KR102433926B1 - The combined smartpole with CPTED BOX and the Way to contract with muli-provider system of Smartpole CPTED BOX with a anti- crime CCTV, PA/AV broadcasting system, and the Way to broadcast municipal public relations and Health Management CCTV monitor for worker's disaster prevention and the Industrial Safety and Health Management CCTV minitor system with A.l. for worker's disaster prevention - Google Patents

Abstract

Alice QRN SERVER inside Alice CPTED BOX and Bob QRN SERVER inside Bob CPTED BOX are Alice QRN in the state that they are logged in to the network through QUANTUM KEY authentication generated through a Quantum Random Number Generator (QRNG). SERVER controls Bob QRN SERVER, but Bob QRN SERVER When the image data transmitted from Alice QRN SERVER is displayed on the signage, only the image data approved for display is displayed on the signage through the smart quantum edge server including the ON/OFF switch that approves the received image data. do it with

Description

Smart Pole (CCTV for crime prevention and PA/AV broadcasting device and street/security light) combined CPTED BOX and Smart Pole CPTED BOX including CCTV for crime prevention, PA/AV broadcasting device, street/security light, multi-supplier system and autonomous system Method of group publicity announcement and worker accident prevention AI response CCTV surveillance camera Occupational safety and health management system and occupational safety and health management CCTV surveillance camera for worker accident prevention {The combined smartpole with CPTED BOX and the Way to contract with muli-provider system of Smartpole CPTED BOX with a anti-crime CCTV, PA/AV broadcasting system, and the Way to broadcast municipal public relations and Health Management CCTV monitor for worker's disaster prevention and the Industrial Safety and Health Management CCTV minitor system with A.l. for worker's disaster prevention}

Hacking cases of outdoor electronic signboards such as bus information terminals in Yeosu, South Korea and the Chosun Ilbo billboards in Busan are occurring in Korea.

In addition, in the case of foreign countries, it is related to security measures against the occurrence of outdoor electronic signboard hacking cases such as Russia, the United States, the Philippines, and Indonesia.

In addition, it is a reality that civil defense misinformation that causes social chaos such as siren misinformation within the US military base and closed captioning of broadcasting station air raids is continuously occurring.

This is to prevent social chaos and safety accidents when the alarm terminal of a multi-use facility is hacked and false alarms such as 'air raid', 'CBC', and 'disaster risk' siren are broadcast.

Human life in accordance with Article 38-2 (3) 2 and 3 of the Framework Act on Disaster and Safety Management, Articles 46-2 (3) and 47 of the Enforcement Decree of the same Act and Article 11-4 (3) of the Enforcement Regulations of the same Act · When damage to body and property is expected, it is a security technology for disaster text broadcasting that is requested from key telecommunication service providers and broadcasting service providers to prevent or reduce the damage.

In addition, it is related to the Ministry of Public Administration and Security's 'Notification of the Civil Defense Alert Propagation Guidelines Using Electronic Signs (June 6, 2019)'.

The present invention is not a simple concept of automatically broadcasting through a broadcasting device upon receipt of a disaster message, but a differentiated feature of broadcasting by determining whether to broadcast or not by a person in charge.

CPTED BOX and CPTED BOX 3 unit price multiple supplier system, PA/AV disaster text approval broadcasting device through Smart Quantum Edge Server equipped with QRNG chip, CCTV surveillance camera for crime prevention, Smart Pole operation related to street/security to be.

In the operation method, based on human object recognition and face recognition technology through the CCTV surveillance camera for crime prevention, publicity broadcasting for corona infection, forest fire prevention publicity broadcasting, water play safety publicity broadcasting, river water level broadcasting, safety helmet wearing information broadcasting, etc. to be.

Disaster text is a conventional technology that automatically expresses disaster texts received through smart phones through in-house broadcasting devices, electronic billboards, signage, etc. come.

Unlike the prior art, the present invention is operated separately by the person in charge of multiple-use facilities (the general public through the designated procedure), the civil defense warning terminal operation official, the public company person in charge of the destination information sign operation, the civil defense warning wave expression target electric sign operating using the electric billboard, and the local government officials, etc. It is based on civil defense warning and disaster disaster text expression and broadcasting security technology related to special fields where the designated MMS text transmission source (eg KT Croshot) must be designated and operated in advance.

A CPTED BOX equipped with a Smart Quantum Edge Server in a Smart Pole containing any one or more of surveillance cameras, street lights, security lights, traffic lights, and road guide signs is a broadcasting device, a defibrillator, , characterized in that it is configured by additionally combining functional blocks such as emergency bells, electric chargers, and signage.

Because the management of street/security lights is different from the crime prevention cameras operated by local governments, it is not an easy task to supply driving power to the crime prevention cameras by receiving power from the street lights.

In particular, security surveillance cameras are managed and operated by a communication person, and street/security lights are managed and operated by an electrician, so the maintenance and operation management subjects are different. ' or 'Smart Pole' is becoming a stumbling block.

The task is to block the hacking of CCTV for crime prevention, which is likely to infringe on personal information and privacy, and signage (electric signage) displayed in random numbers, and to block misinformation of civil defense/disaster broadcasting that can cause social confusion.

Unlike the conventional technology that automatically broadcasts disaster messages transmitted through telecommunication service providers through a public address system (PA) or displays images and sounds through an A/V broadcasting system, it has the following differentiation and effects.

1. TTS remote broadcasting of disaster text received from designated IP (Internet Protocol) and caller number, including disaster text reception function, which is mandatory from the smartphone manufacturing stage, and TTS remote broadcasting of civil defense alert text message. Smartphone that operates expression control through confirmation (approval)

2. Text received from the smartphone is classified into central disaster situation room disaster text, local government disaster situation room disaster text, local government civil defense alert and control station disaster text, local government civil defense alert and control station civil defense text, and other broadcast texts, to be broadcast through

3. It is characterized in that it operates differently depending on the situation (character type, time, day of the week, absence setting, etc.) according to the control mode input and set by the person in charge on the smartphone and the control server (smart quantum edge server).

4. It is characterized by broadcasting through a one-click approval procedure through electronic approval before broadcasting, and broadcasting through a block chain consensus approval method and operation of government/ministerial officials according to the time limit.

5. Functional CPTED BOX blocks combined with smart poles or multi-use facilities operated as smart quantum edge servers, schools, child protection areas, senior protection areas, garbage dumping prevention, urban small parks, disaster areas, general crime prevention, crime zones, PA /AV Disaster Text Approval Broadcasting system, CCTV surveillance camera for crime prevention, street/security, etc. operation is a task.

In addition, QTLS (Quantum Transport Layer Security) inside the Smart Quantum Edge Server basically meets the ID Quantique SA or International Telecommunication Union (ITU) international standard physical transport layer standard, and a pseudo-random number generator (PRNG) ) with the random number seed generated through Half Mirror Effect Symmetric Cryptographic Algorithm OTP (One Time Password) QUANTUM PRIVATE KEY, and unpredictable entropy quantum random number Encryption platform (MS-500, KEV7, Trust-Fi Features, ChipDNA, secure gateway, URIT security) through QTLS (Quantum Transport Layer Security) internal PGn Block including a quantum random number generator (QRNG SoC Chip) that generates (QRN) After providing a quantum random number (QRN) to the platform, QEaaS server, etc.), the encryption platform (MS-500, KEV7, Trust-Fi Features, ChipDNA, security gateway, URIT security platform, QEaaS server, etc.) After generating a QUANTUM private key (PRIVATE KEY) with eFUSE and PUF as a seed, which cannot be replicated with KEY) and retransmitting it to QTLS (Quantum Transport Layer Security). Using the generated QUANTUM private key (PRIVATE KEY) and QUANTUM public key (PUBLIC KEY), a 1/2 random number seed ( Seed)' is characterized by exchanging do.

Multi-use facility person in charge, civil defense warning terminal operation official, route guide sign operation public company person in charge, civil defense warning propagation using electronic signboard operation Disaster text messages from the local government disaster situation room, disaster text messages from the local government disaster situation room, disaster text messages from the local government civil defense warning and control center, civil defense text messages from the local government civil defense alert control center, and other broadcasting text messages are broadcast through the broadcasting device at the discretion of the person in charge.

Text type, time, day of week, absence setting, disaster text message origin and content are classified in the artificial intelligence TTS module and broadcast according to control mode, situation setting, person in charge information, etc. One-click approval procedure through electronic approval before broadcasting or block chain It is characterized by broadcasting through the electronic payment method of agreement.

It is a structure that assembles and combines functional blocks composed of left and right blocks centered on a pole. Functional blocks equipped with various functions are smart poles with a block assembly type CPTED BOX that selects the place and function required by the customer. It is characterized in that it is laminated to the top and bottom.

Assembling and coupling the left block and the right block to the pole centering on the pole is replaced by attaching and coupling to the pole in the form of a box.

Security enhancement Through application of this technology to prevent malfunction, there is an expected effect of activating SMART POLE, strengthening the safety of children's protection areas, and effective broadcasting for multi-use facilities, schools, and government offices.

In particular, the smart quantum edge server technology blocks unwanted screens from being transmitted to online learning or signage in open places.

Unlike the conventional technology in which the terminal (smartphone, operation server, broadcasting device, etc.) that has received the disaster text message automatically expresses or converts the disaster text into voice through PA or A/V broadcasting device, the source of the disaster text message and The content is classified in the artificial intelligence TTS module to derive multiple results in different forms according to the control mode, situation setting, and information on the person in charge, and a differentiating feature is that a limiting method for preventing misinformation is applied.

In particular, it is a civil defense/disaster broadcasting system operated by public officials in charge of multi-use facilities (general people through designated procedures), civil defense warning terminal operation officials, route guide signs operating public companies, and local government officials operating electronic display targets for civil defense warning waves using electronic signs. .

Figure 1 Data for understanding the present invention
2 to 3 are block diagrams of an embodiment of the invention;
4 to 7 show an embodiment of the invention
8 is an embodiment of a CPTED BOX block
9 is a system block diagram of the present invention;
10 is a TLS module equipped with a System On Chip (MS-500 SoC)

Unlike hybrid quantum communication that simply combines key generation (symmetric key/asymmetric key) by the conventional classical communication method and key distribution (QKD) by quantum communication method, QTLS (Quantum Transport Layer Security) is ID Quantique SA Or, based on the International Telecommunication Union (ITU) international standard physical transport layer standard specification, it has the following differentiation.

Smart Quantum Edge Server is a random number seed generated through a quantum random number generator (QRNG). Half Mirror Effect Symmetric Cryptographic Algorithm OTP (One Time Password) QUANTUM Private Key (PRIVATE) In the method for generating KEY),

To generate the Half Mirror Effect symmetric key, Alice and Bob each generate and exchange 1/2 quantum random number seeds. (For example, Alice generates a random number seed 0101 through QRNG, and Bob generates a QRNG. If 1100 is created and exchanged through the same encryption algorithm (EX-AND) and encrypted with the same encryption algorithm (EX-AND), Alice and Bob will generate the same 0101 EX-AND 1100 = 0100 symmetric key generation seed.)

The present invention relates to a quantum random number seed exchange method,

A quantum random number generator (QRNG SoC) that uses a single network as well as a 2-channel or 3-channel communication network, but generates CHAOS Unpredictable Entropy (QRN) inside the Smart Quantum Edge Server QTLS (Quantum Transport Layer Security) including Chip) is a quantum random number (QRN) in the encryption platform (MS-500, KEV7, Trust-Fi Features, ChipDNA, security gateway, URIT security platform, QEaaS server, etc.) through PGn Block. Alternatively, after providing eFUSE and PUF that cannot be physically replicated, the encryption platform (MS-500, KEV7, Trust-Fi Features, ChipDNA, security gateway, URIT security platform, QEaaS server, etc.) uses a quantum random number (QRN) as a seed. After generating the QUANTUM PRIVATE KEY, encrypt the QUANTUM PRIVATE KEY through the Asymmetric Cryptographic Algorithm to generate the QUANTUM PUBLIC KEY and then QTLS (Quantum Transport Layer Security) It is characterized by exchanging 1/2 quantum random number seed' for half mirror effect symmetric key generation using QUANTUM private key and QUANTUM public key (PUBLIC KEY) generated by retransmission.

In addition, the encryption platform (MS-500, KEV7, Trust-Fi Features, ChipDNA, security gateway, URIT security platform, QEaaS server, etc.) provides physical authentication of PUF and integrity authentication of System On Chip and various security, Keys based on Systm On Chip and Light Weight security platform provide confidentiality functions (AES-128/192/256, ARIA-128/192/256, LEA-128/192/256, SEED-128, HIGHT -128ECB/CBC/OFB/CFB/CTR/CCM/GCM, etc.), digital signature function (ECDSA, ECC NIST-P256, etc.), key exchange function (ECDH, ECC NIST-P256, etc.), key generation function (ECC public key) generation, etc.), hash functions (SHA-256, etc.), and message authentication functions (HMAC with SHA-256, etc.).

Blocks and smart pole designs known through drawings, etc. are not limited to the present invention and are merely exemplary for understanding.

That is, the smart pole implemented through the function of the functional block and the assembly type is a differentiated feature of the present invention, and the design can be implemented in various forms.

A CPTED BOX attached to a surveillance camera, a street light, a security light, a traffic light, a road guide sign pole is a smart pole combination CPTED characterized in that the functional block of an embodiment as shown in FIG. 8 is assembled and combined as shown in FIG. 5 BOX.

One example presented in the drawings is transformed into a design of various shapes, and one embodiment is possible by attaching and coupling the left and right blocks to the pole in the form of a box.

The design presented in the drawings in the present invention is not limited to the claims of differentiated features that can be modified in various forms.

The left view of Figure 5 is a CCTV crime prevention in which the defibrillator block (5), the electric charger-emergency bell block (6), the broadcasting block (1), and the signage block (7), which are functional blocks, are stacked up and down sequentially from the ground surface. The camera is an embodiment, and the diagram on the right is an example of a smart pole CCTV security camera in which an emergency bell block (4) and a signage block (7) are vertically combined from the ground.

In addition, each of the functional blocks is characterized in that the conventional circular pole is coupled to the pole by combining the left and right blocks in the center. (Circular pole is the octagonal pole of a street lamp. includes,)

Smart pole coupling CPTED, characterized in that the functional block for assembling and coupling the left block and the right block to the pole around the pole is replaced by attaching and bonding to the pole in the form of a box BOX.

