protection comprehensive support system installed and operated in an open place based on paragraph 1.

The present invention focuses on preventing misinformation of civil defense/disaster forecasting and warning broadcasting, preventing malfunction and blind spot prevention of emergency bells that require rescue in emergency situations, and security CCTV, and has a stark difference from the conventional known technology, the following technologies have

1. Password replacement of the known program OTP (One Time Password) method

2. Encryption/decryption data exchange such as known AES

3. Self-diagnosis through line inspection through simple ping test

4. Spare equipment through simple physical redundancy configuration

5. Prevention of blind spots by adding a simple monitoring camera

The A-QUANTUM SERVER inside the Korea Aerospace Operation Center (KAOC) and the B-QUANTUM SERVER inside the 1st or 2nd civil defense alarm control center are A-QKD (Quantum Key Distribution) and B-QKD (Quantum Key Distribution) Distribution) forms a quantum communication channel (QUANTUM CHannel) through QUANTUM KEY exchange.

The network below the Korea Aerospace Operation Center (KAOC) and the Civil Defense Alert Control Center forms a hybrid-QUANTUM CHannel to which QRNG (Quantum Random Number Generator) SoC (Syster On Chip) is applied. , It is desirable that all networks be built as quantum communication networks, but the upper networks that are important due to problems such as cost and operating costs are built as quantum communication networks, and the lower networks with relatively low importance (broadcasting devices including CCTVs below the Civil Defense Alarm Control Center) Alternatively, a quantum cryptographic security hybrid quantum communication channel (Hybrid -QUANTUM CHannel) Build a network.

Civil defense control systems of the 1st and 2nd civil defense alarm control centers and city and provincial civil defense alarm control centers transmit alarm data through private networks dedicated to civil defense or satellite networks.

The civil defense control system of the city/province civil defense alarm control center, which receives alarm data from the 1st and 2nd civil defense alarm control centers, broadcasts the alarm data through civil defense alarm terminals.

In addition, it transmits warning data to the multi-use facility linked server linked with the civil defense control system.

The network configuration can be composed of a quantum communication channel (QUANTUM CHannel), a non-quantum communication channel (non-QUANTUM CHannel), and a hybrid quantum communication channel (Hybrid-QUANTUM CHannel), and is not limited to any one network.

Physical Network Isolation QUANTUM SERVER (PNI QUANTUM SERVER; Physical Network Isolation QUANTUM SERVER) is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER below. Transmits to the connected Alice PNI QUANTUM SERVER.

In addition, the alarm data of the multi-use facility connection server is transmitted to the multi-use facility alarm terminal connected to the private network or the dynamic IP network including the fixed IP or VPN.

Alice PNI QUANTUM SERVER transmits the alarm data to Bob PNI QUANTUM SERVER connected through Hybrid-QUANTUM CHannel network.

Bob PNI QUANTUM SERVER transmits the received alarm data to Alice PNI QUANTUM SERVER by broadcasting the received alarm data through the broadcasting device of the CCTV surveillance camera system including the emergency bell and broadcasting device and receiving image data taken from the surveillance camera.

Alice PNI QUANTUM SERVER is a broadcasting system using CCTV surveillance cameras for crime prevention that transmits received image data to VMS (Viedo Management System) SERVER.

Alice PNI QUANTUM SERVER broadcasts air raid and disaster risk warning data (including chemical, biological, disaster warning, TTS, and live broadcasting) received from multi-use facility linked server through Bob PNI QUANTUM SERVER connected to multi-use facility alarm terminal. .

In addition, when Alice PNI QUANTUM SERVER receives an emergency disaster text message, it transmits it to Bob PNI QUANTUM SERVER. In broadcasting through, Alice PNI QUANTUM SERVER broadcasts with different broadcasting methods depending on emergency text broadcasting automatic mode, manual mode, and approval mode.

The selection switch is composed of a normal switch, such as additionally installing a switch selected by an administrator or selecting a switch on a monitor by an administrator.

When the selection switch is in automatic mode, when an emergency message is received, it is displayed in real time through the electric signboard among the broadcasting devices connected to Bob PNI QUANTUM SERVER.

When the selection switch is in manual mode, when an emergency message is received, it is displayed in real time through the electric signboard among the broadcasting devices connected to the Bob PNI QUANTUM SERVER when approved by the manager or through a synchronization smartphone.

The manager's approval is approved according to the manager's selection of the broadcast approval switch ON.

Approval through the smartphone is displayed in real time through the electric signboard among broadcasting devices connected to Bob PNI QUANTUM SERVER in case of any one or more of the approvals through the electronic payment approval app on the smartphone that received the same emergency disaster text as Alice PNI QUANTUM SERVER .

When the selection switch is in the approval mode, when the emergency text message is received, the administrator's approval and synchronization are double approved through the smartphone. Bob PNI QUANTUM SERVER converts the emergency text message to TTS (Text to Speech) and broadcasts it through the speaker.

Physical Network Isolation QUANTUM SERVER (PNI QUANTUM SERVER) is composed of OTP QUANTUM Edge SERVER and TLS (Transport Layer Security) Edge SERVER.

PNI QUANTUM SERVER (Physical Network Isolation QUANTUM SERVER), a physical network separation quantum cryptographic server, is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER.

The Alice PNI QUANTUM SERVER is installed inside the civil defense alarm control center and the Bob PNI QUANTUM SERVER connected to the network is connected to the terminal including the security monitoring camera, emergency bell and broadcasting device.

Inside Alice PNI QUANTUM SERVER Alice OTP QUANTUM Edge SERVER and Bob PNI QUANTUM SERVER Inside Bob OTP QUANTUM Edge SERVER access wired or wireless or wired/wireless private network (wired private network or/and wireless private network) do.

The wired/wireless communication network is a wired private network or/and a wireless private network, and the wired/wireless emergency bell is a wired emergency bell or/and a wireless emergency bell.

Alice PNI QUANTUM SERVER Internal Alice TLS (Transport Layer Security) Edge SERVER and Bob PNI QUANTUM SERVER Internal Bob TLS (Transport Layer Security) Edge SERVER is IDIS KT Powertel, SK Telecom LoRA or LTE, AMO-SNet SigFOX LPWAN (Low-Power Wide -Area Network) Connected to the wireless communication provider network.

Key exchange and authentication strengthen security through redundant exchange and authentication through private network and wireless communication provider network. do

Although wireless communication is relatively less secure than wired communication, high security developed by telecommunication service providers such as LTE (Long Term Evolution) is applied and has the advantage of dual security.

Although wired private networks have relatively high security compared to wireless networks, they are exposed to various hacking methods, such as physical hacking and disguising themselves as legitimate users.

In the present invention, physical system on chips (less than 10 mm in size, such as physically unclonable function (PUF), random unpredictable quantum random number generator (QRNG), and eFUSE, which are physically impossible to leak keys, have low power, subminiature, and high response speed ( Security technology based on SoC) is applied.

OTP QUANTUM Edge SERVER is a PRNG (Program Random Number Generator) SoC that generates pseudo-random numbers programmed into the Security CPU under the control of the MCU (Main Control Unit). When Alice and Bob have the PRNG (Program Random Number Generator) of the same program The same symmetric key (private key) can be generated using the same pseudorandom number seed.

OTP QUANTUM Edge SERVER is composed of PRNG (Program Random Number Generator) SoC and Alice QRNG (Quantum Random Number Generator) SoC.

TLS (Transport Layer Security) Edge SERVER including PUF SoC and QRNG SoC is SoC (System On Chip) including PUF (Physically Unclonable Function) Chip inside PUF SoC and QRNG SoC (System It features TLS Edge SERVER including On Chip).

PUF SoC (System On Chip) consists of MCU (Main Control Unit) composed of microprocessor, Security CPU (Central Processing Unit), Boot ROM, memory (M/M), input/output unit (Systeb Bus and I/O Port) ), debugger, PUF (Physically Unclonable Function) Chip, etc. are integrated into a security System On Chip.

An operating system (O/S) is booted through boot control of Boot ROM through program integrity verification through control of a main control unit (MCU) inside the PUF SoC (System On Chip).

Inside the PUF SoC, the Security CPU (Central Processing Unit) has hash signature and verification functions (Hash-based Message Authentication Code/ESCDA·HMAC), symmetric key encryption/decryption function (AES·ARIA), and user authentication functions (RHDROZL exchange, MAC· It is a security-only CPU that controls HAMC verification, seed/random number exchange).

QRNG (Quantum Random Number Generator) SoC generates key-generating unpredictable random quantum random numbers.

Trust Key USB features Trust Key USB including FIDO2 (Fast IDentity Online 2) SoC, MCU (Main Control Unit), eFUSE Chip, Bio Chip, TRNG (True Random Number Generator) Chip,

When the trust key USB is connected to the physical network separation quantum cryptographic server (PNI QUANTUM SERVER) I/O port, program integrity is ensured by performing ECC verification of the 1st stage SHA256 HMAC and 2nd stage HMAC through the control of the MCU (Main Control Unit) inside. Boot control of Boot ROM through verification and storage of Device Unique Key through eFUSE Chip, hash signature and verification function (Hash Accelerator-SHA1/SHA256), symmetric key encryption/decryption function (AES/ARIA) and biometric information Scanning bio chip and key generation TRNG (True Random Number Generator) Chip that generates unpredictable random natural numbers is executed to boot O/S (Operating Systems) through user authentication.

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER, and is divided into Alice/Bob OTP QUANTUM Edge SERVER and Alice/Bob TLS (Transport Layer Security) Edge SERVER.

Alice PRNG inside Alice OTP QUANTUM Edge SERVER and Bob PRNG inside Bob OTP QUANTUM Edge SERVER are the same program.

Alice/Bob PUF Chips are physically different PUF Chips, and Alice/Bob QRNG SoCs generate different unpredictable quantum random numbers.

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob inside Bob PNI QUANTUM SERVER Alice PRNG and Bob PRNG inside Alice OTP QUANTUM Edge SERVER are PRNGs that generate the same pseudorandom number, and use the same OTP pseudorandom number as a symmetric key (PRIVATE KEY) and Alice QRNG and Bob QRNG generate Alice asymmetric key (PUBLIC KEY) and Bob asymmetric key (PUBLIC KEY) using different quantum random numbers as seeds, exchange them with each other, and then use a relative asymmetric key (PUBLIC KEY) as a symmetric key ( When the PRIVATE KEY) is encrypted and retransmitted, it is decrypted and the internal network Alice/Bob OTP QUANTUM Edge SERVER mutually logs in (Log IN) if it is the same symmetric key (PRIVATE KEY).

Alice/Bob TLS (Transport Layer Security) Edge SERVER generates a symmetric key (PRIVATE KEY) using PUF PIN DATA as a seed that is mutually authenticated and cannot be physically duplicated through PUF, and Alice QRNG and Bob QRNG use different quantum random numbers as seeds for Alice Asymmetric key (PUBLIC KEY) and Bob asymmetric key (PUBLIC KEY) are created and exchanged with each other, then the symmetric key (PRIVATE KEY) is encrypted with the other asymmetric key (PUBLIC KEY) and retransmitted, then decrypted and the other party's symmetric key (PRIVATE KEY) It is a PUF (eFUSE)-QRNG quantum security FIDO authentication system characterized by high-speed encryption / decryption through

also,

The Bob PNI QUANTUM Edge SERVER inside the Bob PNI QUANTUM SERVER receives the emergency disaster text message and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network, which displays it through the connected electronic signboard.

Eve TLS Edge SERVER receives video data and vehicle speed data from speed and security cameras and transmits them to Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER connected to unlicensed frequency wireless network.

Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER transmits the received video data to Alice TLS Edge SERVER inside Alice PNI QUANTUM SERVER.

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received vehicle speed data to the Bob OTP QUANTUM Edge SERVER and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network. It is a PUF (eFUSE)-QRNG quantum security FIDO authentication system characterized by expressing vehicle speed.

also,

Different networks (wireless communication) Its main feature is that it creates an ATYPICAL symmetric key (PRIVATE KEY) using the operator network and private network).

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob inside Bob OTP QUANTUM Edge SERVER Alice PRNG and Bob PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudorandom number, and the same OTP pseudorandom number is used as the seed. Generate OTP symmetric key (PRIVATE KEY).

Alice QRNG SoC and Bob QRNG SoC generate Alice asymmetric key (PUBLIC KEY) and Bob asymmetric key (PUBLIC KEY) using different quantum random numbers as seeds, exchange them with each other, and then use OTP symmetric keys as relative asymmetric keys (PUBLIC KEY) If (PRIVATE KEY) is encrypted and retransmitted, it is decrypted and if it is the same OTP symmetric key (PRIVATE KEY), it is an internal network Alice/Bob OTP QUANTUM Edge SERVER that mutually logs in (Log IN).

Through the above log-in process,

The main feature of Alice/Bob TLS (Transport Layer Security) Edge SERVER is the exchange of random numbers (seed) for generating an atypical (ATYPICAL) symmetric key (PRIVATE KEY) through an external network. After secondary authentication that mutually authenticates each other as authorized users by exchanging PIN data, Alice TLS (Transport Layer Security) Edge SERVER internal Alice QRNG Alice QRNG generated random number generated by SoC Alice/Bob OTP QUANTUM Edge SERVER generates the same pseudo-random number Alice QRNG-generated random numbers are encrypted with the same OTP symmetric key (PRIVATE KEY) generated as a seed and transmitted through a wireless communication provider network.

In the same way as above, Bob QRNG generated random number generated by Bob QRNG SoC inside Bob TLS Edge SERVER Alice / Bob OTP QUANTUM Edge SERVER generates the same pseudorandom number as seed The same OTP symmetry The random number generated by Bob QRNG is encrypted with the PRIVATE KEY and transmitted and exchanged through the wireless communication service provider network.

Alice/Bob TLS Edge SERVER generates the same ATYPICAL symmetric private key (PRIVATE KEY) by the same key generation program with the Alice/Bob QRNG-generated random number seed obtained by exchanging each other, and generates large amounts of data through its own network. It is characterized by high-speed encryption/decryption through an ATYPICAL symmetric key (PRIVATE KEY).

The difference between generating the same OTP symmetric key (PRIVATE KEY) and the same ATYPICAL symmetric key (PRIVATE KEY) for Alice and Bob will be described in detail below through an embodiment.

OTP symmetric key (PRIVATE KEY): Alice and Bob identically generate the same pseudorandom number (program random number) "001 0101" through the PRNG SoC equipped with the same pseudorandom number generation program, and use the same OTP symmetric key through the same key generation program Create (PRIVATE KEY).

ATYPICAL symmetric key (PRIVATE KEY): Alice generates an unpredictable Alice quantum random number seed "0111 1100" through the QRNG Chip inside the Alice QRNG SoC,

When Bob generates an unpredictable Bob quantum random number seed "1010 1011" through the QRNG Chip inside the QRNG SoC,

Alice and Bob exchange the Alice quantum random number seed "0111 1100" and the Bob quantum random number seed "1010 1011" to obtain the same Alice/Bob quantum random number seeds "0111 1100" and "1010 1011", and then use the same key generation program. according to,

Alice/Bob generates the same ATYPICAL symmetric PRIVATE KEY through the same key generation program with the key generation seed "0010 1000" through the same AND operation (0111 1100 EX-AND 1010 1011 = 0010 1000) .

As an example,

Alice transmits the Alice quantum random number seed to Bob through the wireless communication provider network, but Bob transmits the Bob quantum random number seed to Alice through the wired private network, exchanging the quantum random number seed or public key through the dual network, and PUF Security is enhanced through various embodiments, such as transmission of DATA through a licensed frequency carrier network for log-in authentication and transmission of quantum random numbers through a wired/wireless private network.

As an example,

A network can generate an ATYPICAL symmetric key (PRIVATE KEY) through the exchange of key-generating quantum random number seeds through a single network.

As an example,

FIDO2 (Fast IDentity Online 2) USB is composed of a Secutity CPU (Control And Production Unit), PUF (Physically Unclonable Function) Chip, and Bio Chip, and the PUF Chip is replaced by an eFUSE Chip, and the Bio Chip is biometric fingerprint recognition or a biometric recognition chip of at least one of vein recognition, cornea recognition, and voice recognition.

As an example,

PIN DATA extracted from a physically unclonable function (PUF) chip includes both a case in which the digital value itself generated by the PUF is used as a PIN and a case in which a value separately processed from the PUF is used as a PIN. Hereinafter, even if a process of generating a new PIN by processing a digital value generated by a PUF is not mentioned one by one, it should be understood including all of these embodiments.

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

In addition, since the PUF has a feature that it is physically impossible to copy, it is possible to eliminate the possibility that the PIN number of the device may be leaked or copied ex post facto.

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

According to one embodiment, the serial number storage unit stores a serial number of a device's unique value provided by a factory in the manufacturing process of the device, and the serial number unique to the device from the factory is I/O It is entered into 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 - not necessarily once according to the policy, but it can be designated once for security reasons - It can be.

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

Then, only the secret key extracted once for the first time only needs to be safely managed by a subject having management authority, and it is impossible to newly extract the secret key of the device after the fuse unit 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 for public key encryption/decryption communication, and the private key module can provide the 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 outside from device manufacturing to distribution and use. Of course, it is impossible to artificially leak the private key by physical attack for the same reason as the secret key module described above.

Therefore, external leakage of the private key provided by the private key module does not occur, and device authentication is possible through the PIN generated by the device itself in machine-to-machine communication (M2M).

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

Accordingly, the PUF may be referred to as a physical one-way function practically impossible to be duplicated (POWF) or a physical random function (PRF).

Such PUFs may be used to generate cryptographic keys 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 coating PUF was implemented using randomly doped particles on the top layer of an IC, and a coating PUF commonly used in hardware chips such as latches was used. A recent butterfly PUF that can be implemented in an FPGA using a process variation inside a CMOS device has also been implemented.

However, in order to be reliable so that applications that utilize PUFs for PIN generation can be commercialized, the physical duplication of the PUF circuit itself is impossible, the randomness of the generated PIN values, and the value of the PIN once generated do not change over time. All time invariances must be guaranteed.

However, most conventional PUF circuits have difficulties in commercialization because they do not guarantee at least one of randomness and time-invariance of a value to a high level, which must be met as a PUF or PRF.

The PUF used in the embodiments solves these conventional problems, guarantees time invariance and randomness at a very reliable level, and can be produced at a very low unit cost in the semiconductor manufacturing process.

According to an embodiment, a random value is created using randomness based on whether or not there is a short circuit between nodes existing in a semiconductor process in order to simultaneously satisfy the randomness and time invariance of the PIN generated by the PUF.

In the PUF according to an embodiment, the size of a contact or a via used to electrically connect conductive layers (metal) in a semiconductor chip is a size that is certain to be connected in a process, that is, smaller than the design rule. , so that the short circuit is randomly determined. That is, a random PIN value is created by intentionally violating design rules.

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

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

The PUF itself cannot be forged or altered, but the terminal (board) equipped with the PUF can be tampered with by removing the PUF chip and attaching it to another board (terminal). It is characterized by the first technology developed in the form of a SOC chip that

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

As an example,

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER, Bob PNI QUANTUM SERVER, and Eve PNI QUANTUM SERVER.

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob OTP QUANTUM Edge SERVER inside Bob PNI QUANTUM SERVER and Eve OTP QUANTUM Edge SERVER inside Eve PNI QUANTUM SERVER Alice PRNG, Bob PRNG and Eve PRNG generate the same pseudorandom number PRNG that generates the same OTP PRIVATE KEY with the same OTP pseudo-random number as the seed.

Alternatively, Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER A pair of Alice PRNG and Bob PRNG are the same as the Alice-Bob PRNG that generates the same pseudorandom number.

Bob OTP QUANTUM Edge SERVER and Eve OTP QUANTUM Edge SERVER A pair of Bob PRNG and Eve PRNG are composed of Bob-Eve PRNGs that generate the same pseudorandom number.

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY using different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in the case of the same OTP PRIVATE KEY Alice/Bob OTP QUANTUM Edge SERVER logs into the mutual network.

In the same way, Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, and then decrypt it to obtain the same OTP PRIVATE KEY In this case, Bob/Eve OTP QUANTUM Edge SERVER logs into the mutual network.

In the log-in state, the Alice OTP QUANTUM Edge SERVER inside the Alice PNI QUANTUM SERVER transmits an emergency disaster message to the Bob OTP QUANTUM Edge SERVER inside the Bob PNI QUANTUM SERVER connected to the network.

The Bob OTP QUANTUM Edge SERVER converts the received emergency text to TTS and displays it through a broadcasting device or an emergency disaster text message through signage, and is connected to the unlicensed frequency wireless network. send.

Eve OTP QUANTUM Edge SERVER receives emergency text messages and displays them through signage or broadcasts them through TTS.

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER.

Bob QRN, the quantum random number generated by Bob QRNG inside the Bob TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER, where Alice/Bob QRN quantum random numbers are mutually exchanged and then decrypted with the OTP PRIVATE KEY.

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed obtained by exchanging each other, and communicates encryption/decryption data with the Atypical PRIVATE KEY through the network. .

In the same way, Bob/Eve TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Eve TLS Edge SERVER .

Eve QRN, the quantum random number generated by Eve QRNG inside Eve TLS Edge SERVER, is encrypted with OTP PRIVATE KEY and transmitted to Bob TLS Edge SERVER, where Bob/Eve QRN quantum random numbers are mutually exchanged and then decrypted with OTP PRIVATE KEY.

The Bob/Eve TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Bob QRN quantum random number and Eve QRN quantum random number seed obtained by exchanging each other, and communicates encryption/decryption data with the Atypical PRIVATE KEY through the network. .

Eve TLS Edge SERVER inside Eve PNI QUANTUM SERVER receives video data taken from surveillance cameras and transmits it to Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER connected to unlicensed frequency wireless network, and Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER It is a PUF (eFUSE)-QRNG quantum security FIDO authentication system characterized by transmitting the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER.

As an example,

Alice QUANTUM SERVER inside Korea Aerospace Operations Headquarters (KAOC) and Bob QUANTUM SERVER inside Civil Defense Alarm Control Center form a quantum communication channel through the quantum entanglement QUANTUM KEY exchange between Alice QKD and Bob QKD, and the civil defense alarm control center and terminal ( It is characterized by a hybrid quantum communication network that forms a hybrid quantum communication channel to which QRNG SoC is applied.

Alert data such as air raids, disaster risks, chemical, biological, and disaster alerts received from the multi-use facility linked server linked to the civil defense control system of the Civil Defense Alert Control Center is transmitted to Alice PNI QUANTUM SERVER.

Alice PNI QUANTUM SERVER transmits the alarm data to Bob PNI QUANTUM SERVER connected to hybrid quantum communication channel network.

Bob PNI QUANTUM SERVER broadcasts the received alarm data through the terminal broadcasting device.

In addition, Bob PNI QUANTUM SERVER receives video data from the terminal monitoring camera and transmits it to Alice PNI QUANTUM SERVER.

Alice PNI QUANTUM SERVER is a broadcasting system using CCTV surveillance cameras for crime prevention that receives video data and transmits them to VMS SERVER.

PNI QUANTUM SERVER consists of OTP QUANTUM Edge SERVER and TLS Edge SERVER, and features a physical network separation server in which data is transmitted in only one direction from OTP QUANTUM Edge SERVER to TLS Edge SERVER.

OTP QUANTUM Edge SERVER is composed of PRNG SoC including PRNG program and QRNG SoC including QRNG Chip. Basically, it implements server such as MCU, CPU, Boot ROM, M/M, I/O Port, SPI, etc. Of course, basic functions are included. (The unnecessary complicated basic repetitive configuration of the invention is omitted, and the general description for clarity is omitted.)

TLS Edge SERVER is composed of QRNG SoC including QRNG Chip and PUF SoC composed of PUF Chip and MCU, Boot ROM and Security CPU.

Inside the PUF SoC, the MCU performs boot control and boots the Boot ROM through program integrity verification during booting, and controls security-related functions such as hash signature and verification functions, symmetric key encryption/decryption functions, and user authentication functions through the control of the Security CPU.

QRNG SoC generates a PUBLIC KEY with an unpredictable random quantum random number as a seed through the QRNG Chip inside.

As the main component of Trust Key USB, it features Trust Key USB including FIDO2 SoC, MCU, eFUSE Chip, Bio Chip, and TRNG Chip.

When the Trust Key USB is connected to the I/O port of the PNI QUANTUM SERVER, the ECC verification of the 1st step SHA256 HMAC and the 2nd step HMAC is performed under the control of the MCU inside, and booting is performed through boot control of the Boot ROM through program integrity verification. .

In addition, Device Unique Key storage through eFUSE Chip, hash signature and verification function, symmetric key encryption/decryption function, Bio Chip that scans biometric information, and TRNG Chip that generates unpredictable random natural random numbers for key generation are executed to perform user authentication. Boot the O/S.

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER installed inside civil defense alarm control center and Bob PNI QUANTUM SERVER connected to the terminal.

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob inside Bob OTP QUANTUM Edge SERVER Alice PRNG and Bob PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudorandom number, and the same OTP pseudorandom number is used as the seed. Generate OTP PRIVATE KEY.

(That is, Alice PRNG generated by Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER; and

Bob PRNG created by Bob OTP QUANTUM Edge SERVER inside Bob PNI QUANTUM SERVER;

It is a PRNG that generates the same pseudo-random number, and the same OTP pseudo-random number is generated and used as a key generation seed to generate the same OTP PRIVATE KEY with the same key generation program.)

For example,

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER, Bob PNI QUANTUM SERVER, Eve PNI QUANTUM SERVER, Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob OTP QUANTUM Edge SERVER and Eve PNI QUANTUM SERVER inside Bob PNI QUANTUM SERVER Alice PRNG, Bob PRNG, and Eve PRNG of internal Eve OTP QUANTUM Edge SERVER are PRNGs that generate the same pseudo-random number, and generate the same OTP PRIVATE KEY with the same OTP pseudo-random number as the seed.

The same Alice PRNG and Bob PRANG are, for example, in the case of the same first table 0110 and second table 1100, the first OTP PRIVATE KEY is 0110 and the second OTP PRIVATE KEY is 1100 as a seed, making Alice the same to Bob When 0110 is transmitted once, Bob confirms 0110 once, and sequentially when Bob transmits 1100 to Alice twice, Alice confirms 1100 twice. It means to verify each other by creating a PRIVATE KEY.

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, and encrypt and retransmit the OTP PRIVATE KEY (once/twice) with the other PUBLIC KEY. 1 time/2 times) In case of OTP PRIVATE KEY, it is Alice/Bob OTP QUANTUM Edge SERVER that logs in to mutual network.

Alice QRNG SoC and Bob QRNG SoC generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual These are Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER that log in to the network.

Alice TLS Edge SERVER and Bob TLS Edge SERVER exchange quantum random numbers for generating the same Atypical PRIVATE KEY through an external network, and exchange PUF Chip PIN DATA through a wireless communication provider network to mutually recognize each other as authorized users. After authentication, the Alice QRNG generated random number generated by the Alice QRNG SoC inside the Alice TLS Edge SERVER is used as the OTP PRIVATE KEY (i.e., Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER generate the same pseudo-random number as the seed) ), Alice QRNG-generated random numbers are encrypted and transmitted through the wireless communication service provider network.

Bob QRNG generated random number generated by Bob QRNG SoC inside Bob TLS Edge SERVER as the OTP PRIVATE KEY (ie, Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER generate the same pseudorandom number as the same OTP PRIVATE KEY) The random numbers generated by Bob QRNG are encrypted and transmitted through the wireless communication service provider network, and Alice QRNG and Bob QRNG random numbers are mutually exchanged.

Alice OTP QUANTUM Edge SERVER and Bob TLS Edge SERVER use Alice QRNG random numbers and Bob QRNG random numbers acquired by exchange with each other as key generation seeds to create the same Atypical PRIVATE KEY with the same key generation program, and atypical large amount of data through private network. Encryption/decryption data is communicated at high speed through the PRIVATE KEY.

