KR102497579B1 - System and method for controlling a door based on biometric recognition - Google Patents

Abstract

We propose a door control system and method based on biometrics that enable network linkage of registered biometric information. The proposed system creates a block containing template data corresponding to the registrant's biometric feature points and the resultant hash value based on the template data, and converts the generated block into a biometric DB in the form of a blockchain to the biometric recognizer constituting the blockchain network. A relay server that distributes and stores the visitor's biometric information, generates a hash value based on the visitor's biometric information, authenticates the visitor based on the visitor's resulting hash value and the biometric DB in the form of a block chain, and sends a door driving control signal based on the authentication result. It includes a biometric recognizer that outputs.

Description

System and method for controlling a door based on biometric recognition

The present invention relates to a door control system and method based on biometrics, and more particularly, to a system and method for controlling the opening and closing of a door based on biometric information such as face, fingerprint, and iris.

The door control system refers to a system that recognizes a person who wants to enter a specific space and controls the opening and closing of the door.

In the door control system, an access authentication technique is applied to check whether a person is allowed to enter, and a mechanism for opening a door to a person who has been authenticated is applied.

As the accessor authentication method, a method using a magnetic card, a smart card, or a non-contact wireless (RFID) card, and a biometric recognition technique that stores biometric information based on the person's face, fingerprint, iris, etc. and uses it for authentication are widely used. there is.

As is well known, recently, interest in biometrics has increased due to ease of portability and difficulty in copying.

However, since the door control system using the conventional biometric recognition method does not link the registered biometric information to the network, it is inconvenient to re-register the face, fingerprint, iris, etc. when moving from one region to another. For example, if a person working in the Seoul office of Company A moves to the Shanghai office of Company A or goes on a business trip, he or she must re-register his/her face, fingerprints, iris, etc. to access the Shanghai office.

Prior art 1: Republic of Korea Patent Registration No. 10-1218296 (Access control system and method) Prior art 2: Republic of Korea Patent Registration No. 10-0893905 (Access control method and system using biometrics) Prior art 3: Republic of Korea Patent Publication No. 10-2017-0083778 (fingerprint recognition security system for visitor access management)

The present invention has been proposed to solve the above conventional problems, and an object of the present invention is to provide a door control system and method based on biometrics that enable network interworking of registered biometric information.

In order to achieve the above object, a biometric-based door control system according to a preferred embodiment of the present invention generates a block including template data corresponding to a registrant's biometric feature point and a hash value based on the template data. A relay server that generates and distributes and stores the generated blocks to biometrics constituting a blockchain network by making a biometric DB in the form of a blockchain; and generating a hash value based on the biometric information of the visitor, authenticating the visitor based on the resulting hash value of the visitor and the biometric DB in the form of the blockchain, and outputting a door driving control signal based on the authentication result. Recognizer; includes.

The relay server may include: a registration request receiving unit receiving a biometric information registration request including template data corresponding to the biometric characteristic points of the registrant; a block generating unit generating a hash value by applying the template data of the registrant to a hash function, and generating a block including the template data of the registrant and the resulting hash value of the registrant; a block chain biometric DB forming unit for forming a biometric DB in the form of a blockchain based on the blocks generated by the block generating unit; and a blockchain biometric DB transmission unit that distributes and transmits the biometric DB in the form of blockchain to the biometric recognizer.

The biometric information registration request may further include ID information of the registrant, and the block generator may include the ID information of the registrant together in a block.

The biometric recognizer may include: a photographing unit that captures an image including the visitor's body; a first storage unit for storing the captured image including the visitor's body; a block-chain bio-DB receiving unit for receiving the bio-DB in block-chain form from the relay server; a second storage unit for storing the biometric DB in the form of a block chain; a biometric image extraction unit extracting a biometric image from the photographed visitor's biometric image; a biometric information generating unit that extracts feature points from the extracted visitor's biometric image and generates biometric information based on the extracted feature points; a hash function unit generating a hash value by applying the biometric information generated by the biometric information generating unit to a hash function; an authentication unit that authenticates the corresponding visitor by mutually matching the hash value generated by the hash function unit with the biometric DB in the form of a blockchain; It may include a; control unit for outputting a door driving control signal based on the authentication result from the authentication unit.

The image including the visitor's body part may be an image including any one of the visitor's face, fingerprint, and iris.