As in the above embodiment, the smart pole composed by combining each functional block is supplied and constructed for each CPTED BOX block by a multiple supplier contract method, a three-party unit price contract for an excellent procurement product, or a total contract for an excellent procurement product, depending on the characteristics of the demand source. It is a system that becomes

CPTED TOWER, a tower-type enclosure as shown in FIG. 4, or CPTED BOX, a box-type functional block-type enclosure with poles as shown in FIG. 6, is a LPWAN (LoRA, NB-IoT) , SigFOX, etc.) and an example of building an unlicensed frequency wireless self-network equipped with a Yi-Fi repeater that simultaneously processes Wi-Fi to build an unlicensed frequency wireless self-network that processes large-capacity high-speed data.

For example, if LoRA and Wi-Fi wireless self-network are simultaneously established through the Yi-Fi repeater,

Alice QRN SERVER transmission of the small amount of Eve public key generated by the smart quantum edge server inside the sleep CPTED BOX through the high-security wireless communication service provider (ISP operator, SK Telecom, KT 012X) network with a LoRA rate of less than KRW 1,000 do,

When Alice QRN SERVER transmits a large amount of data encrypted with the Eve public key through the Wi-Fi wireless network, it transmits the encryption key through the high-security ISP operator (SK Telecom wireless communication operator) network and then transmits the encryption key with low security. When decoding after receiving through Wi-Fi unlicensed frequency wireless own network, security is high and communication fee is lowered.

In addition, a Wi-Fi wireless self-network is established through a Wi-Fi repeater (AP),

Symmetric Cryptographic Algorithm through a Pseudo/Program Random Number Generator (PRNG) that generates the same random number and a Quantum Random Number Generator (QRNG) that generates unpredictable random numbers An embodiment in which an ISP operator network is not used is possible by applying an asymmetric cryptographic algorithm.

In particular, Alice and Bob have the same algorithm and the same Pseudo/Program Random Number Generator (PRNG) and can generate the same OTP (One Time Password) symmetric key.

As a simple example, if the pseudo-random number generator is composed of 1 0001 and 2 010, and the symmetric key encryption algorithm is EX-OR 1100,

Alice generates the OTP symmetric key with 1101 as the source by calculating the first pseudorandom number generator 0001 and the symmetric key encryption algorithm EX-OR 1100.

In the same way as above, Bob also generates the same OTP symmetric key with 1101 as the source by calculating the first pseudo-random number generator number 1 0001 and the symmetric key encryption algorithm EX-OR 1100.

As an example, when Alice first generates a private key as 0001 by the pseudo-random number generator and generates an unpredictable random (1010) random number through a Quantum Random Number Generator (QRNG), asymmetric key encryption Algorithm (Asymmetric Cryptographic Algorithm) Through EX-OR, generate Alice public key with 1011 as the source,

When the first pseudo-random number generator generates a private key with number 1 0001, and unpredictably different (1111) random numbers are generated through a Quantum Random Number Generator (QRNG), an asymmetric key encryption algorithm (Asymmetric Cryptographic) Algorithm) Generates Bob public key with 1111 as the source through EX-OR.

That is, Alice and Bob share the same private key, but each have different, unpredictable public keys.

As an example, various (including classical methods such as EX-OR, prime factorization, etc.) that have been published as a source of unpredictable random random numbers through a Quantum Random Number Generator (QRNG) Asymmetric Cryptographic Algorithm ), a variety of methods are applied, such as generating a private key and a public key.

The above one embodiment is an example of the simplest method for easy understanding, and is a description of a basic example based on known techniques for understanding that is not limited to the present invention. (Actually, a classical method such as EX-OR is currently obsolete.)

It is equipped with a Yi-Fi (Wi-Fi) repeater and builds unlicensed frequency LoRA or Wi-Fi wireless self-network, and surveillance cameras, street/security lights, traffic lights, traffic guidance connected to the enclosure and the arm/or structure. It is a structure combined with signs, traffic information display devices, and outdoor electric signs.

A Wi-Fi repeater is an access point that provides Wi-Fi service for unlicensed frequencies, and a Yi-Fi repeater is an access point that simultaneously provides Wi-Fi and LPWAN (LoRA, SigFOX, etc.) services for unlicensed frequencies. .

It is an embodiment of a smart pole that meets the various needs of consumers by combining functional blocks as shown in FIG. 7 .

In one embodiment,

The network separation server (or Alice QRN SERVER) inside the control center consists of an internal network server connected to the internal network and an external network server connected to the external network. Data is transmitted from the internal network server to the external network server in only one direction. It is a one-way data transmission physical network separation server.

The internal network server remotely controls the LPWAN repeater inside the CPTED TOWER/BOX connected to the network to control bidirectional wireless data communication with LPWAN terminals such as LoRA, SigFOX, and NBIoT.

LPWAN terminals (LoRA, SigFOX, NBIoT, etc.) are composed of an encryption modulator, a GPS receiver, a communication module, and a terminal control unit. The encrypted data is transmitted to the LPWAN repeater through the communication module.

Smart Quantum Edge Server is included in CPTED BOX or IoT terminals including LPWAN terminals to provide various services.

In particular, the internal network server remotely controls a Yi-Fi repeater that provides a public LPWAN/Wi-Fi service inside a CPTED TOWER/BOX in a remote location connected to the network to control an LPWAN/Wi-Fi terminal (smartphone, laptop, PDA). etc.) and two-way wireless data communication.

A terminal equipped with a Wi-Fi chip is a smartphone, laptop, PDA, etc. equipped with an encryption modulator, GPS receiver, communication module, and terminal control unit (MCU). Public Wi-Fi service is provided by transmitting the encrypted data encrypted by the encryption modulator to the Yi-Fi/Wi-Fi repeater through the communication module (modem).

The CPTED control server transmits the video captured by the surveillance camera and the encrypted data received through the Yi-Fi (or Wi-Fi) repeater to the internal network server of the network separation server connected to the network network.

The internal network server receives and decrypts the encrypted data, and when the IP address is the internal network IP address, the GPS address is displayed on the electronic map.

The internal network server receives and decrypts the encrypted data, and if the IP address is the external network IP address, it transmits the GPS address to the external network server, and the external network server is an OPEN API server (platform) and the ISP operator through the ISP operator network network. By transmitting the GPS address to the server, various local government public services are provided jointly with the telecommunication service provider.

The broadcasting device is controlled by the internal network server of the network separation server, and when the emergency bell is operated, the commercial microphone switch inside the broadcasting device is connected to the ON contact point to collect voice through the commercial microphone and broadcast and network through the amplifier and speaker inside the broadcasting device. Separation Server The internal network server transmits broadcast data to the CPTED control server inside the CPTED TOWER/BOX, and broadcasts it through the broadcast device.

Network Separation Server It is a crime prevention environment design CPTED TOWER/BOX characterized in that the internal network server opens and controls the two-way communication path through the broadcasting device according to the operation of the emergency bell, and the external network server controls the public Wi-Fi service. .

Among LPWAN services, unlicensed frequency LoRA communication is divided into TM/Alliance service versions, and there are two versions, a free version that anyone can use freely if they meet the regulations and a paid version provided by telecommunication service providers for a fee. are providing

The CPTED control server is characterized by additionally equipped with the function of a smart quantum edge server.

Alice QRN SERVER and Bob QRN SERVER are connected by a redundant network network with a telecommunication service provider network and wired/wireless self-network. It consists of a selectively applied 2-channel radio repeater (Access Point) and a licensed/unlicensed frequency multi-communication modem.

In one embodiment, the CPTED BOX is a two-channel wireless repeater (Access Point) and a LoRA/Wi-Fi multi-communication modem that selectively apply ISP carrier (SK Telecom) LoRA and unlicensed frequency Wi-Fi own (network) network. consists of including.

In one embodiment, the CPTED BOX is a two-channel wireless repeater (Access Point/QUANTUM AC) and LTE/Wi selectively applying ISP carrier LTE (or SK Telecom paid LoRA network) and unlicensed frequency Wi-Fi wireless network network. -Fi configured including multi-communication modem.

A system configuration will be described in detail through an embodiment.

CPTED BOX is a pole-attached box-type box, and it is divided into master CPTED BOX and sleeve CPTED BOX.

Master CPTED BOX is equipped with Bob QRN SERVER and wireless repeater (Yi/Wi-Fi AP) and is connected to master surveillance camera or master street/security light or master signage alone or more than one.

The sleeve CPTED BOX includes a Smart Quantum Edge Server and QUANTUM AC (modem selector that selects any one of licensed frequency modem and unlicensed frequency modem) and multi-communication modem (multi-communication modem including licensed frequency modem and unlicensed frequency modem). It is a Smart Pole equipped with a communication modem) and connected alone or more than one with a sleeve surveillance camera or a sleeve horizontal/security light or a sleeve signage.

Smart Quantum Edge Server consists of a quantum digital twin security module composed of ON/OFF SWITCH, data input/output I/O Port, QTLS (Quantum Transport Layer Security), and PGn Bridge Block. It is an edge server installed in pole).

The network configuration will be described.

Alice QRN SERVER inside the control center is networked with Bob QRN SERVER through the licensed frequency carrier wireless network (or SK Telecom unlicensed frequency LoRA paid network) and wired private network (or classifies the fixed IP leased network as a private network). network is connected

The smart quantum edge server inside the sleep CPTED BOX controls the unlicensed frequency modem (SK Telecom paid LoRA modem) and the QUANTUM AC (modem selector) that selects the licensed frequency modem, and controls the unlicensed frequency modem among the multi-communication modems and the wireless modem inside the master CPTED BOX. Network network connection between repeaters (Yi/Wi-Fi AP) through unlicensed frequency wireless self-network, or smart quantum edge server inside sleep CPTED BOX controls QUANTUM AC (modem selector) through licensed frequency modem among multi-communication modems. Connect to the wireless network of the licensed frequency carrier and connect the network with Alice QRN SERVER inside the control center.

A network communication method will be described.

The Smart Quantum Edge Server generates the Eve QUANTUM private key with the random number seed generated through the internal Eve pseudo-random number generator.

Eve QUANTUM is disclosed by encrypting the Eve QUANTUM private key through various well-known cryptographic asymmetric key cryptographic algorithms such as AES, hash function, and Hellman key using the quantum random number generated through the Eve quantum random number generator as a seed. After generating the key, save it and send the Eve QUANTUM public key to QUANTUM AC.

The known cryptographic asymmetric key cryptographic algorithm (Asymmetric Cryptographic Algorithm) generally uses a known technique and is not limited by the claims.

QUANTUM AC transmits Eve QUANTUM public key to Alice QRN SERVER through licensed frequency communication operator wireless network through licensed frequency modem with high security among multi-communication modems or to enhance security through duplication.

Alice QRN SERVER is configured by including Alice pseudo random number generator and Alice quantum random number generator inside.

Alice QRN SERVER generates the Alice QUANTUM private key with the random number seed generated through the Alice pseudo-random number generator.

The Alice QUANTUM public key is generated by encrypting the Alice QUANTUM private key through the Asymmetric Cryptographic Algorithm with the quantum random number seed generated from the Alice quantum random number generator.

Alice QRN SERVER encrypts the Alice QUANTUM public key with the Eve QUANTUM public key received through the licensed frequency carrier wireless network and transmits it to Bob QRN SERVER through the licensed frequency carrier wireless network or wired private network. Sending to Bob QRN SERVER is recommended.)

Bob QRN SERVER retransmits the Alice QUANTUM public key encrypted with the Eve QUANTUM public key to the smart quantum edge server using a wireless self-network between the wireless repeater (Yi/Wi-Fi AP) inside and the unlicensed frequency modem inside the sleeve CPTED BOX. .

A wireless repeater is a Yi-Fi AP (Access Point) that builds LoRA (or LPWAN) and Wi-Fi unlicensed frequency wireless self-network or Wi-Fi AP (Access Point) that builds Wi-Fi unlicensed frequency wireless self-network.

The smart quantum edge server decrypts the Alice QUANTUM public key encrypted with the Eve QUANTUM public key with the Eve QUANTUM private key to decrypt and generate the Alice QUANTUM public key.

As described above, mutual authentication is performed by encrypting and transmitting an IP address and a MAC address with the public key of the other party through mutual public key exchange as described above.

In other words, it is to physically verify that the other party is a legitimate user by preventing IP address forgery attacks and increasing security by encrypting and transmitting the other party's public key through a redundant communication network without exchanging an unencrypted public key. .

The smart quantum edge server controls QUANTUM AC to control the unlicensed frequency modem among multi-communication modems to transmit the data encrypted with the Alice QUANTUM public key to the wireless repeater (Yi/Wi-Fi AP) in the unlicensed frequency wireless self-network,

The data encrypted with the Alice QUANTUM public key is transmitted to the wireless repeater (Yi/Wi-Fi AP) inside the master CPTED BOX through the unlicensed frequency modem.

When Bob QRN SERVER receives data encrypted with the Alice QUANTUM public key from a wireless repeater (Yi/Wi-Fi AP), it transmits it to Alice QRN SERVER through its own wired network.

Alice QRN SERVER receives data encrypted with the Alice QUANTUM public key from the wired network and decrypts it with the Alice QUANTUM private key.

Alice QRN SERVER and sleep CPTED BOX use some well-known technologies to enhance security, improve communication speed and reduce communication charges through two-way data communication through Alice QUANTUM public key and Eve QUANTUM public key.

Alice QRN SERVER and Bob QRN SERVER and master CPTED BOX are connected to a highly secure wireline network, and Alice QRN SERVER remotely controls Bob QRN SERVER and master CPTED BOX.

Alice QRN SERVER remotely controls master surveillance camera and master street/security lights and master signage connected through master CPTED BOX.

Alice QRN SERVER controls either single or two or more terminal devices, either the master surveillance camera, the master street light, the master security light, or the master signage, which is a terminal device connected through the master CPTED BOX connected to the high-security wired self-network. .

In the master CPTED BOX and the sleeve CPTED BOX connected to the unlicensed frequency wireless self-network through the unlicensed frequency modem among the wireless repeater inside the master CPTED BOX and the multi-communication modem inside the sleeve CPTED BOX,

The sleeve CPTED BOX consists of a smart quantum edge server, QUANTUM AC, a multi-communication modem including an unlicensed frequency modem and a licensed frequency modem, and any one of the terminal device master surveillance camera, master street light, master security light, or master signage alone Or two or more terminal devices are controlled.

Smart Quantum Edge Server consists of a quantum digital twin security module composed of ON/OFF switch, data input/output I/O port, QTLS (Quantum Transport Layer Security), and PGn Bridge Block.

The I/O port is a data input/output I/O port that transmits and receives data with MS-500 SoC, KEV7 SoC, Trust-Fi Features SoC, ChipDNA SoC, secure gateway security platform, URIT security platform, Alice QRN SERVER, Bob QRN SERVER, etc. to be.