That is, by encrypting Alice QRNG-generated random numbers and Bob QRNG-generated random numbers and exchanging them through a small-capacity data plan through wireless communication service provider networks, the same Atypical PRIVATE KEY is created using Alice QRNG-generated random numbers and Bob QRNG-generated random numbers to create a private network Through the Atypical PRIVATE KEY, high-speed encryption/decryption data communication is performed for large amounts of data.

In addition, Alice TLS Edge SERVER inside Alice PNI QUANTUM SERVER and Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER are connected through wireless communication service provider network, and Alice TLS Edge SERVER and Bob TLS Edge SERVER are PIN DATA of PUF Chip inside PUF SoC After mutual authentication, Alice QRNG and Bob QRNG exchange different quantum random numbers and generate the same Atypical PRIVATE KEY by the same key generation program to encrypt/decrypt large amounts of data through their own network at high speed through the Atypical PRIVATE KEY. communicate

Also, without generating an Atypical PRIVATE KEY, which is an encryption/decryption key,

Inside Alice PNI QUANTUM SERVER Alice OTP QUANTUM Edge SERVER and Bob PNI QUANTUM SERVER Inside Bob OTP QUANTUM Edge SERVER are connected to private network, Alice PRNG and Bob PRNG of Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER have the same intention It is a PRNG that generates random numbers and generates an OTP PRIVATE KEY using the same OTP pseudo-random number as a seed (checking the OTP PRIVATE KEY or encrypting the same table random numbers and exchanging them for verification, etc.). data communication.

The Bob PNI QUANTUM Edge SERVER inside the Bob PNI QUANTUM SERVER receives the emergency disaster text message and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network, which displays it through the connected electronic signboard.

Eve TLS Edge SERVER receives video data and vehicle speed data from speed cameras and transmits them to Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER connected to unlicensed frequency wireless network.

Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER transmits the received video data to Alice TLS Edge SERVER inside Alice PNI QUANTUM SERVER.

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received vehicle speed data to the Bob OTP QUANTUM Edge SERVER and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network. It is a PUF (eFUSE)-QRNG quantum security FIDO authentication system characterized by expressing vehicle speed.

The Bob PNI QUANTUM SERVER and Eve PNI QUANTUM SERVER use various methods previously applied between Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER in the method of mutual key generation and exchange data communication.

In particular, as a differentiated feature of the local part for strengthening security only in the present invention,

When Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives an emergency disaster message, Eve OTP QUANTUM Edge SERVER receives it and displays it through the display board.

Eve TLS Edge SERVER receives video data and vehicle speed data from speed cameras and transmits them to Bob TLS Edge SERVER, retransmits them to Bob OTP QUANTUM Edge SERVER, and transmits them again to Eve OTP QUANTUM Edge SERVER to display the vehicle speed through the display board It is characterized by a data expression approval procedure.

For example, vehicle speed is expressed, but personal information such as vehicle number or face recognition data depending on whether or not a mask is worn can be expressed in various ways.

As an example,

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected through a wired network, and Bob PNI QUANTUM SERVER and Eve PNI QUANTUM SERVER connected through an unlicensed frequency wireless network.

That is, Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER are connected through a wired network.

Bob PNI QUANTUM SERVER and Eve PNI QUANTUM SERVER are connected through unlicensed frequency wireless network.

Alice PRNG of Alice PNI QUANTUM SERVER inside Alice OTP QUANTUM Edge SERVER and Bob PRNG of Bob PNI QUANTUM SERVER inside Bob OTP QUANTUM Edge SERVER are PRNGs that generate the same pseudo-random number, and generate the same OTP PRIVATE KEY with the same OTP pseudo-random number as the seed. .

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network This is Alice/Bob OTP QUANTUM Edge SERVER logging in.

In the log-in state, the Alice OTP QUANTUM Edge SERVER inside the Alice PNI QUANTUM SERVER transmits an emergency disaster message to the Bob OTP QUANTUM Edge SERVER inside the Bob PNI QUANTUM SERVER connected to the network.

Bob OTP QUANTUM Edge SERVER converts the received emergency text to TTS and displays it through a broadcasting device or emergency text message through signage.

In addition, Bob OTP QUANTUM Edge SERVER transmits emergency disaster text messages to Eve OTP QUANTUM Edge SERVER inside Eve PNI QUANTUM SERVER connected to unlicensed frequency wireless network.

Eve OTP QUANTUM Edge SERVER receives emergency text messages and displays them through signage or broadcasts them through TTS.

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER.

Bob QRN, the quantum random number generated by Bob QRNG inside the Bob TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER, where Alice/Bob QRN quantum random numbers are mutually exchanged and then decrypted with the OTP PRIVATE KEY.

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed obtained by exchanging each other, and communicates encryption/decryption data with the Atypical PRIVATE KEY through the network. .

The Eve TLS Edge SERVER inside the Eve PNI QUANTUM SERVER receives video data taken from the surveillance camera and transmits it to the Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER connected to the unlicensed frequency wireless network.

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER is a PUF (eFUSE)-QRNG quantum security FIDO authentication system characterized in that it transmits the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER.

As an example,

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER, Bob PNI QUANTUM SERVER, and Eve PNI QUANTUM SERVER.

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob OTP QUANTUM Edge SERVER inside Bob PNI QUANTUM SERVER and Eve OTP QUANTUM Edge SERVER inside Eve PNI QUANTUM SERVER Alice PRNG, Bob PRNG and Eve PRNG generate the same pseudorandom number PRNG that generates the same OTP PRIVATE KEY with the same OTP pseudo-random number as the seed.

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network This is Alice/Bob OTP QUANTUM Edge SERVER logging in.

Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual network Bob/Eve OTP QUANTUM Edge SERVER to log in.

In the Alice/Bob/Eve login state, the Alice OTP QUANTUM Edge SERVER inside the Alice PNI QUANTUM SERVER transmits an emergency disaster message to the Bob OTP QUANTUM Edge SERVER inside the Bob PNI QUANTUM SERVER connected to the network.

Bob OTP QUANTUM Edge SERVER converts the received emergency text message into TTS, broadcasts through broadcasting device or expresses emergency text message through signage and transmits to Eve PNI QUANTUM SERVER internal Eve OTP QUANTUM Edge SERVER connected to unlicensed frequency wireless network and Eve OTP QUANTUM Edge SERVER receives emergency disaster text messages and displays them through signage or broadcasts them through TTS.

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Alice/Bob Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER.

Bob QRN, the quantum random number generated by Bob QRNG inside the Bob TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER, where the Alice/Bob QRN quantum random numbers are mutually exchanged and then decrypted with the OTP PRIVATE KEY.

The Alice/Bob TLS Edge SERVER generates the same Alice/Bob Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed acquired by exchanging each other, and converts it to Alice/Bob Atypical PRIVATE KEY through the network. Encryption/decryption data communication.

Bob/Eve TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Bob/Eve Atypical PRIVATE KEY and transmits it to Eve TLS Edge SERVER.

Eve QRN, the quantum random number generated by Eve QRNG inside Eve TLS Edge SERVER, is encrypted with OTP PRIVATE KEY and transmitted to Bob TLS Edge SERVER, and Bob/Eve QRN quantum random numbers are exchanged and decrypted with OTP PRIVATE KEY.

The Bob/Eve TLS Edge SERVER generates Bob/Eve Atypical PRIVATE KEY identical to each other by using the same key generation program with Bob QRN quantum random number and Eve QRN quantum random number seed obtained by exchanging each other, and converts it into Bob/Eve Atypical PRIVATE KEY through the network. Encryption/decryption data communication.

Eve TLS Edge SERVER inside Eve PNI QUANTUM SERVER receives video data taken from surveillance cameras, encrypts it with Bob/Eve Atypical PRIVATE KEY, and transmits it to Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER connected to unlicensed frequency wireless network.

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER decrypts the video data encrypted with the received Bob/Eve Atypical PRIVATE KEY, then encrypts the video data with the Alice/Bob Atypical PRIVATE KEY and transmits it to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER do.

Alice TLS Edge SERVER is a PUF (eFUSE)-QRNG quantum security FIDO authentication system characterized by decoding Alice / Bob Atypical PRIVATE KEY encrypted image data.

As an example,

Alice PNI QUANTUM SERVER Internal Alice TLS Edge SERVER and Bob PNI QUANTUM SERVER Internal Bob TLS Edge SERVER is connected through wireless communication service provider network, and Alice TLS Edge SERVER and Bob TLS Edge SERVER are connected through PIN DATA of PUF Chip inside PUF SoC After mutual authentication, Alice QRNG and Bob QRNG exchange different quantum random numbers, combine different quantum random numbers, generate the same Alice/Bob Atypical PRIVATE KEY by the same key generation program with the same seed, and generate large amounts of data through their own network. It is a PUF (eFUSE)-QRNG quantum security FIDO authentication system characterized by high-speed encryption / decryption through Alice / Bob Atypical PRIVATE KEY.

For example, different quantum random numbers generated by Alice QRN (0011 1010) of Alice QRNG and Bob QRN (1101 0111) of Bob QRNG are exchanged.

Alice and Bob obtain an unpredictable random quantum random number Alice QRN (0011 1010) and Bob QRN (1101 0111) of Bob QRNG together.

By EX-ANDing different quantum random numbers (0011 1010) EX-AND (1101 0111) = (0001 0010), the same Alice/Bob Atypical PRIVATE KEY is generated by the same key generation program with the same random number Seed. .

Bob/Eve Atypical PRIVATE KEY is created between Bob and Eve in the same way as above.

As an example,

The Eve PNI QUANTUM SERVE of the terminal is connected to the signage, and through the signage, vehicle speeding information or parking violation information or illegal dumping information or smoking ban information or local government publicity broadcasting or real-time live news broadcasting or civil defense warning broadcasting or disaster broadcasting or It is characterized by expressing at least one of forest fire publicity broadcasting and water play publicity broadcasting.

As an example,

Eve PNI QUANTUM SERVER and signage are additionally configured as an integrated unit, and vehicle speeding information or parking violation information or illegal dumping information or smoking ban information or local government publicity broadcasting or real-time live news broadcasting or civil defense warning broadcasting or disaster disaster through signage It is characterized by expressing any one or more of warning broadcasting, forest fire publicity broadcasting, water play publicity broadcasting, or corona publicity broadcasting.

As an example,

The Eve PNI QUANTUM SERVE of the terminal is connected to a multi-function camera, and the multi-function camera is a speed enforcement and license plate recognition camera and transmits speed enforcement and license plate data to either Bob PNI QUANTUM SERVE or Alice PNI QUANTUM SERVE. Characterized in that.

In addition, the Eve PNI QUANTUM SERVE on the terminal is connected to a multi-function camera, and the multi-function camera recognizes a human object as an object recognition camera and broadcasts text stored in TTS, such as publicity broadcasting wearing a mask, when recognizing a person without a mask. characterized by

In addition, the Eve PNI QUANTUM SERVE of the terminal is connected to a multi-function camera, and when the multi-function camera recognizes a human object with an object recognition camera, it broadcasts text stored in TTS, such as garbage dumping prevention or forest fire publicity broadcasting.

In addition, PUF is replaced by eFUSE, which is replaced by an ID by extracting PIN data through eFUSE, which extracts the disconnection signal of the hardware pin inside the semiconductor chip generated during the manufacturing process of SOC (System On Chip). to be

As an example,

Alice QUANTUM SERVER and Bob QUANTUM SERVER form a quantum communication channel through the quantum entanglement QUANTUM KEY exchange between Alice QKD and Bob QKD, and the multi-use facility linked server and terminal installed inside the civil defense alarm control center or disaster situation room are quantum devices with QRNG SoC applied A network construction step for constructing a hybrid quantum communication channel network forming an encryption key communication channel.

The multi-use facility connection server transmits alarm data to the multi-use facility alarm terminal connected to its own network, and the multi-use facility connection server transmits alarm data to the Alice PNI QUANTUM SERVER connected to the LAN network, and the Alice PNI QUANTUM SERVER transmits the above alarm Data transmission step of transmitting data to the Bob PNI QUANTUM SERVER connected to the hybrid quantum communication channel network.

Bob PNI QUANTUM SERVER transmits the received alarm data to Alice PNI QUANTUM SERVER by displaying the received alarm data on electronic signboard through terminals composed of broadcasting device, electronic display board, speed enforcement camera, and security camera, and receiving image data taken from broadcasting and security camera through broadcasting device. Terminal part data processing step to be transmitted.

PNI QUANTUM SERVER consists of OTP QUANTUM Edge SERVER and TLS Edge SERVER, and features a physical network separation server in which data is transmitted in only one direction from OTP QUANTUM Edge SERVER to TLS Edge SERVER. A booting stage that is booted through user biometric fingerprint authentication through Key USB.

OTP QUANTUM Edge SERVER consists of PRNG SoC including PRNG program and QRNG SoC including QRNG Chip, and TLS Edge SERVER includes PUF SoC including PUF Chip or eFUSE Chip and QRNG SoC including QRNG Chip It is composed of a PUF SoC that generates a PRIVATE KEY using the PIN DATA of the PUF Chip or eFUSE Chip inside the TLS Edge SERVER as a seed, and a key generation step of generating a key with the QRNG SoC that generates a PUBLIC KEY using the quantum random number of the QRNG Chip as a seed.

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected by a hybrid quantum communication channel network. Alice PRNG and Bob PRNG are PRNGs that generate the same pseudo-random number, and OTP PRIVATE KEY generation step that generates the same OTP PRIVATE KEY with the same OTP pseudo-random number as the seed.

Alice QRNG SoC and Bob QRNG SoC generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual Encryption/decryption data communication step with Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER OTP PRIVATE KEY that communicates encryption/decryption data with OTP PRIVATE KEY through wired private network after network login.

Alice/Bob TLS Edge SERVER encrypts the random number generated by Alice QRNG with OTP PRIVATE KEY and transmits it through wireless communication network and Bob TLS OTP PRIVATE KEY that encrypts the Bob QRNG-generated random number generated by the Edge SERVER’s internal Bob QRNG SoC with OTP PRIVATE KEY and transmits it through wireless communication network, exchanges Alice/Bob QRNG-generated random number, and decrypts it with OTP PRIVATE KEY decryption step.

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRNG-generated random numbers and Bob QRNG-generated random number seeds acquired by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through wired private network Encryption/decryption data communication step with Atypical PRIVATE KEY.

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives an emergency disaster message and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network.

Eve TLS Edge SERVER receives video data and vehicle speed data from speed cameras and transmits them to Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER connected to unlicensed frequency wireless network, and Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER transmits the received video Data is transmitted to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER, and the Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received vehicle speed data to the Bob OTP QUANTUM Edge SERVER to Eve OTP QUANTUM Edge connected to the unlicensed frequency wireless network When transmitted to SERVER, Eve OTP QUANTUM Edge SERVER is a PUF (eFUSE)-QRNG quantum security FIDO authentication broadcasting method using an internal network of security surveillance cameras, characterized in that it expresses vehicle speed through a connected display board.

As an example,

Data is transmitted in both directions between OTP QUANTUM Edge SERVER and TLS Edge SERVER inside Alice/Bob,

Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER are connected to a first virtual network, and Alice TLS Edge SERVER and Bob TLS Edge SERVER are physical network separation servers connected to a second virtual network.

As an example,

Alice OTP QUANTUM Edge SERVER, Bob OTP QUANTUM Edge SERVER, and Eve OTP QUANTUM Edge SERVER's Alice PRNG, Bob PRNG, and Eve PRNG are PRNGs that generate the same pseudo-random number, and generate the same OTP PRIVATE KEY with the same OTP pseudo-random number as the seed.

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network log in

Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network log in

In the log-in state, Alice OTP QUANTUM Edge SERVER transmits an emergency disaster text message to the Bob OTP QUANTUM Edge SERVER connected to the network, and Bob OTP QUANTUM Edge SERVER converts the received emergency text message into TTS and broadcasts or emergency disaster through a broadcasting device Text is expressed through signage, Bob OTP QUANTUM Edge SERVER transmits to Eve OTP QUANTUM Edge SERVER connected to unlicensed frequency wireless network, and Eve OTP QUANTUM Edge SERVER receives emergency disaster text and displays or TTS through signage broadcast through

Bob/Eve TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Eve TLS Edge SERVER, Eve TLS Edge Eve QRN, the quantum random number generated by Eve QRNG inside the SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Bob TLS Edge SERVER, and the Bob/Eve QRN quantum random numbers are mutually exchanged and then decrypted with the OTP PRIVATE KEY.

The Bob/Eve TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Bob QRN quantum random number and Eve QRN quantum random number seed obtained by exchanging each other, and communicates encryption/decryption data with the Atypical PRIVATE KEY through the network. .

Eve TLS Edge SERVER receives the video data taken from the surveillance camera and transmits it to Bob TLS Edge SERVER connected to the unlicensed frequency wireless network, and Bob TLS Edge SERVER transmits the received video data to Bob OTP QUANTUM Edge SERVER, Bob OTP QUANTUM Edge SERVER is a PUF (eFUSE)-QRNG quantum security FIDO authentication broadcasting method using an internal network of security surveillance cameras, characterized by transmitting to Alice OTP QUANTUM Edge SERVER.

As an example,

Alice QUANTUM SERVER and Bob QUANTUM SERVER form a quantum communication channel through the quantum entanglement QUANTUM KEY exchange between Alice QKD and Bob QKD, and the multi-use facility linked server and terminal installed inside the civil defense alarm control center or disaster situation room are quantum devices with QRNG SoC applied It consists of a hybrid quantum communication channel network that forms a cryptographic key communication channel.

The multi-use facility connection server transmits alarm data to the multi-use facility alarm terminal connected to its own network.

Multi-use facility connection server transmits alarm data to Alice PNI QUANTUM SERVER connected through LAN network.

Alice PNI QUANTUM SERVER transmits the alarm data to Bob PNI QUANTUM SERVER connected to hybrid quantum communication channel network.

Bob PNI QUANTUM SERVER transmits the received alarm data to Alice PNI QUANTUM SERVER by displaying the received alarm data on electronic signboard through terminals composed of broadcasting device, electronic display board, speed enforcement camera, and security camera, and receiving image data taken from broadcasting and security camera through broadcasting device. send.

PNI QUANTUM SERVER consists of OTP QUANTUM Edge SERVER and TLS Edge SERVER, and features a physical network separation server in which data is transmitted in only one direction from OTP QUANTUM Edge SERVER to TLS Edge SERVER. It is booted through user biometric fingerprint authentication through Key USB.

OTP QUANTUM Edge SERVER consists of PRNG SoC including PRNG program and QRNG SoC including QRNG Chip.

TLS Edge SERVER is composed of PUF SoC including PUF Chip or eFUSE Chip and QRNG SoC including QRNG Chip, PUF SoC that generates PRIVATE KEY with PIN DATA of PUF Chip or eFUSE Chip inside TLS Edge SERVER as seed , and it is a QRNG SoC that generates a PUBLIC KEY using the quantum random number of the QRNG Chip as a seed.

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected by a hybrid quantum communication channel network. Alice PRNG and Bob PRNG are PRNGs that generate the same pseudorandom number, and generate the same OTP PRIVATE KEY with the same OTP pseudorandom number as a seed, and Alice QRNG SoC and Bob QRNG SoC use different quantum random numbers as seeds, Alice PUBLIC KEY and Bob PUBLIC After generating and exchanging keys, encrypt the OTP PRIVATE KEY with the other PUBLIC KEY and retransmit it. If it is decrypted and the same OTP PRIVATE KEY, Alice OTP that communicates encryption/decryption data with the OTP PRIVATE KEY through the wired private network after logging in to the mutual network QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER.

Alice/Bob TLS Edge SERVER encrypts Alice QRNG-generated random number generated by Alice QRNG SoC inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it through wireless communication network, Bob Bob QRNG random numbers generated by Bob QRNG SoC inside TLS Edge SERVER are encrypted with OTP PRIVATE KEY and transmitted through wireless communication network, Alice/Bob QRNG generated random numbers are mutually exchanged, and then decrypted with OTP PRIVATE KEY.

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRNG-generated random numbers and Bob QRNG-generated random number seeds acquired by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through wired private network do.

The Bob PNI QUANTUM Edge SERVER inside the Bob PNI QUANTUM SERVER receives the emergency disaster text message and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network, which displays it through the connected electronic signboard.

Eve TLS Edge SERVER receives video data and vehicle speed data from speed cameras and transmits them to Bob PNI QUANTUM SERVER internal Bob TLS Edge SERVER connected to unlicensed frequency wireless network.

Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER transmits the received video data to Alice TLS Edge SERVER inside Alice PNI QUANTUM SERVER.

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received vehicle speed data to the Bob OTP QUANTUM Edge SERVER and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network. It is a quantum security terminal with improved emergency disaster text broadcasting performance characterized in that it expresses vehicle speed.

In the same way as the key generation and network login process between Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected through wired network, Bob PNI QUANTUM SERVER and Eve PNI QUANTUM SERVER connected through unlicensed frequency wireless network also generate key and network in the same way. It has a network login process.

It is clearly described below through an embodiment.

The main components of the present invention are classified as follows, and each independent claim includes an independent element, and the dependent claim is constituted alone when combined with the independent claim.

1. A configuration that includes a quantum communication network.

2. A hybrid quantum cryptographic communication network that does not include a quantum communication network, but applies a quantum random number generator QRNG (Quantum Random Number Generator) SoC.

3. PUF (Physically Unclonable Function) Chip applied TLS (Transport Layer Security) inside the PUF SoC.

4. Transport Layer Security (TLS) with eFUSE SoC.

5. Fast IDentity Online (FIDO).

6. Generate alert data in multi-use facility connection server.

7. Create alarm data in Alice QUANTUM SERVER.

As an example,

The Alice QUANTUM SERVER inside the Korea Aerospace Operations Headquarters (KAOC) and the Bob QUANTUM SERVER inside the Civil Defense Alarm Control Center form a quantum communication channel through the quantum entanglement QUANTUM KEY exchange between Alice QKD and Bob QKD, and the Civil Defense Alarm Control Center and the broadcasting device The terminal unit composed of a security surveillance camera that includes a hybrid quantum communication network that forms a hybrid quantum communication channel to which QRNG SoC is applied is characterized,

The alarm data received from the multi-use facility connection server linked to the civil defense control system of the civil defense alarm control center is transmitted to Alice PNI QUANTUM SERVER;

Alice PNI QUANTUM SERVER transmits the alarm data to Bob PNI QUANTUM SERVER connected to hybrid quantum communication channel network;

Bob PNI QUANTUM SERVER transmits the received alarm data to Alice PNI QUANTUM SERVER by broadcasting and receiving video data from surveillance cameras through terminal broadcasting devices;

Alice PNI QUANTUM SERVER is a broadcasting system using a CCTV surveillance camera for crime prevention that receives video data and transmits it to the VMS SERVER.

PNI QUANTUM SERVER consists of OTP QUANTUM Edge SERVER and TLS Edge SERVER, and features a physical network separation server in which data is transmitted in only one direction from OTP QUANTUM Edge SERVER to TLS Edge SERVER.

The OTP QUANTUM Edge SERVER is composed of a PRNG SoC including a PRNG program and a QRNG SoC including a QRNG Chip;

TLS Edge SERVER is composed of a PUF SoC composed of PUF Chip and MCU, Boot ROM and Security CPU, and QRNG SoC including QRNG Chip;

The MCU inside the PUF SoC controls boot ROM through program integrity verification during booting, and controls hash signature and verification functions, symmetric key encryption/decryption functions, and user authentication functions through control of the security CPU;

QRNG SoC generates a PUBLIC KEY with an unpredictable random quantum random number as a seed through the QRNG Chip inside;

Trust Key USB features Trust Key USB including FIDO2 SoC, MCU, eFUSE Chip, Bio Chip, TRNG Chip,

When the Trust Key USB is coupled to the I/O port of the PNI QUANTUM SERVER, the ECC verification of the 1st step SHA256 HMAC and the 2nd step HMAC is performed under the control of the MCU inside, and boot control of Boot ROM and eFUSE Chip are performed through program integrity verification. Device unique key storage, hash signature and verification function, symmetric key encryption/decryption function, Bio Chip that scans biometric information, and key generation TRNG Chip that generates unpredictable random natural random numbers to boot the O/S through user authentication and;

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER installed inside the civil defense alarm control center and Bob PNI QUANTUM SERVER connected to the terminal,

Alice OTP QUANTUM Edge SERVER and Bob inside Alice PNI QUANTUM SERVER Bob inside OTP QUANTUM Edge SERVER Alice PRNG and Bob PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudo-random number. Same OTP PRIVATE KEY as seed. generate; and

Alice QRNG SoC and Bob QRNG SoC generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual Alice/Bob OTP QUANTUM Edge SERVER logging into the network;

Alice/Bob TLS Edge SERVER exchanges quantum random numbers for generating the same Atypical PRIVATE KEY through an external network. After mutual authentication as a mutually approved user by exchanging PUF Chip PIN DATA through a wireless communication provider network, Alice Alice QRNG generated random number generated by Alice QRNG SoC inside TLS Edge SERVER is encrypted with the same OTP PRIVATE KEY in which Alice/Bob OTP QUANTUM Edge SERVER generated the same pseudorandom number as seed, encrypting Alice QRNG generated random number through wireless communication provider network transmit; and

The Bob QRNG generated random number generated by the Bob QRNG SoC inside the Bob TLS Edge SERVER is encrypted with the same OTP PRIVATE KEY generated by the same pseudorandom number generated by Alice/Bob OTP QUANTUM Edge SERVER as a seed, and the wireless communication operator Transmits through the network to mutually exchange Alice/Bob QRNG generated random numbers;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRNG-generated random numbers and Bob QRNG-generated random number seeds obtained by exchanging each other, and transmits large amounts of data through its own network at high speed through Atypical PRIVATE KEY. Encrypt / decrypt with;

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob OTP QUANTUM Edge SERVER inside Bob PNI QUANTUM SERVER are connected to their own network;

Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER's Alice PRNG and Bob PRNG are PRNGs that generate the same pseudo-random number, and generate OTP PRIVATE KEY with the same OTP pseudo-random number as a seed. data communication;

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives emergency disaster text messages and transmits them to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network.

Eve TLS Edge SERVER receives video data and vehicle speed data from speed cameras and transmits them to Bob PNI QUANTUM SERVER internal Bob TLS Edge SERVER connected to unlicensed frequency wireless network;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received vehicle speed data to the Bob OTP QUANTUM Edge SERVER and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network. Characterized in expressing the vehicle speed.

As an example,

Alice QUANTUM SERVER and Bob QUANTUM SERVER form a quantum communication channel through the quantum entanglement QUANTUM KEY exchange between Alice QKD and Bob QKD, and the multi-use facility linked server and terminal installed inside the civil defense alarm control center or disaster situation room are quantum devices with QRNG SoC applied It is composed of a hybrid quantum communication channel network forming a cryptographic key communication channel;

The multi-use facility connection server transmits alarm data to the multi-use facility alarm terminal connected to its own network;

The multi-use facility connection server transmits alarm data to the Alice PNI QUANTUM SERVER connected to the LAN network;

Alice PNI QUANTUM SERVER transmits the alarm data to Bob PNI QUANTUM SERVER connected to hybrid quantum communication channel network;

Bob PNI QUANTUM SERVER transmits the received alarm data to Alice PNI QUANTUM SERVER by displaying the received alarm data on electronic signboard through terminals composed of broadcasting device, electronic display board, speed enforcement camera, and security camera, and receiving image data taken from broadcasting and security camera through broadcasting device. send;

PNI QUANTUM SERVER consists of OTP QUANTUM Edge SERVER and TLS Edge SERVER, and features a physical network separation server in which data is transmitted in only one direction from OTP QUANTUM Edge SERVER to TLS Edge SERVER.