The visitor's biometric information may include template data corresponding to the visitor's biological characteristics.

The biometric recognizer may further include an alarm unit that issues an alarm to the outside according to an authentication result from the authentication unit.

The warning unit may issue an alarm when the authentication result from the authentication unit means authentication failure, and provide a face image of the corresponding visitor to the outside together with the alarm.

On the other hand, in the biometric-based door control method according to a preferred embodiment of the present invention, the relay server generates a block including template data corresponding to the biometric feature points of the registrant and a hash value based on the template data. Making a biometric DB in the form of a blockchain and distributing and storing it to biometric recognizers constituting a blockchain network; generating, by the biometric recognizer, a resulting hash value based on the visitor's biometric information; authenticating, by the biometric recognizer, the corresponding visitor based on the resulting hash value of the visitor and the biometric DB in the form of the blockchain; and outputting, by the biometric recognizer, a door driving control signal based on an authentication result in the authentication step.

According to the present invention having such a configuration, visitor authentication can be easily performed anywhere by sharing pre-registered biometric information through network linkage.

In other words, if the registrant's biometric information is registered in advance at one location, re-registration is not required when the location changes, and authentication of the visitor is easily performed based on the shared biometric information even when visiting a building at any location later. can do.

1 is a diagram illustrating a door control system based on biometrics according to an embodiment of the present invention.
FIG. 2 is an internal configuration diagram of the biometric register shown in FIG. 1 .
FIG. 3 is an internal configuration diagram of the biometric recognizer shown in FIG. 1 .
4 is an internal configuration diagram of the relay server shown in FIG. 1;
5 is a flowchart for explaining a registration process in a door control method based on biometrics according to an embodiment of the present invention.
6 to 8 are views employed in the description of FIG. 5 .
9 is a flowchart for explaining a door control method based on biometrics according to an embodiment of the present invention.

Since the present invention can make various changes and have various embodiments, specific embodiments will be illustrated in the drawings and described in detail.

However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail. In order to facilitate overall understanding in the description of the present invention, the same reference numerals are used for the same components in the drawings, and redundant descriptions of the same components are omitted.

1 is a diagram illustrating a door control system based on biometrics according to an embodiment of the present invention.

A door control system based on biometrics according to an embodiment of the present invention may include a biometric register 10 , a biometric recognizer 20 , a network 30 , and a relay server 40 .

The biometric registration device 10 requests biometric information registration while transmitting the biometric information of the registrant to the relay server 40 . Here, the registrant's biometric information has a character of raw data. In other words, when the biometric information registration request is made to the relay server 40, the biometric information of the registrant is transmitted as template data (e.g., binary data) corresponding to the characteristic points of the registrant's biometrics. At this time, ID information (eg, employee number, name, affiliation, country, etc.) of the registrant is additionally transmitted together. The biometric feature points of the corresponding registrant may mean feature points such as a face, a fingerprint, an iris, and the like of the corresponding registrant. For example, the template data corresponding to the feature points of the face may be coordinate information of eyes, nose, mouth, etc., and distance information between them. Template data corresponding to feature points of a fingerprint may be information such as an end point, a divergence point, and a direction of a ridge of a fingerprint. Template data corresponding to feature points of the iris may be pattern information of the iris.

The ID information of the corresponding registrant can be directly input by the corresponding registrant.

The registrant's biometric information is blocked in the relay server 40 and distributedly stored (ie, registered) to a plurality of biometric recognizers 20 as a biometric DB in the form of a block chain.

Since one or more biometric registers 10 may be installed in each building in a region, it should be understood that a plurality of biometric registers 10 are scattered.

The biometric recognizer 20 generates a resulting hash value (ie, a unique hash value for the visitor) based on the visitor's biometric information, and generates the resulting hash value and the biometric in the form of a block chain from the relay server 40. The corresponding visitor can be authenticated by mutually matching the DB. For example, the visitor's biometric information includes template data (eg, binary data) corresponding to the visitor's biological feature points. Here, the biometric feature points of the corresponding visitor may mean feature points such as the face, fingerprint, iris, etc. of the corresponding visitor. For example, the template data corresponding to the feature points of the face may be coordinate information of eyes, nose, mouth, etc., and distance information between them. Template data corresponding to feature points of a fingerprint may be information such as an end point, a divergence point, and a direction of a ridge of a fingerprint. Template data corresponding to feature points of the iris may be pattern information of the iris.