The Quantum Transport Layer Security (QTLS) is a Quantum Transport Layer Security (QTLS) including a quantum random number generator (QRNG SoC Chip) that generates CHAOS Unpredictable Entropy Quantum Random Number (QRN).

The PGn Bridge Block (PG0 Bridge Block ~ PG7 Bridge Block) includes a Pseudo/Program Random Number Generator Algorithm (PRNG), an Asymmetric Cryptographic Algorithm, and a Symmetric Cryptographic Algorithm. ) is composed of a program-loaded program block (ProGram Block) module or program block (ProGram Block) partition memory.

The PG0 Bridge Block is composed of Alice QRN SERVER and the same PG0 Bridge Block inside the Smart Quantum Edge Server.

Alice QRN SERVER and Smart Quantum Edge Server can generate the same private key (PRIVATE KEY) through the same Pseudo/Program Random Number Generator Algorithm (PRNG) inside.

In addition, the PG0 Block of Alice QRN SERVER and Smart Quantum Edge Server receives 1/2 each of the quantum random number seeds generated through QTLS (Quantum Transport Layer Security) internal quantum random number generator (QRNG). Generate an OTP (One Time Password) QUANTUM symmetric key of the Half Mirror Effect Symmetric Cryptographic Algorithm by generating and exchanging It is possible to generate OTP (One Time Password) QUANTUM private key (PRIVATE KEY) with Symmetric Cryptographic Algorithm.

For example,

Alice QRN SERVER and Smart Quantum Edge Server are composed of the same PG0 Bridge Block, and the same private key (PRIVATE KEY) is used through the same Pseudo/Program Random Number Generator Algorithm (PRNG). can create

That is, OTP (One Time Password) QUANTUM private key (PRIVATE KEY) can be generated with a symmetric key cryptographic algorithm known as the same random number seed generated through the same pseudo random number generator (PRNG). .

In addition, the PG0 Block of Alice QRN SERVER and Smart Quantum Edge Server receives 1/2 each of the quantum random number seeds generated through QTLS (Quantum Transport Layer Security) internal quantum random number generator (QRNG). Generate and exchange OTP (One Time Password) QUANTUM symmetric key of Half Mirror Effect Symmetric Cryptographic Algorithm.

Ex) Alice QRN SERVER receives 0101 random number through QRNG of QTLS and sends it to smart quantum edge server,

Smart Quantum Edge Server receives 0011 random number through QRNG of QTLS and sends it to Alice QRN SERVER,

Alice QRN SERVER and Smart Quantum Edge Server generate OTP (One Time Password) QUANTUM symmetric key with the same '0001' random number seed by calculating with the 'EX-AND' Half Mirror Effect symmetric key encryption algorithm.

After generating a QUANTUM public key (PUBLIC KEY) by encrypting the QUANTUM private key (PRIVATE KEY) through an asymmetric cryptographic algorithm using the quantum random number generated through the quantum random number generator (QRNG) as a seed It is a PG0 Bridge Block that stores and transmits the QUANTUM public key with QTLS (Quantum Transport Layer Security).

PG1 Bridge Block receives PIN data extracted through e-FUSE from MS-500 SoC Chip MODULE produced by EWBM Co., Ltd. through I/O Port, and receives PIN data as seed. Generate a key (PRIVATE KEY), receive a quantum random number (QRN) from a quantum random number generator (QRNG SoC Chip), and as a seed (Asymmetric Cryptographic Algorithm) QUANTUM public key (PUBLIC KEY) is generated and transmitted with QTLS (Quantum Transport Layer Security).

PG2 Bridge Block receives PIN data that cannot be copied from PUF (Physycally Unclonable Function) of KEV7 SoC Chip MODULE produced by KCS Co., Ltd. through I/O Port, and receives PIN data as a seed. Generates a private key with the QRNG SoC Chip, receives a quantum random number (QRN) from the QRNG SoC Chip, and uses the Asymmetric Cryptographic Algorithm as a seed KEY) is generated and transmitted with QTLS (Quantum Transport Layer Security).

PG3 Bridge Block receives the private key (PRIVATE KEY) generated from the security gateway security platform produced by Greenzone Security through the I/O port, and receives a quantum random number (QRNG SoC Chip) from the QRN) is received as a seed, and a QUANTUM public key (PUBLIC KEY) is generated through an asymmetric cryptographic algorithm and transmitted to QTLS (Quantum Transport Layer Security).

PG4 Bridge Block receives PIN data that cannot be copied from PUF (Physycally Unclonable Function) of Trust-Fi Features SoC Chip MODULE produced by ICTK Holdings Co., Ltd. Generate a private key as a seed, receive a quantum random number (QRN) from a quantum random number generator (QRNG SoC Chip), and use the asymmetric key encryption algorithm as a seed to QUANTUM A public key (PUBLIC KEY) is generated and transmitted through QTLS (Quantum Transport Layer Security).

PG5 Bridge Block extracts PIN data that cannot be copied from the DS28E38 MODULE equipped with ChipDNA SoC Chip produced by Maxim Integrated Co., Ltd. and receives it through the I/O port. Generate a private key as a seed, receive a quantum random number (QRN) from a quantum random number generator (QRNG SoC Chip), and use the asymmetric key encryption algorithm as a seed to QUANTUM A public key (PUBLIC KEY) is generated and transmitted through QTLS (Quantum Transport Layer Security).

PG6 Bridge Block receives the private key (PRIVATE KEY) generated from the URIT security platform produced by UR Information Technology Co., Ltd. through the I/O port, and receives the quantum random number (QRN) from the quantum random number generator (QRNG SoC Chip). ), generate a QUANTUM public key (PUBLIC KEY) through an asymmetric cryptographic algorithm as a seed, and transmit it to QTLS (Quantum Transport Layer Security).

PG7 Bridge Block encrypts communication with the QEaaS (Quantum Entropy as a Service) server produced by XGate through VPN (Virtual Private Network).

The smart quantum edge server generates Eve QUANTUM public key, Eve QUANTUM private key, Eve QUANTUM symmetric key, etc. through QTLS (Quantum Transport Layer Security) inside, and transmits it to Alice QRN SERVER and Bob QRN SERVER through multi-communication modem.

Smart Quantum Edge Server includes a quantum digital twin security module inside which is composed of an ON/OFF switch that approves the received image data. After selecting (operating) an operation mode consisting of any one or more of OFF SWITCH, Manager-Approval ON/OFF SWITCH, Block-Chain Approval ON/OFF SWITCH, and Inversion Mode ON/OFF SWITCH, finally ON/OFF SWITCH is turned off at the OFF contact. It is characterized in that the image data is displayed on the signage only when it is switched to the ON contact.

As an example for understanding,

Quantum digital twin security module consists of (final approval) ON/OFF SWITCH and Real-Time ON/OFF SWITC, and when Real-Time ON/OFF SWITC is ON,

When Bob QRN SERVER (or the main control unit (MCU) inside the quantum digital twin security module) receives the image data encrypted with the Eve QUANTUM public key, it sends the image data decrypted with the Eve QUANTUM private key to the quantum digital twin security module (final approval) SWITCH It is a Real-Time MODE that displays on signage in real time by controlling from OFF contact to ON contact connection.

The smart quantum edge server encrypts the captured video of the sleep surveillance camera with Alice's public key and transmits it to Bob QRN SERVER through the unlicensed frequency wireless self-network, and Bob QRN SERVER transmits it to the Alice QRN SERVER through the wired self-network.

The main control unit (MCU) inside the Smart Quantum Edge Server analyzes the video taken from the sleeve surveillance camera while the street/security light is on at night, and turns off the security light if a human object is not recognized, and the vehicle is not recognized. In this case, the streetlight is turned off, and the point/off data is encrypted with Alice's public key and sent to Bob QRN SERVER.

The Bob QRN SERVER transmits the dot/light data encrypted with the Alice public key to the Alice QRN SERVER.

Licensed frequency network network using a public key and private key generated with QUANTUM KEY generated through a Quantum Random Number Generator (QRNG) or a symmetric key generated through the same Pseudo Random Number Generator (PRNG) When Bob QRN SERVER receives sleep signage display image data from Alice QRN SERVER in the network log-in state through methods such as QUANTUM KEY exchange through and unlicensed frequency network, Smart Quantum Edge Server receives it again , Quantum digital twin security module manual switch ON/OFF-Line UP-Load SWITCH and Real-Time ON/OFF SWITCH consisting of ON/OFF SWITCH group that approves video data and selects operation mode inside the Smart Quantum Edge Server It is characterized by operating and controlling the sleeve signage display image data through

After ON/OFF-Line UP-Load SWITCH and Real-Time ON/OFF SWITCH, in the final stage of transmission to signage (final approval), the ON/OFF switch is switched from OFF contact to ON contact so that the video data is finalized as signage. As a concept to be transmitted (final acknowledgment) ON/OFF SWITCH is, in principle, a switch that can be omitted and is a virtual switch for understanding.

In addition, ON/OFF SWITCH can be implemented with SSR or relay or button switch, but it is possible by programmatic virtual switch program control. (Electronic contact switch such as SSR controlled by operation control program is recommended.)

That is, the quantum digital twin security module SWITCH, which is the ON/OFF switch that finally approves the display of image data with signage inside the smart quantum edge server, and the ON/OFF-Line UP-Load SWITCH and Real- It is characterized by controlling the image data expressed through the sleeve signage through the Time ON/OFF SWITCH. The final image data is transmitted to the signage only when the quantum digital twin security module SWITCH is switched from OFF contact to ON contact.

For example,

When the Smart Quantum Edge Server receives the sleep signage display image data from Alice QRN SERVER through Bob QRN SERVER while logged in to the network network with QUANTUM private key, QUANTUM public key, QUANTUM symmetric key, etc., Smart Quantum The quantum digital twin security module inside the edge server is the ON/OFF SWITCH that finally approves the display of image data with signage, and the ON/OFF-Line UP-Load SWITCH and Real-Time ON/OFF SWITCH that is a manual switch that selects the operation mode. and Manager-Approval ON/OFF SWITCH and Block-Chain Approval ON/OFF SWITCH and Inversion Mode ON/OFF SWITCH. It is characterized by controlling the data.

When ON/OFF-Line UP-Load SWITCH is selected as ON-Line UP-Load, the Smart Quantum Edge Server stores the image data received from Alice QRN SERVER in memory and then retransmits the saved image data to Alice QRN SERVER. do.

Alice QRN SERVER checks the digital twin image data that checks whether the retransmitted image data is the same data as the first transmitted data Digital twin security module SWITCH ON Delay Time MODE that is displayed on the sleeve signage through contact connection control.

When ON/OFF-Line UP-Load SWITCH is selected as OFF-Line UP-Load, Smart Quantum Edge Server controls only the video data uploaded through the USB port to connect the quantum digital twin security module SWITCH ON to the sleeve signage. OFF MODE expressed in

That is, the image data transmitted by Alice QRN SERVER through the network cannot be displayed for signage.

When Real-Time ON/OFF SWITC is ON, when video data encrypted with the Eve QUANTUM public key is received, it is decrypted with the Eve QUANTUM private key and displayed on the sleeve signage in real time by controlling the SWITCH ON contact connection of the quantum digital twin security module. Real-Time MODE.

If Manager-Approval ON/OFF SWITCH is ON, the Smart Quantum Edge Server receives the sleep signage image data from Alice QRN SERVER, and sends the Eve QUANTUM public key and the sleep signage display image data to the administrator's smartphone. send to

When the manager smartphone encrypts and transmits the sleep signage expression approval data with the Eve QUANTUM public key, the smart quantum edge server decrypts the sleep signage expression approval data with the Eve QUANTUM private key, checks the sleep signage expression approval data, and then controls the quantum digital twin security module SWITCH ON contact connection This is a Manager-Approval MODE to express sleep signage display video data on sleep signage.

When Block-Chain Approval ON/OFF SWITCH is ON, when 3 or more administrator smartphones are designated in the Manager-Approval MODE and more than 50% sleep signage display approval data is received, the quantum digital twin security module SWITCH is ON It is a Block-Chain MODE that displays the sleeve signage image data on the sleeve signage by controlling the contact connection.

When the Inversion Mode ON/OFF SWITCH is ON, when a human object is detected by analyzing the video captured by the surveillance camera, the quantum digital twin security module SWITCH ON contacts connection control to broadcast the illegal garbage dumping announcement, and at night, the manager It is an Inversion Mode that turns on the security light during the input time.

For example, if the Inversion Mode ON/OFF SWITCH is ON, when a human object is detected by analyzing the video captured by the surveillance camera, the ON/OFF SWITCH of the quantum digital twin security module is turned ON to control the contact connection to prevent garbage dumping, It is an Inversion Mode in which publicity broadcasts such as forest fire publicity, water play promotion, and access restriction guide are broadcasted, and publicity broadcasts are made for people who do not wear masks or hard hats through face recognition of human objects, and the security lights are turned on during the manager's input time at night;

Quantum digital twin security, characterized in that the corresponding MODE is not executed when the Real-Time ON/OFF SWITCH, Manager-Approval ON/OFF SWITCH, Block-Chain Approval ON/OFF SWITCH, Inversion Mode ON/OFF SWITCH is selected OFF It is a smart quantum edge server equipped with a module.

The smart quantum edge server inside the sleep CPTED BOX is characterized by receiving the sleep signage display image data through the unlicensed frequency wireless self-network through the unlicensed frequency modem among the multi-communication modems and the wireless repeater inside the master CPTED BOX.

In one embodiment,

It is a CPTED BOX including a control server and a functional block attached to a smart pole including any one or more of a surveillance camera, a street light, a security light, a traffic light, and a road guide sign.

The CPTED BOX includes a broadcasting block (1), a defibrillator-emergency bell block (2), an electric charger block (3), an emergency bell block (4), a defibrillator block (5), an electric charger-emergency bell block ( 6), characterized by a CPTED BOX composed of any one of the signage blocks 7 or by vertically combining any one or more blocks with a pole.

The broadcasting block 1 is configured to include a Smart Quantum Edge Server capable of remote broadcasting and program broadcasting with an amplifier-integrated speaker.

In addition, the Smart Quantum Edge Server is included in other functional blocks and configured.

The electric charger block 3 is a functional block equipped with an electric charger for charging electricity by connecting one or more of an electric vehicle, a smart phone, or an electric device.

The emergency bell block (4) consists of a smart quantum server inside the control center, an IP phone constituting a two-way communication path, and an emergency bell that generates a notification sound (warning light, siren). It is a functional block that is connected to the smart quantum server inside the center.

The defibrillator block 5 is composed of a box and a door for storing the AED inside the block. When the door is opened, the door open sensor operates to generate a door open sound.

The defibrillator-emergency bell block (2) is a functional block including a box and a door for storing an AED, an IP phone, and an emergency bell for generating a notification sound.