PNI QUANTUM SERVER is booted through user biometric fingerprint authentication through Trust Key USB containing FIDO2 SoC;

The OTP QUANTUM Edge SERVER is composed of a PRNG SoC including a PRNG program and a QRNG SoC including a QRNG Chip;

TLS Edge SERVER is composed of PUF SoC including PUF Chip and QRNG SoC including QRNG Chip,

The PUF Chip inside the TLS Edge SERVER is a PUF SoC that generates a PRIVATE KEY with PIN DATA as a seed, and the QRNG Chip is a QRNG SoC that generates a PUBLIC KEY with a quantum random number as a seed;

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected by hybrid quantum communication channel network,

Alice OTP QUANTUM Edge SERVER and Bob inside Alice PNI QUANTUM SERVER Bob inside OTP QUANTUM Edge SERVER Alice PRNG and Bob PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudo-random number. Same OTP PRIVATE KEY as seed. generate; and

Alice QRNG SoC and Bob QRNG SoC generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER that communicate encryption/decryption data with OTP PRIVATE KEY through the wired private network after logging in to the network;

The Alice/Bob TLS Edge SERVER encrypts the Alice QRNG-generated random number generated by the Alice QRNG SoC inside the Alice TLS Edge SERVER with the OTP PRIVATE KEY and transmits it over the wireless communication network to generate the same Atypical PRIVATE KEY; and

Bob QRNG random numbers generated by the Bob QRNG SoC inside the Bob TLS Edge SERVER are encrypted with the OTP PRIVATE KEY and transmitted over the wireless communication network to exchange Alice/Bob QRNG random numbers and decrypt with the OTP PRIVATE KEY;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRNG-generated random numbers and Bob QRNG-generated random number seeds acquired by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through wired private network and;

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives emergency disaster text messages and transmits them to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network.

Eve TLS Edge SERVER receives video data and vehicle speed data from speed cameras and transmits them to Bob PNI QUANTUM SERVER internal Bob TLS Edge SERVER connected to unlicensed frequency wireless network;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received vehicle speed data to the Bob OTP QUANTUM Edge SERVER and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network. Characterized in expressing the vehicle speed.

As an example,

Alice QUANTUM SERVER and Bob QUANTUM SERVER form a quantum communication channel through the quantum entanglement QUANTUM KEY exchange between Alice QKD and Bob QKD, and the multi-use facility linked server and terminal installed inside the civil defense alarm control center or disaster situation room are quantum devices with QRNG SoC applied It is composed of a hybrid quantum communication channel network forming a cryptographic key communication channel;

The multi-use facility connection server transmits alarm broadcasting data to the multi-use facility alarm terminal connected to its own network;

Multi-use facility connection server transmits alarm broadcasting data and emergency disaster text data to Alice PNI QUANTUM SERVER connected through LAN network;

Alice PNI QUANTUM SERVER transmits the alarm broadcasting data and emergency text data to Bob PNI QUANTUM SERVER connected through a hybrid quantum communication channel network;

Bob PNI QUANTUM SERVER broadcasts received alarm broadcasting data through broadcasting device and expresses emergency text data through signage, receives video data taken from Bob security camera, and transmits it to Alice PNI QUANTUM SERVER;

Inside Alice PNI QUANTUM SERVER’s Alice OTP QUANTUM Edge SERVER Alice PRNG SoC and Bob PNI QUANTUM SERVER’s Bob OTP QUANTUM Edge SERVER’s inside Bob PRNG SoC are PRNG SoCs that generate the same pseudorandom number, same OTP pseudorandom number as seed, same OTP PRIVATE KEY generate;

Alice QRNG SoC and Bob QRNG SoC generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual Alice/Bob OTP QUANTUM Edge SERVER logging into the network;

The Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by the Alice QRNG SoC inside the Alice TLS Edge SERVER with the OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to the Bob TLS Edge SERVER; And

The quantum random number Bob QRN generated by the Bob QRNG SoC inside the Bob TLS Edge SERVER is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER, and the Alice/Bob QRN quantum random numbers are mutually exchanged and then decrypted with the OTP PRIVATE KEY;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed acquired by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through its own network. ;

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives emergency disaster text messages and transmits them to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network.

Eve TLS Edge SERVER receives Eve video data captured by Eve security camera and transmits it to Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER connected to unlicensed frequency wireless network;

Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER is characterized by transmitting the received Eve video data to Alice TLS Edge SERVER inside Alice PNI QUANTUM SERVER.

As an example,

The multi-use facility connection server transmits alarm broadcasting data to the multi-use facility alarm terminal and Alice PNI QUANTUM SERVER connected through its own network;

Alice PNI QUANTUM SERVER receives alarm broadcasting data from multi-use facility connection server, and receives emergency disaster text data from disaster situation room QUANTUM SERVER;

Alice PNI QUANTUM SERVER transmits the alert broadcasting data and emergency text data to Bob PNI QUANTUM SERVER connected to its own network;

Bob PNI QUANTUM SERVER broadcasts the received alarm broadcasting data through a broadcasting device and displays emergency text data through signage or broadcasts through TTS, receives video data taken from a security camera, and transmits it to Alice PNI QUANTUM SERVER and;

Alice OTP QUANTUM Edge SERVER and Bob inside Alice PNI QUANTUM SERVER Bob inside OTP QUANTUM Edge SERVER Alice PRNG and Bob PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudo-random number. Same OTP PRIVATE KEY as seed. generate;

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network Alice/Bob OTP QUANTUM Edge SERVER logging in;

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER;

Bob QRN, the quantum random number generated by Bob QRNG inside the Bob TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER to exchange the Alice/Bob QRN quantum random numbers and decrypt with the OTP PRIVATE KEY;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed acquired by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through its own network. ;

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives the emergency disaster text message and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency private network. broadcast through

Eve TLS Edge SERVER receives the video data taken from the surveillance camera and transmits it to the Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER connected to the unlicensed frequency private network;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER.

As an example,

Alice PNI QUANTUM SERVER including the emergency bell receiver transmits the emergency text message received from the emergency situation room QUANTUM SERVER to Bob PNI QUANTUM SERVER connected to the network;

Bob PNI QUANTUM SERVER, which includes a wired emergency bell, converts the received emergency text to TTS and broadcasts through a broadcasting device or displays emergency text through signage, and when the wired emergency bell is operated, the Alice PNI QUANTUM SERVER internal emergency bell receiver and open currency routes;

Alice OTP QUANTUM Edge SERVER and Bob inside Alice PNI QUANTUM SERVER Bob inside OTP QUANTUM Edge SERVER Alice PRNG and Bob PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudo-random number. Same OTP PRIVATE KEY as seed. generate;

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network Alice/Bob OTP QUANTUM Edge SERVER logging in;

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER;

Bob QRN, the quantum random number generated by Bob QRNG inside the Bob TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER to exchange the Alice/Bob QRN quantum random numbers and decrypt with the OTP PRIVATE KEY;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed obtained by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through the network. ;

Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives emergency disaster text messages and transmits them to Eve OTP QUANTUM Edge SERVER connected to unlicensed frequency network, Eve OTP QUANTUM Edge SERVER displays emergency disaster text messages through signage or TTS broadcast through

Wireless emergency bell Eve TLS Edge SERVER receives video data and wireless emergency bell data captured from surveillance cameras and transmits them to Bob PNI QUANTUM SERVER internal Bob TLS Edge SERVER connected to unlicensed frequency wireless network;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER.

The emergency bell receiver is characterized in that a smart emergency bell (wired/wireless emergency bell including a broadcasting device) and an emergency bell operation event or voice call or video/voice call are possible.

As an example,

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected through wired network and Bob PNI QUANTUM SERVER and Eve PNI QUANTUM SERVER connected through unlicensed frequency wireless network,

Alice OTP QUANTUM Edge SERVER and Bob inside Alice PNI QUANTUM SERVER Alice PRNG and Bob PRNG of Bob OTP QUANTUM Edge SERVER inside PNI QUANTUM SERVER are PRNGs that generate the same pseudo-random number, and the same OTP PRIVATE KEY is used as the seed. generate;

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual network Alice/Bob OTP QUANTUM Edge SERVER logging in;

In the log-in state, the Alice OTP QUANTUM Edge SERVER inside the Alice PNI QUANTUM SERVER transmits an emergency disaster text message to the Bob OTP QUANTUM Edge SERVER inside the Bob PNI QUANTUM SERVER connected to the network;

Bob OTP QUANTUM Edge SERVER converts the received emergency text message into TTS, broadcasts through broadcasting device or expresses emergency text message through signage and transmits to Eve PNI QUANTUM SERVER internal Eve OTP QUANTUM Edge SERVER connected to unlicensed frequency wireless network and;

Eve OTP QUANTUM Edge SERVER receives emergency text messages and displays them through signage or broadcasts them through TTS;

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER;

Bob QRN, the quantum random number generated by Bob QRNG inside the Bob TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER to exchange the Alice/Bob QRN quantum random numbers and decrypt with the OTP PRIVATE KEY;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed obtained by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through the network. ;

The Eve TLS Edge SERVER inside the Eve PNI QUANTUM SERVER receives the video data taken from the surveillance camera and transmits it to the Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER connected to the unlicensed frequency wireless network;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER.

As an example,

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER, Bob PNI QUANTUM SERVER, Eve PNI QUANTUM SERVER,

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob OTP QUANTUM Edge SERVER inside Bob PNI QUANTUM SERVER and Eve OTP QUANTUM Edge SERVER inside Eve PNI QUANTUM SERVER Alice PRNG, Bob PRNG and Eve PRNG generate the same pseudorandom number generate the same OTP PRIVATE KEY with the same OTP pseudo-random number as a seed with the PRNG;

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network Alice/Bob OTP QUANTUM Edge SERVER logging in;

Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual network Bob/Eve OTP QUANTUM Edge SERVER logging in;

In the log-in state, the Alice OTP QUANTUM Edge SERVER inside the Alice PNI QUANTUM SERVER transmits an emergency disaster text message to the Bob OTP QUANTUM Edge SERVER inside the Bob PNI QUANTUM SERVER connected to the network;

Bob OTP QUANTUM Edge SERVER converts the received emergency text message into TTS, broadcasts through broadcasting device or expresses emergency text message through signage and transmits to Eve PNI QUANTUM SERVER internal Eve OTP QUANTUM Edge SERVER connected to unlicensed frequency wireless network and Eve OTP QUANTUM Edge SERVER receives emergency text messages and broadcasts them through signage or through TTS;

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER;

Bob QRN, the quantum random number generated by Bob QRNG inside the Bob TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER to exchange the Alice/Bob QRN quantum random numbers and decrypt with the OTP PRIVATE KEY;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed obtained by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through the network. ;and

Bob/Eve TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Eve TLS Edge SERVER;

Eve QRN, the quantum random number generated by Eve QRNG inside the Eve TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Bob TLS Edge SERVER, and the Bob/Eve QRN quantum random numbers are mutually exchanged and then decrypted with the OTP PRIVATE KEY;

Bob/Eve TLS Edge SERVER generates the same Atypical PRIVATE KEY with Bob QRN quantum random number and Eve QRN quantum random number seed obtained by exchanging them with the same key generation program, and communicates encryption/decryption data with Atypical PRIVATE KEY through the network. ;

The Eve TLS Edge SERVER inside the Eve PNI QUANTUM SERVER receives the video data taken from the surveillance camera and transmits it to the Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER connected to the unlicensed frequency wireless network;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER.

As an example,

Alice OTP QUANTUM Edge SERVER, Bob OTP QUANTUM Edge SERVER, and Eve OTP QUANTUM Edge SERVER's Alice PRNG, Bob PRNG, and Eve PRNG are PRNGs that generate the same pseudorandom number, and generate the same OTP PRIVATE KEY with the same OTP pseudorandom number as the seed;

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network Alice/Bob OTP QUANTUM Edge SERVER logging in;

Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual network Bob/Eve OTP QUANTUM Edge SERVER logging in;

In the log-in state, Alice OTP QUANTUM Edge SERVER transmits an emergency disaster message to Bob OTP QUANTUM Edge SERVER connected to the network;

Bob OTP QUANTUM Edge SERVER converts the received emergency text to TTS and displays it through a broadcasting device or an emergency text message through signage;

The Bob OTP QUANTUM Edge SERVER transmits to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network, and the Eve OTP QUANTUM Edge SERVER receives the emergency disaster text message and displays it through signage or broadcasts it through TTS;

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Alice/Bob Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER;

The quantum random number Bob QRN generated by Bob QRNG inside the Bob TLS Edge SERVER is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER, and the Alice/Bob QRN quantum random numbers are mutually exchanged and then decrypted with the OTP PRIVATE KEY;

The Alice/Bob TLS Edge SERVER generates the same Alice/Bob Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRNG quantum random number seed acquired by exchanging each other, and converts them into Alice/Bob Atypical PRIVATE KEY through the network. communicate encryption/decryption data;

Bob/Eve TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Bob/Eve Atypical PRIVATE KEY and transmits it to Eve TLS Edge SERVER;

Eve QRN, the quantum random number generated by Eve QRNG inside Eve TLS Edge SERVER, is encrypted with OTP PRIVATE KEY and transmitted to Bob TLS Edge SERVER, and Bob/Eve QRN quantum random numbers are mutually exchanged and then decrypted with OTP PRIVATE KEY;

The Bob/Eve TLS Edge SERVER generates Bob/Eve Atypical PRIVATE KEY identical to each other by using the same key generation program with Bob QRN quantum random number and Eve QRNG quantum random number seed obtained by exchanging each other, and converts it to Bob/Eve Atypical PRIVATE KEY through the network. communicate encryption/decryption data;

Eve TLS Edge SERVER receives video data taken from surveillance cameras and transmits it to Bob TLS Edge SERVER connected to unlicensed frequency wireless network;

Bob TLS Edge SERVER is characterized by transmitting the received video data to Alice TLS Edge SERVER.

As an example,

Alice QUANTUM SERVER and Bob QUANTUM SERVER form a quantum communication channel through the quantum entanglement QUANTUM KEY exchange between Alice QKD and Bob QKD, and the multi-use facility linked server and terminal installed inside the civil defense alarm control center or disaster situation room are quantum devices with QRNG SoC applied A network construction step of constructing a hybrid quantum communication channel network forming an encryption key communication channel;

The multi-use facility connection server transmits alarm data to the multi-use facility alarm terminal connected to its own network, and the multi-use facility connection server transmits alarm data to the Alice PNI QUANTUM SERVER connected to the LAN network, and the Alice PNI QUANTUM SERVER transmits the above alarm A data transmission step of transmitting data to a Bob PNI QUANTUM SERVER connected to a hybrid quantum communication channel network;

Bob PNI QUANTUM SERVER transmits the received alarm data to Alice PNI QUANTUM SERVER by displaying the received alarm data on electronic signboard through terminals composed of broadcasting device, electronic display board, speed enforcement camera, and security camera, and receiving image data taken from broadcasting and security camera through broadcasting device. Terminal part data processing step to be transmitted;

PNI QUANTUM SERVER consists of OTP QUANTUM Edge SERVER and TLS Edge SERVER, and features a physical network separation server in which data is transmitted in only one direction from OTP QUANTUM Edge SERVER to TLS Edge SERVER. Booting step of booting through user biometric fingerprint authentication through Key USB;

OTP QUANTUM Edge SERVER consists of PRNG SoC including PRNG program and QRNG SoC including QRNG Chip, and TLS Edge SERVER includes PUF SoC including PUF Chip or eFUSE Chip and QRNG SoC including QRNG Chip It is a PUF SoC that generates a PRIVATE KEY using PIN DATA of a PUF Chip or eFUSE Chip inside the TLS Edge SERVER as a seed, and a key generation step of generating a key with the QRNG SoC that generates a PUBLIC KEY using quantum random numbers of the QRNG Chip as a seed;

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected by a hybrid quantum communication channel network. Alice PRNG and Bob PRNG are PRNGs that generate the same pseudorandom number, and OTP PRIVATE KEY generation step of generating the same OTP PRIVATE KEY with the same OTP pseudorandom number as a seed;

Alice QRNG SoC and Bob QRNG SoC generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual Encryption/decryption data communication step with Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER OTP PRIVATE KEY to communicate encryption/decryption data with OTP PRIVATE KEY through wired private network after logging in to the network;

Alice/Bob TLS Edge SERVER encrypts the random number generated by Alice QRNG with OTP PRIVATE KEY and transmits it through wireless communication network and Bob TLS OTP PRIVATE KEY that encrypts the Bob QRNG-generated random number generated by the Edge SERVER’s internal Bob QRNG SoC with OTP PRIVATE KEY and transmits it through wireless communication network, exchanges Alice/Bob QRNG-generated random number, and decrypts it with OTP PRIVATE KEY decryption step;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRNG-generated random numbers and Bob QRNG-generated random number seeds acquired by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through wired private network Encryption/decryption data communication step with an Atypical PRIVATE KEY;

When Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives an emergency disaster message and transmits it to Eve OTP QUANTUM Edge SERVER connected to an unlicensed frequency wireless network, Eve OTP QUANTUM Edge SERVER expresses through the connected electronic signboard Expressing step;

Eve TLS Edge SERVER receives video data and vehicle speed data from speed cameras and transmits them to Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER connected to unlicensed frequency wireless network, and Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER transmits the received video Data is transmitted to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER, and the Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received vehicle speed data to the Bob OTP QUANTUM Edge SERVER to Eve OTP QUANTUM Edge connected to the unlicensed frequency wireless network When transmitted to the server, the Eve OTP QUANTUM Edge SERVER is characterized by expressing the vehicle speed through the connected electronic signboard.

As an example,

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected by own network,

Alice OTP QUANTUM Edge SERVER and Bob inside Alice PNI QUANTUM SERVER Bob inside OTP QUANTUM Edge SERVER Alice PRNG and Bob PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudo-random number. Same OTP PRIVATE KEY as seed. OTP PRIVATE KEY generating step of generating;

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network Alice/Bob OTP QUANTUM Edge SERVER login step to log in;

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and sends it to Bob TLS Edge SERVER, Bob TLS Edge The quantum random number Bob QRN generated by Bob QRNG inside the SERVER is encrypted with the OTP PRIVATE KEY and sent to the Alice TLS Edge SERVER, and after mutually exchanging the Alice/Bob QRN quantum random numbers, decrypts it with the OTP PRIVATE KEY, and Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY with the same key generation program using Alice QRN quantum random number and Bob QRN quantum random number seed acquired by exchanging each other, and communicates encryption/decryption data with the Atypical PRIVATE KEY through its own network Atypical PRIVATE KEY communication step ;

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives the emergency disaster text message and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency private network. A broadcasting step of broadcasting through;

Eve TLS Edge SERVER receives the video data taken from the surveillance camera and transmits it to the Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER connected to the unlicensed frequency private network, and the Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER sends the received video data to Alice It is characterized by transmission to the Alice TLS Edge SERVER inside the PNI QUANTUM SERVER.

As an example,

Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER and Eve OTP QUANTUM Edge SERVER's Alice PRNG, Bob PRNG and Eve PRNG are PRNGs that generate the same pseudo-random number, the same OTP as the pseudo-random number as the seed, the same OTP that generates the PRIVATE KEY PRIVATE KEY step;

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network Alice/Bob login step to log in;

Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual network Bob/Eve login step to log in;

Alice OTP QUANTUM Edge SERVER transmits emergency disaster text messages to Bob OTP QUANTUM Edge SERVER connected to the network, and Bob OTP QUANTUM Edge SERVER converts the received emergency text messages into TTS and broadcasts them through a broadcasting device or signs an emergency disaster text message. and Bob OTP QUANTUM Edge SERVER transmits to Eve OTP QUANTUM Edge SERVER connected to unlicensed frequency wireless network, Eve OTP QUANTUM Edge SERVER receives emergency disaster text and displays through signage or broadcasts through TTS step;

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and sends it to Bob TLS Edge SERVER, Bob TLS Edge The quantum random number Bob QRN generated by Bob QRNG inside the SERVER is encrypted with the OTP PRIVATE KEY and sent to the Alice TLS Edge SERVER, and after mutually exchanging the Alice/Bob QRN quantum random numbers, decrypts it with the OTP PRIVATE KEY, and Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY with the same key generation program using the Alice QRN quantum random number and Bob QRN quantum random number seed obtained by exchanging each other, and uses the Atypical PRIVATE KEY through the network to communicate encryption/decryption data. Alice/Bob Atypical PRIVATE KEY stage;

Bob/Eve TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Eve TLS Edge SERVER, Eve TLS Edge Eve QRN, the quantum random number generated by Eve QRNG inside the SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Bob TLS Edge SERVER. After mutually exchanging the Bob/Eve QRN quantum random numbers, it is decrypted with the OTP PRIVATE KEY, and the Bob/Eve TLS Edge Bob QRN quantum random number and Eve QRN quantum random number seed acquired by exchanging each other to create the same Atypical PRIVATE KEY with the same key generation program, and Bob/Eve Atypical PRIVATE that communicates encryption/decryption data with the Atypical PRIVATE KEY through the network KEY stage;

Eve TLS Edge SERVER receives video data taken from surveillance cameras and transmits it to Bob TLS Edge SERVER connected to unlicensed frequency wireless network, and Bob TLS Edge SERVER transmits the received video data to Alice TLS Edge SERVER. Broadcasting method using the internal network of security surveillance cameras.

As an example,

Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER and Eve OTP QUANTUM Edge SERVER's Alice PRNG, Bob PRNG and Eve PRNG are PRNGs that generate the same pseudo-random number, and generate the same OTP PRIVATE KEY with the same OTP pseudo-random number as the seed, Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network After logging in, Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY log in to the mutual network;

In the log-in state, when Alice OTP QUANTUM Edge SERVER transmits an emergency disaster text message to Bob OTP QUANTUM Edge SERVER connected to the network, Bob OTP QUANTUM Edge SERVER converts the received emergency text message into TTS and broadcasts it through a broadcasting device or emergency disaster Text is expressed through signage, and Bob OTP QUANTUM Edge SERVER transmits to Eve OTP QUANTUM Edge SERVER connected to unlicensed frequency (LoRA) first wireless network or unlicensed frequency (Wi-Fi) second wireless network, Eve OTP QUANTUM Edge SERVER receives emergency text messages and displays them through signage or broadcasts them through TTS;

Bob/Eve TLS Edge SERVER encrypts Bob QRN, a quantum random number generated by Bob QRNG inside Bob TLS Edge SERVER, with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY, and unlicensed frequency (LoRA) 1st wireless network Eve QRN, the quantum random number generated by Eve QRNG inside the Eve TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Bob TLS Edge SERVER through the first wireless network of the unlicensed frequency (LoRA). After the Bob/Eve QRN quantum random numbers are mutually exchanged, they are decrypted with the OTP PRIVATE KEY, and the Bob/Eve TLS Edge SERVER exchanges the obtained Bob QRN quantum random numbers and Eve QRN quantum random numbers seeds with the same Atypical Generates a PRIVATE KEY and communicates encryption/decryption data with an Atypical PRIVATE KEY through a second unlicensed frequency (Wi-Fi) wireless network;

Eve TLS Edge SERVER receives the video data taken from the surveillance camera and transmits it to Bob TLS Edge SERVER connected through the second unlicensed frequency (Wi-Fi) wireless network, and Bob TLS Edge SERVER sends the received video data to Bob OTP When transmitting to QUANTUM Edge SERVER, Bob OTP QUANTUM Edge SERVER transmits to Alice OTP QUANTUM Edge SERVER.

As an example,

PNI QUANTUM SERVER consists of OTP QUANTUM Edge SERVER and TLS Edge SERVER, and features a physical network separation server in which data is transmitted in one or both directions from OTP QUANTUM Edge SERVER to TLS Edge SERVER.

The OTP QUANTUM Edge SERVER is composed of a PRNG SoC including a PRNG program and a QRNG SoC including a QRNG Chip;

The TLS Edge SERVER is composed of a PUF SoC composed of either a PUF Chip or an eFUSE Chip, an MCU, a Boot ROM, and a Security CPU, and a QRNG SoC including a QRNG Chip;

The MCU inside the PUF SoC controls boot ROM through program integrity verification during booting, and controls hash signature and verification functions, symmetric key encryption/decryption functions, and user authentication functions through control of the security CPU;

QRNG SoC generates a PUBLIC KEY with an unpredictable random quantum random number as a seed through the QRNG Chip inside;

Trust Key USB features Trust Key USB including FIDO2 SoC, MCU, eFUSE Chip, Bio Chip, TRNG Chip,

When the Trust Key USB is coupled to the I/O port of the PNI QUANTUM SERVER, the ECC verification of the 1st step SHA256 HMAC and the 2nd step HMAC is performed under the control of the MCU inside, and boot control of Boot ROM and eFUSE Chip are performed through program integrity verification. Device unique key storage, hash signature and verification function, symmetric key encryption/decryption function, Bio Chip that scans biometric information, and key generation TRNG Chip that generates unpredictable random natural random numbers to boot the O/S through user authentication and;

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER installed inside the civil defense alarm control center and Bob PNI QUANTUM SERVER connected to the terminal,

Alice OTP QUANTUM Edge SERVER and Bob inside Alice PNI QUANTUM SERVER Bob inside OTP QUANTUM Edge SERVER Alice PRNG and Bob PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudo-random number. Same OTP PRIVATE KEY as seed. generate; and

Alice QRNG SoC and Bob QRNG SoC generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual Alice/Bob OTP QUANTUM Edge SERVER logging into the network;

Alice/Bob TLS Edge SERVER exchanges quantum random numbers for generating the same Atypical PRIVATE KEY through an external network, and exchanges PUF Chip or eFUSE Chip PIN DATA through a wireless communication provider network to mutually authenticate each other as authorized users. After authentication, the Alice QRNG generated random number generated by the Alice QRNG SoC inside the Alice TLS Edge SERVER is encrypted with the same OTP PRIVATE KEY in which the Alice/Bob OTP QUANTUM Edge SERVER generated the same pseudorandom number as a seed, and the wireless communication operator encrypts the random number generated by the Alice QRNG. transmit over a network; and

The Bob QRNG generated random number generated by the Bob QRNG SoC inside the Bob TLS Edge SERVER is encrypted with the same OTP PRIVATE KEY generated by the same pseudorandom number generated by Alice/Bob OTP QUANTUM Edge SERVER as a seed, and the wireless communication operator Transmits through the network to mutually exchange Alice/Bob QRNG generated random numbers;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRNG-generated random numbers and Bob QRNG-generated random number seeds obtained by exchanging each other, and transmits large amounts of data through its own network at high speed through Atypical PRIVATE KEY. Encrypt / decrypt with;

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob OTP QUANTUM Edge SERVER inside Bob PNI QUANTUM SERVER are connected to their own network;

Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER's Alice PRNG and Bob PRNG are PRNGs that generate the same pseudo-random number, and generate OTP PRIVATE KEY with the same OTP pseudo-random number as a seed. data communication;

Alice PNI QUANTUM SERVER Internal Alice TLS Edge SERVER and Bob PNI QUANTUM SERVER Internal Bob TLS Edge SERVER is connected through wireless communication service provider network, and Alice TLS Edge SERVER and Bob TLS Edge SERVER are PUF SoC internal PUF Chip or eFUSE Chip PIN After mutual authentication through DATA, Alice QRNG and Bob QRNG exchange different quantum random numbers and generate the same Atypical PRIVATE KEY by the same key generation program to encrypt/decrypt large amounts of data through the Atypical PRIVATE KEY at high speed through their own network and;

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives emergency disaster text messages and transmits them to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network.

Eve TLS Edge SERVER receives video data and vehicle speed data from speed cameras and transmits them to Bob PNI QUANTUM SERVER internal Bob TLS Edge SERVER connected to unlicensed frequency wireless network;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received vehicle speed data to the Bob OTP QUANTUM Edge SERVER and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network. Characterized in expressing the vehicle speed.

As an example,

Alice QUANTUM SERVER and Bob QUANTUM SERVER form a quantum communication channel through the quantum entanglement QUANTUM KEY exchange between Alice QKD and Bob QKD, and the multi-use facility linked server and terminal installed inside the civil defense alarm control center or disaster situation room are quantum devices with QRNG SoC applied It is composed of a hybrid quantum communication channel network forming a cryptographic key communication channel;

The multi-use facility connection server transmits alarm data to the multi-use facility alarm terminal connected to its own network;

The multi-use facility connection server transmits alarm data to the Alice PNI QUANTUM SERVER connected to the LAN network;

Alice PNI QUANTUM SERVER transmits the alarm data to Bob PNI QUANTUM SERVER connected to hybrid quantum communication channel network;

Bob PNI QUANTUM SERVER transmits the received alarm data to Alice PNI QUANTUM SERVER by displaying the received alarm data on electronic signboard through terminals composed of broadcasting device, electronic display board, speed enforcement camera, and security camera, and receiving image data taken from broadcasting and security camera through broadcasting device. send;

PNI QUANTUM SERVER consists of OTP QUANTUM Edge SERVER and TLS Edge SERVER, and features a physical network separation server in which data is transmitted in only one direction from OTP QUANTUM Edge SERVER to TLS Edge SERVER.