The biometric recognizer 20 outputs a door drive control signal (ie, one of a door open signal and a door close signal) for opening or closing the door 50 based on a visitor authentication result.

In other words, the biometric recognizer 20 transmits a door open signal to the door 50 to open the door 50 if the visitor is a pre-registered registrant, and if the visitor is not a pre-registered registrant, the door 50 ) transmits a door closing signal to the door 50 to close the door.

In particular, if the visitor is not a pre-registered registrant, the biometric recognizer 20 may alert an administrator or a nearby police box. At this time, a face image of a corresponding visitor other than a previously registered registrant may be provided together. Due to this, it will be possible to more easily track who the corresponding visitor is rather than the previously registered registrant later.

The biometric reader 20 will be installed near the door 50 . Since one or more doors 50 may be installed in each building within a region, the same number of biometrics recognizers 20 as the number of doors 50 will be installed.

A plurality of biometric recognizers 20 can be viewed as constituting a blockchain network in association with the network 30 . Therefore, it can be seen that the plurality of biometric recognizers 20 share biometric information through the network 30 in a distributed database manner. Here, the network 30 may be implemented as a wired network, such as a Local Area Network (LAN), a Wide Area Network (WAN), or a Value Added Network (VAN). In addition, the network 30 includes a mobile radio communication network, a satellite communication network, Bluetooth, Wibro (Wireless Broadband Internet), HSDPA (High Speed Downlink Packet Access), Wi-Fi, LTE (Long Term Evolution) can be implemented in all kinds of wireless networks. If necessary, the network 30 may be a network in which wired and wireless networks are mixed.

In addition, according to the mutual verification process in the plurality of biometric recognizers 20, for example, when approval from node terminals (i.e., biometric recognizers 20) of a certain ratio or more is processed, the block chain from the relay server 40 The biometric DB in the form can be updated and shared.

When the relay server 40 receives a biometric information registration request of a registrant from the biometric registration device 10, the resulting hash value is based on the template data corresponding to the biometric information of the registrant and the template data corresponding to the biometric information of the corresponding registrant. Create a block containing

Then, the relay server 40 makes the generated block into a biometric DB in the form of a block chain and transmits it to each biometric recognizer 20 to be distributed and stored.

If necessary, the relay server 40 may store a biometric DB in the form of a block chain therein.

In FIG. 1 described above, the network 30 is shown as existing between the biometrics recognizer 20 and the relay server 40, but in reality it will also exist between the biometrics register 10 and the relay server 40.

FIG. 2 is an internal configuration diagram of the biometric register 10 shown in FIG. 1 .

The biometric register 10 may include a photographing unit 11 , an input unit 12 , a biometric image extraction unit 13 , a biometric information generator 14 , a transmission unit 15 , and a control unit 16 .

The photographing unit 11 may capture an image including a registrant's living body. Accordingly, the photographing unit 11 includes a camera. For example, the biometric image of the registrant may be an image including the face and shoulder of the registrant.

The input unit 12 receives ID information of a registrant. For example, the registrant's ID information may include employee number, name, affiliation, country, and the like.

The biometric image extraction unit 13 extracts a biometric image from an image of a registrant's body photographed by the photographing unit 11 . For example, if the biometric image of the registrant is an image including the face and shoulder of the registrant, the biometric image of the registrant may mean only the face. If the captured biometric image of the registrant is an image including a fingerprint or an iris, the biometric image extraction unit 13 may extract only the fingerprint or iris portion.

The biometric information generation unit 14 extracts feature points from the registrant's biometric image extracted by the biometric image extraction unit 13 and generates biometric information (ie, template data; binary data) based on the feature points. For example, the biometric information generation unit 14 determines the eyes, nose, mouth, etc. of the corresponding registrant as feature points in the biometric image, and the biometric information (that is, template data) expressing the coordinate information of the feature points as binary data. have) can be created. Of course, if necessary, the biometric information generation unit 14 may generate biometric information based on characteristic points of the fingerprint and iris.

The transmission unit 15 transmits the registrant's biometric information generated by the biometric information generation unit 14 to the relay server 40 and requests registration of the biometric information. For example, the registrant's biometric information includes template data (eg, binary data) corresponding to the registrant's biometric feature points. Of course, when the transmitter 15 transmits the biometric information of the registrant to the relay server 40, the ID information (eg, employee number, name, affiliation, country, etc.) of the registrant received from the input unit 12 is also sent. .