The electric charger-emergency bell block 6 is a functional block including an electric charger and an IP phone and a bell for generating a notification sound.

The signage block 7 is a functional block that displays image data on the monitor through the control of the smart quantum edge server inside the broadcasting block 1 .

The Smart Quantum Edge Server, which receives remote control from the Smart Quantum Server inside the control center, is characterized by displaying images on the monitor and controlling the amplifier-integrated speaker and electric charger, IP phone and surveillance camera.

In one embodiment,

It consists of Smart Quantum Edge Server, Alice QRN SERVER, Bob QRN SERVER, 2-channel wireless repeater (Access Point), multi-communication modem, telecommunication operator network, and wired/wireless self-network.

Alice QRN SERVE includes an Alice Quantum Random Number Generator (QRNG) inside, and Bob QRN SERVER includes a Bob Quantum Random Number Generator (QRNG) inside.

Alice/Bob generates a random quantum random number through the Alice/Bob Quantum Random Number Generator (QRNG) and generates a QUANTUM symmetric key of the Half Mirror Effect Symmetric Cryptographic Algorithm through encryption operation. characterized in that

Quantum Random Number Generator (QRNG) generates a random number seed early-QRN (Quantum Random Number) for generating QUANTUM symmetric key of symmetric key cryptographic algorithm and QUANTUM private key of Asymmetric Cryptographic Algorithm (PRIVATE) A random number seed for generating a basic-QRN (Quantum Random Number) for generating a KEY) and a random number seed for generating a QUANTUM public key (PUBLIC KEY) are generated.

A random number seed new-QRN (Quantum Random Number) for generating a QUANTUM public key (PUBLIC KEY) can be replaced with various well-known asymmetric cryptographic algorithms such as prime factorization operations, function expressions, and operators. .

Alice QRN SERVER is connected to the smart quantum edge server through the network network of the telecommunication service provider.

In addition, Alice QRN SERVER is composed of a redundant network network that is finally connected to the smart quantum edge server through a closed wireless self-network with unlicensed frequency via Bob QRN SERVER connected through a wired self-network.

Smart Quantum Edge Server is composed of QUANTUM AC (Access Controller) and Eve quantum random number generator. By selectively choosing

Smart Quantum Edge Server controls QUANTUM AC and connects with Bob QRN SERVER through 2-channel wireless repeater (Access Point) connected to unlicensed frequency closed wireless self-network through unlicensed frequency modem among multi-communication modems or Smart Quantum Edge Server is QUANTUM It is a QUANTUM AC that controls the AC and selects and controls the connection with Alice QRN SERVER through the operator's network through the operator's modem among the multi-communication modems.

The smart quantum edge server generates basic-QRN random numbers from the Eve quantum random number generator and generates the asymmetric key encryption algorithm Eve QUANTUM private key with the random number seed.

In addition, the smart quantum edge server generates a new-QRN random number from the Eve quantum random number generator and encrypts the Eve QUANTUM private key and the new-QRN random number seed to generate an asymmetric key encryption algorithm OTP (One Time Password) Eve QUANTUM public key. and transmit it to QUANTUM AC.

QUANTUM AC transmits the Eve QUANTUM public key to Alice QRN SERVER through the operator's network as the operator modem among the multi-communication modems.

Alice QRN SERVER is configured to include an Alice quantum random number generator inside, and receives basic-QRN from Alice quantum random number generator to generate an asymmetric key encryption algorithm Alice QUANTUM private key as a random number seed.

The Alice QRN SERVER generates and receives a new new-QRN random number from Alice's quantum random number generator and encrypts the Alice QUANTUM private key and new-QRN random number seed to generate an asymmetric key encryption algorithm OTP (One Time Password) Alice QUANTUM public key do.

OTP (One Time Password) Alice QUANTUM public key generation by an asymmetric key encryption algorithm that generates the Alice QUANTUM public key through the Alice QUANTUM private key is applicable to various known algorithms.

Alice QRN SERVER and Smart Quantum Edge Server exchange the Alice QUANTUM public key and the Eve QUANTUM public key with each other through the network of the telecommunication service provider.

The smart quantum edge server receives early-Eve QRN from the Eve quantum random number generator, encrypts the early-Eve QRN with the Alice QUANTUM public key, and transmits it to the Alice QRN SERVER through the carrier network.

Alice QRN SERVER receives early-Alice QRN from Alice quantum random number generator, encrypts early-Alice QRN with the Eve QUANTUM public key, and transmits it to the smart quantum edge server through the telecommunication service provider network to exchange with each other.

The Smart Quantum Edge Server decrypts the early-Alice QRN encrypted with the Eve QUANTUM public key with the Eve QUANTUM private key and performs encryption operations with the early-Eve QRN to generate the QUANTUM symmetric key of the symmetric key encryption algorithm.

After decrypting the early-Eve QRN encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key, the Alice QRN SERVER generates the same QUANTUM symmetric key of the early-Alice QRN and the symmetric key encryption algorithm that is the same encryption operation as above.

For example, as one of the classical methods, there is a method of EX-ANDing early-Alice QRN and early-Eve QRN.

The method of generating a symmetric key is classical and simple, but only by applying a 50% operation (Half Mirror Effect) method to an unpredictable quantum random number (QRNG) has higher security than generating a key using a predictable pseudo random number (PRNG). has

Alice QRN SERVER encrypts log information such as ID/PW of smart quantum edge server with QUATUM symmetric key and transmits it to Bob QRN SERVER through wired self-network, Bob QRN SERVER encrypts with QUATUM symmetric key through unlicensed frequency closed wireless self-network Log information such as ID/PW of one Smart Quantum Edge Server is exchanged with Smart Quantum Edge Server through different networks.

The smart quantum edge server decrypts the log information of the smart quantum edge server encrypted with the QUATUM symmetric key and decrypts the log information with the QUANTUM symmetric key. By connecting Bob QRN SERVER and network login (Log In) through a two-channel wireless repeater (Access Point) connected to the network, log information such as ID/PW is checked through the conventional single network to log in. different from doing

QUANTUM AC transmits the data inside the smart quantum edge server encrypted with the QUANTUM symmetric key through a 2-channel wireless repeater to the Bob QRN SERVER through the closed wireless self-network of the unlicensed frequency that is logged in to the network network. Some well-known technologies that transmit internal data of quantum edge server to Alice QRN SERVER through wired self-network, and Alice QRN SERVER receives internal data of smart quantum edge server encrypted with QUANTUM symmetric key from wired self-network and decrypts it with QUANTUM symmetric key This applies.

In one embodiment,

It consists of Smart Quantum Edge Server, Alice QRN SERVER, Bob QRN SERVER, wireless repeater (Access Point), multi-communication modem, network operator network, and wired/wireless self-network.

The network and the self-network are the first network and the second network, and are not limited to the telecommunication service provider network and the wired/wireless self-network.

Alice/Bob QRN SERVER is characterized in that Alice/Bob generates a random quantum random number through the Alice/Bob quantum random number generator inside, and generates a QUANTUM symmetric key of the Half Mirror Effect symmetric key encryption algorithm through encryption operation.

Quantum Random Number Generator (QRNG) generates a symmetric key generation random number seed QRN (Quantum Random Number) to generate a QUANTUM symmetric key of a symmetric key cryptographic algorithm, and QUANTUM PRIVATE KEY and QUANTUM of an asymmetric key cryptographic algorithm Generates asymmetric key generation random number seed QRN (Quantum Random Number) for generating public key (PUBLIC KEY).

Alice QRN SERVER is connected to the smart quantum edge server through the network network of the telecommunication service provider.

Alice QRN SERVER is connected to the Smart Quantum Edge Server through the Bob QRN SERVER connected through the wired self-network and through the unlicensed frequency closed wireless self-network.

Smart Quantum Edge Server is composed of QUANTUM AC (Access Controller) and Eve quantum random number generator. By selectively selecting one or more, the Smart Quantum Edge Server controls QUANTUM AC (Access Controller) and uses an unlicensed frequency modem among multi-communication modems through a wireless repeater (Access Point) connected to an unlicensed frequency closed wireless self-network. Connection with Bob QRN SERVER or Smart Quantum Edge Server controls QUANTUM AC (Access Controller) and connects to Alice QRN SERVER through the operator's network through the operator's modem among multi-communication modems.

Smart Quantum Edge Server generates Eve QUANTUM private key and Eve QUANTUM public key through various well-known asymmetric key cryptographic algorithms such as prime factorization with random number seed by generating QRN (Quantum Random Number) random number from Eve quantum random number generator to generate QUANTUM AC ( access controller).

QUANTUM AC (Access Controller) transmits the Eve QUANTUM public key to Alice QRN SERVER through the operator's network as a operator modem among multi-communication modems.

Alice QRN SERVER is configured by including Alice quantum random number generator inside, Alice QRN SERVER receives QRN (Quantum Random Number) from Alice quantum random number generator and uses random number seed as asymmetric key encryption algorithm Alice QUANTUM private key and Alice QUANTUM public key create

Alice QRN SERVER and Smart Quantum Edge Server exchange the Alice QUANTUM public key and the Eve QUANTUM public key with each other through the network of the telecommunication service provider.

The smart quantum edge server receives early-Eve QRN from the Eve quantum random number generator, encrypts the early-Eve QRN with the Alice QUANTUM public key, and transmits it to the Alice QRN SERVER through the carrier network.

Alice QRN SERVER receives early-Alice QRN from Alice quantum random number generator, encrypts early-Alice QRN with Eve QUANTUM public key, and transmits it to smart quantum edge server through network of telecommunication service providers.

The Smart Quantum Edge Server decrypts the early-Alice QRN encrypted with the Eve QUANTUM public key with the Eve QUANTUM private key and performs encryption operations with the early-Eve QRN to generate the QUANTUM symmetric key of the symmetric key encryption algorithm.

After decrypting the early-Eve QRN encrypted with the Alice QUANTUM public key with the Alice QUANTUM private key, the Alice QRN SERVER generates the QUANTUM symmetric key of the symmetric key encryption algorithm by performing the same encryption operation with the early-Alice QRN as above.

Alice QRN SERVER encrypts the log information of the smart quantum edge server with the QUATUM symmetric key and transmits it to Bob QRN SERVER through the wired self-network.

Bob QRN SERVER transmits the log information of the smart quantum edge server encrypted with the QUATUM symmetric key to the smart quantum edge server through the unlicensed frequency closed wireless self-network.

The smart quantum edge server decrypts the log information of the smart quantum edge server encrypted with the QUATUM symmetric key, and if the log information is approved, it controls the QUANTUM AC (Access Controller) and uses the unlicensed frequency modem among the multi-communication modems to obtain unlicensed frequencies. It connects Bob QRN SERVER and network network login (Log In) through a wireless repeater (Access Point) connected to a closed wireless self-network.

QUANTUM AC (Access Controller) transmits the data inside the smart quantum edge server encrypted with the QUANTUM symmetric key through a wireless repeater to Bob QRN SERVER through a closed wireless self-network with unlicensed frequency that is logged in to the network network.

Bob QRN SERVER transmits the data inside the smart quantum edge server to Alice QRN SERVER through the wired self-network.

*Alice QRN SERVER receives the internal data of the smart quantum edge server encrypted with the QUANTUM symmetric key from the wired network and decrypts it with the QUANTUM symmetric key.

A sleeve CPTED BOX including a signage block is combined with a smart pole including any one or more of a surveillance camera, a street light, a security light, a traffic light, and a road guide sign, and additionally, a defibrillator-emergency bell block Alternatively, the electric charger block or the emergency bell block or the defibrillator block or the electric charger-emergency bell block is characterized by further combining any one or more blocks to the smart pole (Smart Pole).

The sleeve CPTED BOX in the signage block is equipped with a smart quantum edge server (Smart Quantum Edge Server), a modem selector (QUANTUM AC), a multi-communication modem including a licensed frequency modem and an unlicensed frequency modem;

Smart Quantum Edge Server is a microcontroller (MCU) consisting of a microprocessor, an input/output port (I/O port), a power supply, SD card memory, video accelerator, ON/OFF-Line UP- It consists of Load SWITCH, Real-Time ON/OFF SWITCH, Manager-Approval ON/OFF SWITCH, Block-Chain Approval ON/OFF SWITCH, Inversion Mode ON/OFF SWITCH and Quantum Digital Twin Security Module ON/OFF SWITCH.

The main control unit (MCU) inside the Smart Quantum Edge Server receives driving power from the power supply, communicates data through the I/O port, stores and uploads data through the SD card memory, and monitors the camera. When the image of the image is received through the input/output port (I/O port), object recognition is performed through the image accelerator.

When the main control unit (MCU) inside the smart quantum edge server receives the image data to be displayed on the monitor inside the signage block through the multi-communication modem inside the sleeve CPTED BOX from Bob QRN SERVER inside the master CPTED BOX,

When ON/OFF-Line UP-Load SWITCH inside Smart Quantum Edge Server is selected as ON-Line UP-Load, the main controller (MCU) inside Smart Quantum Edge Server processes the video data received from Bob QRN SERVER. After saving in memory, the saved image data is retransmitted to Bob QRN SERVER.

When Bob QRN SERVER is logged in with the retransmitted image data through QUANTUM symmetric key authentication, Bob QRN SERVER checks whether the image data is the same as the first transmitted image data through two-way data communication (Digital After checking the TWIN video data), the final approval data (code) is transmitted to the Smart Quantum Edge Server.

That is, the Smart Quantum Edge Server, which has been verified whether the displayed image data is distorted, needs to be verified for image distortion in Delay Time Mode, which displays the approved image data on the sleeve signage through the ON contact connection of the quantum digital twin security module SWITCH. It is characterized by Delay Time MODE in which video data cannot be displayed.

When ON/OFF-Line UP-Load SWITCH is selected as OFF-Line UP-Load, the main control unit (MCU) inside the Smart Quantum Edge Server uses only the image data uploaded through the I/O port. Digital twin security module SWITCH ON This is an OFF mode that displays on the sleeve signage through contact connection. It only displays the uploaded image data by manual operation with an external memory such as USB. This is an OFF MODE in which distorted images are not displayed.

Unlike Delay Time MODE and OFF MODE, when Real-Time ON/OFF SWITC, which enables real-time display selection, is ON, when video data encrypted with the QUANTUM public key is received, it is decrypted with the QUANTUM private key and the quantum digital twin security module SWITCH ON. It is a Real-Time MODE that displays on the master signage in real time through contact connection.

When Manager-Approval ON/OFF SWITCH is ON, the main control unit (MCU) inside the Smart Quantum Edge Server receives the sleep signage display video data from Bob QRN SERVER, and displays the QUANTUM public key and the sleep signage. The video data is transmitted to the manager's smartphone, and the manager checks the displayed video data with the manager's smartphone and then encrypts and transmits the sleep signage display approval data (code) with the QUANTUM public key.