PNI QUANTUM SERVER is booted through user biometric fingerprint authentication through Trust Key USB containing FIDO2 SoC;

The OTP QUANTUM Edge SERVER is composed of a PRNG SoC including a PRNG program and a QRNG SoC including a QRNG Chip;

TLS Edge SERVER is composed of PUF SoC including PUF Chip or eFUSE Chip and QRNG SoC including QRNG Chip,

A PUF SoC that generates a PRIVATE KEY using the PIN DATA of the PUF Chip or eFUSE Chip inside the TLS Edge SERVER as a seed, and a QRNG SoC that generates a PUBLIC KEY using the quantum random number of the QRNG Chip as a seed;

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected by hybrid quantum communication channel network,

Alice OTP QUANTUM Edge SERVER and Bob inside Alice PNI QUANTUM SERVER Bob inside OTP QUANTUM Edge SERVER Alice PRNG and Bob PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudo-random number. Same OTP PRIVATE KEY as seed. generate; and

Alice QRNG SoC and Bob QRNG SoC generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER that communicate encryption/decryption data with OTP PRIVATE KEY through the wired private network after logging in to the network;

The Alice/Bob TLS Edge SERVER encrypts the Alice QRNG-generated random number generated by the Alice QRNG SoC inside the Alice TLS Edge SERVER with the OTP PRIVATE KEY and transmits it over the wireless communication network to generate the same Atypical PRIVATE KEY; and

Bob QRNG random numbers generated by the Bob QRNG SoC inside the Bob TLS Edge SERVER are encrypted with the OTP PRIVATE KEY and transmitted over the wireless communication network to exchange Alice/Bob QRNG random numbers and decrypt with the OTP PRIVATE KEY;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRNG-generated random numbers and Bob QRNG-generated random number seeds acquired by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through wired private network and;

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives emergency disaster text messages and transmits them to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network.

Eve TLS Edge SERVER receives video data and vehicle speed data from speed cameras and transmits them to Bob PNI QUANTUM SERVER internal Bob TLS Edge SERVER connected to unlicensed frequency wireless network;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received vehicle speed data to the Bob OTP QUANTUM Edge SERVER and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network. Characterized in expressing the vehicle speed.

As an example,

The multi-use facility connection server transmits alarm broadcasting data to the multi-use facility alarm terminal connected to its own network;

Multi-use facility connection server transmits alarm broadcasting data and emergency disaster text data to Alice PNI QUANTUM SERVER connected through LAN network;

Alice PNI QUANTUM SERVER transmits the alarm broadcasting data and emergency text data to Bob PNI QUANTUM SERVER connected through a hybrid quantum communication channel network;

The Bob PNI QUANTUM SERVER broadcasts the received alarm broadcasting data through the broadcasting device and expresses the emergency text data through the signage, receives video data taken from the security camera, and transmits it to the Alice PNI QUANTUM SERVER;

PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected by hybrid quantum communication channel network,

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob inside Bob PNI QUANTUM SERVER Alice PRNG SoC and Bob PRNG SoC inside Alice PNI QUANTUM Edge SERVER are PRNG SoCs that generate the same pseudorandom number, and the same OTP pseudorandom number is used as the seed. generate an OTP PRIVATE KEY;

Alice QRNG SoC and Bob QRNG SoC generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual Alice/Bob OTP QUANTUM Edge SERVER logging into the network;

The Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by the Alice QRNG SoC inside the Alice TLS Edge SERVER with the OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to the Bob TLS Edge SERVER; and

Bob QRN, the quantum random number Bob QRN generated by the Bob QRNG SoC inside the Bob TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER, and the Alice/Bob QRN quantum random numbers are mutually exchanged and then decrypted with the OTP PRIVATE KEY;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed acquired by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through its own network. ;

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives emergency disaster text messages and transmits them to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network.

Eve TLS Edge SERVER receives the video data taken from the surveillance camera and transmits it to the Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER connected to the unlicensed frequency wireless network;

The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER.

As an example,

Alice OTP QUANTUM Edge SERVER, Bob OTP QUANTUM Edge SERVER, and Eve OTP QUANTUM Edge SERVER's Alice PRNG, Bob PRNG, and Eve PRNG are PRNGs that generate the same pseudorandom number, and generate the same OTP PRIVATE KEY with the same OTP pseudorandom number as the seed;

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network Alice/Bob OTP QUANTUM Edge SERVER logging in;

Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual network Bob/Eve OTP QUANTUM Edge SERVER logging in;

In the log-in state, Alice OTP QUANTUM Edge SERVER transmits an emergency disaster message to Bob OTP QUANTUM Edge SERVER connected to the network;

Bob OTP QUANTUM Edge SERVER converts the received emergency text to TTS and displays it through a broadcasting device or an emergency text message through signage;

The Bob OTP QUANTUM Edge SERVER transmits to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network, and the Eve OTP QUANTUM Edge SERVER receives the emergency disaster text message and displays it through signage or broadcasts it through TTS;

Bob/Eve TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Eve TLS Edge SERVER;

Eve QRN, the quantum random number generated by Eve QRNG inside the Eve TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Bob TLS Edge SERVER, and the Bob/Eve QRN quantum random numbers are mutually exchanged and then decrypted with the OTP PRIVATE KEY;

Bob/Eve TLS Edge SERVER generates the same Atypical PRIVATE KEY with Bob QRN quantum random number and Eve QRN quantum random number seed obtained by exchanging them with the same key generation program, and communicates encryption/decryption data with Atypical PRIVATE KEY through the network. ;

Eve TLS Edge SERVER receives video data taken from surveillance cameras and transmits it to Bob TLS Edge SERVER connected to unlicensed frequency wireless network;

When Bob TLS Edge SERVER transmits the received video data to Bob OTP QUANTUM Edge SERVER, Bob OTP QUANTUM Edge SERVER transmits it to Alice OTP QUANTUM Edge SERVER.

As an example,

(Integrated crime prevention center disaster broadcasting smart emergency bell) is composed of Alice PNI QUANTUM SERVER, and wired network connected (MASTER disaster broadcasting smart emergency bell) is composed of Bob PNI QUANTUM SERVER, Bob emergency bell, and Bob broadcasting device , Disclosure based on Article 48 (1) of the Personal Information Protection Guidelines, including the disaster broadcasting smart emergency bell consisting of Eve PNI QUANTUM SERVER, Eve emergency bell, and Eve broadcasting device, connected to the wireless network (SLEEVE disaster broadcasting smart emergency bell) Regarding the performance improvement project for the crime prevention CCTV system registered in the personal information protection comprehensive support system installed and operated in the designated place,

Civil Defense Framework Act Article 33 Paragraph 3, Enforcement Decree Article 55-2 (Civil Defense Alert Propagation) Including "buildings subject to alert dissemination", additionally alert data for inside/outside public buildings such as high crime areas, roads, schools, government offices, etc. In the civil defense control system that receives (disaster alert, disaster risk, air strike, chemical, biological, and TTS (Text To Speech) data, etc.),

The multi-use facility connection server receiving the alarm data through the civil defense control system transmits it to the multi-use facility alarm terminal and Alice PNI QUANTUM SERVER internal Alice TLS Edge SERVER;

Disaster data (emergency text message, earthquake, flood, tsunami, swell, heavy rain, heavy snow, cold wave, heat wave, air quality, fine dust, demand power, forest fire prevention, publicity broadcasting, etc.) Alice PNI QUANTUM SERVER internal Alice OTP QUANTUM Edge SERVER receives;

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob OTP QUANTUM Edge SERVER inside Bob PNI QUANTUM SERVER and Eve inside PNI QUANTUM SERVER Alice PRNG, Bob PRNG, and Eve PRNG inside Alice OTP QUANTUM Edge SERVER generate the same pseudorandom number. Generates the same OTP PRIVATE KEY with the same OTP pseudo-random number as the seed for the PRNG to be generated;

Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, Alice PNI QUANTUM SERVER inside Alice OTP QUANTUM Edge SERVER and Bob PNI QUANTUM SERVER inside Bob OTP QUANTUM Edge SERVER and log in to the network and open the first wired network to send disaster data encrypted with OTP PRIVATE KEY from Alice OTP QUANTUM Edge SERVER to Bob received by OTP QUANTUM Edge SERVER;

Alice PNI QUANTUM SERVER inside Alice OTP QUANTUM Edge SERVER and Bob PNI QUANTUM SERVER inside Bob OTP QUANTUM Edge SERVER in the state of network login,

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY, and Bob TLS Edge SERVER through the first wired network send to;

Bob QRN, the quantum random number generated by Bob QRNG inside Bob TLS Edge SERVER, is encrypted with OTP PRIVATE KEY and transmitted to Alice TLS Edge SERVER through the first wired network. Alice/Bob QRN quantum random numbers are mutually exchanged and then OTP PRIVATE decrypt with KEY;

Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed obtained by exchanging each other, and Alice PNI QUANTUM SERVER internal Alice TLS Edge SERVER and Bob PNI QUANTUM SERVER Opening a second wired network that encrypts and decrypts alarm data with an Atypical PRIVATE KEY between the internal Bob TLS Edge SERVER;

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives disaster data encrypted with the OTP PRIVATE KEY from Alice OTP QUANTUM Edge SERVER through the first wired network, decrypts it with the OTP PRIVATE KEY, and broadcasts it through a broadcasting device; and

Bob OTP QUANTUM Edge SERVER transmits the Atypical PRIVATE KEY to the OTP PRIVATE KEY and the encryption Atypical PRIVATE KEY and the disaster data encrypted with the OTP PRIVATE KEY through the first wireless network connected to the unlicensed frequency Wi-Fi wireless self-network, Eve OTP QUANTUM send to Edge SERVER;

Eve OTP QUANTUM Edge SERVER expresses disaster data through a broadcasting device,

Decrypts the encryption atypical PRIVATE KEY into the OTP PRIVATE KEY and transmits it to the Eve TLS Edge SERVER;

Eve OTP QUANTUM Edge SERVER receives video data taken from surveillance cameras and transmits encrypted video data encrypted with OTP PRIVATE KEY through the first wireless network connected to unlicensed frequency Wi-Fi wireless private network Bob PNI QUANTUM SERVER Inside Bob OTP transmits to the QUANTUM Edge SERVER;

Bob OTP QUANTUM Edge SERVER inside Bob PNI QUANTUM SERVER transmits the received encrypted video data to Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER;

Alice OTP QUANTUM Edge SERVER decrypts encrypted video data with OTP PRIVATE KEY and transmits it to VMS;

Opening an unlicensed frequency LoRA second wireless network that encrypts and decrypts alarm data encrypted with an Atypical PRIVATE KEY between Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER and Eve TLS Edge SERVER inside Eve PNI QUANTUM SERVER;

Eve TLS Edge SERVER is characterized by decrypting the alarm data encrypted with the Atypical PRIVATE KEY with the Atypical PRIVATE KEY and broadcasting it to the broadcasting device.

As an example,

Emergency disaster message through Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER logged in through OTP PRIVATE KEY authentication generated through the same PRNG inside the private network composed of 1 physical line and Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency network data and

Alice TLS Edge SERVER, Bob TLS Edge through a virtual network where each other's 1/2 quantum random numbers are encrypted/decrypted with an Atypical PRIVATE KEY generated through the same key generation program through different QRNGs in the login state and data is communicated. Characterized by the transmission of video data taken by surveillance cameras between SERVER and Eve TLS Edge SERVER,

Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER are connected through a wired network, and Bob PNI QUANTUM SERVER and Eve PNI QUANTUM SERVER are connected through a wireless network.

The multi-use facility connection server transmits alarm broadcasting data to the multi-use facility alarm terminal and Alice PNI QUANTUM SERVER connected through its own network (wired private network, fixed IP operator network, VPN connection dynamic IP operator network).

Alice PNI QUANTUM SERVER receives alert broadcasting data from multi-use facility connection server and emergency disaster text data from disaster control room QUANTUM SERVER (Meteorological Administration OPEN API).

Alice PNI QUANTUM SERVER transmits the alert broadcasting data and emergency text data to Bob PNI QUANTUM SERVER connected to its own network.

Bob PNI QUANTUM SERVER broadcasts the received alarm broadcasting data through the broadcasting device and expresses the emergency text data through the signage.

Alternatively, TTS is broadcast through a broadcasting device or signage.

Bob PNI QUANTUM SERVER receives the video data taken from the security camera and transmits it to Alice PNI QUANTUM SERVER.

In detail below,

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob inside Bob OTP QUANTUM Edge SERVER Alice (OTP) PRNG and Bob (OTP) PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudorandom number, and the same OTP pseudorandom number Generate the same OTP PRIVATE KEY as the seed.

Alice (OTP) QRNG and Bob (OTP) QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them, encrypt OTP PRIVATE KEY with the other PUBLIC KEY and retransmit, then decrypt and generate the same OTP PRIVATE In the case of KEY, it is Alice/Bob OTP QUANTUM Edge SERVER that logs in to the mutual network.

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by the Alice (TLS) QRNG inside the Alice TLS Edge SERVER with the OTP PRIVATE KEY to generate the same (Alice-Bob) Atypical PRIVATE KEY and encrypts the Alice QRN to Bob TLS Edge Send to SERVER.

Bob QRN, the quantum random number generated by the Bob (TLS) QRNG inside the Bob TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER, and the Alice/Bob QRN quantum random numbers are mutually exchanged and then decrypted with the OTP PRIVATE KEY .

Alice/Bob TLS Edge SERVER generates the same (Alice-Bob) Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed obtained by exchanging each other, and through its own network (Alice-Bob) Communicate encryption/decryption data with Atypical PRIVATE KEY.

In the same way as above, Bob OTP QUANTUM Edge SERVER and Eve OTP QUANTUM Edge SERVER log in by creating OTP PRIVATE KEY through Bob PRNG and Eve PRNG.

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives the emergency disaster text message and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency private network. broadcast through

In the same way as above, Bob TLS Edge SERVER and Eve TLS Edge SERVER generate (Bob-Eve) Atypical PRIVATE KEY through Bob QRNG and Eve QRNG to perform encryption/decryption communication.

Eve TLS Edge SERVER receives video data captured by surveillance cameras encrypted with (Bob-Eve) Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER connected to private network of unlicensed frequency.

Bob TLS Edge SERVER inside Bob PNI QUANTUM SERVER decrypts the received video data with (Bob-Eve) Atypical PRIVATE KEY, then encrypts it with (Alice-Bob) Atypical PRIVATE KEY, and sends it to Alice TLS Edge SERVER inside Alice PNI QUANTUM SERVER, ( It is a PUF (eFUSE)-QRNG quantum security FIDO authentication system characterized by decryption with Alice-Bob) Atypical PRIVATE KEY.

As the main characteristics of the differentiated novelty and inventive step of the present invention,

It is received through a physically separated network separation server according to the subject of alarm issuance.

Among disaster data, such as an earthquake warning, it must be broadcast automatically in real-time Log IN status because it must be rapidly propagated within seconds. This should be differentiated.

For example, when an air raid siren is erroneously issued in a multi-use facility such as a movie theater, safety accidents and compensation for damages occur.

The Alice PRNG, Bob PRNG, and Eve PRNG are PRNGs that generate the same pseudorandom number, and sequentially generate the same OTP PRIVATE KEY with the same OTP pseudorandom number as the seed.

Alice OTP QRNG, Bob OTP QRNG, and Eve OTP QRNG generate seed PUBLIC KEY with different quantum random numbers and sequentially authenticate through OTP PRIVATE KEY through public key exchange (e.g. Alice and Bob have primary PRN and secondary After generating identical PRNs and exchanging PUBLIC KEYs with each other, Alice sends the 1st PRN with Bob’s PUBLIC KEY, and Bob sends the 2nd PRN with Alice’s PUBLIC KEY to authenticate each other.)

That is, PRNG/QRNG technology is applied.

A wired network of physical line 1 is physically network separated through Alice/Bob OTP Edge SERVER and Alice/Bob TLS SERVER to form a virtual redundant network.

In addition, it separates the login method and the encryption/decryption key method to increase security and separate disaster/alarm data.

In encryption/decryption key generation, a seed is generated by exchanging 1/2 unpredictable random quantum random numbers with each other to generate an atypical PRIVATE KEY.

The exchange of 1/2 quantum random numbers generates an Atypical PRIVATE KEY using a low-speed/low-capacity unlicensed frequency LoRA wireless network, and then uses an OTP symmetric key type Atypical PRIVATE KEY through a large-capacity unlicensed frequency Wi-Fi wireless network. /Decrypt communication.

In order to prevent misinformation/malfunction, broadcasting data subject to approval/certification and real-time broadcasting data are physically separated and operated. A broadcasting device specialized for each data and a smart emergency bell including a two-way emergency bell are newly installed or existing in the CCTV system. It is a smart pole that builds an effective civil defense/disaster warning system by replacing the performance-improving smart emergency bell in CCTVs.

As an example,

The smart emergency bell is composed of power supply, broadcasting device, push button, eye-level camera, and edge server.

Edge SERVER is network connection between Alice SERVER inside integrated crime prevention center and network of wireless carrier, or Edge SERVER is network connection between Alice SERVER inside integrated crime prevention center and wired network, or Edge SERVER is Bob SERVER connected to unlicensed frequency wireless private network Through , it is composed of one network among the Alice SERVER inside the integrated crime prevention center and the wired network connection.

In particular, Edge SERVER is networked with Bob SERVER, which is connected to unlicensed frequency wireless private network, and is connected to Alice SERVER inside integrated crime prevention center and wired network, Edge SERVER - Unlicensed frequency wireless private network - Bob SERVER - Wired network - An embodiment connected to a network by Alice SERVER is possible.

The smart emergency bell is characterized in that one or more eye-level cameras that monitor each 90 to 360 degrees are installed at the top of the enclosure.

The power supply unit supplies power to each part of the smart emergency bell through commercial AC power or a storage battery, and the smart emergency bell has a push button installed on the front, and when the push button is operated, the internal edge server is connected to the wireless communication service provider network or wired network or Through one of the wired networks through the Bob SERVER connected to the unlicensed frequency wireless self-network, the Alice SERVER inside the integrated crime prevention center is connected to the network through SSL-VPN certified by the National Intelligence Service or a dedicated line.

Edge SERVER consists of civil defense/disaster warning security module, MMS control module, image storage memory, SSL-VPN, and wireless communication modem.

The MMS (Multimedia Messaging Service) control module is composed of a microprocessor, stores the video captured by the eye-level camera in the image storage memory and converts it into a still picture under the control of the Alice SERVER inside the integrated crime prevention center, and sends it through the network of wireless communication service providers. It is received by Alice SERVER as MMS (Multimedia Messaging Service).

As an example, the MMS (Multimedia Messaging Service) control module is composed of a microprocessor, stores the image taken by the eye-level camera in the image storage memory, and stores the image taken by the eye-level camera under the control of Alice SERVER inside the integrated crime prevention center. After converting to data, data is deducted from the total amount of data of all subscriber terminals or contract data is exhausted, and then Alice Server receives it through the wireless communication service provider network through the low-speed unlimited data plan.

The civil defense/disaster warning security module includes a security CPU (Central Processing Unit) and a control chip including a physical ON/OFF SWITCH dedicated to security access and a multi-Boot ROM dedicated to controlling the physical ON/OFF SWITCH dedicated to security access. It consists of

By selecting and connecting to the network through the multi-Boot ROM,

Any one of Alice SERVER and wired network connection with Alice SERVER inside the integrated crime prevention center through network connection with Alice SERVER and wireless communication operator network, network connection with Alice SERVER and wired network network, or Bob SERVER connected with unlicensed frequency wireless private network It features a multi-Boot ROM that boots the network to be connected to the network.

In addition, through the multi-Boot ROM, the MMS (Multimedia Messaging Service) control module transmits the still pictures stored in the image storage memory to Alice SERVER as MMS (Multimedia Messaging Service) through the wireless communication service provider network. It features multi-Boot ROM to boot.

Also, the multi-Boot ROM is characterized by a multi-Boot ROM that boots the broadcasting device and the network when broadcasting is performed through the broadcasting device.

The security CPU (Central Processing Unit) boots up the multi-Boot ROM through the control chip after OTP (One-Time Programmable) authentication, and controls the physical ON/OFF switch dedicated to secure access to the ON SWITCH connection conversion MMS messages received from Alice Server inside the integrated crime prevention center are booted up to broadcast TTS (text-to-speech) through the broadcasting device and network.

In addition, when the security CPU (Central Processing Unit) receives air raid/disaster risk siren MMS data from Alice SERVER inside the integrated crime prevention center, it transmits preliminary siren data after OTP (One-Time Programmable) authentication. Transmission), and when confirmation data return link transmission is received, civil defense/disaster example broadcasting siren data through a broadcasting device through ON SWITCH connection switching control of a physical ON/OFF SWITCH dedicated to secure connection Alert is a smart emergency bell.

For example, Return Link Transmission of siren preliminary data after QUANTUM OTP (One-Time Programmable) authentication is a broadcast preparation procedure, and to prevent misinformation, a security CPU (Central Processing Unit) sends a siren to Alice SERVER. Send preliminary data.

When Alice SERVER transmits the confirmation data to the security CPU (Central Processing Unit) for Return Link Transmission, the security CPU (Central Processing Unit) boots up the multi-Boot ROM and turns on/off the physical ON/OFF dedicated to secure access. Through the OFF SWITCH to ON SWITCH connection conversion control, air raid/disaster risk siren MMS data received from Alice SERVER inside the integrated crime prevention center is broadcasted by booting the broadcasting device and network.

As an example,

The smart emergency bell coupled to the pole is composed of a broadcasting device, a push button, an eye-level camera, and an edge server.

An aerial camera for photographing the air, a surveillance camera for photographing the ground, and a LiDAR (Light Detection And Ranging) sensor are installed at the top of the pole.

Edge SERVER is connected to Alice SERVER inside the control center and wired network, or Edge SERVER is connected to Alice SERVER inside the control center and wired network, or Edge SERVER is connected to Alice SERVER inside the control center and wired network through Bob SERVER connected to wireless network.

The smart emergency bell has one or more eye-level cameras installed at the top of the enclosure to monitor each angle of 90 to 360 degrees.

The smart emergency bell has a push button installed on the front, and when the push button is operated, the internal edge server connects to the Alice server inside the control center through a wireless network or a wired network through an SSL-VPN certified by the National Intelligence Service or a dedicated line. do.

Edge SERVER consists of a security module, video storage memory, SSL-VPN, and wireless communication modem. The security module includes a security CPU (Central Processing Unit), a physical ON/OFF switch dedicated to security access, and a physical ON/OFF switch dedicated to security access. It is composed of a control chip including a multi-Boot ROM dedicated to SWITCH control.

The security CPU (Central Processing Unit) boots up the multi-Boot ROM through the control chip after OTP (One-Time Programmable) authentication, and controls the physical ON/OFF switch dedicated to secure access to the ON SWITCH connection conversion MMS messages received from the Alice SERVER inside the control center are broadcasted by the security module through TTS (text-to-speech) broadcasting through the broadcasting device, or the security CPU (Central Processing Unit) receives the MMS text from the Alice SERVER inside the control center When disaster risk siren MMS data is received, after OTP (One-Time Programmable) authentication, siren preliminary data is returned through Return Link Transmission, and when confirmation data Return Link Transmission is received, physical ON for secure access Through /OFF SWITCH to ON SWITCH connection switching control, the broadcasting control module broadcasts siren data through the broadcasting device.

The aerial camera for photographing the air installed on top of the pole is composed of an IR see-through filter and takes perspective pictures of obstacles such as backlight, fog, rainwater, and dust.

A surveillance camera consists of a fluoroscopic camera, a fixed surveillance camera, and a tracking surveillance camera. The video taken by the fixed surveillance camera is stored in a storage device and an active object is detected through a LIDAR sensor. After separating the background area to extract the X-Y coordinates of the active area by dividing the area, the pan-tilt drive and lens zoom-in are performed with the X-Y coordinates of the active area by the tracking monitoring camera, and the image taken of the active area is stored in the storage device.

After capturing the still image, an infrared filter motor is driven to capture and store an infrared filtered black and white perspective still image.

It is a military demarcation line parallel surveillance IR filter backlight camera black box characterized in that it stores a panoramic image synthesized by image capture of still images and perspective still images in a storage device.

As an example,

Bob TLS Edge SERVER is connected to security camera, forest fire monitoring camera or disaster monitoring camera, encrypts video data with Atypical PRIVATE KEY and transmits it to Alice TLS Edge SERVER.

The Bob smart emergency bell is connected to other Eve smart emergency bells connected through an unlicensed frequency wireless network or wired network to continuously broadcast disaster data broadcasting.

In addition, the smart emergency bell operates on its own sensors such as smoke sensor, smoking detection sensor, flame sensor, early fire detection sensor, motion detection sensor, atmospheric sensor, fine dust sensor, etc. It is a smart pole including a disaster alert smart emergency bell characterized in that it broadcasts self-stored TTS, such as "promotional broadcasting".

As an example,

The PRNG is a PRNG that generates the same pseudorandom number, and uses the same OTP pseudorandom number as a seed to generate the same OTP PRIVATE KEY;

QRNG generates different PUBLIC KEYs with different quantum random numbers as seeds, exchanges them, encrypts the OTP PRIVATE KEY with the other PUBLIC KEY and retransmits it, decrypts it, and if it is the same OTP PRIVATE KEY, it is an OTP QUANTUM Edge SERVER that logs into the mutual network. ;

PUBLIC KEY is exchanged through unlicensed frequency LPWAN (Low Power Wide Area Network) wireless networks such as LoRA, NB-IoT, SigFOX, etc., and then encrypts and retransmits the OTP PRIVATE KEY with the other PUBLIC KEY, then decrypts and returns the same OTP PRIVATE KEY Log in to the unlicensed frequency LPWAN wireless network;

Different TLS Edge Servers encrypt quantum random numbers generated by QRNG with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY, exchange them through the unlicensed frequency LPWAN wireless network, and decrypt with OTP PRIVATE KEY;

TLS Edge SERVER generates the same Atypical PRIVATE KEY with QRN quantum random numbers obtained by exchanging them with the same key generation program, and communicates encryption/decryption data with Atypical PRIVATE KEY through wireless networks such as unlicensed frequency Wi-Fi. do.

As an example,

PUBLIC KEY is exchanged through the first small-capacity/low-speed unlicensed frequency wireless network including LoRA, NB-IoT, SigFOX, etc., and then encrypted and retransmitted OTP PRIVATE KEY with the other PUBLIC KEY, then decrypted and the same OTP PRIVATE KEY the first unlicensed frequency wireless network login data communication;

Characterized in that encryption/decryption data is communicated with an Atypical PRIVATE KEY through a second unlicensed frequency wireless network including a relatively large capacity/high-speed Wi-Fi compared to the first low-capacity/low-speed wireless network.

As an example,

The emergency bell includes an emergency bell integrated enclosure characterized by an emergency bell that generates an abnormal sound source recognition event of a sentence such as "evil" or "ah" or an abnormal sound source recognition of a sentence such as "save me" or "help" It is a CCTV system for crime prevention.

As an example,

In the case of generating a cancer/crypto key with only a random positive random number seed, if the cancer/crypto key is not known, cancer/crypto is impossible.

When encryption/decryption keys are generated by using a pseudorandom number seed generated by a program random number generator (PRNG) by an operator or by various well-known key generation methods, the larger the number of terminals or key generation, the more program regularity is identified. It becomes easier and more vulnerable to hacking attacks.

When a random positive random number seed and a pseudorandom number seed are used as an operator or a key generation method of various well-known methods is used to generate encryption/decryption keys, when the pseudorandom number seed and key generation method are known You can create encryption/decryption keys.