The controller 16 controls the overall operation of the biometric register 10 .

FIG. 3 is an internal configuration diagram of the biometric recognizer 20 shown in FIG. 1 .

The biometric recognizer 20 includes a photographing unit 21, a first storage unit 22, a blockchain biometric DB receiving unit 23, a second storage unit 24, a biometric image extraction unit 25, a biometric information generating unit ( 26), a hash function unit 27, an authentication unit 28, an alarm unit 29, and a control unit 31.

The photographing unit 21 may capture an image including a visitor's body. Accordingly, the photographing unit 21 includes a camera. For example, the visitor's biometric image may be an image including the visitor's face and shoulders.

The first storage unit 22 stores an image including a visitor's living body photographed by the photographing unit 21 .

The blockchain biometric DB reception unit 23 receives the blockchain biometric DB from the relay server 40 .

The second storage unit 24 stores the blockchain biometric DB received from the blockchain biometric DB receiving unit 23 .

The biometric image extraction unit 25 extracts a biometric image from an image including a visitor's body photographed by the photographing unit 21 . For example, if the visitor's biometric image is an image including the registrant's face and shoulder, the visitor's biometric image may mean only the face. If the captured visitor's biometric image includes a fingerprint or an iris, the biometric image extraction unit 25 may extract only the fingerprint or iris portion.

The biometric information generation unit 26 extracts feature points from the visitor's biometric image extracted by the biometric image extraction unit 25 and then generates biometric information (ie, template data; binary data) based thereon. For example, the biometric information generating unit 26 determines the eyes, nose, mouth, etc. of the corresponding visitor as feature points in the biometric image, and the biometric information (that is, template data) expressing the coordinate information of the feature points as binary data. have) can be created. Of course, if necessary, the biometric information generation unit 26 may generate biometric information based on characteristic points of the fingerprint and iris.

The hash function unit 27 applies the biometric information (i.e., template data; binary data) generated by the biometric information generator 26 to a hash function to obtain a resulting hash value (i.e., a unique value for the input template data). generate

The authentication unit 28 may authenticate the corresponding visitor by mutually matching the resultant hash value generated by the hash function unit 27 with the biometric DB in the form of a blockchain.

The warning unit 29 may give an alarm to a manager or a nearby police box to warn that the visitor is not a pre-registered registrant based on the authentication result from the authentication unit 28 . At this time, the alarm unit 29 may also provide a face image of a corresponding visitor (that is, a corresponding image stored in the first storage unit 22), not a previously registered registrant.

The control unit 31 controls the overall operation of the biometric recognizer 20 .

In particular, the controller 31 may output a door drive control signal (ie, one of a door open signal and a door close signal) for opening or closing the door 50 based on the authentication result from the authentication unit 28. .

FIG. 4 is an internal configuration diagram of the relay server 40 shown in FIG. 1 .

The relay server 40 may include a registration request receiving unit 41, a block generating unit 42, a blockchain biometric DB forming unit 43, a blockchain biometric DB transmitting unit 44, and a control unit 45. .

The registration request receiving unit 41 receives a biometric information registration request of a registrant from the biometric register 10 . At this time, the biometric information registration request includes biometric information of the corresponding registrant and ID information (eg, employee number, name, affiliation, country, etc.) of the corresponding registrant. The biometric information of the corresponding registrant includes template data (eg, binary data) corresponding to the characteristic points of the corresponding registrant's body.

The block generating unit 42 applies the template data corresponding to the biometric information of the corresponding registrant received by the registration request receiving unit 41 to a hash function to generate a resulting hash value (ie, a unique value for the input template data). Later, a block including template data (i.e., template data corresponding to the registrant's biometric information) and the resulting hash value (i.e., the resulting hash value generated based on the template data corresponding to the registrant's biometric information) is generated. do. Of course, the block generating unit 42 also includes ID information (eg, employee number, name, affiliation, country, etc.) of the corresponding registrant in the block.

The block chain bio DB forming unit 43 forms a bio DB in the form of a blockchain based on the blocks generated by the block generating unit 42 . For example, the blockchain biometric DB forming unit 43 may form a biometric DB in the form of a blockchain every predetermined time unit. Therefore, it can be seen that the biometric DB in the form of a block chain is updated in units of a certain time.