Smart Quantum Edge Server decrypts with the QUANTUM private key, checks the sleep signage display approval data (code), and then displays the sleep signage display image data on the sleeve signage through the quantum digital twin security module SWITCH ON contact connection. to be.

If Block-Chain Approval ON/OFF SWITCH is ON, Smart Quantum Edge Server has more than 50% (or administrator input value) of sleep signage display approval data as three or more administrator smartphones are designated in the Manager-Approval MODE. When (code) is received, it is a Block-Chain MODE that displays the sleeve signage display image data on the sleeve signage through the quantum digital twin security module SWITCH ON contact connection.

When the Inversion Mode ON/OFF SWITCH is ON, the Smart Quantum Edge Server analyzes the video taken from the surveillance camera and when a human object is detected, the Quantum Digital Twin Security Module SWITCH ON contact connection connection to broadcast information on illegal garbage dumping. At night, it is an Inversion Mode that turns on the security light during the administrator input time.

Smart quantum edge server, characterized in that the corresponding MODE is not executed when the Real-Time ON/OFF SWITC, Manager-Approval ON/OFF SWITCH, Block-Chain Approval ON/OFF SWITCH, Inversion Mode ON/OFF SWITCH is selected OFF to be.

Bob QRN SERVER inside the master CPTED BOX transmits the sleep signage display video data to the smart quantum edge server through the unlicensed frequency wireless self-network between the wireless repeater and the multi-communication modem inside the sleep CPTED BOX.

The broadcasting block is composed of a smart quantum edge server, an amplifier and a speaker, and the main control unit (MCU) inside the smart quantum edge server receives broadcast data communication from the master CPTED BOX through the I/O port. It is a functional block including a broadcasting device that broadcasts broadcasting data through an amplifier and a speaker inside the broadcasting block.

The electric charger block is a functional block mounted with an electric charger that charges electricity by connecting one or more of an electric vehicle, a smart phone, or an electric device.

The emergency bell block is a functional block composed of an IP phone that is controlled by the main control unit (MCU) inside the smart quantum edge server and a bell that generates a siren sound.

The defibrillator block is a functional block that is composed of a box and a door that stores the AED inside the block.

The defibrillator-emergency bell block includes a box and door for storing the AED, an IP phone controlled by the main controller (MCU) inside the smart quantum edge server, and a bell that generates a notification sound. The defibrillator block and emergency bell block are combined into one functional block.

The electric charger-emergency bell block 6 is characterized in that it includes an electric charger and an IP phone that is controlled by the main controller (MCU) inside the smart quantum edge server and a bell that generates a notification sound.

In one embodiment,

Alice CPTED BOX is configured including Alice QRN SERVER and wireless repeater (Access Point).

Bob CPTED BOX is basically composed of Bob QRN SERVER, smart quantum edge server and wireless communication modem, and additionally includes one or more functional blocks.

Alice QRN SERVER is inside Alice Pseudo Random Number Generator (PRNG) and Bob QRN SERVER is inside Bob Pseudo Random Number Generator (PRNG; Pseudo Random Number Generator) is the same random number generator program and the same OTP (One Time Password) random number create

Alice QRN SERVER and Bob QRN SERVER are characterized by generating random quantum random numbers through different quantum random number generators (QRNG) inside each (the quantum random number generator itself is based on irregularity).

Alice QRN SERVER generates the first random number (PRN1) generated through the same internal (Alice/Bob) pseudo-random number generator (PRNG) as Bob QRN SERVER.

Bob QRN SERVER generates an initial random number (PRN1) that is the same as the first random number generated by Alice QRN SERVER, which is generated through the same internal (Alice/Bob) pseudo-random number generator (PRNG) as Alice QRN SERVER.

Alice QRN SERVER generates Alice PRIVATE KEY1 and Alice PUBLIC KEY1 by performing an Asymmetric Cryptographic Algorithm encryption operation on the first QRN1 random number generated through Alice Quantum Random Number Generator (QRNG), known as a seed.

Bob QRN SERVER generates Bob PRIVATE KEY1 and Bob PUBLIC KEY1 by performing an Asymmetric Cryptographic Algorithm encryption operation on the QRN1 random number generated by the Bob Quantum Random Number Generator (QRNG) as a seed.

After exchanging Alice/Bob PUBLIC KEY1, Alice QRN SERVER and Bob QRN SERVER encrypt and exchange the initial random number (PRN1) with the counterpart PUBLIC KEY1, and decrypt each with PRIVATE KEY1 to log in to the network network (Log IN) when mutual authentication occurs. The process is periodically authenticated to renew the network log in (Log IN) in any one of the prescribed methods, such as every or daily or weekly or monthly.

As an example, when Alice QRN SERVER Alice PUBLIC KEY1 is transmitted to Bob QRN SERVER, Bob QRN SERVER encrypts and transmits an internal first random number (PRN1) to the counterpart Alice PUBLIC KEY1, and Alice QRN SERVER decrypts it with PRIVATE KEY1DM to decrypt the first random number ( If it matches with PRN1), Bob QRN SERVER is authenticated as a legitimate party.

Conversely, through the process, Bob QRN SERVER authenticates Alice QRN SERVER and logs in to the bidirectional network.

Through the above method, Alice QRN SERVER controls Bob QRN SERVER while the wireless repeater inside Alice CPTED BOX and the wireless communication modem inside the Bob CPTED BOX are logged in (Log IN) to the unlicensed frequency wireless self-network network, Bob QRN SERVER When the image data transmitted from Alice QRN SERVER is displayed on the signage, only the image data approved for display is displayed on the signage through the smart quantum edge server including the ON/OFF switch that approves the received image data. do it with

Bob CPTED BOX is connected to the street/security light,

The Smart Quantum Edge Server inside Bob CPTED BOX analyzes the video taken from the surveillance camera when the street/security light is on at night, and turns off the security light if a human object is not recognized, and turns off the street light if the vehicle is not recognized. Turns off and transmits the dot/off data to Alice QRN SERVER.

When the Inversion Mode ON/OFF SWITCH is ON inside, the Smart Quantum Edge Server analyzes the video captured by the surveillance camera and broadcasts an illegal dumping announcement when a human object is detected. It is Inversion Mode that lights up.

Bob CPTED BOX is connected to the signage,

When Bob QRN SERVER and Alice QRN SERVER receive signage display image data from Alice QRN SERVER through Bob QRN SERVER in the network network login (Log In) state in the same way as above, the smart quantum edge server receives the received image data It is characterized in that the image data received through ON/OFF-Line UP-Load SWITCH and Real-Time ON/OFF SWITCH, which are ON/OFF switches inside that approves, are displayed through signage.

In particular, when ON/OFF-Line UP-Load SWITCH is selected as ON-Line UP-Load, the Smart Quantum Edge Server stores the image data received from Alice QRN SERVER in memory and then stores the stored image data in the Alice QRN SERVER. After confirming that the retransmitted image data is the same (Digital TWIN) image data of Alice QRN SERVER, and the confirmation (confirmation) code is retransmitted to Bob QRN SERVER, it is a Delay Time MODE that displays the image data on the signage. .

In addition, when ON/OFF-Line UP-Load SWITCH is selected as OFF-Line UP-Load, Smart Quantum Edge Server is OFF MODE that displays only the video data uploaded through the USB port on the signage, and Delay Time MODE is set to OFF. prevent activation,

When Real-Time ON/OFF SWITC is ON, Smart Quantum Edge Server is a Real-Time MODE that receives video data encrypted with Bob PUBLIC KEY, decrypts it with Bob PRIVATE KEY, and displays it on the signage in real time.

If Manager-Approval ON/OFF SWITCH is ON, the Smart Quantum Edge Server receives signage display image data from Alice QRN SERVER through Bob QRN SERVER, and sends the signage display image data to the manager’s smartphone and , Smart Quantum Edge Server is a Manager-Approval MODE that displays image data on signage only when it receives a signage display approval code (data) from the manager's smartphone.

If Block-Chain Approval ON/OFF SWITCH is ON, 3 or more manager smartphones are designated in the Manager-Approval MODE, and when more than 50% of the signage display approval code (data) is received, the image data is It is a Block-Chain MODE expressed in

If the Real-Time ON/OFF SWITCH, Manager-Approval ON/OFF SWITCH, Block-Chain Approval ON/OFF SWITCH, and Inversion Mode ON/OFF SWITCH is OFF, the corresponding MODE is not executed.

The Bob CPTED BOX, which is attached and coupled to a pole including any one or more of a surveillance camera, street light, security light, traffic light, and road guide sign, is two blocks between the left block and the right block between the poles. Broadcasting block (1), defibrillator-emergency bell block (2), electric charger block (3), emergency bell block (4), defibrillator block (5), electric charger-emergency bell It is characterized in that the functional block of any one of the block (6) and the signage block (7) is vertically coupled to the pole (Pole).

In other words, assembling functional blocks that stack up and down the left and right blocks with a pole as the center, and remote control each functional block through Bob QRN SERVER and smart quantum edge server through Alice QRN SERVER’s remote control control

The broadcasting block 1 is a broadcasting device that broadcasts through an amplifier and a speaker under the control of Bob QRN SERVER.

The electric charger block 3 is equipped with an electric charger that charges electricity by connecting to any one or more of an electric vehicle, a smartphone, and an electric device under the control of the Bob QRN SERVER.

The emergency bell block 4 is composed of an IP phone and an emergency bell that constitute a two-way communication path between Alice QRN SERVER and Bob QRN SERVER when the emergency bell is activated.

The defibrillator block 5 generates a door opening sound when the door of the box storing the AED is opened under the control of the Bob QRN SERVER.

The defibrillator-emergency bell block (2) controls the box and door opening alarm sound and IP phone for storing the AED through the control of Bob QRN SERVER.

The electric charger-emergency bell block 6 includes an electric charger and an IP phone and a bell for generating a notification sound.

The signage block 7 is characterized in that it displays the image data on the monitor through the ON/OFF switch that approves the display of the image data received inside the smart quantum edge server.

In one embodiment,

Alice QRN SERVER inside Alice CPTED BOX and Bob QRN SERVER inside Bob CPTED BOX are Alice QRN in the state that they are logged in to the network through QUANTUM KEY authentication generated through a Quantum Random Number Generator (QRNG). SERVER controls Bob QRN SERVER, but Bob QRN SERVER When the image data transmitted from Alice QRN SERVER is displayed on the signage, only the image data approved for display is displayed on the signage through the smart quantum edge server including the ON/OFF switch that approves the received image data. by,

Alice QRN SERVER and Bob QRN SERVER generate the first PRN1 random number generated through the same pseudo-random number generator (PRNG) inside the pseudo-random number generation step.

Alice QRN SERVER generates Alice PRIVATE KEY1 and Alice PUBLIC KEY1 through an asymmetric cryptographic algorithm as a seed using Alice QRN1 random number generated through Alice quantum random number generator (QRNG) as a seed. Alice KEY generation step.

The Bob QRN SERVER uses the Bob QRN1 random number generated by the Bob Quantum Random Number Generator (QRNG) as a seed to generate Bob PRIVATE KEY1 and Bob PUBLIC KEY1 through the Asymmetric Cryptographic Algorithm.

Through the above steps, Alice QRN SERVER and Bob QRN SERVER exchange Alice/Bob PUBLIC KEY1, encrypt and exchange PRN1 with the counterpart PUBLIC KEY1, respectively, decrypt with Alice/Bob PRIVATE KEY1, and log in to the network network when mutual authentication is achieved. IN) network network login (Log IN) method.

Bob CPTED BOX is connected to the surveillance camera and the street/security light, and the smart quantum edge server inside the Bob CPTED BOX analyzes the video taken from the surveillance camera at night with the street/security light turned on, so that the human object cannot be recognized. A street/security light dimming control method that turns off the security light in case the vehicle is not recognized, turns off the street light, and transmits the point/off data to Alice QRN SERVER.

If Inversion Mode ON/OFF SWITCH is ON in the Smart Quantum Edge Server, the video captured by the surveillance camera is analyzed and a human object is detected, an announcement of illegal garbage dumping is broadcast, and during the additional administrator input time at night Inversion Mode that turns on the security light.

Bob CPTED BOX is connected to the signage, and when Bob QRN SERVER and Alice QRN SERVER are logged in to the network network, the smart quantum edge server receives signage display image data from Alice QRN SERVER through Bob QRN SERVER. , In expressing the image data received through the ON/OFF-Line UP-Load SWITCH and Real-Time ON/OFF SWITCH, which is the ON/OFF switch that approves the received image data, through the signage,

When ON/OFF-Line UP-Load SWITCH is selected as ON-Line UP-Load, the Smart Quantum Edge Server stores the image data received from Alice QRN SERVER in memory and then retransmits the saved image data to Alice QRN SERVER. And, Alice QRN SERVER checks the same Digital TWIN image data for the retransmitted image data, and then controls the smart quantum edge server to display the image data stored in the memory on the signage.

When ON/OFF-Line UP-Load SWITCH is selected as OFF-Line UP-Load, Smart Quantum Edge Server displays only the video data uploaded through the USB port on the signage.

When Real-Time ON/OFF SWITC is ON, Smart Quantum Edge Server receives video data encrypted with Bob PUBLIC KEY1, decrypts it with Bob PUBLIC KEY1, and displays it on the signage in real time.

If Manager-Approval ON/OFF SWITCH is ON, the Smart Quantum Edge Server receives signage display image data from Alice QRN SERVER through Bob QRN SERVER, and sends the signage display image data to the manager’s smartphone and , Manager-Approval MODE in which the Smart Quantum Edge Server displays the image data on the signage only when it receives the signage display approval code from the manager's smartphone.

When Block-Chain Approval ON/OFF SWITCH is ON, 3 or more manager smartphones are designated in the Manager-Approval MODE and when more than 50% of the signage display approval code is received, the image data is displayed on the signage. Block-Chain MODE.

The Inversion Mode, Delay Time MODE, OFF MODE, Real-Time MODE, Block-Chain MODE control is executed, Real-Time ON/OFF SWITCH, Manager-Approval ON/OFF SWITCH, Block-Chain Approval ON/ OFF SWITCH, Inversion Mode When ON/OFF SWITCH is OFF, the control method is characterized in that the corresponding mode is not executed.

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

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

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

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

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

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

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

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

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

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

In one embodiment,

Network login (Log-IN) between Alice QRN SERVER and Bob QRN SERVER,

Alice QRN SERVER is configured by including an Alice PUF (Physycally Unclonable Function) Chip inside.