In the above case, security is high because a key is generated with a non-regular random quantum random number seed every time a terminal and a key are generated.

Function Formula 1: F(x) = QKD Key(QRNG)

Function Expression 2: F(x) = DATA RECORDER Key (QRNG+PRNG)

Function Expression 3: F(x) = DATA STORAGE Key (QRNG+PRNG)

As shown in Function Equation 1, a quantum key is generated with a quantum random number seed of a QRNG (Quantum Random Number Generator) in a quantum communication QKD (Quantum Key Distribution) section.

As shown in the function formula 2 above, the captured image taken from the surveillance camera is encrypted/decrypted and stored with a hybrid-QUANTUM key that combines a Program Random Number Generator (PRNG) and a Quantum Random Number Generator (QRNG).

As shown in Functional Formula 3, data is encrypted/decrypted and stored by generating a Hybrid-QUANTUM Key according to a PRNG (Program Random Number Generator) and QRNG (Quantum Random Number Generator) operator or a known key generation method. .

FIDO2 (Fast IDentity Online 2) is applied for Log IN/OUT access to server and storage device.

As an example,

Alice (Main) SERVER and black box emergency bell are connected through wired or wireless networks.

Wireless networks include IoT-specific LPWAN (Low Power Wide Area Network) wireless communication networks such as NB-IoT, LoRA, SIgFOX, and OPERA, unlicensed frequency wireless communication such as Wi-Fi, and LTE and TRS wireless networks.

Black box emergency bell is composed of Edge SERVER, black box camera, emergency bell push button, storage device, and communication modem.

The MCU (Main Control Unit) inside the Edge SERVER, which includes the QRNG (Quantum Random Number Generator) chip-loaded security module, generates the same pseudo-random number seed as the Alice SERVER through the PRNG (Program Random Number Generator) program. Generates a random number seed PRN (Program Random Number) and generates and receives a quantum random number seed QRN (Quantum Random Number) through the QRNG Chip inside the security module.

Edge SERVER's internal MCU generates an encryption/decryption key by calculating the PRN seed key and QRN seed key as a function formula F(x) = DATA RECORDER Key (QRNG+PRNG).

For example, there has been a classical method such as EX-OR or EX-AND to calculate the PRN seed key random number and the QRN seed key random number.

In the above case, if the PRN seed key random number and operators such as EX-AND are known, the QRN seed key random number can be known to generate a decryption key, and different keys can be generated through random and irregular QRN seed key random numbers.

This is why conventional encryption programs can be hacked if they interpret the PRNG regularity.

The operator applies various known encryption methods such as a conventionally known hash function and AES.

The MCU inside the Edge SERVER encrypts the video data taken by the black box camera with the encryption/decryption key and stores it in the storage device.

Edge SERVER internal MCU transmits emergency bell operating event data to Alice SERVER through communication modem when emergency bell button is operated.

Alice SERVER receives the emergency bell operation event data from the black box emergency bell and outputs it to the monitor.

The Edge SERVER enclosure panel is composed of a left side input panel, a front output panel, and a right side input/output panel (left/right reverse configuration possible) as shown in FIGS. 13 to 15.

The input panel includes DC 24V and AC 220V ports.

The input/output panel includes LAN, USB, VOLUME CONTROL, MIC, PR-1, PR-2, PR-3, PR-4, LAMP CONTROL, DC12V POWER 1, DC12V POWER 2 ports.

The output panel includes LAN-POE1, LAN POE2, DC12V, DOOR CONTROL, AC 220V POWER 1, AC 220V POWER 2 ports.

Drive power is supplied through the input panel DC 24V, AC 220V port and supplies drive power to each part of Edge Server.

Edge SERVER's internal MCU receives data through USB, MIC, and VOLUME CONTROL of the input/output panel.

Edge SERVER internal MCU inputs/outputs data through LAN and USB ports.

Edge SERVER internal MCU outputs program control data through PR-1, PR-2, PR-3, PR-4 ports, and outputs lamp dimming control data through LAMP CONTROL ports, DC12V POWER 1, DC12V POWER Control DC power through 2 ports.

The Edge SERVER internal MCU supplies power and communicates data to the monitoring camera through the output panels LAN-POE1 and LAN-POE2, controls the power through the DC12V, AC 220V POWER 1 and AC 220V POWER 2 ports, and operates normally as a result of self-diagnosis. It is a black box type emergency bell characterized in that the DOOR CONTROL LED lamp is turned on.

As an example,

It consists of an EMP detachable part coupled to a security light pole, an EMP (electro magnetic pulse) controller, and a CCTV black box.

The CCTV black box consists of an enclosure, a security light, an IR see-through filter, a reverse light camera, and a surveillance camera. The enclosure includes an edge server, a test module, a door sensor, and a communication modem inside.

It is a structure in which a button and a warning light are attached to the outside of the enclosure.

The pressure button on the outside of the enclosure consists of a warning light button, a silent button, and a test button. When the warning light button is operated, the edge server transmits the warning light operation and emergency bell operation event data to Alice SERVER through the communication modem.

When the silent button is operated, the emergency bell operation event data is transmitted to Alice Server through the communication modem.

When the test button is operated, the warning light operation and test emergency bell operation event data are transmitted to Alice SERVER through the communication modem with a small power of 10% or less of normal operation.

Edge SERVER transmits door open event to Alice SERVER when door sensor operates.

Edge SERVER transmits fault condition monitoring event and fault event to Alice SERVER when self-diagnosis fault occurs through test module.

Security module including QRNG chip that generates quantum random number seed inside Edge SERVER Control including secure CPU and physical ON/OFF SWITCH dedicated to security access and multi-Boot ROM dedicated to controlling physical ON/OFF SWITCH dedicated to secure connection It is composed of a chip and a PRNG random number generator program.

Security CPU is multi-Boot ROM through control chip after OTP (One-Time Programmable) login authentication with Alice SERVER and quantum random seed public key and pseudorandom seed private key method through communication modem By booting up, the physical ON/OFF SWITCH dedicated to secure access communicates data with Alice SERVER through ON SWITCH connection conversion control.

The security CPU receives control data from Alice Server and transmits the data to the EMP (electro magnetic pulse) controller.

The security light is installed on a pole and consists of an infrared (IR) emitter and a visible ray emitter.

The IR Sight Filter Backlight Camera installed on the pole and taking pictures of the air is equipped with an IR Sight Filter and takes pictures of the backlight. It takes fluoroscopic pictures of obstacles such as fog, rainwater, dust, and backlight and stores them in a storage device.

Surveillance cameras are composed of an IR see-through filter-integrated surveillance camera that photographs the ground, a fixed surveillance camera, and a tracking surveillance camera. Pan-tilt drive and lens zoom-in with a surveillance camera to capture a still image of the active area and store it in a storage device.

An IR fluoroscopic filter integrated surveillance camera captures and stores infrared (IR) filtered black and white fluoroscopic still images.

Panoramic still images synthesized from still images and fluoroscopic still images through image capture are stored in a storage device.

When the EMP (electro magnetic pulse) controller receives control data from the Edge SERVER, the control data is transmitted to the EMP (electro magnetic pulse) device mounted on the EMP detachable part, or when a specified object is recognized through the monitoring camera, the EMP (electro magnetic pulse) pulse) controller is a DMG quantum cryptographic electronic barrier block-type controller characterized in that it supplies power to the detonator of the EMP (electro magnetic pulse) device mounted on the EMP detachable unit.

In addition, in order to detect a moving human body using the spontaneous polarization effect of a pyroelectric infrared sensor (PIR sensor; Passive Infrared Sensor) and conversely, to detect a still human body, an ultra-low camera and dimming control lighting without additional motors and shutters are applied. A black box type surveillance camera is implemented using an eye-level camera combined with

Unlike dual or quad pyroelectric infrared sensors (PIR sensors; Passive InfraRed Sensors) that detect different spaces, the sensor unit (multi-spontaneous polarization sensor) is equipped with a power supply module and a power supply unit on a single board substrate inside a single housing. The first pyroelectric sensor detection module and the second pyroelectric sensor detection module are disposed to detect the human body in the same space. Two or more PIR sensor modules are installed on one board to detect the same space.

The edge server supplies initial driving power to the first pyroelectric infrared sensor through an internal power supply unit, and is initialized in an equilibrium phase in which a spontaneous polarization equilibrium state is maintained.

After the initial equilibrium phase, the edge server detects a moving body with the first pyroelectric sensor and switches from the spontaneous polarization equilibrium state to the unbalanced state. Supply driving power to the sensor.

Since the PIR sensor requires the time required for stabilization after being supplied with driving power, moving object detection step recognizing it as a spontaneous polarization unbalanced state even if it is switched from a spontaneous polarization imbalance state to an equilibrium state during the stabilization time of the manager input value programmed into the edge server. is needed

For example,

If the stabilization time of the administrator input value programmed into the edge server is set to 60 seconds, even if the 1st pyroelectric sensor is converted from spontaneous polarization imbalance to equilibrium within 60 seconds, spontaneous polarization occurs within 60 seconds This is a moving object detection stage that recognizes an unbalanced state.

The time of 60 seconds varies according to the administrator input time (stabilization time) programmed into the edge server, for example.

In addition, if the time of 60 seconds is divided by the 2-1 PIR sensor and the 2-2 PIR sensor instead of the second PIR sensor to reduce the error, it can be divided into 30 seconds + 30 seconds.

That is, the first PIR sensor is used for detecting a moving body, and the 2-1 PIR sensor and the 2-2 PIR sensor are used for the purpose of detecting a still human body and reducing stabilization time errors.

In the motion detection step, motion detection event data is generated and provided to a terminal device (surveillance camera, broadcasting device, automatic control device, operating device such as lighting, switchboard, etc.).

After the moving body detection step, the edge server cuts off driving power to the second PIR sensor in a state where the first PIR sensor and the second PIR sensor maintain a spontaneous polarization equilibrium state, and the moving body and the stationary human body are not inside the sensing area. and returns to the initial equilibrium stage to generate event data that is judged as movement of the moving body, or when the second PIR sensor is driven by the edge server and converted from the spontaneous polarization equilibrium state to the unbalanced state and a human body detection event signal is received, the human body is in a stopped state This is an analysis step of cutting off the driving power to the second PIR sensor and switching to the moving object detection step after determining to be .

That is, by detecting a still human body by using the driving time difference between the first PIR sensor and the second PIR sensor, supplying square wave power with overlapping stabilization times or returning the PIR sensor to an unbalanced state even if it returns to an unbalanced state. During the stabilization time, power is supplied in the form of overlapping square waves with overlapping power supply times.

During the motion detection step, an event image is photographed through a monitoring camera and an event message stored in a broadcasting device is broadcast.

As an example,

The multi-spontaneous polarization sensor is characterized in that a first PIR sensor for detecting a moving human body and a second PIR sensor for detecting a stationary human body are continuously arranged to detect the movement or stationary state of the human body in the same space, and is controlled as follows.

(Equilibrium phase) An equilibrium phase in which Edge SERVER supplies driving power to the first PIR sensor and maintains a spontaneous polarization equilibrium state.

(Body detection step) Edge SERVER receives the spontaneous polarization unbalanced human body detection event signal and drives the 2nd PIR sensor through the power supply unit when the 1st PIR sensor converts from the spontaneous polarization equilibrium state to the unbalanced state and a human body detection event signal is generated Human body detection stage to supply power.

(Maintenance stage) Edge server maintains the human body detection status.

(Sensing step) When the first and second PIR sensors are driven and maintain the spontaneous polarization equilibrium state for longer than the manager input time, the edge server cuts off the driving power to the second PIR sensor and switches to the equilibrium step, or the edge server switches to the second PIR sensor. When the PIR sensor is driven and converted from the spontaneous polarization equilibrium state to the unbalanced state and a human body detection event signal is received, the driving power to the second PIR sensor is cut off and converted to the human body detection step, and the driving time of the first and second PIR sensors A sensing step characterized in that a moving body and a stationary human body are detected using a deviation.

It is characterized in that during the maintenance step, an event message stored in a storage or broadcasting device is broadcast by event masking the camera photographed data.

As an example,

In generating human body detection event data through a multi-spontaneous polarization sensor that detects a stationary human body,

The multi-spontaneous polarization sensor consists of a moving body detection PIR sensor that detects a moving body, one or more human body detection PIR sensors that detect a stationary body, a sensor main control unit composed of a microprocessor, and a power supply unit.

The main sensor controller supplies driving power to the PIR sensor for constant motion detection through the power supply unit, detects a moving object, and generates moving event data.

The main sensor controller supplies time difference square wave driving power of the administrator's input time interval to one or more human body detection PIR sensors through the power supply unit to detect a still human body and generate stationary human event data.

The sensor main controller supplies moving body event data and stationary human body event data to the eye level camera.

The camera may mask and store event data in a photographed image according to reception of moving body event data or stationary human body event data.

Claims (40)

Civil Defense Framework Act Article 33 Paragraph 3, Enforcement Decree Article 55-2 (Civil Defense Alert Propagation) Including "buildings subject to alert dissemination", additionally alert data for inside/outside public buildings such as high crime areas, roads, schools, government offices, etc. Article 48, Article 1 of the Personal Information Protection Guidelines for Security Surveillance Camera System, which includes an alarm terminal for multi-use facility broadcasting (disaster alert, disaster risk, air raid, chemical, biological, radiological, TTS (Text To Speech) data, etc.) and an emergency bell all-in-one enclosure Regarding the performance improvement project through the emergency bell integrated enclosure for the CCTV registered in the personal information protection comprehensive support system installed and operated in an open place based on the paragraph,
The A-QUANTUM SERVER inside the Korea Aerospace Operation Center (KAOC) and the B-QUANTUM SERVER inside the 1st Civil Defense Alert Control Center are based on A-QKD (Quantum Key Distribution) and B-QKD (Quantum Key Distribution) Forming a quantum communication channel (QUANTUM CHannel) through quantum entanglement QUANTUM KEY exchange,

The 1st civil defense alarm control center and the city/province civil defense alarm control center are connected to the civil defense exclusive network through the civil defense control system and transmit alarm data, and the city/province civil defense alarm control center and the public address system (PA) or emergency bell integrated enclosure are included. The network between security surveillance camera smart poles forms a hybrid quantum communication channel (Hybrid-QUANTUM CHannel) with QRNG (Quantum Random Number Generator) SoC applied,

The camera is divided into a security surveillance camera installed on the top of the smart pole and 8 cameras installed on the top of the enclosure, installed on the top of the emergency bell integrated enclosure coupled to the smart pole.
The emergency bell integrated enclosure has a structure that combines the left block and the right block with the pole of the smart pole for the security surveillance camera installed locally in the middle, and consists of a high focal length camera and a low focal length camera at the top. 90-degree omnidirectional camera sets are installed on four sides, and a total of eight cameras are installed at the top of the enclosure as 360-degree surveillance fixed cameras for blind spots;
An emergency bell button is inserted in the front of the integrated enclosure, and when the emergency bell button is operated, it is configured as a two-way call with the integrated crime prevention center and a warning light operates;
The communication line and the power line are introduced through the lower inlet of the emergency bell integrated enclosure, and are connected to the surveillance camera for security through the upper outlet;
The inside of the emergency bell integrated enclosure is composed of a switch hub, a power supply unit, a broadcasting device, a digital video recorder (DVR), and a Bob PNI QUANTUM SERVER.
The power supply unit includes an electric meter and a surge protector to convert AC power into DC and supply it to each unit;
The video taken by the security surveillance camera is transmitted to the integrated crime prevention center through the switch hub for real-time monitoring;
The captured image of the upper camera of the enclosure is stored in a digital video recorder (DVR);

Physical Network Isolation QUANTUM SERVER (PNI QUANTUM SERVER) is the left block and It is distinguished by the Bob PNI QUANTUM SERVER inside the emergency bell integrated enclosure with a structure that combines the right block,
The alarm data received by the multi-use facility connection server linked to the civil defense control system of the civil defense alarm and control center of the city/province is transmitted to the multi-use facility alarm terminal connected to the private network and the Alice PNI QUANTUM SERVER connected to the LAN (Local Area Network) network;
Alice PNI QUANTUM SERVER transmits the alarm data to Bob PNI QUANTUM SERVER inside an emergency bell integrated enclosure connected to a Hybrid-QUANTUM CHannel network;
Bob PNI QUANTUM SERVER transmits the received alarm data to Alice PNI QUANTUM SERVER by receiving video data from surveillance cameras for broadcasting and security through the broadcasting device inside the emergency bell integrated enclosure;
Alice PNI QUANTUM SERVER transmits received image data to VMS (Viedo Management System) SERVER,

In the security surveillance camera system consisting of a multi-use facility alarm terminal inside the integrated crime prevention center, Alice PNI QUANTUM SERVER, a local emergency bell integrated enclosure, a security surveillance camera, and an arm, the emergency bell integrated enclosure is located at the top of the enclosure It is characterized by consisting of a camera, an emergency bell button, a warning light, a switch hub, a power supply unit, a broadcasting device, a digital video recorder (DVR), and a Bob PNI QUANTUM SERVER.

PNI QUANTUM SERVER (Physical Network Isolation QUANTUM SERVER), a physical network separation quantum cryptography server, consists of OTP QUANTUM Edge SERVER and TLS (Transport Layer Security) Edge SERVER,
It is divided into Alice PNI QUANTUM SERVER inside the integrated crime prevention center and Bob PNI QUANTUM SERVER inside the local emergency bell integrated enclosure;

OTP QUANTUM Edge SERVER is composed of Alice Program Random Number Generator (PRNG) SoC and Quantum Random Number Generator (QRNG) SoC;
TLS (Transport Layer Security) Edge SERVER including PUF SoC and QRNG SoC includes SoC (System On Chip) and QRNG SoC (System On Chip) including PUF (Physically Unclonable Function) Chip inside the PUF SoC Characterized by a TLS Edge SERVER that
Boot control of Boot ROM through program integrity verification through the control of the MCU (Main Control Unit) inside the PUF SoC (System On Chip) and hash signature and verification function through the control of the Security CPU inside the PUF SoC (Hash-based Message Authentication Code/ESCDA/HMAC), symmetric key encryption/decryption function (AES/ARIA), and user authentication function (RHDROZL exchange, MAC/HAMC verification, seed/random number exchange);
QRNG (Quantum Random Number Generator) SoC generates key-generating unpredictable random quantum random numbers;

Trust Key USB features Trust Key USB including FIDO2 (Fast IDentity Online2) SoC, MCU (Main Control Unit), eFUSE Chip, Bio Chip, TRNG (True Random Number Generator) Chip,
When the Trust Key USB is coupled to the I/O port of the PNI QUANTUM SERVER, the 1st stage SHA256 HMAC and the 2nd stage HMAC's ECC verification is performed under the control of the MCU (Main Control Unit) inside to boot the Boot ROM through program integrity verification. Storage of device unique key through control (Boot Control) and eFUSE Chip, hash signature and verification function (Hash Accelerator-SHA1/SHA256), symmetric key encryption/decryption function (AES/ARIA), bio chip and key generation that scans biometric information Booting O/S (Operating Systems) through user authentication by executing TRNG (True Random Number Generator) Chip that generates unpredictable random natural numbers;

Inside Alice PNI QUANTUM SERVER's Alice OTP QUANTUM Edge SERVER Alice PRNG and Bob Inside Bob OTP QUANTUM Edge SERVER of PNI QUANTUM SERVER Bob PRNG is a PRNG that generates the same pseudo-random number. The same OTP pseudo-random number is used as the seed. The same OTP symmetric key (PRIVATE KEY); and
Alice QRNG SoC and Bob QRNG SoC generate Alice asymmetric key (PUBLIC KEY) and Bob asymmetric key (PUBLIC KEY) using different quantum random numbers as seeds, exchange them with each other, and then use OTP symmetric keys as relative asymmetric keys (PUBLIC KEY) If (PRIVATE KEY) is encrypted and retransmitted, it is decrypted and if it is the same OTP symmetric key (PRIVATE KEY), it is an internal network Alice/Bob OTP QUANTUM Edge SERVER that mutually logs in (Log IN);
Alice/Bob TLS (Transport Layer Security) Edge SERVER exchanges random numbers (Seed) for generating an atypical (ATYPICAL) symmetric key (PRIVATE KEY) through an external network, and PIN DATA of PUF Chip through wired/wireless communication networks After exchanging and mutually authenticating as mutually approved users, Alice TLS (Transport Layer Security) Edge SERVER internal Alice QRNG Alice QRNG-generated random number generated by SoC Alice/Bob OTP QUANTUM Edge SERVER generates the same pseudo-random number as seed The same OTP symmetric key (PRIVATE KEY) encrypts Alice QRNG-generated random numbers and transmits them through wired/wireless communication networks; and
Bob TLS (Transport Layer Security) Edge SERVER Internal Bob QRNG SoC generated Bob QRNG random number Alice/Bob OTP QUANTUM Edge SERVER generates the same pseudo-random number as seed The same OTP symmetric key (PRIVATE KEY) Encrypt Bob QRNG-generated random numbers and transmit and exchange them through wired/wireless communication networks;

Alice/Bob TLS Edge SERVER generates the same ATYPICAL symmetric private key (PRIVATE KEY) by the same key generation program with the Alice/Bob QRNG-generated random number seed obtained by exchanging each other, and generates large amounts of data through its own network. Encrypt/decrypt at high speed through an ATYPICAL symmetric key (PRIVATE KEY);

Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob OTP QUANTUM Edge SERVER inside Bob PNI QUANTUM SERVER are connected to their own network;
Alice PRNG and Bob PRNG of Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER are PRNGs that generate the same pseudorandom number. Generate an OTP symmetric key (PRIVATE KEY) with the same OTP pseudorandom number as a seed, log in after verification (Log IN) If possible, large-capacity data communication through private network; or
Alice PNI QUANTUM SERVER Internal Alice TLS Edge SERVER and Bob PNI QUANTUM SERVER Internal Bob TLS Edge SERVER are connected through wired/wireless communication networks, and Alice TLS Edge SERVER and Bob TLS Edge SERVER receive PIN DATA of PUF Chip inside PUF SoC After mutual authentication through mutual authentication, Alice QRNG and Bob QRNG exchange different quantum random number seeds and generate the same atypical symmetric private key (PRIVATE KEY) with the same key generation program using the two different quantum random numbers obtained from each other. Encryption/decryption data communication of large amount of data at high speed through an ATYPICAL symmetric key (PRIVATE KEY) through a private network;

Alice PNI QUANTUM SERVER transmits emergency disaster text messages to Bob PNI QUANTUM SERVER, and Bob PNI QUANTUM SERVER is a broadcasting device that converts the received emergency text messages to electronic signboards or TTS (Text to Speech) and broadcasts them through speakers. In broadcasting using a surveillance camera system for security that includes,
Alice PNI QUANTUM SERVER is characterized by being composed of emergency text message broadcasting automatic mode, manual mode, and approval mode selection switch,
When the selection switch is in automatic mode, when an emergency message is received, it is displayed in real time through the electric signboard among the broadcasting devices connected to Bob PNI QUANTUM SERVER;
When the selection switch is in manual mode, when an emergency message is received, it is displayed in real time through the electric signboard among the broadcasting devices connected to the Bob PNI QUANTUM SERVER when approved by the manager or through a synchronization smartphone;
When the selection switch is in the approval mode, when the emergency text message is received and approved by the manager through the synchronization smartphone, the Bob PNI QUANTUM SERVER converts the emergency text message into TTS (Text to Speech) and broadcasts it through the speaker. Civil defense warning dissemination guideline expression using electronic display board of the Ministry of Public Administration and Security using the internal network of surveillance camera for security surveillance.
PNI QUANTUM SERVER is divided into Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected by private network, Alice PNI QUANTUM SERVER is installed inside the control center, and Bob PNI QUANTUM SERVER is installed inside the emergency bell integrated enclosure,

The emergency bell integrated enclosure has a camera installed at the top of the enclosure for preventing blind spots on the top of the enclosure; The inside of the emergency bell integrated enclosure is composed of a switch hub, a power supply unit, a broadcasting device, a digital video recorder (DVR), and a Bob PNI QUANTUM SERVER; The power supply unit converts AC power to DC; The video captured by the security surveillance camera is transmitted to the control center through the switch hub for real-time monitoring; The captured image of the upper camera of the enclosure is stored in a digital video recorder (DVR); An emergency bell button is inserted in the front of the integrated emergency bell enclosure, and when the emergency bell button is operated, in opening a two-way call with Alice QUANTUM SERVER inside the integrated crime prevention center,

Alice OTP QUANTUM Edge SERVER and Bob inside Alice PNI QUANTUM SERVER Bob inside OTP QUANTUM Edge SERVER Alice PRNG and Bob PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudo-random number. Same OTP PRIVATE KEY as seed. generate;
Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network log in;
Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and sends it to Bob TLS Edge SERVER, Bob TLS Edge The quantum random number Bob QRN generated by Bob QRNG inside the SERVER is encrypted with the OTP PRIVATE KEY and sent to the Alice TLS Edge SERVER, and after mutually exchanging the Alice/Bob QRN quantum random numbers, decrypts it with the OTP PRIVATE KEY, and Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY with the same key generation program using Alice QRN quantum random number and Bob QRN quantum random number seed obtained by exchanging each other, and encrypts/decrypts civil defense/disaster forecasting and warning data with Atypical PRIVATE KEY through its own network A civil defense disaster forecasting and warning broadcasting method for displaying civil defense warning propagation guidelines using the electronic display board of the Ministry of Public Administration and Security using the internal network of surveillance cameras for data communication.
The emergency bell integrated enclosure is equipped with a camera at the top of the enclosure for preventing blind spots at the top of the enclosure, and a camera at the top of the enclosure with a surveillance fixed camera function for preventing blind spots is installed; Emergency bell An emergency bell button is inserted on the front of the integrated enclosure, and when the emergency bell button is operated, it is composed of two-way communication with Alice PNI QUANTUM SERVER inside the integrated crime prevention center; The communication line and the power line are introduced through the lower inlet of the emergency bell integrated enclosure, and are connected to the security surveillance camera through the upper outlet; The inside of the emergency bell integrated enclosure is composed of a switch hub, a power supply unit, a broadcasting device, a digital video recorder (DVR), and a Bob PNI QUANTUM SERVER; The power supply unit includes a surge protector to convert AC power to DC and supply it to each unit; The video captured by the security surveillance camera is transmitted to the integrated crime prevention center through the switch hub for real-time monitoring; The captured image of the upper camera of the enclosure is stored in a digital video recorder (DVR);