The blockchain biometric DB transmitter 44 distributes and transmits the biometric blockchain DB formed in the blockchain biometric DB forming unit 43 to each biometric recognizer 20, so that each biometric recognizer 20 is a blockchain. Allows sharing of biometric DB.

The controller 45 controls the overall operation of the relay server 40 .

From now on, a door control method based on biometrics according to an embodiment of the present invention will be described.

First, in the biometric-based door control method according to an embodiment of the present invention, since the registration process must be preceded, this will be described with reference to the flowchart of FIG. 5 . 6 to 8 are views employed in the description of FIG. 5 .

The biometric registration device 10 receives an image including the biometric body of the registrant by capturing an image including the biometric body of the registrant to be registered (S10). For example, the biometric image of the registrant may be an image including the face and shoulder of the registrant as shown in FIG. 6 .

The biometric registrant 10 extracts a biometric image from the captured biometric image of the registrant (S12). For example, if the biometric image of the registrant is an image including the face and shoulder of the registrant, the biometric image of the registrant may mean only the face part a1 as shown in FIG. 7 .

The biometric registrant 10 extracts feature points from the extracted registrant's biometric image and generates biometric information (ie, template data; binary data) based on the feature points (S14). For example, as shown in FIG. 8 , the biometric register 10 determines the eyes, nose, mouth, etc. of the corresponding registrant as feature points (b1, b2, b3) in the biometric image, and expresses the coordinate information of the feature points as binary data. Biometric information (ie, template data) may be generated.

Then, the biometric registration device 10 transmits the generated biometric information of the registrant to the relay server 40 and requests biometric information registration (S16). For example, the registrant's biometric information includes template data (eg, binary data) corresponding to the registrant's biometric feature points. Of course, when the biometric registration device 10 transmits the biometric information of the registrant to the relay server 40, the ID information (eg, employee number, name, affiliation, country, etc.) of the registrant received from the input unit 12 is also sent. .

Accordingly, the relay server 40 receives the biometric information registration request from the biometric register 10 (S18). At this time, the biometric information registration request includes biometric information of the corresponding registrant and ID information (eg, employee number, name, affiliation, country, etc.) of the corresponding registrant.

Subsequently, the relay server 40 applies the received template data corresponding to the registrant's biometric information to a hash function to generate a resulting hash value (ie, a unique value for the input template data), and then applies the corresponding template data ( That is, a block including the template data corresponding to the biometric information of the corresponding registrant) and the resulting hash value (ie, the resulting hash value generated based on the template data corresponding to the biometric information of the corresponding registrant) are generated (S20). . Of course, ID information (eg, employee number, name, affiliation, country, etc.) of the corresponding registrant is also included in the block.

Thereafter, the relay server 40 forms a biometric DB in the form of a block chain based on the generated block (S22). For example, the relay server 40 may form a biometric DB in the form of a block chain in units of a predetermined time.

Then, the relay server 40 distributes and transmits the formed blockchain biometric DB to each biometric recognizer 20 so that each biometric recognizer 20 can share the blockchain biometric DB (S24). .

9 is a flowchart for explaining a door control method based on biometrics according to an embodiment of the present invention.

The biometric recognizer 20 receives an image including the visitor's body by capturing the image including the visitor's body (S30). The visitor's biometric image may be an image including the visitor's face and shoulders. The captured visitor's biometric image may be stored in the storage unit 22 .

Subsequently, the biometric recognizer 20 extracts a biometric image from the captured visitor's biometric image (S32). For example, if the visitor's biometric image is an image including the registrant's face and shoulder, the visitor's biometric image may mean only the face.

The biometric recognizer 20 extracts feature points from the visitor's biometric image and then generates biometric information (ie, template data; binary data) based on the feature points (S34). For example, the biometric information generating unit 24 determines the eyes, nose, mouth, etc. of the corresponding visitor in the biometric image as feature points, and the biometric information (that is, template data) expressing the coordinate information of the feature points as binary data. have) can be created.

The biometric recognizer 20 generates a resulting hash value (ie, a unique value for the input template data) by applying the generated biometric information (ie, template data; binary data) to a hash function (S36).