The Alice QUANTUM private key (PRIVATE KEY) is generated using the non-copyable Alice PIN DATA extracted from the hardware PIN (Personal Identification Number) connection state data using process deviations occurring in the semiconductor manufacturing process as the seed.

Alice QRN SERVER generates Alice QUANTUM public key (PUBLIC KEY) by encrypting Alice QUANTUM private key (PRIVATE KEY) with random random numbers generated through QRNG (Quantum Random Number Generator) or TRNG (True Random Number Generator) inside. .

In the same way, the Bob QUANTUM private key (PRIVATE KEY) is generated using the Bob PIN DATA extracted from the hardware PIN (Personal Identification Number) connection state data from the Bob PUF (Physically Unclonable Function) chip inside the Bob QRN SERVER as the seed. , a Quantum Random Number Generator (QRNG) or True Random Number Generator (TRNG) generates a Bob QUANTUM public key (PUBLIC KEY) by encrypting the Bob QUANTUM private key with random numbers.

When Alice QRN SERVER sends Alice QUANTUM public key (PUBLIC KEY) to Bob QRN SERVER, Bob QRN SERVER encrypts Bob QUANTUM private key (PRIVATE KEY) with Alice QUANTUM public key (PUBLIC KEY) and retransmits.

Alice QRN SERVER decrypts Bob QUANTUM private key (PRIVATE KEY) encrypted with Alice QUANTUM public key (PUBLIC KEY) with Alice QUANTUM private key (PRIVATE KEY) to obtain Bob QRN SERVER's Bob QUANTUM private key (PRIVATE KEY) .

In the same way, when Bob QRN SERVER sends Bob QUANTUM public key (PUBLIC KEY) to Alice QRN SERVER, Alice QRN SERVER encrypts and retransmits Alice QUANTUM private key (PRIVATE KEY) with Bob QUANTUM public key (PUBLIC KEY) .

Bob QRN SERVER decrypts Alice QUANTUM private key (PRIVATE KEY) encrypted with Bob QUANTUM public key (PUBLIC KEY) with Bob QUANTUM private key (PRIVATE KEY) to obtain Alice QRN SERVER's Alice QUANTUM private key (PRIVATE KEY) .

Alice QRN SERVER and Bob QRN SERVER exchange log data encrypted with each other's QUANTUM private key (PRIVATE KEY) to log in to the network network in case of mutually authenticated users.

In one embodiment,

Network login (Log-IN) between Alice QRN SERVER and Bob QRN SERVER,

Alice/Bob QRN SERVER is composed of Alice/Bob PUF (Physycally Unclonable Function) Chip inside, and it collects the connection state data of the hardware PIN (Personal Identification Number) from the process deviation that occurs during the semiconductor manufacturing process. Alice/Bob QUANTUM private key (PRIVATE KEY) is generated using the extracted Alice/Bob PIN DATA as a seed, and Alice/Bob QUANTUM private key (PRIVATE KEY) is generated with a random random number generated through QRNG (Quantum Random Number Generator). Generates an Alice/Bob QUANTUM public key (PUBLIC KEY) encrypted with .

Alice QRN SERVER and Bob QRN SERVER exchange QUANTUM public key (PUBLIC KEY) and then encrypt and exchange the random quantum random number generated through QRNG (Quantum Random Number Generator) with the other party's QUANTUM public key (PUBLIC KEY). Alice QRN SERVER and Bob QRN SERVER generate the same QUANTUM symmetric key through the Half Mirror Effect symmetric key encryption algorithm of their own quantum random number and the decrypted quantum random number by decrypting with the QUANTUM private key.

Alice QRN SERVER and Bob QRN SERVER are characterized in that they log in to the network network when they are mutually approved users through data communication encrypted with the QUANTUM symmetric key.

In one embodiment,

It is characterized in that, in the case of a vehicle, the speed of the vehicle is expressed on the sign by analyzing the video captured by the surveillance camera by additionally configuring a CCTV for crime prevention and a multi-function camera capable of object recognition and vehicle speed measurement.

In one embodiment,

Alice QRN SERVER and Bob QRN SERVER generate the same random number through the same Alice/Bob pseudo-random number generator (PRNG) inside, and Alice QRN SERVER and Bob QRN SERVER generate random quantum through different quantum random number generators (QRNG) inside. Characterized in generating each random number,

Alice QRN SERVER generates the first PRN random number through the same internal Alice/Bob pseudo random number generator (PRNG) as Bob QRN SERVER, and Bob QRN SERVER uses the same internal Alice/Bob pseudo random number generator (PRNG) as Alice QRN SERVER. After generating the same initial PRN random number as above through Generation and Bob QRN SERVER generates Bob PRIVATE KEY and Bob PUBLIC KEY through an Asymmetric Cryptographic Algorithm using the Bob QRN random number generated by the Bob Quantum Random Number Generator (QRNG) as a seed.

After exchanging Alice/Bob PUBLIC KEY, Alice QRN SERVER and Bob QRN SERVER encrypt and exchange PRN with the other PUBLIC KEY, and decrypt each with PRIVATE KEY. When the same PRN is decrypted, they log in to the network.

Also, in case of spoofing attack, Alice QRN SERVER and Bob QRN SERVER generate the same random number through the same Alice/Bob pseudo random number generator (PRNG) inside, but odd number (eg Alice 1) and even number (eg. One implementation is possible, such as a cross method in which a random number is generated in pairs and authenticated by exchanging odd/even random numbers, or a unique MAC address, log data (Log DATA), ID/PW exchange, and the like.

In one embodiment,

Smart Quantum Edge Server consists of data input/output I/O Port, QTLS (Quantum Transport Layer Security), and PGn Block, and I/O Port is MS-500 SoC or KEV7 SoC or Trust-Fi Features SoC or ChipDNA SoC or security gateway security platform or URIT security platform or SoC security chip, or data input/output I/O port that transmits and receives data with any one or more of Alice QRN SERVER or Bob QRN SERVER.

Quantum Transport Layer Security (QTLS) is a Quantum Transport Layer Security (QTLS) that includes a quantum random number generator (QRNG SoC Chip) that generates a quantum random number (QRN).

PGn Block is composed of a program block module or a program block partition memory with a pseudo-random number generator and an encryption key generation program mounted therein.

It is composed by including the same PGn Block inside Alice QRN SERVER and Smart Quantum Edge Server.

Alice QRN SERVER and Smart Quantum Edge Server are the same random number seed generated through the same pseudo-random number generator (PRNG), and the same OTP (One Time Password) private key (PRIVATE KEY) or OTP (One Time Password) Time Password) Generates QUANTUM symmetric key.

That is, Alice QRN SERVER and Smart Quantum Edge Server have the same QUANTUM symmetry through the same Symmetric Cryptographic Algorithm with the same random number seed generated through the same pseudo-random number generator (PRNG). create a key

In addition, Alice QRN SERVER and Smart Quantum Edge Server are random number seeds that are exchanged with each other by 1/2 of the quantum random number generated through QTLS (Quantum Transport Layer Security) internal quantum random number generator (QRNG). Half Mirror Effect Generates OTP (One Time Password) QUANTUM symmetric key through Symmetric Cryptographic Algorithm.

Alice QRN SERVER and Smart Quantum Edge Server use quantum random numbers generated through different quantum random number generators (QRNGs) as seeds, and different QUANTUMs through encryption key generation programs (eg EX-OR, AES, ARIA, etc.) It generates a private key and a different QUANTUM public key (PUBLIC KEY) and transmits it to QTLS (Quantum Transport Layer Security).

PGn Block is a TLS (Transport Layer Security) MODULE or security platform equipped with a security chip. When receiving a QUANTUM private key (PRIVATE KEY) through an I/O port, it receives a quantum random number (QRN) from a quantum random number generator (QRNG SoC Chip). ), generates a QUANTUM public key (PUBLIC KEY) through an encryption key generation program as a seed, and transmits it to QTLS (Quantum Transport Layer Security).

In one embodiment of the method of operation,

Alice QRN SERVER inside Alice CPTED BOX and Bob QRN SERVER inside Bob CPTED BOX are Alice QRN in the state that they are logged in to the network through QUANTUM KEY authentication generated through a Quantum Random Number Generator (QRNG). SERVER controls Bob QRN SERVER, but Bob QRN SERVER When the image data transmitted from Alice QRN SERVER is displayed on the signage, only the image data approved for display is displayed on the signage through the smart quantum edge server including the ON/OFF switch that approves the received image data. do it with

Alice QRN SERVER and Bob QRN SERVER generate the first PRN1 random number generated through the same pseudo-random number generator (PRNG) inside the pseudo-random number generation step.

Alice QRN SERVER generates Alice PRIVATE KEY1 and Alice PUBLIC KEY1 through an asymmetric cryptographic algorithm as a seed using Alice QRN1 random number generated through Alice quantum random number generator (QRNG) as a seed. Alice KEY generation step.

The Bob QRN SERVER uses the Bob QRN1 random number generated by the Bob Quantum Random Number Generator (QRNG) as a seed to generate Bob PRIVATE KEY1 and Bob PUBLIC KEY1 through the Asymmetric Cryptographic Algorithm.

Alice QRN SERVER and Bob QRN SERVER exchange Alice/Bob PUBLIC KEY1, encrypt and exchange PRN1 with the counterpart PUBLIC KEY1, and decrypt each Alice/Bob PRIVATE KEY1 to log in to the network network when mutual authentication is achieved. It features a network login (Log IN) method.

Bob CPTED BOX is connected to the surveillance camera and security light, and the smart quantum edge server inside the Bob CPTED BOX analyzes the video taken from the surveillance camera at night while the security light is on and turns off the security light if a human object is not recognized. It is a dimming control method such as security.

If the Inversion Mode ON/OFF SWITCH is ON in the Smart Quantum Edge Server, the video captured from the surveillance camera is analyzed and a human object is detected when a publicity announcement is broadcast to the local government, and additionally during the administrator input time at night. This is an Inversion Mode control method that turns on the security light.

Bob CPTED BOX is connected to the signage, and when Bob QRN SERVER and Alice QRN SERVER are logged in to the network network, the smart quantum edge server receives signage display image data from Alice QRN SERVER through Bob QRN SERVER. , ON/OFF-Line in displaying the video data received through the ON/OFF-Line UP-Load SWITCH and Real-Time ON/OFF SWITCH, which is the ON/OFF SWITCH that approves the received video data, through the signage. If UP-Load SWITCH is selected as ON-Line UP-Load, the smart quantum edge server stores the image data received from Alice QRN SERVER in memory, then retransmits the stored image data to Alice QRN SERVER, and receives the retransmission. Alice QRN SERVER is a Delay Time MODE that displays the image data stored in the memory on the signage by controlling the Smart Quantum Edge Server after checking the same Digital TWIN image data.

When ON/OFF-Line UP-Load SWITCH is selected as OFF-Line UP-Load, Smart Quantum Edge Server is an OFF MODE that displays only the video data uploaded through the USB port on the signage.

When Real-Time ON/OFF SWITC is ON, Smart Quantum Edge Server receives video data encrypted with Bob PUBLIC KEY1, decrypts it with Bob PUBLIC KEY1, and displays it on the signage in real time.

When the Real-Time ON/OFF SWITCH and Inversion Mode ON/OFF SWITCH are selected as OFF, the corresponding mode is not executed.

In the publicity announcement method,

It is possible to broadcast publicity programs for local governments such as prevention of corona virus disease, prevention of forest fires, promotion of water play, emergency information broadcasting on electricity supply and demand, and broadcasting of nuclear accidents.

In addition, the broadcast received from the civil defense warning terminal of a multi-use facility is relayed in real time, and the local government publicity announcement including the real-time broadcast of the civil defense warning terminal of the multi-use facility and the broadcast received from the civil defense warning terminal of a multi-use facility are in real time Linked operation of school broadcasting system for relay broadcasting Occupational safety and health management CCTV surveillance camera Occupational safety and health management system control and It is possible to operate a PA/AV disaster letter approval premises broadcasting system and to operate a child/elderly protection area that displays the vehicle speed on a signage when the object captured by the CCTV surveillance camera for crime prevention is a vehicle.

In one embodiment,

Alice QRN SERVER is connected to Bob QRN SERVER inside the master CPTED BOX through a wired network.

Remotely control the smart quantum edge server inside the sleeve CPTED BOX connected to Bob QRN SERVER and the unlicensed frequency wireless network.

Alternatively, Bob QRN SERVER and the smart quantum edge server inside the sleeve CPTED BOX are connected through a wired network, so that Bob QRN SERVER remotely controls the smart quantum edge server inside the sleeve CPTED BOX.

A smart quantum edge server inside the sleeve CPTED BOX connects and controls signage.

Bob QRN SERVER The image data received from Alice QRN SERVER is transmitted to the smart quantum edge server inside the sleep CPTED BOX through the unlicensed frequency wireless self-network (or wired self-network).

Smart Quantum Edge Server encrypts the video captured by the surveillance camera and transmits it to Bob QRN SERVER through the unlicensed frequency wireless self-network (or wired self-network), and Bob QRN SERVER transmits it to Alice QRN SERVER through the wired network.

When the smart quantum edge server inside the sleep CPTED BOX receives the signage display video data from Alice QRN SERVER through the Bob QRN SERVER inside the master CPTED BOX, the smart quantum edge server activates the ON/OFF switch that selects and controls the video data transmission method. It is characterized in that it controls the image data displayed on the sleeve signage through

ON/OFF SWITCH consists of one or more of ON-Line UP-Load SWITCH, OFF-Line UP-Load SWITCH, and Inversion Mode ON/OFF SWITCH.

If ON/OFF SWITCH is selected as ON-Line UP-Load, Smart Quantum Edge Server stores the image data received from Alice QRN SERVER in memory and then retransmits the saved image data to Alice QRN SERVER.

Alice QRN SERVER is a Delay Time MODE that displays the image data stored in the smart quantum edge server's internal memory on the sleep signage after confirming that the retransmitted image data matches the first transmitted image data.

When ON/OFF SWITCH is selected as OFF-Line UP-Load, Smart Quantum Edge Server is an OFF MODE that displays only the video data uploaded through the USB port and stored in the memory on the sleep signage.

When the Inversion Mode ON/OFF SWITCH is ON, when a human object is detected by analyzing the video captured by the surveillance camera, the quantum digital twin security module SWITCH ON is an Inversion Mode that controls the contact connection and broadcasts publicity announcements for local governments. According to the detection of human objects, safety publicity broadcasts such as garbage dumping publicity broadcasts, access restriction announcements, and forest fire prevention announcements are broadcast.

When the face of a human object is recognized, a publicity announcement suitable for the recognition object is performed, such as a publicity broadcast for not wearing a mask or a publicity broadcast for not wearing a hard hat.