The wireless integrated enclosure has a camera installed at the top of the enclosure that monitors all directions at the top of the enclosure; Communication lines and power lines are introduced through the lower inlet of the wireless integrated enclosure; It is connected to a security surveillance camera or electronic display board through an upper outlet; The inside of the wireless integrated enclosure is composed of a power supply, broadcasting device, digital video recorder (DVR), and Eve PNI QUANTUM SERVER; The power supply unit includes a surge protector to convert AC power to DC and supply it to each unit; An emergency bell button is inserted in the front of the wireless integrated enclosure, and when the emergency bell button is operated, the Eve OTP QUANTUM Edge SERVER connects to the Bob OTP QUANTUM Edge SERVER and the network through the unlicensed frequency wireless self-network, and then interacts with Alice PNI QUANTUM SERVER inside the integrated crime prevention center. configure a currency path; The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives the emergency disaster text message and transmits it to the Eve OTP QUANTUM Edge SERVER through a wireless repeater connected to the unlicensed frequency private network. Broadcast via presentation or TTS; The video taken by the surveillance camera for security or the top camera of the enclosure connected to the wireless integrated enclosure is stored in a digital video recorder (DVR); When the Alice PNI QUANTUM SERVER receives the captured image stored in the digital video recorder (DVR) inside the wireless integrated enclosure, it controls the Bob OTP Edge SERVER inside the Bob PNI QUANTUM SERVER to receive the captured image from the Eve OTP QUANTUM Edge SERVER; Alice PNI QUANTUM SERVER transmits the emergency text message received from the disaster situation room QUANTUM SERVER to Bob PNI QUANTUM SERVER inside the emergency bell integrated enclosure connected to the network; Bob PNI QUANTUM SERVER converts the received emergency text to TTS and broadcasts it through the broadcasting device or expresses the emergency text message through the electronic signboard,
Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER and Eve OTP QUANTUM Edge SERVER's Alice PRNG, Bob PRNG and Eve PRNG are PRNGs that generate the same pseudo-random number, the same OTP as the pseudo-random number as the seed, the same OTP that generates the PRIVATE KEY PRIVATE KEY step;
Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network Alice/Bob login step to log in;
Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual network Bob/Eve login step to log in;
Alice OTP QUANTUM Edge SERVER transmits emergency disaster text messages to Bob OTP QUANTUM Edge SERVER connected to the network, and Bob OTP QUANTUM Edge SERVER converts the received emergency text messages into TTS and broadcasts them through a broadcasting device or signs an emergency disaster text message. and Bob OTP QUANTUM Edge SERVER transmits to Eve OTP QUANTUM Edge SERVER connected to unlicensed frequency wireless network, Eve OTP QUANTUM Edge SERVER receives emergency disaster text and displays through signage or broadcasts through TTS step;
Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and sends it to Bob TLS Edge SERVER, Bob TLS Edge The quantum random number Bob QRN generated by Bob QRNG inside the SERVER is encrypted with the OTP PRIVATE KEY and sent to the Alice TLS Edge SERVER, and after mutually exchanging the Alice/Bob QRN quantum random numbers, decrypts it with the OTP PRIVATE KEY, and Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY with the same key generation program using Alice QRN quantum random number and Bob QRN quantum random number seed obtained by exchanging each other, and uses the Atypical PRIVATE KEY through the network to communicate encryption/decryption data. Alice/Bob Atypical PRIVATE KEY stage;
Bob/Eve TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Eve TLS Edge SERVER, Eve TLS Edge Eve QRN, the quantum random number generated by Eve QRNG inside the SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Bob TLS Edge SERVER, and after mutually exchanging the Bob/Eve QRN quantum random numbers, it is decrypted with the OTP PRIVATE KEY, and the Bob/Eve TLS Edge Bob QRN quantum random number and Eve QRN quantum random number seed obtained by exchanging each other, and generating the same Atypical PRIVATE KEY with the same key generation program, Bob/Eve Atypical PRIVATE that communicates encryption/decryption data with the Atypical PRIVATE KEY through the network KEY stage;
Eve TLS Edge SERVER receives video data taken from surveillance cameras and transmits it to Bob TLS Edge SERVER connected to unlicensed frequency wireless network, and Bob TLS Edge SERVER transmits the received video data to Alice TLS Edge SERVER. Publication of civil defense warning propagation guidelines using the electronic display board of the Ministry of Public Administration and Security using the internal network of surveillance cameras for security purposes.
The multi-use facility connection server transmits alarm broadcasting data to the multi-use facility alarm terminal and Alice PNI QUANTUM SERVER connected through its own network;
Alice PNI QUANTUM SERVER receives alarm broadcasting data from multi-use facility connection server, and receives emergency disaster text data from disaster control room QUANTUM SERVER;
Alice PNI QUANTUM SERVER transmits the alarm broadcasting data and emergency text data to Bob PNI QUANTUM SERVER inside an emergency bell integrated enclosure connected to its own network;
Bob PNI QUANTUM SERVER broadcasts the received alarm broadcasting data through a broadcasting device, receives image data taken from a security surveillance camera, and transmits it to Alice PNI QUANTUM SERVER;

Alice PRNG of Alice OTP QUANTUM Edge SERVER inside Alice PNI QUANTUM SERVER and Bob PRNG of Bob OTP QUANTUM Edge SERVER inside Bob PNI QUANTUM SERVER are PRNGs that generate the same pseudo-random number, and the same OTP PRIVATE KEY is used as the seed. generate;
Alice QRNG of Alice OTP QUANTUM Edge SERVER and Bob QRNG of OTP QUANTUM Edge SERVER generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them, encrypt OTP PRIVATE KEY with the other PUBLIC KEY and retransmit , Alice/Bob OTP QUANTUM Edge SERVER that decrypts and logs in to the mutual network if it is the same OTP PRIVATE KEY;

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER;
Bob QRN, the quantum random number generated by Bob QRNG inside the Bob TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER to exchange the Alice/Bob QRN quantum random numbers and decrypt with the OTP PRIVATE KEY;
Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed acquired by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through its own network. ;

The wireless integrated hull has four hull top cameras that monitor 90 degrees in all directions at the top of the enclosure;
The communication line and the power line are introduced through the lower inlet of the wireless integrated enclosure, and connected to the surveillance camera for security through the upper outlet;
The inside of the wireless integrated enclosure is composed of a power supply unit, broadcasting device, digital video recorder (DVR), and Eve OTP QUANTUM Edge SERVER, and Bob OTP QUANTUM Edge SERVER and Eve OTP QUANTUM Edge SERVER are license-exempt wireless communication after logging in with the same OTP PRIVATE KEY Includes a frequency wireless communication device;
The power unit includes an electric meter and a surge protector to convert AC power into DC and supply it to each unit;
An emergency bell button is inserted in the front of the wireless integrated enclosure, and when the emergency bell button is operated, Eve OTP QUANTUM Edge SERVER connects with Bob OTP QUANTUM Edge SERVER through the unlicensed frequency wireless self-network and then connects with Alice OTP QUANTUM Edge SERVER inside the integrated crime prevention center. Configurable as a two-way call and operating a warning light;
The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives the emergency text message and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency private network, and the Eve OTP QUANTUM Edge SERVER broadcasts the emergency text data;
The video captured by the surveillance camera for security or the top camera of the enclosure connected to the wireless integrated enclosure is stored in a digital video recorder (DVR);
Alice OTP Edge SERVER controls the Bob OTP Edge SERVER inside the Bob PNI QUANTUM SERVER to receive the recorded video from the Eve OTP QUANTUM Edge SERVER when receiving the recorded video stored in the digital video recorder (DVR) inside the wireless integrated enclosure The Ministry of Public Administration and Security "Civil Defense Alert Propagation Guidelines Using Electronic Display Board" display electronic display board and civil defense/disaster warning broadcast performance improvement CCTV system for crime prevention including emergency bell integrated enclosure.
Emergency bell integrated enclosure including Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected to the network by wired private network inside the integrated crime prevention center, and Eve PNI QUANTUM SERVER connected to network by emergency bell integrated enclosure and unlicensed frequency wireless private network It consists of a wireless integrated enclosure,

PNI QUANTUM SERVER consists of OTP QUANTUM Edge SERVER and TLS Edge SERVER, and is distinguished as Alice PNI QUANTUM SERVER, Bob PNI QUANTUM SERVER, and Eve PNI QUANTUM SERVER; and
Alice PRNG and Bob inside Alice OTP QUANTUM Edge SERVER inside PNI QUANTUM SERVER Bob PRNG and Eve inside OTP QUANTUM Edge SERVER PRNG and Eve PRNG inside OTP QUANTUM Edge SERVER are PRNGs that generate the same pseudo-random number, and the same OTP pseudo-random number is used as the seed. generate the same OTP PRIVATE KEY; and
Alice QRNG inside PNI QUANTUM SERVER Alice QRNG inside TLS QUANTUM Edge SERVER Bob QRNG inside TLS QUANTUM Edge SERVER and Eve QRNG inside TLS QUANTUM Edge SERVER Eve QRNG inside TLS QUANTUM Edge SERVER are QRNGs that generate random quantum random numbers with quantum random numbers as seeds. Generates an Atypical PRIVATE KEY;

The camera is divided into a security surveillance camera installed at the top of the pole, an emergency bell integrated enclosure coupled in the middle of the pole, and 4 to 8 cameras installed at the top of the wireless integrated enclosure enclosure;

The emergency bell integrated enclosure has a structure that combines the left block and the right block with a security surveillance camera pole installed locally in the middle. A total of eight cameras are installed on the top of the enclosure with a 360-degree surveillance fixed camera function for blind spots by installing camera sets that monitor 90 degrees in all directions in a two-unit set on four sides;
An emergency bell button is inserted in the front of the integrated enclosure, and when the emergency bell button is operated, it is configured as a two-way call with the integrated crime prevention center and a warning light operates;
The communication line and the power line are introduced through the lower inlet of the emergency bell integrated enclosure, and are connected to the surveillance camera for security through the upper outlet;
The inside of the emergency bell integrated enclosure is composed of a switch hub, a power supply unit, a broadcasting device, a digital video recorder (DVR), and a Bob PNI QUANTUM SERVER.
The power supply unit includes an electric meter and a surge protector to convert AC power into DC and supply it to each unit;
The video taken by the security surveillance camera is transmitted to the integrated crime prevention center through the switch hub for real-time monitoring;
The captured image of the upper camera of the enclosure is stored in a digital video recorder (DVR);

In the wireless integrated enclosure, 4 low focal length cameras with relatively low focus compared to high focal length cameras that monitor each 90 degree omnidirectional are installed on the top of the enclosure;
The communication line and the power line are introduced through the lower inlet of the wireless integrated enclosure, and connected to the surveillance camera for security through the upper outlet;
The inside of the wireless integrated enclosure is composed of a power supply unit, a broadcasting device, a digital video recorder (DVR), and Eve PNI QUANTUM SERVER, and Eve PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER include unlicensed frequency wireless communication devices;
The power supply unit includes an electric meter and a surge protector to convert AC power into DC and supply it to each unit;
An emergency bell button is inserted in the front of the wireless integrated enclosure, and when the emergency bell button is operated, Eve OTP QUANTUM Edge SERVER connects with Bob OTP QUANTUM Edge SERVER through the unlicensed frequency wireless self-network and then connects with Alice OTP QUANTUM Edge SERVER inside the integrated crime prevention center. Configurable as a two-way call and operating a warning light;

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives the emergency disaster text message and transmits it to the Eve OTP QUANTUM Edge SERVER through a wireless repeater connected to the unlicensed frequency private network. Broadcast via presentation or TTS;
The video captured by the surveillance camera for security or the top camera of the enclosure connected to the wireless integrated enclosure is stored in a digital video recorder (DVR);
When the Alice TLS Edge SERVER receives the captured image stored in the digital video recorder (DVR) inside the wireless integrated enclosure, it controls the Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER to receive the captured image from the Eve TLS Edge SERVER;

Alice PNI QUANTUM SERVER transmits the emergency text message received from the disaster situation room QUANTUM SERVER to Bob PNI QUANTUM SERVER inside the emergency bell integrated enclosure connected to the network;
Bob PNI QUANTUM SERVER converts the received emergency text to TTS and broadcasts it through the broadcasting device or expresses the emergency text message through the electronic signboard,

Alice OTP QUANTUM Edge SERVER and Bob inside Alice PNI QUANTUM SERVER Bob inside OTP QUANTUM Edge SERVER Alice PRNG and Bob PRNG inside Alice PNI QUANTUM SERVER are PRNGs that generate the same pseudo-random number. Same OTP PRIVATE KEY as seed. generate;
Alice QRNG of Alice OTP QUANTUM Edge SERVER and Bob QRNG of OTP QUANTUM Edge SERVER generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them, encrypt OTP PRIVATE KEY with the other PUBLIC KEY and retransmit , Alice/Bob OTP QUANTUM Edge SERVER that decrypts and logs in to the mutual network if it is the same OTP PRIVATE KEY;

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER;
Bob QRN, the quantum random number generated by Bob QRNG inside the Bob TLS Edge SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER to exchange the Alice/Bob QRN quantum random numbers and decrypt with the OTP PRIVATE KEY;
Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRN quantum random number seed obtained by exchanging each other, and communicates encryption/decryption data with Atypical PRIVATE KEY through the network. ;

The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives the emergency disaster text message and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency network. broadcast,
Eve TLS Edge SERVER receives the video data taken from the top camera or security surveillance camera of the enclosure and transmits it to the Bob PNI QUANTUM SERVER internal Bob TLS Edge SERVER connected to the unlicensed frequency wireless network;
The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received video data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER;

Eve TLS Edge SERVER receives speeding vehicle video data and vehicle speed data from speed cameras and transmits them to Bob PNI QUANTUM SERVER internal Bob TLS Edge SERVER connected to unlicensed frequency wireless network;
The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received video data of the speeding vehicle and the vehicle speed data to the Alice TLS Edge SERVER inside the Alice PNI QUANTUM SERVER;
The Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER transmits the received vehicle speed data to the Bob OTP QUANTUM Edge SERVER and transmits it to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network. A CCTV system for crime prevention including an electronic display board displaying "Civil Defense Alert Propagation Guidelines Using Electronic Display Board" by the Ministry of Public Administration and Security, characterized in that it expresses vehicle speed, and an emergency bell integrated enclosure for improving civil defense/disaster warning broadcasting performance.
Inside the integrated crime prevention center Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected to the network by wired self-network Emergency bell integrated enclosure including Bob PNI QUANTUM SERVER connected to emergency bell integrated enclosure and Eve PNI connected to network by unlicensed frequency wireless self-network with Bob PNI QUANTUM SERVER inside the enclosure It consists of a wireless integrated enclosure including QUANTUM SERVER,

Emergency bell all-in-one hull consists of 2 high focal length cameras and 2 low focal length cameras at the top of the enclosure, and a total of 8 hulls with 360 degree surveillance fixed camera function for preventing blind spots by installing camera sets that monitor 90 degrees in all directions on 4 sides A top camera is installed;
An emergency bell button is inserted on the front of the integrated enclosure, and when the emergency bell button is operated, it constitutes a two-way call with Alice OTP QUANTUM Edge SERVER inside the integrated crime prevention center;
The communication line and the power line are introduced through the lower inlet of the emergency bell integrated enclosure, and are connected to the surveillance camera for security through the upper outlet;
The inside of the emergency bell integrated enclosure is composed of a switch hub, a power supply unit, a broadcasting device, a digital video recorder (DVR), and a Bob PNI QUANTUM SERVER.
The power supply unit includes a surge protector to convert AC power into DC and supply it to each unit;
The video taken by the security surveillance camera is transmitted to the integrated crime prevention center through the switch hub for real-time monitoring;
The captured image of the upper camera of the enclosure is stored in a digital video recorder (DVR);

The wireless integrated hull is equipped with four low-focal-length upper hull cameras that monitor 90 degrees in all directions at the top of the hull;
The communication line and the power line are introduced through the lower inlet of the wireless integrated enclosure, and connected to the security surveillance camera or the electronic display board through the upper outlet;
The inside of the wireless integrated enclosure is composed of a power supply unit, a broadcasting device, a digital video recorder (DVR), and an Eve PNI QUANTUM SERVER;
The power supply unit includes a surge protector to convert AC power into DC and supply it to each unit;
An emergency bell button is inserted in the front of the wireless integrated enclosure, and when the emergency bell button is operated, Eve OTP QUANTUM Edge SERVER connects with Bob OTP QUANTUM Edge SERVER through the unlicensed frequency wireless self-network and then connects with Alice OTP QUANTUM Edge SERVER inside the integrated crime prevention center. configure a two-way communication path;
The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives the emergency disaster text message and transmits it to the Eve OTP QUANTUM Edge SERVER through a wireless repeater connected to the unlicensed frequency private network. Broadcast via presentation or TTS;
The video captured by the surveillance camera for security or the top camera of the enclosure connected to the wireless integrated enclosure is stored in a digital video recorder (DVR);
When the Alice TLS Edge SERVER receives the captured image stored in the digital video recorder (DVR) inside the wireless integrated enclosure, it controls the Bob TLS Edge SERVER inside the Bob PNI QUANTUM SERVER to receive the captured image from the Eve TLS Edge SERVER;

Alice PNI QUANTUM SERVER transmits the emergency text message received from the disaster situation room QUANTUM SERVER to Bob PNI QUANTUM SERVER inside the emergency bell integrated enclosure connected to the network, Bob PNI QUANTUM SERVER converts the received emergency text message into TTS and broadcasts the device In expressing broadcasting or emergency disaster texts through electronic signboards through
Alice OTP QUANTUM Edge SERVER, Bob OTP QUANTUM Edge SERVER, and Eve OTP QUANTUM Edge SERVER's Alice PRNG, Bob PRNG, and Eve PRNG are PRNGs that generate the same pseudorandom number, and generate the same OTP PRIVATE KEY with the same OTP pseudorandom number as the seed;
Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network Alice/Bob OTP QUANTUM Edge SERVER logging in;
Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual network Bob/Eve OTP QUANTUM Edge SERVER logging in;

In the log-in state, Alice OTP QUANTUM Edge SERVER transmits an emergency disaster message to Bob OTP QUANTUM Edge SERVER connected to the network;
Bob OTP QUANTUM Edge SERVER converts the received emergency text to TTS and displays it through a broadcasting device or an emergency text message through an electronic signboard;
The Bob OTP QUANTUM Edge SERVER transmits to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network, and the Eve OTP QUANTUM Edge SERVER receives the emergency disaster text message and displays it through the display board or broadcasts it through TTS;

Alice/Bob TLS Edge SERVER encrypts the quantum random number Alice QRN generated by Alice QRNG inside Alice TLS Edge SERVER with OTP PRIVATE KEY to generate the same Alice/Bob Atypical PRIVATE KEY and transmits it to Bob TLS Edge SERVER;
The quantum random number Bob QRN generated by Bob QRNG inside the Bob TLS Edge SERVER is encrypted with the OTP PRIVATE KEY and transmitted to the Alice TLS Edge SERVER, and the Alice/Bob QRN quantum random numbers are mutually exchanged and then decrypted with the OTP PRIVATE KEY;
The Alice/Bob TLS Edge SERVER generates the same Alice/Bob Atypical PRIVATE KEY by using the same key generation program with Alice QRN quantum random number and Bob QRNG quantum random number seed acquired by exchanging each other, and converts them into Alice/Bob Atypical PRIVATE KEY through the network. communicate encryption/decryption data;
Bob/Eve TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Bob/Eve Atypical PRIVATE KEY and transmits it to Eve TLS Edge SERVER;
Eve QRN, the quantum random number generated by Eve QRNG inside Eve TLS Edge SERVER, is encrypted with OTP PRIVATE KEY and transmitted to Bob TLS Edge SERVER, and Bob/Eve QRN quantum random numbers are mutually exchanged and then decrypted with OTP PRIVATE KEY;
The Bob/Eve TLS Edge SERVER generates Bob/Eve Atypical PRIVATE KEY identical to each other by using the same key generation program with Bob QRN quantum random number and Eve QRNG quantum random number seed obtained by exchanging each other, and converts it to Bob/Eve Atypical PRIVATE KEY through the network. communicate encryption/decryption data;

Eve TLS Edge SERVER receives video data taken from surveillance cameras and transmits it to Bob TLS Edge SERVER connected to unlicensed frequency wireless network;
Bob TLS Edge SERVER transmits the received image data to Alice TLS Edge SERVER. Ministry of Public Administration and Security "Civil Defense Alert Propagation Guidelines Using Electronic Display Board" display electronic display board and civil defense/disaster warning broadcasting performance improvement emergency bell all-in-one enclosure CCTV system for crime prevention.
Emergency bell integrated enclosure including Alice QUANTUM SERVER and Bob PNI QUANTUM SERVER connected to the network through wired private network inside the integrated crime prevention center and Eve PNI QUANTUM connected to the network through unlicensed frequency wireless private network with Bob PNI QUANTUM SERVER inside the emergency bell integrated enclosure It is composed of a wireless integrated enclosure including a server,

The emergency bell integrated hull is equipped with 4 or more blind spot prevention hull top cameras installed on the upper 4 sides of the hull, and 360-degree surveillance fixed camera function hull top cameras for blind spots are installed; Emergency bell An emergency bell button is inserted in the front of the integrated enclosure, and when the emergency bell button is operated, it is composed of two-way communication with Alice QUANTUM SERVER inside the integrated crime prevention center; The communication line and the power line are introduced through the lower inlet of the emergency bell integrated enclosure, and are connected to the security surveillance camera through the upper outlet; The inside of the emergency bell integrated enclosure is composed of a switch hub, a power supply unit, a broadcasting device, a digital video recorder (DVR), and a Bob PNI QUANTUM SERVER; The power supply unit includes a surge protector to convert AC power to DC and supply it to each unit; The video captured by the security surveillance camera is transmitted to the integrated crime prevention center through the switch hub for real-time monitoring; The captured image of the upper camera of the enclosure is stored in a digital video recorder (DVR);

The wireless integrated hull has four hull top cameras that monitor 90 degrees in all directions at the top of the hull; Communication lines and power lines are introduced through the lower inlet of the wireless integrated enclosure; It is connected to a security surveillance camera or electronic display board through an upper outlet; The inside of the wireless integrated enclosure is composed of a power supply, broadcasting device, digital video recorder (DVR), and Eve PNI QUANTUM SERVER; The power supply unit includes a surge protector to convert AC power to DC and supply it to each unit; An emergency bell button is inserted in the front of the wireless integrated enclosure, and when the emergency bell button is operated, Eve OTP QUANTUM Edge SERVER connects to Bob OTP QUANTUM Edge SERVER through the private wireless network without a license, and then makes a two-way call with Alice QUANTUM SERVER inside the integrated crime prevention center. configure a furnace; The Bob PNI QUANTUM SERVER's internal Bob OTP QUANTUM Edge SERVER receives the emergency disaster text message and transmits it to the Eve OTP QUANTUM Edge SERVER through a wireless repeater connected to the unlicensed frequency private network. Broadcast via presentation or TTS; The video taken by the surveillance camera for security or the top camera of the enclosure connected to the wireless integrated enclosure is stored in a digital video recorder (DVR); When Alice QUANTUM SERVER receives the captured image stored in the digital video recorder (DVR) inside the wireless integrated enclosure, it controls the Bob OTP Edge SERVER inside Bob PNI QUANTUM SERVER to receive the captured image from Eve OTP QUANTUM Edge SERVER; Alice QUANTUM SERVER transmits the emergency text message received from the disaster situation room QUANTUM SERVER to Bob PNI QUANTUM SERVER inside the emergency bell integrated enclosure connected to the network; Bob PNI QUANTUM SERVER converts the received emergency text to TTS and broadcasts it through the broadcasting device or expresses the emergency text message through the electronic signboard,

Alice QUANTUM SERVER and Bob OTP QUANTUM Edge SERVER and Eve OTP QUANTUM Edge SERVER's Alice PRNG, Bob PRNG and Eve PRNG are PRNGs that generate the same pseudo-random number, and generate the same OTP PRIVATE KEY with the same OTP pseudo-random number as the seed;
Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and in case of the same OTP PRIVATE KEY, mutual network Alice/Bob OTP QUANTUM Edge SERVER logging in;
Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt and retransmit the OTP PRIVATE KEY with the other PUBLIC KEY, decrypt it, and if it is the same OTP PRIVATE KEY, mutual network Bob/Eve OTP QUANTUM Edge SERVER logging in;

In the log-in state, Alice QUANTUM SERVER transmits an emergency disaster message to Bob OTP QUANTUM Edge SERVER connected to the network;
Bob OTP QUANTUM Edge SERVER converts the received emergency text to TTS and displays it through a broadcasting device or an emergency text message through an electronic signboard;
The Bob OTP QUANTUM Edge SERVER transmits to the Eve OTP QUANTUM Edge SERVER connected to the unlicensed frequency wireless network, and the Eve OTP QUANTUM Edge SERVER receives the emergency disaster text message and displays it through the display board or broadcasts it through TTS;

Bob/Eve TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and transmits it to Eve TLS Edge SERVER;
Eve QRN, the quantum random number generated by Eve QRNG inside Eve TLS Edge SERVER, is encrypted with OTP PRIVATE KEY and transmitted to Bob TLS Edge SERVER, and Bob/Eve QRN quantum random numbers are mutually exchanged and decrypted with OTP PRIVATE KEY;
The Bob/Eve TLS Edge SERVER generates the same Atypical PRIVATE KEY with the same key generation program using the Bob QRN quantum random number and Eve QRN quantum random number seed obtained by exchanging each other, and communicates encryption/decryption data with the Atypical PRIVATE KEY through the network. ;

Eve TLS Edge SERVER receives video data taken from surveillance cameras and transmits it to Bob TLS Edge SERVER connected to unlicensed frequency wireless network;
When Bob TLS Edge SERVER transmits the received video data to Bob OTP QUANTUM Edge SERVER, Bob OTP QUANTUM Edge SERVER transmits to Alice QUANTUM SERVER Civil defense/disaster forecasting and warning broadcast performance improvement including emergency bell integrated enclosure CCTV system for crime prevention.
Inside the integrated crime prevention center, it is composed of an emergency bell integrated enclosure including Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected to the network by wired private network,
The emergency bell integrated hull has four or more blind spot prevention hull top cameras installed on four sides at the top of the enclosure, and the hull top camera with 360-degree surveillance fixed camera function for blind spots is installed;
Emergency bell The emergency bell button is inserted in the front of the integrated enclosure, and when the emergency bell button is operated, it is composed of two-way communication with Alice PNI QUANTUM SERVER inside the integrated crime prevention center;
The communication line and the power line are introduced through the lower inlet of the emergency bell integrated enclosure, and are connected to the surveillance camera for security through the upper outlet;
The inside of the emergency bell integrated enclosure consists of a switch hub, a power supply unit, a broadcasting device, a digital video recorder (DVR), and a Bob PNI QUANTUM SERVER;
The power supply unit includes a surge protector to convert AC power into DC and supply it to each unit;
The video taken by the security surveillance camera is transmitted to the integrated crime prevention center through the switch hub for real-time monitoring;
The captured image of the upper camera of the enclosure is stored in a digital video recorder (DVR);

Alice OTP QUANTUM Edge SERVER and Bob OTP QUANTUM Edge SERVER's Alice PRNG and Bob PRNG are PRNGs that generate the same pseudo-random number, and generate the same OTP PRIVATE KEY with the same OTP pseudo-random number as the seed. Alice QRNG and Bob QRNG are different quantum Alice PUBLIC KEY and Bob PUBLIC KEY are generated with random numbers as seeds, exchanged with each other, and the OTP PRIVATE KEY is encrypted and retransmitted with the other PUBLIC KEY, then decrypted and logged into the mutual network if it is the same OTP PRIVATE KEY;
In the log-in state, when Alice OTP QUANTUM Edge SERVER transmits emergency disaster alarm data or civil defense alarm data to Bob OTP QUANTUM Edge SERVER connected to the network, Bob OTP QUANTUM Edge SERVER broadcasts the received alarm data;
Alice/Bob TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY and sends it to Alice TLS Edge SERVER, Alice TLS Edge Alice QRN, the quantum random number generated by Alice QRNG inside the SERVER, is encrypted with the OTP PRIVATE KEY and transmitted to the Bob TLS Edge SERVER. After mutually exchanging the Alice/Bob QRN quantum random numbers, decrypts it with the OTP PRIVATE KEY, and Alice/Bob TLS Edge SERVER generates the same Atypical PRIVATE KEY with the same key generation program using the Bob QRN quantum random number and Alice QRN quantum random number seeds acquired by exchanging each other, and communicates encryption/decryption data with the Atypical PRIVATE KEY through the network. A CCTV system for crime prevention that includes a bell-integrated enclosure.
Emergency bell integrated enclosure including Alice QUANTUM SERVER and Bob PNI QUANTUM SERVER connected to the network through wired private network inside the integrated crime prevention center and Eve PNI QUANTUM connected to the network through unlicensed frequency wireless private network with Bob PNI QUANTUM SERVER inside the emergency bell integrated enclosure It is composed of a wireless integrated enclosure including a server,
The emergency bell integrated enclosure has a camera installed at the top of the enclosure for preventing blind spots on the top of the enclosure; Emergency bell An emergency bell button is inserted in the front of the integrated enclosure, and when the emergency bell button is operated, it is composed of two-way communication with Alice QUANTUM SERVER inside the integrated crime prevention center; The inside of the emergency bell integrated enclosure is composed of a switch hub, a broadcasting device, a digital video recorder (DVR), and a Bob PNI QUANTUM SERVER; The video captured by the security surveillance camera is transmitted to the integrated crime prevention center through the switch hub for real-time monitoring; The captured image of the upper camera of the enclosure is stored in a digital video recorder (DVR);