The smart quantum edge server inside the sleep CPTED BOX receives the video data displayed on the sleep signage through the wired private network or the unlicensed frequency modem and the unlicensed frequency wireless network through the unlicensed frequency wireless repeater inside the master CPTED BOX.

The sleeve CPTED BOX and sleeve signage are basically attached and combined as a box type attached to a pole, and any one or more functional blocks among broadcasting blocks and emergency bell blocks that are additionally coupled up and down to the pole are added. is formed by combining

The broadcasting block is a functional block that includes an amplifier-integrated speaker and is controlled by a smart quantum edge server inside the sleeve CPTED BOX.

The emergency bell block is composed of an IP phone and an emergency bell that form a two-way communication path with Alice QRN SERVER. It is a functional block that connects to Alice QRN SERVER through an IP phone when the emergency bell is activated in an emergency. Smart quantum edge server inside the sleeve CPTED BOX It is a smart pole combined CPTED BOX, characterized in that it receives the control of.

The suffixes "module", "part", "ENGINE", etc. for the components used in the following description are given or mixed in consideration of only the ease of writing the specification, and have a meaning or role that is distinct from each other by itself. not. In addition, when it is determined that detailed descriptions of known technologies such as "learning method", "deep learning", "artificial intelligence", etc. related to the embodiments disclosed in the present specification may obscure the gist of the embodiments disclosed herein, the Detailed description will be omitted. In addition, the accompanying drawings are only for easy understanding of the embodiments disclosed in the present specification, and the technical spirit disclosed herein is not limited by the accompanying drawings, and all changes included in the spirit and scope of the present invention , should be understood to include equivalents or substitutes.

In the object recognition and artificial intelligence learning method,

By engineering the cerebral cortex and hippocampal neural network, which are the principles of the human cognitive brain, by using the software method on the captured image, high-speed learning of content-based feature vectors and applying the hippocampal neural network algorithm to construct the optimal feature is applied to the object (human). and predict the occurrence of industrial accidents by convergence of structured and unstructured information.

In detail, a high-resolution image restoration (super resolution) technique in processing a photographed image is to convert a low-resolution image into a high-resolution image by using a signal processing technique (warping, burring, down sampling) between the high-resolution image and the low-resolution image. Warping is to designate a partial area within an image and transform it into a shape that fits the defined area, and uses an interpolation method (bilinear or nearest neighbor).

In the present invention, in order to secure a wider intermittent area, a focal length of a high-resolution camera lens is shortened to acquire an ultra-wide omnidirectional image, or an ultra-wide or panoramic image is obtained through a plurality of cameras.

As an embodiment, a 180-degree or 360-degree photographed image may be obtained by photographing three or six wide-angle 60-degree cameras.

When warping event objects such as vehicles, people, and license plates in ultra-wide images, if the size of the object is small, it is enlarged by the super resolution technique, and if the size of the vehicle is large, it is reduced and processed by the high-resolution image restoration technique. .

The conventional technology is usually composed of two or more surveillance cameras, and through an omnidirectional surveillance camera that shoots a wide area, the tracking surveillance camera is zoomed in with a pan-tilt lens and zoomed in with a pan-tilt lens while taking pictures of the tracking surveillance camera with the X-Y-axis coordinates where the pixel changes in the image. The data value is calculated by digitizing the lens zoom-in and calculating the Z-axis coordinates into a three-dimensional image.

In particular, in order to crack down on illegal parking, the focal length, pan angle, and tilt angle (pan angle, tilt angle, focal length) of the surveillance camera are calculated, and the location and distance of the actual space in the three-dimensional enforcement scene as image pixel coordinates using these calculations. The formation of a zone and an error can be reduced only by calculating the area.

Since the conventional technology as described above processes by a mechanical method such as a mechanical pan/tilt lens zoom-in, the accuracy is lowered due to the occurrence of errors, mechanical defects, and breakdowns. There has been a limit to the number of objects that can be processed at the same time.

For captured images, smoothing, histogram equalization, and expansion or contraction morphology are used as image preprocessing techniques. For night images, low-pass filtering, Gaussian filtering, and median filtering are used. Pre-processing is performed, and for daytime images, the input image is processed according to the histogram algorithm, edge algorithm, and labeling algorithm without preprocessing. In the histogram algorithm, the lowest bit value that occurs frequently is assigned and As the size of the frequency decreases, a larger bit value is allocated to analyze the image value.

The edge algorithm is a method of recognizing a part in an image where color or density changes rapidly as an edge.

The labeling algorithm finally extracts the area expected to be an object (person, vehicle) based on the analysis result above. Through this process, the number, size, color, and coordinate values of people and vehicles in the event detection area are known. can

The original image and the pre-processed image are input and the image is binarized. For image binarization, a Gaussian distribution is calculated with the image average and variance values to determine a threshold, and then chain coding is connected in four directions (up, down, left and right) for a plurality of binarized images. A region boundary operation is performed by a chain coding technique, and an object rectangle value is generated by the region boundary operation.

When a rectangular object value is created, object classification (person, face, license plate (matching work according to restrictions according to license plate specifications, that is, number height ratio, spacing distance, etc.) is performed.

For each object data divided after object image correction, the recognition engine recognizes face recognition, height, clothing color, and license plate data through detailed recognition of the object, and the recognition engine uses a hippocampal neural network learning technique.

More specifically, in the edge algorithm and the labeling algorithm, content-based features are extracted using color texture among MPEG-7 standardized visual descriptors, and the feature data is reduced by applying the PCA technique. By engineering the cortex and hippocampal neural networks, high-speed learning of content-based feature vectors and applying the hippocampal neural network algorithm to construct optimal features to classify objects (person, face, license plate Matching work based on ratio, spacing distance, etc.) and object image correction work, and for each object data divided, the recognition engine performs detailed recognition of the object by using the hippocampal neural network learning recognition engine It is used to predict the probability of a disaster and generate an event event.

In one embodiment, a behavior pattern is extracted from an image obtained from an ultra-high-resolution surveillance camera, and the extracted behavior pattern image is compared with a pre-stored behavior pattern image to automatically determine a dangerous situation in the surveillance area, and each situation is prioritized Assign a rank weight value.

Here, the motion pattern includes not only a motion of a person or an animal in the acquired image, but also an object such as a dangerous tool or a risk impression in the acquired image, and may be an additional image added to a fixed image. In addition, a certain pattern is extracted from the acquired image and newly registered in the behavior pattern DB, object data including risk tools and risk impression clothing captures a single frame, and human behavior pattern extraction captures multiple frames can do.

That is, object data can be identified as a captured image of a single frame, and human behavior patterns can be identified by extracting a plurality of frames.

The video surveillance system using the priority of industrial accident occurrence probability using hippocampal neural network learning of object behavior patterns according to an embodiment of the present invention pops up the screen of the CCTV in which the dangerous situation occurs when a dangerous situation occurs, and displays the pop-up image. After monitoring, the supervisor decides to 'pass', 'watch', or 'report'.

Therefore, according to the priority event of the occurrence of industrial accidents using hippocampal neural network learning of object behavior patterns according to the present invention, the artificial intelligence edge server equipped with QUANTUM JUMP ENGINE responds to events.

*Items for each data type in the behavior pattern database can be divided into data types consisting of face recognition without a helmet, falling, intrusion into a danger zone, abnormal behavior patterns, aggregation/dispersion, etc., and each data type has at least one priority It is divided into the above data items.

In one embodiment,

Digital surveillance cameras are recommended to be at least 3 megapixels. The local control server receives the original image data photographed by the digital surveillance camera, stores the original image data in the image memory, and transmits it to the hippocampal neural network memory.

QUANTUM JUMP ENGINE digitally zooms the images stored in the hippocampal neural network memory, extracts behavior patterns, and engineeringly models the cerebral cortex and hippocampal neural networks, which are cognitive brain principles, to learn content-based feature vectors at high speed and apply hippocampal neural network algorithms. Compared to the dangerous behavior stored in the image memory, the event data given the risk behavior priority feature value is processed by the artificial intelligence edge server equipped with QUANTUM JUMP ENGINE.

In the event response, various methods such as event broadcasting matching the event, operation of a warning light, and behavior guidance broadcasting corresponding to the event may be applied.

In one embodiment,

When the artificial intelligence edge server equipped with QUANTUM JUMP ENGINE is connected to the network and is in the ON-Line state under the control of the central control center server, it is possible to respond effectively in real time by sharing the results of learning the hippocampal neural network.

In one embodiment,

When the artificial intelligence edge server equipped with QUANTUM JUMP ENGINE is not connected to the network and is in an OFF-Line state that is not controlled by the central control center server, the hippocampal neural network learning result is uploaded by external memory, etc.

The behavioral pattern learning and artificial intelligence event response of the AI edge server equipped with QUANTUM JUMP ENGINE is a content-based feature vector by engineering the cerebral cortex and hippocampal neural network, which are the human cognitive brain principles, by using the software method. The hippocampal neural network algorithm is not limited to the hippocampal neural network algorithm to classify objects (persons) by high-speed learning and to construct optimal features to predict the occurrence of industrial accidents by fusion of structured/atypical information.

In one embodiment,

In the behavior pattern learning and artificial intelligence event response of the artificial intelligence edge server equipped with QUANTUM JUMP ENGINE,

An artificial intelligence-based video surveillance system according to an embodiment of the present invention includes: a detector for detecting at least one object preset for a surveillance camera image using a predefined detection deep learning network; a recognition unit for recognizing information on the detected object based on a predefined recognition deep learning network and a detection result for the object; and a tracking unit for tracking the detected object based on a predefined tracking deep learning network and a detection result for the detected object.

The detector may detect the object by using region proposal extraction including a method of generating a heat map based on a convolutional neural network (CNN).

The detection unit may detect the object by performing extraction of an object area and adjustment of a bounding box based on a multi-tasking learning method using properties of the object.

The detection unit may detect the object by performing region proposal extraction on the surveillance camera image, and extracting characteristics of each of the region proposals from the extracted region proposals through convolutional neural network-based feature extraction. .

The tracker may measure the reliability of a previous tracking result and a current tracking result for the detected object, and if the measured reliability is below a certain level, update the deep learning model online to track the detected object.

Furthermore, the AI-based video surveillance system according to an embodiment of the present invention interworks with the detection unit and the recognition unit, and includes an accident prediction deep learning network pre-learned about accidents and dangers, the detected object and the recognized object It may further include a predictor for predicting risk factors based on the information.

An AI-based video surveillance method according to an embodiment of the present invention includes: detecting at least one object preset for a surveillance camera image using a predefined detection deep learning network; recognizing information on the detected object based on a predefined recognition deep learning network and a detection result for the object; and tracking the detected object based on a predefined tracking deep learning network and a detection result for the detected object.

The detecting may include detecting the object using region proposal extraction including a method of generating a heat map based on a convolutional neural network (CNN).

In the detecting, the object may be detected by extracting an object area and adjusting a bounding box based on a multi-tasking learning method using properties of the object.

In the detecting step, the object is detected by performing region proposal extraction on the surveillance camera image, and extracting the characteristics of each of the region proposals through convolutional neural network-based feature extraction from the extracted region proposals. can

The tracking may include measuring the reliability of the previous tracking result and the current tracking result for the detected object, and when the measured reliability is below a certain level, by updating the deep learning model online, the detected object can be tracked. .

Furthermore, the AI-based video monitoring method according to an embodiment of the present invention predicts risk factors based on an accident prediction deep learning network learned in advance about accidents and risks and the detected object and the recognized object information may further include

Specifically,

The AI-based video surveillance technology of the AI edge server equipped with QUANTUM JUMP ENGINE is structured based on detecting and recognizing objects based on AI learning (deep learning) technology on the video data captured by CCTV surveillance cameras. / Combined with unstructured data and combined with industrial accident prediction simulation, disaster prediction and preventive response are differentiated.

At this time, the present invention can configure the core technology of video surveillance such as object (or object) detection, recognition, tracking, and prediction as deep learning-based deep networks.

The AI-based video surveillance system according to an embodiment of the present invention includes a detection unit (DetectionNet), a recognition unit (RecognitionNet) and a tracking unit (TrackingNet).

The detector is a component that detects an object based on deep learning, and performs human detection, face detection, and the like using a deep network.

Here, the detector performs automatic object detection at regular time intervals on the input image, and can process the detected object in real time by applying a tracking technology using a deep learning network to the detected object. can be applied to design and train a deep network.

In addition, it is characterized in that it can be operated as a standalone device that is uploaded by an external memory such as USB in an OFF-Line state without being connected to a network.

The detection unit automatically detects an object for a surveillance camera image including an identifiable object using a detection deep network.

Here, the automatically detected object (or object) may include a person, a face, a car, a license plate, and the like.

Specifically, the detector detects a human region by using a deep learning-based network, and detects a face region by using a face detection deep network within the detected human region. Similarly, the detection unit detects the cars present in the image by using the car detection deep network, and detects the license plate area in the detected car image. (Or apply the learning method uploaded by the external memory.)

In this case, the detector may output location information, size information, and a detection reliability value of each detected object.

Furthermore, since the detector does not know the size of the object in advance, it can check whether the object exists or not while searching the object area at each of the preset scales in the image.

In addition, the detector automatically detects people in the input image and uses a region-of-interest-based high-speed person detection network for quickly extracting person-related information including various information such as a person's position, posture, and direction of movement. .

Human detection in the real environment does not stop at just detection, but it is more important to analyze the behavior pattern of the detected person and generate event data for predicting safety accidents.

It is characterized by processing into an industrial accident prediction event through an artificial intelligence edge server equipped with structured/unstructured self-learning QUANTUM JUMP ENGINE.

To this end, the detection unit may use region proposal extraction, which extracts a candidate region at a high speed. As an example of region proposal extraction, a method of generating a heat map based on a convolutional neural network (CNN) may be used.

Here, the CNN-based heat map generation method generates a heat map that means a two-dimensional map representing a probability value for an object candidate region through a CNN-based network, and can extract a region proposal using this.

In addition, the detector may distinguish whether or not to wear a hard hat or whether to wear a harness or not by using a multi-tasking learning method utilizing human attributes.

In one embodiment,

Accident prevention for workers composed of an artificial intelligence edge server, sensor unit, broadcasting device, display unit, solar panel, lighting unit, safety equipment storage box, object recognition camera, emergency bell, warning light, and commercial microphone/switch inside/outside of the box-type tower Purpose It is a CCTV surveillance camera for occupational safety and health management.

The artificial intelligence edge server connected to the central control center server or cloud server is composed of AI artificial intelligence server, QUANTUM JUMP ENGINE, AI self-diagnosis module, Wi-Fi module, external memory connection part, and network connection part.