The wireless integrated enclosure has a camera installed at the top of the enclosure; The inside of the wireless integrated enclosure is composed of a broadcasting device, a digital video recorder (DVR), and an Eve PNI QUANTUM SERVER; An emergency bell button is inserted in the front of the wireless integrated enclosure, and when the emergency bell button is operated, Eve OTP QUANTUM Edge SERVER connects to Bob OTP QUANTUM Edge SERVER through the private wireless network without a license, and then makes a two-way call with Alice QUANTUM SERVER inside the integrated crime prevention center. In constructing the furnace,

Alice QUANTUM SERVER and Bob OTP QUANTUM Edge SERVER and Eve OTP QUANTUM Edge SERVER's Alice PRNG, Bob PRNG and Eve PRNG are PRNGs that generate the same pseudo-random number, and generate the same OTP PRIVATE KEY with the same OTP pseudo-random number as the seed;
Alice QRNG and Bob QRNG generate Alice PUBLIC KEY and Bob PUBLIC KEY with different quantum random numbers as seeds, exchange them with each other, encrypt OTP PRIVATE KEY with the other PUBLIC KEY and retransmit it, decrypt it, and if it is the same OTP PRIVATE KEY, wired network Alice/Bob OTP QUANTUM Edge SERVER logging in;
Bob QRNG and Eve QRNG generate Bob PUBLIC KEY and Eve PUBLIC KEY with different quantum random numbers as seeds, exchange them through the unlicensed frequency wireless network, encrypt the OTP PRIVATE KEY with the other PUBLIC KEY and retransmit it, then decrypt and retransmit the same OTP In the case of a PRIVATE KEY, it is a Bob/Eve OTP QUANTUM Edge SERVER that logs in to the unlicensed frequency wireless network;

In the log-in state, Alice QUANTUM Edge SERVER transmits an emergency disaster message to Bob OTP QUANTUM Edge SERVER connected to the network;
Bob OTP QUANTUM Edge SERVER converts the received emergency text to TTS and displays the broadcast or emergency text through signage through a smart emergency bell including a broadcasting device;
Bob OTP QUANTUM Edge SERVER transmits to Eve OTP QUANTUM Edge SERVER connected to unlicensed frequency wireless network, and Eve OTP QUANTUM Edge SERVER receives emergency disaster text and displays it through signage or broadcasts it through smart emergency bell including broadcasting device and;

Bob/Eve TLS Edge SERVER encrypts the quantum random number Bob QRN generated by Bob QRNG inside Bob TLS Edge SERVER with OTP PRIVATE KEY to generate the same Atypical PRIVATE KEY, and transmits it to Eve TLS Edge SERVER through unlicensed frequency wireless network. ;
Eve QRN, the quantum random number generated by Eve QRNG inside Eve TLS Edge SERVER, is encrypted with OTP PRIVATE KEY and transmitted to Bob TLS Edge SERVER through unlicensed frequency wireless network, Bob/Eve QRN quantum random numbers are mutually exchanged, and then decrypted with OTP PRIVATE KEY and;
Bob/Eve TLS Edge SERVER generates the same Atypical PRIVATE KEY with the same key generation program using the Bob QRN quantum random number and Eve QRN quantum random number seed obtained by exchanging each other, and encrypts/decrypts with the Atypical PRIVATE KEY through the unlicensed frequency wireless network. By data communication,
Eve TLS Edge SERVER receives video data taken from surveillance cameras and transmits it to Bob TLS Edge SERVER connected to unlicensed frequency wireless network;
When the Bob TLS Edge SERVER transmits the received video data to the Bob OTP QUANTUM Edge SERVER, the Bob OTP QUANTUM Edge SERVER transmits it to the Alice QUANTUM SERVER. A security CCTV system including an emergency bell integrated enclosure.
Emergency bell integrated enclosure including Alice QUANTUM SERVER and Bob QUANTUM SERVER connected to the network by wired private network inside the integrated crime prevention center, including Bob QUANTUM SERVER inside the emergency bell integrated enclosure and Eve QUANTUM SERVER connected to the network by unlicensed frequency wireless private network It consists of a wireless integrated enclosure that

The emergency bell integrated enclosure is equipped with a camera at the top of the enclosure with a fixed camera function for blind spots, consisting of a high focal length camera and two low focal length cameras;
An emergency bell button is inserted on the front of the integrated enclosure, and when the emergency bell button is operated, it constitutes a two-way call with Alice QUANTUM SERVER inside the integrated crime prevention center;
The communication line and the power line are introduced through the lower inlet of the emergency bell integrated enclosure, and are connected to the surveillance camera for security through the upper outlet;
The inside of the emergency bell integrated enclosure is composed of a switch hub, a power supply unit, a broadcasting device, a digital video recorder (DVR), and a Bob QUANTUM SERVER.
The power supply unit includes a surge protector to convert AC power into DC and supply it to each unit;
The video taken by the security surveillance camera is transmitted to the integrated crime prevention center through the switch hub for real-time monitoring;
The captured image of the upper camera of the enclosure is stored in a digital video recorder (DVR);

The wireless integrated enclosure has a camera installed at the top of the enclosure;
The communication line and the power line are introduced through the lower inlet of the wireless integrated enclosure, and connected to the security surveillance camera or the electronic display board through the upper outlet;
The inside of the wireless integrated enclosure is composed of a power supply unit, a broadcasting device, a digital video recorder (DVR), and an Eve QUANTUM SERVER;
The power supply unit includes a surge protector to convert AC power into DC and supply it to each unit;
An emergency bell button is inserted in the front of the wireless integrated enclosure, and when the emergency bell button is operated, Eve QUANTUM SERVER connects to Bob QUANTUM SERVER through the unlicensed frequency wireless private network and forms a two-way communication path with Alice QUANTUM SERVER inside the integrated crime prevention center. ;

Bob QUANTUM SERVER receives emergency disaster text messages and transmits them to Eve QUANTUM SERVER through a wireless repeater connected to an unlicensed frequency private network, Eve QUANTUM SERVER displays emergency disaster text data through electronic display board or broadcasts through TTS;
The video captured by the surveillance camera for security or the top camera of the enclosure connected to the wireless integrated enclosure is stored in a digital video recorder (DVR);
Alice QUANTUM SERVER controls Bob QUANTUM SERVER to receive the captured image from Eve QUANTUM SERVER when receiving the captured image stored in the digital video recorder (DVR) inside the wireless integrated enclosure;
Alice QUANTUM SERVER transmits the emergency text message received from the disaster situation room QUANTUM SERVER to Bob QUANTUM SERVER inside the emergency bell integrated enclosure connected to the network;
Bob QUANTUM SERVER is a security CCTV system including an emergency bell integrated enclosure, characterized in that it converts the received emergency disaster text to TTS and displays it through a broadcasting device or an emergency disaster text message through an electronic display board.
Inside the integrated crime prevention center, it is composed of an emergency bell integrated enclosure including Alice PNI QUANTUM SERVER and Bob PNI QUANTUM SERVER connected to the network by wired private network,
The emergency bell integrated enclosure has a camera on the top of the enclosure with a fixed camera function installed at the top of the enclosure;
Emergency bell The emergency bell button is inserted in the front of the integrated enclosure, and when the emergency bell button is operated, it is composed of two-way communication with Alice PNI QUANTUM SERVER inside the integrated crime prevention center;
The communication line and the power line are introduced through the lower inlet of the emergency bell integrated enclosure, and are connected to the surveillance camera for security through the upper outlet;
The inside of the emergency bell integrated enclosure consists of a switch hub, a power supply unit, a broadcasting device, a digital video recorder (DVR), and a Bob PNI QUANTUM SERVER;
The power supply unit includes a surge protector to convert AC power into DC and supply it to each unit;
The video taken by the security surveillance camera is transmitted to the integrated crime prevention center through the switch hub for real-time monitoring;
A security CCTV system including an emergency bell integrated enclosure, characterized in that the photographed image of the camera at the top of the enclosure is stored in a digital video recorder (DVR).
Emergency bell integrated enclosure including Alice SERVER and Bob SERVER connected to the network by wired private network inside the integrated crime prevention center and wireless integrated enclosure including Bob SERVER inside the emergency bell integrated enclosure and Eve SERVER connected to the network by unlicensed frequency wireless private network consists of,

The emergency bell integrated enclosure consists of a high focal length camera and two low focal length cameras with a relatively short focal length compared to the high focal length camera. A total of 8 top cameras with fixed camera functions are installed;
An emergency bell button is inserted on the front of the integrated emergency bell enclosure, and when the emergency bell button is operated, it forms a two-way communication path with Alice SERVER inside the integrated crime prevention center;
The emergency bell integrated enclosure is composed of a broadcasting device, a digital video recorder (DVR), and a Bob SERVER inside;
The captured image of the upper camera of the enclosure is stored in a digital video recorder (DVR);

In the wireless integrated enclosure, four low focal length cameras are installed at the top of the enclosure with a relatively short focal length compared to the high focal length camera of the emergency bell integrated enclosure that monitors 90 degrees in all directions;
The inside of the wireless integrated enclosure is composed of a broadcasting device, a digital video recorder (DVR), and an Eve SERVER;
An emergency bell button is inserted in the front of the wireless integrated enclosure, and when the emergency bell button is operated, Eve SERVER connects to Bob SERVER through the unlicensed frequency wireless private network and forms a two-way communication path with Alice SERVER inside the integrated crime prevention center;
Eve SERVER stores the images taken by the camera on the top of the enclosure in a digital video recorder (DVR);

Bob SERVER receives disaster forecasting and warning data from Alice SERVER and broadcasts it through a broadcasting device and transmits it to Eve SERVER connected to an unlicensed frequency private network, Eve SERVER broadcasts disaster forecasting and warning data through a broadcasting device;
When Alice SERVER uploads the recorded video stored in the digital video recorder (DVR) inside the wireless integrated enclosure, the Bob SERVER connected to the wired network is controlled to receive the recorded video from the Eve SERVER connected to the wireless network. Emergency bell A CCTV system for crime prevention that includes an integrated enclosure.
Emergency bell integrated enclosure including Alice SERVER and Bob SERVER connected to the network by wired private network inside the integrated crime prevention center and wireless integrated enclosure including Bob SERVER inside the emergency bell integrated enclosure and Eve SERVER connected to the network by unlicensed frequency wireless private network consists of,

One or more cameras are installed at the top of the enclosure with a blind spot surveillance fixed camera function at the top of the emergency bell integrated enclosure;
An emergency bell button is inserted on the front of the integrated emergency bell enclosure, and when the emergency bell button is operated, it forms a two-way communication path with Alice SERVER inside the integrated crime prevention center;
The emergency bell integrated enclosure is composed of a broadcasting device, a digital video recorder (DVR), and a Bob SERVER inside;
The captured image of the upper camera of the enclosure is stored in a digital video recorder (DVR);

In the wireless integrated enclosure, one or more cameras are installed at the top of the enclosure to monitor all directions;
The inside of the wireless integrated enclosure is composed of a broadcasting device, a digital video recorder (DVR), and an Eve SERVER;
An emergency bell button is inserted in the front of the wireless integrated enclosure, and when the emergency bell button is operated, Eve SERVER connects to Bob SERVER through VPN (Virtual Private Network) through unlicensed frequency wireless private network, and then makes a two-way call with Alice SERVER inside the integrated crime prevention center constituting a furnace;
Eve SERVER is a security CCTV system that includes an emergency bell integrated enclosure, characterized in that it stores the image taken by the camera at the top of the enclosure in a digital video recorder (DVR).
The emergency bell all-in-one hull consists of a high focal length camera and a low focal length camera at the top of the enclosure, and a set of cameras that monitor 90 degrees in all directions are installed on four sides, so that a total of 8 emergency cameras with 360 degree surveillance fixed camera function for blind spots are installed. Bell cameras are installed;
The emergency bell integrated enclosure has an emergency bell button inserted, and when the emergency bell button is operated, it is configured as a two-way call with the integrated crime prevention center and a warning light operates;
The emergency bell integrated enclosure is composed of a switch hub, a power supply unit, a broadcasting device, an image storage memory, and an Eve SERVER, and Eve SERVER and Bob SERVER communicate through an unlicensed frequency wireless communication device;

The power unit converts commercial AC power into DC and supplies power to each part of the emergency bell integrated enclosure;
The video taken by the security surveillance camera is transmitted to the integrated crime prevention center through the switch hub for real-time monitoring;
The captured image of the emergency bell camera is stored in the image storage memory;

In the wireless integrated enclosure, four wireless cameras are installed at the top of the enclosure to monitor 90 degrees in all directions, each with low focal length cameras;
The wireless integrated enclosure is composed of a power supply unit, a broadcasting device, an image storage memory, and an Eve SERVER, and Eve SERVER and Bob SERVER communicate through an unlicensed frequency wireless communication device;
The power supply supplies power to each part of the wireless integrated enclosure through a commercial AC power source or a storage battery;

An emergency bell button is inserted in the front of the wireless integrated enclosure, and when the emergency bell button is operated, Eve SERVER connects to the Bob SERVER and the network through the unlicensed frequency wireless private network, and then opens with Alice SERVER inside the integrated crime prevention center through a two-way call. Civil defense/disaster warning smart emergency bell.
The smart emergency bell is composed of power supply, broadcasting device, push button, eye-level camera, and edge server.
Edge SERVER is an Alice SERVER inside the integrated crime prevention center and a wireless communication operator network; or
Edge SERVER is an integrated crime prevention center internal Alice SERVER and wired network; or
Edge SERVER is connected to wired network with Alice SERVER inside integrated crime prevention center through Bob SERVER connected by unlicensed frequency wireless private network;

The smart emergency bell is installed with one or more eye-level cameras monitoring 90-360 degrees each at the top of the enclosure;
The power supply unit supplies power to each unit of the smart emergency bell through commercial AC power or a storage battery;
The smart emergency bell has a push button installed on the front, and when the push button is operated, the internal Edge SERVER is a wired network network through a Bob SERVER connected to a wireless carrier network or a wired network or an unlicensed frequency wireless private network. Through the network, Alice SERVER inside the integrated crime prevention center is connected to the network through SSL-VPN certified by the National Intelligence Service or a dedicated line;

Edge SERVER is composed of civil defense/disaster warning security module, MMS control module, image storage memory, SSL-VPN, wireless communication modem,
The MMS (Multimedia Messaging Service) control module is composed of a microprocessor, stores the image taken by the eye-level camera in the image storage memory and converts the image taken by the eye-level camera into low-volume data under the control of the Alice SERVER inside the integrated crime prevention center After deducting data from the total amount of data of all subscriber terminals or exhausting the contract data, Alice Server receives it through the wireless communication provider network through the low-speed unlimited data plan;

The civil defense/disaster warning security module includes a security CPU (Central Processing Unit) and a control chip including a physical ON/OFF SWITCH dedicated to security access and a multi-Boot ROM dedicated to controlling the physical ON/OFF SWITCH dedicated to security access. composed of,
The security CPU (Central Processing Unit) boots up the multi-Boot ROM through the control chip after OTP (One-Time Programmable) authentication, and controls the physical ON/OFF switch dedicated to secure access to the ON SWITCH connection conversion TTS (text-to-speech) broadcasts the MMS text received from the Alice SERVER inside the integrated crime prevention center through the broadcasting device through
When the security CPU (Central Processing Unit) receives air raid/disaster risk siren MMS data from Alice SERVER inside the integrated crime prevention center, returns siren preliminary data after OTP (One-Time Programmable) authentication (Return Link Transmission) and, upon receipt of confirmation data return link transmission, civil defense/disaster forecasting and warning smart, characterized in that for broadcasting siren data through a broadcasting device through ON SWITCH access conversion control of a physical ON/OFF SWITCH dedicated to secure connection emergency bell.
The smart emergency bell consists of a broadcasting device, a push button, an eye-level camera, and an edge server.
Edge SERVER is an Alice SERVER inside the integrated crime prevention center and a wireless communication operator network; or
Edge SERVER is an integrated crime prevention center internal Alice SERVER and wired network; or
Edge SERVER is connected to wired network with Alice SERVER inside integrated crime prevention center through Bob SERVER connected by unlicensed frequency wireless private network;

The smart emergency bell is installed with one or more eye-level cameras monitoring 90-360 degrees each at the top of the enclosure;
The smart emergency bell has a push button installed on the front, and when the push button is operated, the internal Edge SERVER is a wired network through a Bob SERVER connected to a wireless carrier network or a wired network or an unlicensed frequency wireless private network. Through the network, it is connected to the Alice SERVER inside the integrated crime prevention center and the network;

Edge SERVER is composed of civil defense/disaster warning security module, MMS control module, image storage memory, wireless communication modem,
The MMS control module is composed of a microprocessor, which stores the image data taken by the eye-level camera as original high-capacity data in the image storage memory and converts the image data taken by the eye-level camera into low-capacity data compared to the original high-capacity data;
Alice SERVER receives data through an integrated rate system wireless communication provider network that deducts data from the low-speed unlimited data rate plan or the integrated data of all subscribed terminals after exhausting the basic data of the low-capacity data;

The civil defense/disaster warning security module is composed of a security CPU and a physical ON/OFF switch dedicated to secure access,
After authentication of Alice SERVER and OTP (One-Time Programmable), the security CPU converts the physical ON/OFF SWITCH dedicated to security access to ON SWITCH connection, and transmits the MMS text received from Alice SERVER inside the integrated crime prevention center through the broadcasting device to TTS (text- to-speech) broadcast; or
When the security CPU receives air raid/disaster risk siren MMS data from the Alice SERVER inside the integrated crime prevention center, after OTP (One-Time Programmable) authentication, the physical ON/OFF SWITCH dedicated to secure access is broadcast through ON SWITCH connection conversion control A smart emergency bell characterized by broadcasting siren data through a device.
The smart emergency bell consists of a broadcasting device, a push button, an eye-level camera, and an edge server.
Edge SERVER is an integrated crime prevention center internal Alice SERVER and wired network; or
Edge SERVER is connected to wired network with Alice SERVER inside integrated crime prevention center through Bob SERVER connected by unlicensed frequency wireless private network;

The smart emergency bell is installed with one or more eye-level cameras monitoring 90-360 degrees each at the top of the enclosure;
The smart emergency bell has a push button installed on the front, and when the push button is operated, the internal edge server is an integrated crime prevention center through any one of the wired network networks through the wired network network or the Bob SERVER connected to the unlicensed frequency wireless private network. Network connection with internal Alice SERVER;

Edge SERVER's civil defense/disaster warning security module is composed of security CPU and physical ON/OFF SWITCH dedicated to secure access,
The security CPU converts the physical ON/OFF SWITCH dedicated to security access after authentication with Alice SERVER to ON SWITCH connection, and broadcasts text-to-speech (TTS) broadcasting text received from Alice SERVER inside the integrated crime prevention center through the broadcasting device; or
When the security CPU receives air raid/disaster risk siren broadcasting data from Alice SERVER inside the integrated crime prevention center, after checking OTP (One-Time Programmable) authentication and preliminary/confirmation return link, the siren data is transmitted through the broadcasting device. A smart emergency bell, characterized in that for broadcasting.
The smart emergency bell coupled to the pole is composed of a broadcasting device, a push button, an eye-level camera, and an edge server;
An aerial camera and a surveillance camera and LiDAR (Light Detection And Ranging) sensor are installed at the top of the pole to photograph the air;

Edge SERVER connects Alice SERVER inside the control center and the wireless network; or
Edge SERVER connects Alice SERVER inside the control center and wired network; or
Edge SERVER is connected to wired network with Alice SERVER inside the control center through Bob SERVER connected to wireless network;

The smart emergency bell is installed with one or more eye-level cameras monitoring 90-360 degrees each at the top of the enclosure;
A push button is installed on the front of the smart emergency bell, and when the push button is operated, the internal edge server is connected to the Alice server inside the control center through a wireless network or wired network through an SSL-VPN certified by the National Intelligence Service or a dedicated line. is;

Edge SERVER is composed of security module, image storage memory, SSL-VPN, wireless communication modem,
The security module consists of a security CPU (Central Processing Unit) and a control chip including a physical ON/OFF switch dedicated to security access and a multi-Boot ROM dedicated to controlling the physical ON/OFF switch dedicated to security connection.
The security CPU (Central Processing Unit) boots up the multi-Boot ROM through the control chip after OTP (One-Time Programmable) authentication, and controls the physical ON/OFF switch dedicated to secure access to the ON SWITCH connection conversion The security module broadcasts text-to-speech (TTS) messages received from the Alice SERVER inside the control center through the broadcasting device; or
When the security CPU (Central Processing Unit) receives air raid/disaster risk siren MMS data from the Alice SERVER inside the control center, returns siren preliminary data after OTP (One-Time Programmable) authentication and returns link transmission. , When the confirmation data return link transmission is received, the security module broadcasts siren data through the broadcasting device through ON SWITCH connection switching control of the physical ON/OFF SWITCH dedicated to security connection;

The aerial camera for photographing the air installed on top of the pole is configured to include an IR see-through filter, and perspective-photographs obstacles such as backlight, fog, rainwater, and dust;
Surveillance cameras consist of fluoroscopic cameras, fixed surveillance cameras, and tracking surveillance cameras.
In the process of storing video taken from a fixed surveillance camera in a storage device and detecting an active object through a LiDAR sensor, the active area where the luminance of the captured image changes is separated and the background area is separated and tracked to extract the XY coordinates of the active area. Storing an image of the active area in a storage device by pan-tilt driving and lens zoom-in using the XY coordinates of the active area with a surveillance camera;
The fluoroscopic camera captures and stores infrared filtered black and white fluoroscopic still images;
The military demarcation line parallel surveillance IR filter reverse light camera black box, characterized in that the panoramic image synthesized by image capture of still images and perspective still images is stored in a storage device.
The smart emergency bell coupled to the pole is composed of a push button, a broadcasting device, an enclosure camera, and an edge server;
An aerial camera and a surveillance camera and LiDAR (Light Detection And Ranging) sensor are installed at the top of the pole to photograph the air;

Edge SERVER connects Alice SERVER inside the control center and the wireless network; or
Edge SERVER connects Alice SERVER inside the control center and wired network; or
Edge SERVER is connected to wired network with Alice SERVER inside the control center through Bob SERVER connected to wireless network;

The smart emergency bell is installed with one or more enclosure cameras monitoring each 90-360 degrees at the top of the enclosure;
The smart emergency bell has a push button installed on the front, and when the push button is operated, the internal edge server is networked with the Alice server inside the control center through a wireless network or wired network;

Edge SERVER is composed of security module, image storage memory, wireless communication modem,
The security module consists of a security CPU (Central Processing Unit) and a control chip including a physical ON/OFF switch dedicated to security access and a multi-Boot ROM dedicated to controlling the physical ON/OFF switch dedicated to security connection.
The security CPU (Central Processing Unit) boots up the multi-Boot ROM through the control chip after OTP (One-Time Programmable) authentication and controls the ON/OFF switch for secure access broadcasts broadcasting data received from the Alice Server inside the control center through a broadcasting device;

An aerial camera installed on top of a pole and photographing the air includes an IR perspective filter, and is a perspective filter-mounted aerial camera that perspective-photographs obstacles such as backlight, fog, rainwater, and dust;
Surveillance cameras consist of see-through cameras, fixed surveillance cameras, and tracking surveillance cameras.
The process of detecting an active object through a lidar sensor and storing the video taken from a fixed surveillance camera in a storage device, separating the active area where the luminance of the captured image changes, extracting the XY coordinates of the active area, separating and tracking the background area Storing a still image of the active area in a storage device by driving the pan/tilt and zooming in the lens to the XY coordinates of the active area with a monitoring camera;
The IR see-through filter-integrated see-through camera captures and stores a black-and-white see-through still image of the active area;
The military demarcation line parallel surveillance IR filter reverse light camera black box, characterized in that the panoramic image synthesized by image capture of still images and perspective still images is stored in a storage device.
The smart emergency bell coupled to the pole is composed of a push button, a broadcasting device, an enclosure camera, and an edge server;
An aerial camera and a surveillance camera and LiDAR (Light Detection And Ranging) sensor are installed at the top of the pole to photograph the air;

Edge SERVER is networked with Alice SERVER inside the control center through wireless network or wired network;
The smart emergency bell is installed with one or more enclosure cameras monitoring each 90-360 degrees at the top of the enclosure;
The smart emergency bell has a push button installed on the front, and when the push button is operated, the internal edge server is networked with the Alice server inside the control center through a wireless network or wired network;

The security module inside the Edge SERVER is composed of a security CPU and a physical ON/OFF switch dedicated to security access.
The security CPU receives broadcasting data after OTP authentication with Alice SERVER and broadcasts it through the broadcasting device;
An aerial camera installed on top of a pole and photographing the air includes an IR perspective filter, and is a perspective filter-mounted aerial camera that perspective-photographs obstacles such as backlight, fog, rainwater, and dust;
Surveillance cameras consist of see-through cameras, fixed surveillance cameras, and tracking surveillance cameras.
The process of detecting an active object through a lidar sensor and storing the video taken from a fixed surveillance camera in a storage device, separating the active area where the luminance of the captured image changes, extracting the XY coordinates of the active area, separating and tracking the background area Pan-tilt driving and lens zoom-in to the XY coordinates of the active area with a monitoring camera to capture the active area;
The fluoroscopic camera is a smart emergency bell black box, characterized in that it takes black and white fluoroscopic images with an integrated IR see-through filter.
The CCTV black box consists of an enclosure, an upper arm, a security light, an IR see-through filter, a reverse light camera, a surveillance camera, and a wireless emergency bell.
A security light, an IR see-through filter, a reverse light camera, and a surveillance camera are combined through an upper arm coupled to the enclosure;
The enclosure is composed of an edge server, heater, prefabricated cooling fan, test module, door sensor, and communication modem inside;
It has a structure in which an emergency bell operation button, a warning light, and a prefabricated cooling fan storage box are combined on the surface of the enclosure;

The emergency bell operation button on the enclosure enclosure consists of a warning light operation button, a silent button, and a test button.
Edge SERVER transmits the warning light operation and emergency bell operation event data to Alice SERVER through the communication modem when the warning light operation button is operated;
When the silent button is operated, emergency bell operation event data is transmitted to Alice Server through the communication modem;
When the test button is operated, the alarm light operation and test emergency bell operation event data are transmitted to Alice Server through the communication modem with a small power of 10% or less of normal operation;
The wireless emergency bell includes a warning light operation button, a silent button, and a test button, and transmits warning light operation button event data, silent button event data, and test button event data through wireless communication with Edge Server;

Edge SERVER transmits a door open event to Alice SERVER when the door sensor operates;
Edge SERVER drives the heater and prefabricated cooling fan according to the internal temperature of the enclosure;
When the prefabricated cooling fan fails, it is replaced with a prefabricated cooling fan, which is a spare consumable inside the prefabricated cooling fan storage box;
Edge SERVER transmits fault condition monitoring event and fault event to Alice SERVER when self-diagnosis fault occurs through test module;

The QRNG Chip security module that generates the quantum random number seed inside the Edge SERVER includes a secure CPU (Central Processing Unit), a physical ON/OFF switch dedicated to secure access, and a multi-Boot ROM dedicated to controlling the physical ON/OFF SWITCH dedicated to secure access. It is composed of a control chip (Chip) and a PRNG random number generating program,
The security CPU (Central Processing Unit) uses a quantum random seed public key and a pseudo-random seed private key method with Alice SERVER through a communication modem to authenticate OTP (One-Time Programmable) login and then use the control chip. booting up the multi-Boot ROM through a physical ON/OFF SWITCH dedicated to security access to perform data communication with Alice SERVER through ON SWITCH connection conversion control;

The security light is installed on the upper arm and consists of an 850nm IR emitter integrated lighting module and a color temperature 5,000K visible light emitter integrated lighting module;

The IR perspective filter backlighting camera installed on the upper arm to photograph the air is a camera equipped with an IR perspective filter and photographing backlighting. Obstacles such as fog, rainwater, dust, and backlighting are photographed and stored in a storage device;