The AI artificial intelligence server and the central control center server or cloud server are connected to the Internet network through the network connection part.

The central control center server or cloud server controls the AI AI server inside the AI edge server and uploads learning data.

The AI self-diagnosis module self-diagnoses the failure of AI edge server, sensor unit, broadcasting device, display unit, solar panel, lighting unit, door sensor of safety equipment storage box, object recognition camera, emergency bell, warning light, commercial microphone/switch Transmits one self-diagnosis data to QUANTUM JUMP ENGINE.

The Wi-Fi module is a Wi-Fi module that provides free public Wi-Fi service around the area under the control of an AI artificial intelligence server.

When an external memory is inserted into the external memory connection, QUANTUM JUMP ENGINE uploads the data inside the external memory.

The sensor part is composed of at least one of IR moving sensor, impact sensor, fire detection sensor, illuminance sensor, temperature/humidity sensor, ozone sensor, gas sensor, and fine dust sensor. send to

The broadcasting device is composed of a speaker, an amplifier, an event broadcasting unit, and a reservation broadcasting unit, and according to the control of the AI artificial intelligence server, scheduled broadcasting through the reserved broadcasting unit through the speaker and amplifier, event broadcasting through the event broadcasting unit, and real-time broadcasting through a commercial microphone It is a broadcasting device that

The safety equipment storage box includes any one or more of a door sensor, an AED, a first aid kit, and a gas mask, and when the door is opened, a door open event is transmitted to the QUANTUM JUMP ENGINE.

The display unit consists of an LED signboard or LCD monitor, and displays industrial safety promotional videos and safety promotional texts under the control of the AI artificial intelligence server.

The AI artificial intelligence server equipped with QUANTUM JUMP ENGINE, an embedded module or software, generates power through the solar panel by controlling the solar panel, lighting unit, object recognition camera, emergency bell, and warning light to supply driving power to each part and to supply driving power to the lighting unit. Control to turn on the lights at night or when human object recognition event data occurs, control the object recognition camera to transmit the captured video data to QUANTUM JUMP ENGINE, and when the emergency bell operates, send the event data to the event broadcasting unit for event broadcasting and safety When the door open event data is received from the equipment locker door sensor, the warning light is activated.

QUANTUM JUMP ENGINE is installed inside the AI edge server in the form of an embedded module or uploaded to the AI AI server in the form of software.

QUANTUM JUMP ENGINE updates object recognition learning data and artificial intelligence learning data by uploading data inside external memory through external memory connection.

It receives self-diagnosis data from the AI self-diagnosis module, displays a failure event on the display unit when a failure occurs, and transmits the self-diagnosis data to the central control center server or cloud server.

QUANTUM JUMP ENGINE measures the presence/absence of human object recognition event data from the IR motion detection sensor, and the shock/earthquake presence/absence data from the shock sensor; and fire occurrence/non-existence data from the fire detection sensor. ; and illuminance value from the illuminance sensor; and temperature/humidity measurement value from the temperature/humidity sensor; and ozone measurement value from the ozone sensor; and gas measurement value from the gas sensor; and fine dust measurement value from the fine dust sensor Numerical values or tangible/informal data are received as shown.

QUANTUM JUMP ENGINE, which is equipped with AI artificial intelligence server software, uses a software method to engineer the cerebral cortex and hippocampal neural network, the principles of the human cognitive brain, using image data, which is atypical data captured from an object recognition camera, to provide content-based features. High-speed learning of vectors and applying a hippocampal neural network algorithm to construct optimal features generates human object recognition event data that distinguishes human objects, recognizes human faces, recognizes hard hats, and uses information about the detected objects QUANTUM JUMP ENGINE, mounted as an embedded module inside the AI artificial intelligence server, generates event data for people wearing helmets and people without helmets by recognizing 'people wearing helmets' and 'people not wearing hard hats'. Pre-defined detection of image data as data Generates human object recognition event data that distinguishes human objects by detecting pre-set 'person', 'face' and 'hard hat' objects for image data using a deep learning network (or memory) And, based on the predefined recognition deep learning memory and the detection result for the object, the 'hardhat wearing person' and 'hardhat non-wearing person' are recognized through the information on the detected human object, so that the helmet wearing person event data, hard hat ratio Creates wearer event data.

QUANTUM JUMP ENGINE transmits event data of people wearing hard hats and people without helmets to AI AI server.

The AI artificial intelligence server broadcasts events through the event broadcasting unit when receiving event data of a person wearing a hard hat, event data of a person not wearing a hard hat, door opening event data, human object recognition event data, and emergency bell operation event data.

By combining the structured data received from the sensor unit and the human object recognition event data, the reservation broadcast unit stored in the reservation broadcasting unit for 'heat wave', 'ozone', 'fine dust', 'shock detection' and 'fire detection' is broadcast through the reservation broadcasting unit.

AI artificial intelligence server broadcasts event broadcast and reservation broadcast only once within the manager input time. It is a CCTV surveillance camera for occupational safety and health management for the purpose of preventing workers' accidents, characterized in that

* In one embodiment,

It is composed of artificial intelligence edge server, sensor unit, broadcasting device, display unit, lighting unit, safety equipment storage box, object recognition camera, emergency bell, warning light, and commercial microphone.

The artificial intelligence edge server consists of an AI artificial intelligence main board, QUANTUM JUMP ENGINE, and an external memory connection unit.

When an external memory is inserted into the external memory connection, QUANTUM JUMP ENGINE uploads the data inside the external memory.

The sensor unit transmits the measured data from the sensor to the QUANTUM JUMP ENGINE.

Broadcasting device is composed of speaker, amplifier, event broadcasting unit, and reservation broadcasting unit. Under the control of AI AI main board, scheduled broadcasting through reservation broadcasting unit with speaker and amplifier, event broadcasting through event broadcasting unit, real-time through commercial microphone It is a broadcasting device that broadcasts.

The safety equipment storage box includes any one or more of the defibrillator, first aid kit, and gas mask, and when the door is opened, the door open event is transmitted to QUANTUM JUMP ENGINE.

The display unit displays industrial safety promotional images under the control of the AI AI mainboard.

The AI AI mainboard equipped with QUANTUM JUMP ENGINE controls the lighting unit by controlling the lighting unit, object recognition camera, emergency bell, and warning light to turn on the lights at night or when human object recognition event data occurs and control the object recognition camera. Transmitting video data to QUANTUM JUMP ENGINE and operating the emergency bell when the emergency bell is activated Transmits the event data to the event broadcasting unit to activate the warning light when broadcasting the event and receiving the door open event data.

QUANTUM JUMP ENGINE updates object recognition learning data and artificial intelligence learning data by uploading data inside external memory through external memory connection.

QUANTUM JUMP ENGINE inside the AI AI mainboard generates human object recognition event data that distinguishes human objects from image data, which is atypical data captured from object recognition cameras, recognizes human faces, and recognizes helmets to recognize the detected objects. It recognizes 'person wearing hard hat' and 'person not wearing hard hat' through the information about hard hat wearing person event data and person not wearing hard hat event data.

QUANTUM JUMP ENGINE transmits event data of people wearing hard hats and event data of people not wearing hard hats to the AI AI main board.

The AI AI mainboard broadcasts events through the event broadcasting unit when receiving event data of a person wearing a hard hat, event data of a person not wearing a hard hat, door opening event data, human object recognition event data, and emergency bell operation event data.

It is an occupational safety and health management CCTV surveillance camera for the purpose of preventing workers' accidents, characterized in that the structured data received from the sensor unit and the human object recognition event data are combined and the reserved broadcasting stored in the reservation broadcasting unit through the reservation broadcasting unit.

1. Broadcast Block CPTED BOX
2. Defibrillator-Emergency Bell Block CPTED BOX
3. Electric Charger Block CPTED BOX
4. Emergency Bell Block CPTED BOX
5. Defibrillator Block CPTED BOX
6. Electric Charger-Emergency Bell Block CPTED BOX
7. Signage Block CPTED BOX

Claims (2)

It consists of an artificial intelligence edge server, a sensor unit, a broadcasting device, a display unit, a lighting unit, a safety equipment storage box, an object recognition camera, an emergency bell, a warning light, and a commercial microphone;
AI edge server is composed of AI AI main board, QUANTUM JUMP ENGINE, AI self-diagnosis module, and external memory connection unit;
The AI self-diagnosis module uses self-diagnosis data that self-diagnoses the failures of artificial intelligence edge server, sensor unit, broadcasting device, display unit, lighting unit, safety equipment storage box door sensor, object recognition camera, emergency bell, warning light, and commercial microphone to QUANTUM JUMP. to ENGINE;
When an external memory is inserted into the external memory connection, QUANTUM JUMP ENGINE uploads the data inside the external memory;
The sensor unit is composed of any one or more of an impact sensor, a fire sensor, an illuminance sensor, a temperature/humidity sensor, an ozone sensor, a gas sensor, and a fine dust sensor, and transmits the structured data measured from the sensor to the QUANTUM JUMP ENGINE;
Broadcasting device is composed of speaker, amplifier, event broadcasting unit, and reservation broadcasting unit. Under the control of AI AI main board, scheduled broadcasting through reservation broadcasting unit with speaker and amplifier, event broadcasting through event broadcasting unit, real-time through commercial microphone a broadcasting device for broadcasting;
The safety equipment storage box includes any one or more of a door sensor, a defibrillator, a first aid kit, and a gas mask, and transmits a door open event to the QUANTUM JUMP ENGINE when the door is opened;
The display unit displays the industrial safety promotional video under the control of the AI artificial intelligence main board;
The AI AI mainboard equipped with QUANTUM JUMP ENGINE controls the lighting unit by controlling the lighting unit, object recognition camera, emergency bell, and warning light to turn on the lights at night or when human object recognition event data occurs and control the object recognition camera. Transmitting video data to QUANTUM JUMP ENGINE and operating the emergency bell when the emergency bell is activated Transmits the event data to the event broadcasting unit to activate the warning light when broadcasting the event and receiving the door open event data from the door sensor of the safety equipment box;
QUANTUM JUMP ENGINE updates object recognition learning data and artificial intelligence learning data by uploading data inside the external memory through the external memory connection unit;
receiving self-diagnosis data from the AI self-diagnosis module and displaying a failure event on the display unit when a failure occurs;
QUANTUM JUMP ENGINE receives the measured data from the sensor;
The QUANTUM JUMP ENGINE inside the AI AI motherboard uses a software method to engineer the cerebral cortex and hippocampal neural network, which are the principles of the human cognitive brain, using the image data, which is atypical data captured from the object recognition camera, to create a content-based feature vector. By applying hippocampal neural network algorithm to high-speed learning and constructing optimal features, it generates human object recognition event data that distinguishes human objects, recognizes human faces, recognizes hard hats, and uses information about the detected objects to ‘wear a hard hat’ Recognizes 'person' and 'person not wearing a hard hat' to generate event data for a person wearing a hard hat and event data for a person without a helmet; or
QUANTUM JUMP ENGINE inside AI AI mainboard detects predefined image data, which is atypical data taken from object recognition camera. Using deep learning memory, preset 'person''face''hardhat' object for image data Generates human object recognition event data that distinguishes a human object by detecting a 'hardhat wearing person''hardhat' through a predefined recognition deep learning memory and information on the detected human object based on the detection result for the object Recognizing a non-wearing person, generates event data of a person wearing a hard hat and event data of a person not wearing a hard hat;
QUANTUM JUMP ENGINE transmits event data of people wearing hard hats and people without helmets to AI AI main board;
The AI AI mainboard broadcasts events through the event broadcasting unit when receiving event data of a person wearing a hard hat, event data of a person not wearing a hard hat, door opening event data, human object recognition event data, and emergency bell operation event data; and
'Heat', 'ozone', 'fine dust', 'shock detection' and 'fire detection' reserved broadcasting stored in the reservation broadcasting unit through the reservation broadcasting unit by combining the structured data received from the sensor unit and the human object recognition event data;
The AI AI mainboard is a worker accident prevention AI response CCTV surveillance camera occupational safety and health management system, characterized in that event broadcasting and reservation broadcasting are broadcast only once within the administrator input time.
It consists of an artificial intelligence edge server, a sensor unit, a broadcasting device, a display unit, a lighting unit, a safety equipment storage box, an object recognition camera, an emergency bell, a warning light, and a commercial microphone;
AI edge server is composed of AI AI main board, QUANTUM JUMP ENGINE, and external memory connection unit;
When an external memory is inserted into the external memory connection, QUANTUM JUMP ENGINE uploads the data inside the external memory;
The sensor unit transmits the structured data measured from the sensor to the QUANTUM JUMP ENGINE;
Broadcasting device is composed of speaker, amplifier, event broadcasting unit, and reservation broadcasting unit. Under the control of AI AI main board, scheduled broadcasting through reservation broadcasting unit with speaker and amplifier, event broadcasting through event broadcasting unit, real-time through commercial microphone a broadcasting device for broadcasting;
The safety equipment storage box includes any one or more of a defibrillator, a first aid kit, and a gas mask, and when the door is opened, a door open event is transmitted to QUANTUM JUMP ENGINE;
The display unit displays the industrial safety promotional video under the control of the AI artificial intelligence main board;
The AI AI mainboard equipped with QUANTUM JUMP ENGINE controls the lighting unit by controlling the lighting unit, object recognition camera, emergency bell, and warning light to turn on the lights at night or when human object recognition event data occurs and control the object recognition camera. Transmits video data to QUANTUM JUMP ENGINE and activates emergency bell when an emergency bell is activated Transmits event data to the event broadcasting unit to activate a warning light when event broadcasting and door open event data are received;
QUANTUM JUMP ENGINE updates object recognition learning data and artificial intelligence learning data by uploading data inside the external memory through the external memory connection unit;
The QUANTUM JUMP ENGINE inside the AI AI mainboard generates human object recognition event data that distinguishes human objects among image data, which is atypical data captured from an object recognition camera, recognizes a human face, and then recognizes a helmet and recognizes the detected object. Recognizing 'a person wearing a hard hat' and 'a person not wearing a hard hat' through the information on , generates event data for a person wearing a hard hat and event data for a person without a hard hat;
QUANTUM JUMP ENGINE transmits event data of people wearing hard hats and people without helmets to AI AI main board;
The AI AI mainboard broadcasts events through the event broadcasting unit when receiving event data of a person wearing a hard hat, event data of a person not wearing a hard hat, door opening event data, human object recognition event data, and emergency bell operation event data; and
Accident prevention artificial intelligence response CCTV surveillance camera occupational safety and health management system, characterized in that by combining the structured data received from the sensor unit and human object recognition event data, the reserved broadcasting stored in the reservation broadcasting unit through the reservation broadcasting unit.

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