Surveillance cameras consist of an IR see-through filter-integrated surveillance camera that photographs the ground, a fixed surveillance camera, and a tracking surveillance camera.
The video captured by the fixed surveillance camera is stored in the storage device, and the active object is detected through the lidar sensor, and the active area where the luminance of the captured image is changed is separated, the XY coordinates of the active area are extracted, and the background area is separated, followed by tracking type monitoring. Storing a still image of the active area in a storage device by driving pan/tilt and zooming in a lens to the XY coordinates of the active area with a camera;
The IR fluoroscopic filter integrated surveillance camera captures and stores infrared fluoroscopic (IR) filtered black and white fluoroscopic still images;
The military demarcation line parallel surveillance IR perspective filter reverse light camera CCTV black box, characterized in that for storing a panoramic still image synthesized by image capture of still images and perspective still images in a storage device.
The CCTV black box coupled to the security light pole consists of an enclosure, a security light, an IR see-through filter, a reverse light camera, and a surveillance camera.
The enclosure is composed of an edge server, a test module, a door sensor, and a communication modem inside;
It is a structure in which a button and a warning light are attached to the outside of the enclosure;

The pressure button on the outside of the enclosure consists of a warning light button, a silent button, and a test button.
Edge SERVER transmits the warning light operation and emergency bell operation event data to Alice SERVER through the communication modem when the warning light button is operated;
When the silent button is operated, emergency bell operation event data is transmitted to Alice Server through the communication modem;
When the test button is operated, the alarm light operation and test emergency bell operation event data are transmitted to Alice Server through the communication modem with a small power of 10% or less of normal operation;

Edge SERVER transmits a door open event to Alice SERVER when the door sensor operates;
Edge SERVER transmits fault condition monitoring event and fault event to Alice SERVER when self-diagnosis fault occurs through test module;

Security module including QRNG chip that generates quantum random number seed inside Edge SERVER Control including secure CPU and physical ON/OFF SWITCH dedicated to security access and multi-Boot ROM dedicated to controlling physical ON/OFF SWITCH dedicated to secure connection It is composed of a chip and a PRNG random number generator program;
Security CPU is multi-Boot ROM through control chip after OTP (One-Time Programmable) login authentication with Alice SERVER and quantum random seed public key and pseudorandom seed private key method through communication modem boots up to perform data communication with Alice SERVER through ON SWITCH access conversion control of a physical ON/OFF SWITCH dedicated to security access;

The security light is installed on a pole and consists of an infrared (IR) emitter and a visible ray emitter;

The IR perspective filter backlighting camera installed on the pole and taking pictures of the air is a camera equipped with an IR perspective filter and taking pictures of backlighting. Obstacles such as fog, rainwater, dust, and backlighting are photographed and stored in a storage device;
Surveillance cameras consist of an IR see-through filter-integrated surveillance camera that photographs the ground, a fixed surveillance camera, and a tracking surveillance camera.
Storing the video taken by the fixed surveillance camera in the storage device and storing the still image captured in the active area by pan-tilt driving and lens zoom-in of the tracking-type surveillance camera for the active area where the luminance of the filmed video is changing is stored in the storage device;
The IR fluoroscopic filter integrated surveillance camera captures and stores infrared fluoroscopic (IR) filtered black and white fluoroscopic still images;
The military demarcation line parallel surveillance IR perspective filter reverse light camera CCTV black box, characterized in that for storing a panoramic still image synthesized by image capture of still images and perspective still images in a storage device.
The black box system coupled to the pole consists of a control box, a floodlight, an aerial camera, and a ground camera.
The control enclosure is composed of an Edge SERVER, a DVR (Digital Video Recorder), and a communication modem inside;

The security module including the QRNG chip that generates the quantum random number seed inside the Edge SERVER is a control chip and PRNG including a multi-Boot ROM dedicated to controlling the physical ON/OFF switch dedicated to security CPU and secure access and the physical ON/OFF switch dedicated to secure access It is configured to include a random number generating program;
The secure CPU boots up the multi-Boot ROM through the control chip after OTP login authentication with Alice SERVER and the quantum random seed public key and pseudo random seed private key method through the communication modem to turn ON/OFF physical ON/OFF SWITCH dedicated to secure access data communication with Alice SERVER through a communication modem through connection switching control;
The communication modem is any one of wired or unlicensed frequency Wi-Fi, Low-Power Wide-Area Network (LPWAN), Trunked Radio System (TRS), or military frequency wireless communication;

The floodlight is installed on a pole and consists of an infrared emitter and a visible ray emitter;

An aerial camera installed on a pole and taking pictures of the sky is equipped with an IR see-through filter and captures backlight and stores it in a DVR storage device;
The ground camera consists of an IR see-through filter-integrated surveillance camera that photographs the ground, a fixed surveillance camera, and a tracking surveillance camera.
Storing the video captured by the fixed surveillance camera in the DVR storage device and capturing the active region in which the luminance of the recorded video is changed by pan-tilt driving and zooming in the lens with the tracking-type surveillance camera to capture and store the active region in the DVR storage device;
IR fluoroscopic filter-integrated surveillance cameras capture infrared (IR) filtered black and white fluoroscopic still images, and store quantum random numbers (QRN) and pseudorandom numbers as a function formula [F(x) = DATA RECORDER Key (QRNG+PRNG)] in the DVR storage device. IR see-through filter CCTV black box, characterized in that stored as an encryption / decryption key generated by calculating (PRN) as an operator.
In the black box emergency bell system composed of Main SERVER, black box emergency bell, and smartphone,

The black box emergency bell consists of an edge server, a black box camera, an emergency bell push button, a warning light, a storage device, and a wireless communication modem;
The Edge SERVER internal MCU (Main Control Unit) generates and receives a quantum random number seed QRN (Quantum Random Number) seed key through the QRNG Chip inside the security module equipped with the QRNG (Quantum Random Number Generator) Chip;
The Edge SERVER internal MCU (Main Control Unit) generates a pseudo-random number seed PRN (Program Random Number) seed key through a PRNG (Program Random Number Generator) program that generates the same pseudo-random number seed as the Main SERVER. ;
The Edge SERVER internal MCU generates an encryption/decryption key by calculating the PRN seed key and the QRN seed key;
Edge SERVER's internal MCU encrypts the video data taken by the black box camera with an encryption/decryption key and stores it in a storage device;
The Edge SERVER internal MCU transmits an emergency bell operation event to the Main SERVER through the operation of the warning light and the wireless communication modem when the emergency bell push button is operated;
When the Main SERVER receives an emergency bell operation event from the black box emergency bell, it transmits the emergency bell operation event to the display device and designated smartphone;

The Edge SERVER enclosure panel is composed of an input panel, an output panel, and an input/output panel.
The input panel includes DC 24V and AC 220V ports;
The input/output panel includes LAN, USB, VOLUME CONTROL, MIC, PR-1, PR-2, PR-3, PR-4, LAMP CONTROL, DC12V POWER 1, DC12V POWER 2 ports;
The output panel includes LAN-POE1, LAN POE2, DC12V, DOOR CONTROL, AC 220V POWER 1, AC 220V POWER 2 ports;

Receives driving power through the input panel DC 24V, AC 220V port and supplies driving power to each part of Edge Server;
The Edge SERVER internal MCU receives data through the USB, MIC, and VOLUME CONTROL of the input/output panel; and
Edge SERVER's internal MCU inputs/outputs data through LAN and USB ports;
Edge SERVER internal MCU outputs program control data through PR-1, PR-2, PR-3, PR-4 ports, and outputs lamp dimming control data through LAMP CONTROL ports, DC12V POWER 1, DC12V POWER DC power control through 2 ports;
The Edge SERVER internal MCU supplies power and communicates data to the monitoring camera through the output panels LAN-POE1 and LAN-POE2, controls the power through the DC12V, AC 220V POWER 1 and AC 220V POWER 2 ports, and operates normally as a result of self-diagnosis. A black box type emergency bell characterized in that the DOOR CONTROL LED lamp is turned on.
Alice SERVER and black box emergency bell are connected by wired or wireless network,

Black box emergency bell consists of Edge SERVER, black box camera, emergency bell push button, storage device, and communication modem;
The Edge SERVER internal MCU (Main Control Unit) generates and receives a quantum random number seed QRN (Quantum Random Number) seed key through the QRNG Chip inside the security module equipped with the QRNG (Quantum Random Number Generator) Chip;
The Edge SERVER internal MCU (Main Control Unit) generates a pseudo-random number seed PRN (Program Random Number) seed key through a PRNG (Program Random Number Generator) program that generates the same pseudo-random number seed as Alice SERVER, and ;
The Edge SERVER internal MCU generates an encryption/decryption key by calculating the PRN seed key and the QRN seed key;

Edge SERVER's internal MCU encrypts the video data taken by the black box camera with an encryption/decryption key and stores it in a storage device;
Edge SERVER internal MCU transmits emergency bell operating event data to Alice SERVER through communication modem when emergency bell button is operated;
Alice SERVER receives emergency bell operation event data from the black box emergency bell and outputs it to the monitor;

The Edge SERVER enclosure panel is composed of an input panel, an output panel, and an input/output panel.
The input panel includes DC 24V and AC 220V ports;
The input/output panel includes LAN, USB, VOLUME CONTROL, MIC, PR, LAMP CONTROL, and DC12V POWER ports;
The output panel includes LAN-POE, DC12V, AC 220V POWER ports;

Receives driving power through the input panel DC 24V, AC 220V port and supplies driving power to the inside of the Edge Server;
The Edge SERVER internal MCU receives data through the MIC and VOLUME CONTROL ports of the input/output panel; and
The Edge SERVER internal MCU outputs program control data through the PR port, outputs lamp dimming control data through the LAMP CONTROL port, and controls DC power through the DC12V POWER port; and
Edge SERVER's internal MCU inputs/outputs data through LAN and USB ports;
The Edge SERVER internal MCU supplies power and data communication to the surveillance camera through the output panel LAN-POE, and controls power through the DC12V, AC 220V POWER port.
The black box emergency bell consists of an edge server, a black box camera, an emergency bell push button, a warning light, and a storage device;
The Edge SERVER MCU (Main Control Unit) generates and receives a quantum random number seed QRN (Quantum Random Number) seed key through the QRNG Chip inside the security module equipped with the QRNG (Quantum Random Number Generator) Chip;
The Edge SERVER MCU (Main Control Unit) generates a pseudo-random number seed PRN (Program Random Number) seed key through a PRNG (Program Random Number Generator) program that generates the same pseudo-random number seed as Alice SERVER;
Edge SERVER MCU generates an encryption/decryption key by calculating the PRN seed key and the QRN seed key;
Edge SERVER MCU encrypts the image data captured by the black box camera with an encryption/decryption key and stores it in a storage device;
Edge SERVER MCU operates a warning light when the emergency bell button is operated;

The Edge SERVER enclosure panel is composed of an input panel, an output panel, and an input/output panel.
The input panel includes DC 24V and AC 220V ports;
The input/output panel includes LAN, USB, VOLUME CONTROL, MIC, PR, LAMP CONTROL, and DC12V POWER ports;
The output panel includes LAN-POE, DC12V, AC 220V POWER ports;

Receives driving power through the input panel DC 24V, AC 220V port and supplies driving power to the inside of the Edge Server;
Edge SERVER MCU receives data through the MIC and VOLUME CONTROL ports of the input/output panel; and
Edge SERVER MCU outputs program control data through the PR port, outputs lamp dimming control data through the LAMP CONTROL port, and controls DC power through the DC12V POWER port; and
Edge SERVER MCU inputs/outputs data through LAN and USB ports;
Edge SERVER MCU is a black box type emergency bell that supplies power and communicates data to surveillance cameras through the output panel LAN-POE, and controls power through DC12V and AC 220V POWER ports.
It consists of an EMP detachable part coupled to a pole of a security light, an EMP (electro magnetic pulse) controller, and a CCTV black box.

The CCTV black box consists of an enclosure, a security light, an IR see-through filter, a reverse light camera, and a surveillance camera.
The enclosure is composed of an edge server, a test module, a door sensor, and a communication modem inside;
It is a structure in which a button and a warning light are attached to the outside of the enclosure;

The pressure button on the outside of the enclosure consists of a warning light button, a silent button, and a test button.
Edge SERVER transmits the warning light operation and emergency bell operation event data to Alice SERVER through the communication modem when the warning light button is operated;
When the silent button is operated, emergency bell operation event data is transmitted to Alice Server through the communication modem;
When the test button is operated, the alarm light operation and test emergency bell operation event data are transmitted to Alice Server through the communication modem with a small power of 10% or less of normal operation;

Edge SERVER transmits a door open event to Alice SERVER when the door sensor operates;
Edge SERVER transmits fault condition monitoring event and fault event to Alice SERVER when self-diagnosis fault occurs through test module;

Security module including QRNG chip that generates quantum random number seed inside Edge SERVER Control including secure CPU and physical ON/OFF SWITCH dedicated to security access and multi-Boot ROM dedicated to controlling physical ON/OFF SWITCH dedicated to secure connection It is composed of a chip and a PRNG random number generator program;
Security CPU is multi-Boot ROM through control chip after OTP (One-Time Programmable) login authentication with Alice SERVER and quantum random seed public key and pseudorandom seed private key method through communication modem boots up to perform data communication with Alice SERVER through ON SWITCH access conversion control of a physical ON/OFF SWITCH dedicated to security access;
The security CPU receives control data from Alice SERVER and transmits the data to the EMP (electro magnetic pulse) controller;
The security light is installed on a pole and consists of an infrared (IR) emitter and a visible ray emitter;

The IR perspective filter backlighting camera installed on the pole and taking pictures of the air is a camera equipped with an IR perspective filter and taking pictures of backlighting. Obstacles such as fog, rainwater, dust, and backlighting are photographed and stored in a storage device;
Surveillance cameras consist of an IR see-through filter-integrated surveillance camera that photographs the ground, a fixed surveillance camera, and a tracking surveillance camera.
Storing the video taken by the fixed surveillance camera in the storage device and storing the still image captured in the active area by pan-tilt driving and lens zoom-in of the tracking-type surveillance camera for the active area where the luminance of the filmed video is changing is stored in the storage device;
The IR fluoroscopic filter integrated surveillance camera captures and stores infrared fluoroscopic (IR) filtered black and white fluoroscopic still images;
Storing a still image, a panoramic still image obtained by synthesizing a still image and a perspective still image through image capture, in a storage device;
When the EMP (electro magnetic pulse) controller receives control data from the Edge SERVER, it transmits control data to the EMP (electro magnetic pulse) device mounted on the EMP detachable unit.
It consists of an EMP detachable part coupled to a pole of a security light, an EMP (electro magnetic pulse) controller, and a CCTV black box.

The CCTV black box consists of an enclosure, a security light, an IR see-through filter, a reverse light camera, and a surveillance camera.
The enclosure is composed of an edge server, a test module, a door sensor, and a communication modem inside;
It is a structure in which a button and a warning light are attached to the outside of the enclosure;

The pressure button on the outside of the enclosure consists of a warning light button, a silent button, and a test button.
Edge SERVER transmits the warning light operation and emergency bell operation event data to Alice SERVER through the communication modem when the warning light button is operated;
When the silent button is operated, emergency bell operation event data is transmitted to Alice Server through the communication modem;
When the test button is operated, the alarm light operation and test emergency bell operation event data are transmitted to Alice Server through the communication modem with a small power of 10% or less of normal operation;

Edge SERVER transmits a door open event to Alice SERVER when the door sensor operates;
Edge SERVER transmits fault condition monitoring event and fault event to Alice SERVER when self-diagnosis fault occurs through test module;

Security module including QRNG chip that generates quantum random number seed inside Edge SERVER Control including secure CPU and physical ON/OFF SWITCH dedicated to security access and multi-Boot ROM dedicated to controlling physical ON/OFF SWITCH dedicated to secure connection It is composed of a chip and a PRNG random number generator program;
Security CPU is multi-Boot ROM through control chip after OTP (One-Time Programmable) login authentication with Alice SERVER and quantum random seed public key and pseudorandom seed private key method through communication modem boots up to perform data communication with Alice SERVER through ON SWITCH access conversion control of a physical ON/OFF SWITCH dedicated to security access;
The security light is installed on a pole and consists of an infrared (IR) emitter and a visible ray emitter;

The IR perspective filter backlighting camera installed on the pole and taking pictures of the air is a camera equipped with an IR perspective filter and taking pictures of backlighting. Obstacles such as fog, rainwater, dust, and backlighting are photographed and stored in a storage device;
Surveillance cameras consist of an IR see-through filter-integrated surveillance camera that photographs the ground, a fixed surveillance camera, and a tracking surveillance camera.
Storing the video taken by the fixed surveillance camera in the storage device and storing the still image captured in the active area by pan-tilt driving and lens zoom-in of the tracking-type surveillance camera for the active area where the luminance of the filmed video is changing is stored in the storage device;
The IR fluoroscopic filter integrated surveillance camera captures and stores infrared fluoroscopic (IR) filtered black and white fluoroscopic still images;
Storing a still image, a panoramic still image obtained by synthesizing a still image and a perspective still image through image capture, in a storage device;
When a designated object is recognized through the surveillance camera, the EMP (electro magnetic pulse) controller supplies power to the detonator of the EMP (electro magnetic pulse) device mounted on the EMP detachable part. controller.
The quantum barrier system consists of an edge server, a floodlight, an aerial surveillance camera, a ground surveillance camera, and a quantum cryptography antenna.
Edge SERVER is composed of MCU, storage device and security module,
Edge SERVER internal security module is composed of QRNG Chip and PUF Chip;
The Edge SERVER internal MCU generates and receives a quantum random number QRN (Quantum Random Number) seed key through the QRNG Chip inside the security module;
The Edge SERVER internal MCU generates a pseudo-random number seed PRN (Program Random Number) seed key through a PRNG (Program Random Number Generator) program;
Edge SERVER’s internal MCU stores the images taken by the aerial surveillance camera and the ground surveillance camera with the encryption/decryption key generated by the operation function [F(x) = DATA STORAGE Key (QRNG+PRNG)] of the PRN seed key and QRN seed key. stored on the device;
Edge SERVER's internal MCU encrypts the PUF Chip's PUF (Physically Unclonable Function) PIN (Personal Identification Number) data with an operation function [F(x) = DATA STORAGE Key (QRNG+PRNG)] and emits wirelessly through a quantum cryptography antenna. ;
Edge SERVER internal MCU is a quantum firewall system characterized by controlling the on/off of floodlights.
The quantum barrier system consists of a QUANTUM SERVER, an aerial surveillance camera, a ground surveillance camera, and a quantum cryptography antenna.
QUANTUM SERVER consists of MCU, storage device and security module,

QUANTUM SERVER internal security module is composed of QRNG Chip and eFUSE Chip;
The QUANTUM SERVER internal MCU generates and receives a quantum random number QRN (Quantum Random Number) seed key through the QRNG Chip inside the security module;
The QUANTUM SERVER internal MCU generates a pseudo-random number seed PRN (Program Random Number) seed key through a PRNG (Program Random Number Generator) program;
The MCU inside the QUANTUM SERVER encrypts the images taken by the aerial surveillance camera and the ground surveillance camera with the QUANTUM KEY calculated by operating the PRN seed key and the QRN seed key as operators and stores them in a storage device;
The QUANTUM SERVER internal MCU is a quantum firewall system characterized by wireless radiation through a quantum cryptography antenna by encrypting the PIN (Personal Identification Number) data of the eFUSE Chip with a QUANTUM KEY.
The method of any one of claims 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13,
The emergency bell inserted and installed on the front of the enclosure is a crime prevention CCTV system characterized by an emergency bell that generates an abnormal sound source recognition event or an abnormal sound source recognition event.
The method of any one of claims 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13,
Function formula [F(x) = DATA STORAGE Key (QRNG+PRNG)] A CCTV system for crime prevention characterized by storing data with an encryption/decryption key.
The method of any one of claims 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13,
The network connection data communication is a crime prevention CCTV system characterized in that data communication is performed through a CC-certified Virtual Private Network (VPN).

The method of any one of claims 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13,
The multi-spontaneous polarization sensor including a sensor control unit composed of a microprocessor and a power supply unit continuously arranges a first PIR sensor for detecting a moving human body and a second PIR sensor for detecting a stationary human body, so that the human body moves or stops in the same space. A multi-spontaneous polarization sensor for detecting the state is additionally configured,

an equilibration step in which the sensor controller supplies driving power to the first PIR sensor through the power supply unit and maintains a spontaneous polarization equilibrium state;
The sensor controller receives the spontaneous polarization unbalanced human body detection event signal when the first PIR sensor is switched from the spontaneous polarization equilibrium state to the unbalanced state and a human body detection event signal is generated, and the human body detection unit supplies driving power to the second PIR sensor through the power supply unit step;
A maintenance step of maintaining the human body sensing state by the sensor control unit;
When the first and second PIR sensors are driven and maintain the spontaneous polarization equilibrium state for longer than the manager input time, the sensor control unit cuts off the driving power to the second PIR sensor and switches to the equilibrium phase, or the edge server drives the second PIR sensor. When a human body detection event signal is received by switching from the spontaneous polarization equilibrium state to the unbalanced state, the second PIR sensor is switched to the human body detection step after the driving power is cut off and the driving time deviation of the first and second PIR sensors is used. a sensing step characterized by detecting a moving body and a stationary human body;
A crime prevention CCTV system, characterized in that during the maintenance step, the event is photographed and stored through the camera at the top of the enclosure.
The method of any one of claims 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13,
In the camera at the top of the enclosure that receives human body detection event data through a multi-spontaneous polarization sensor that detects a stationary human body,
The multi-spontaneous polarization sensor is composed of a moving body detecting PIR sensor for detecting a moving body, one or more human body detecting PIR sensors for detecting a stationary human body, a sensor main control unit composed of a microprocessor, and a power supply unit;

The main sensor controller supplies driving power to the PIR sensor for constant motion detection through the power supply unit to detect a moving object and generate moving object event data; and
The sensor main control unit supplies time difference square wave driving power at an administrator input time interval to one or more human body detection PIR sensors through a power supply unit to detect a still human body and generate stationary human event data; and
The main sensor control unit supplies moving body event data and stationary human body event data to the upper camera of the enclosure;

The camera at the top of the enclosure is a crime prevention CCTV system characterized in that the event data is masked and stored in the captured image according to the reception of moving body event data or stationary human body event data.
The method of any one of claims 14, 15, 16, and 17,
The multi-spontaneous polarization sensor is characterized in that a first PIR sensor for detecting a moving human body and a second PIR sensor for detecting a stationary human body are continuously arranged to detect the movement or stationary state of the human body in the same space,
An equilibration step of supplying driving power to the first PIR sensor and maintaining a spontaneous polarization equilibrium state by the Edge SERVER;
Edge SERVER senses a human body that supplies drive power to the second PIR sensor through the receiving and power supply unit of the spontaneous polarization unbalanced human body detection event signal when the first PIR sensor is switched from the spontaneous polarization equilibrium state to the unbalanced state and a human body detection event signal is generated step;
Edge SERVER maintains a human body detection state;
When the first and second PIR sensors are driven and maintain the spontaneous polarization equilibrium state for longer than the manager input time, the edge server cuts off the driving power to the second PIR sensor and switches to the equilibrium phase, or the edge server is driven by the second PIR sensor When a human body detection event signal is received by switching from the spontaneous polarization equilibrium state to the unbalanced state, the second PIR sensor is switched to the human body detection step after the driving power is cut off and the driving time deviation of the first and second PIR sensors is used. a sensing step characterized by detecting a moving body and a stationary human body;
A smart emergency bell, characterized in that during the maintenance step, the event message stored in the eye level camera photographed data is masked and stored or stored in the broadcasting device to be broadcast.
The method of any one of claims 14, 15, 16, and 17,
In an eye-level camera that receives human body detection event data through a multi-spontaneous polarization sensor that detects a stationary human body,
The multi-spontaneous polarization sensor is composed of a moving body detecting PIR sensor for detecting a moving body, one or more human body detecting PIR sensors for detecting a stationary human body, a sensor main control unit composed of a microprocessor, and a power supply unit;

The main sensor controller supplies driving power to the PIR sensor for constant motion detection through the power supply unit to detect a moving object and generate moving object event data; and
The sensor main control unit supplies time difference square wave driving power at an administrator input time interval to one or more human body detection PIR sensors through a power supply unit to detect a still human body and generate stationary human event data; and
The sensor main controller supplies moving body event data and stationary human body event data to the eye-level camera;

The eye level camera is a smart emergency bell, characterized in that for storing the event shooting video according to the reception of moving body event data or stationary human body event data.
The method of any one of claims 24, 25, and 26,
The multi-spontaneous polarization sensor is characterized in that a first PIR sensor for detecting a moving human body and a second PIR sensor for detecting a stationary human body are continuously arranged to detect the movement or stationary state of the human body in the same space,
An equilibration step of supplying driving power to the edge server and maintaining a spontaneous polarization equilibrium state;
Edge SERVER senses a human body that supplies drive power to the second PIR sensor through the receiving and power supply unit of the spontaneous polarization unbalanced human body detection event signal when the first PIR sensor is switched from the spontaneous polarization equilibrium state to the unbalanced state and a human body detection event signal is generated step;
Edge SERVER maintains a human body detection state;
When the first and second PIR sensors are driven and maintain the spontaneous polarization equilibrium state for longer than the manager input time, the edge server cuts off the driving power to the second PIR sensor and switches to the equilibrium phase, or the edge server is driven by the second PIR sensor When a human body detection event signal is received by switching from the spontaneous polarization equilibrium state to the unbalanced state, the second PIR sensor is switched to the human body detection step after the driving power is cut off and the driving time deviation of the first and second PIR sensors is used. a sensing step characterized by detecting a moving body and a stationary human body;
A black box-type emergency bell, characterized in that during the maintenance step, an event message stored in a black box camera photographed data is masked and stored or stored in a broadcasting device to be broadcast.
The method of any one of claims 24, 25 and 26,
The sensor main controller supplies driving power to the first PIR sensor through the power supply unit and supplies driving power to the second PIR sensor when the spontaneous polarization of the first PIR sensor becomes unbalanced. When the equilibrium state is converted to the unbalanced state, the full lighting is turned on during the first manager input time; The sensor main controller turns on and then turns off full lighting after the first manager input time and dimming lighting during the second manager input time; The sensor main controller supplies driving power to the second PIR sensor after the first manager input time ends; If the spontaneous polarization is unbalanced from any one or more of the first PIR sensor or the second PIR sensor during the lighting of the dimming light, full lighting is turned on during the first manager input time, but until the second manager input time When the first PIR sensor and the second PIR sensor are in a spontaneous polarization equilibrium state, dimming lights are turned off; or
The sensor main controller always supplies driving power to the first PIR sensor through the power supply unit and supplies driving power to the second PIR sensor according to the spontaneous polarization state of the first PIR sensor. When a human body detection event signal is received after being converted from an equilibrium state to an unbalanced state, a full light is turned on for a manager input time; The sensor main control unit supplies driving power to the second PIR sensor before the manager input time ends in the state where the full lighting is turned on, and then the first PIR sensor and the second PIR sensor are in a spontaneous polarization equilibrium state even after the manager input time ends. When a spontaneous polarization unbalanced human body detection event signal is received from either the 1st PIR sensor or the 2nd PIR sensor while the lighting is off but the driving power is supplied to the 2nd PIR sensor before the manager input time ends, full ( full) A black box type emergency bell that additionally configures the automatic control of lighting to keep the lighting on or to turn it on again when the manager's input time is over.
The method of any one of claims 24, 25 and 26,
In a black box camera that receives human body detection event data through a multi-spontaneous polarization sensor that detects a stationary human body,
The multi-spontaneous polarization sensor is composed of a moving body detecting PIR sensor for detecting a moving body, one or more human body detecting PIR sensors for detecting a stationary human body, a sensor main control unit composed of a microprocessor, and a power supply unit;

The main sensor controller supplies driving power to the PIR sensor for constant motion detection through the power supply unit to detect a moving object and generate moving event data; and
The sensor main control unit supplies time difference square wave driving power at an administrator input time interval to one or more human body detection PIR sensors through a power supply unit to detect a still human body and generate stationary human event data; and
The sensor main controller supplies moving body event data and stationary human body event data to the eye level camera;

A black box-type emergency bell, characterized in that the black box camera stores event shooting images according to the reception of moving body event data or stationary human body event data.

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