And, the biometric recognizer 20 mutually matches the generated hash value with the previously stored blockchain biometric DB to authenticate the corresponding visitor (S38).

If authentication succeeds (authentication OK) (“Yes” in S40), the biometric recognizer 20 outputs a door drive control signal (ie, a door open signal) to open the door 50. Accordingly, the door 50 where the visitor is located is opened (S42).

Conversely, if the authentication fails ("No" in S40), the biometric recognizer 20 outputs a door driving control signal (ie, a door closing signal) to close the door. Accordingly, the entrance door 50 where the visitor is located remains closed. Along with this, the biometric recognizer 20 notifies the manager or nearby police box (S44).

In addition, the above-described method for controlling a door based on biometrics according to an embodiment of the present invention can be implemented as computer readable codes on a computer readable recording medium. A computer-readable recording medium includes all types of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, and optical data storage devices. In addition, the computer-readable recording medium is distributed in computer systems connected through a network, so that computer-readable codes can be stored and executed in a distributed manner. In addition, functional programs, codes, and code segments for implementing the method can be easily inferred by programmers in the technical field to which the present invention belongs.

As described above, the optimal embodiment has been disclosed in the drawings and specifications. Although specific terms are used herein, they are only used for the purpose of describing the present invention and are not used to limit the scope of the present invention described in the claims or defining the meaning. Therefore, those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

10: biometric register 20: biometric reader
30: network 40: relay server
50: entrance door

Claims (16)

A block containing the template data corresponding to the registrant's biometric feature points and the resulting hash value based on the template data is created, and the generated block is made into a biometric DB in the form of a blockchain and sent to the biometric recognizer constituting the blockchain network. A relay server for distributed storage; and
A biometric recognizer that generates a hash value based on the biometric information of the visitor, authenticates the visitor based on the resulting hash value of the visitor and the biometric DB in the form of the blockchain, and outputs a door driving control signal based on the authentication result. including;
The biometric recognizer,
a photographing unit for photographing an image including a living body of the visitor;
a first storage unit for storing the captured image including the visitor's body;
a block-chain bio-DB receiving unit for receiving the bio-DB in block-chain form from the relay server;
a second storage unit for storing the biometric DB in the form of a block chain;
a biometric image extraction unit extracting a biometric image from the photographed visitor's biometric image;
a biometric information generating unit that extracts feature points from the extracted visitor's biometric image and generates biometric information based on the extracted feature points;
a hash function unit generating a hash value by applying the biometric information generated by the biometric information generating unit to a hash function;
an authentication unit that authenticates the corresponding visitor by mutually matching the hash value generated by the hash function unit with the biometric DB in the form of a blockchain; and
A door control system based on biometrics comprising a control unit outputting a door driving control signal based on an authentication result from the authentication unit. The method of claim 1,
The relay server,
a registration request receiving unit receiving a biometric information registration request including template data corresponding to the biometric feature points of the registrant;
a block generating unit generating a hash value by applying the template data of the registrant to a hash function, and generating a block including the template data of the registrant and the resulting hash value of the registrant;
a block chain biometric DB forming unit for forming a biometric DB in the form of a blockchain based on the blocks generated by the block generating unit; and
A biometrics-based door control system comprising: a blockchain biometric DB transmission unit that distributes and transmits the biometric DB in the form of blockchain to the biometric recognizer. The method of claim 2,
The biometric information registration request further includes ID information of the registrant;
The door control system based on biometrics, characterized in that the block generation unit includes the ID information of the registrant together in the block. delete The method of claim 1,
The visitor's biometric image,
The door control system based on biometrics, characterized in that the image includes any one of the visitor's face, fingerprint, and iris. The method of claim 1,
The biometric information of the visitor,
A door control system based on biometrics, characterized in that it includes template data corresponding to the visitor's biometric feature points. The method of claim 1,
The biometric recognizer,
The door control system based on biometrics, characterized in that it further comprises; an alarm unit for issuing an alarm to the outside according to the authentication result from the authentication unit. The method of claim 7,
The warning unit,
An alarm is issued when the authentication result from the authentication unit means authentication failure, and when the alarm is issued, a facial image of the corresponding visitor is provided to the outside together. The relay server creates a block containing template data corresponding to the registrant's biometric feature points and the resulting hash value based on the template data, converts it into a biometric DB in the form of a blockchain, and distributes it to the biometric recognizer constituting the blockchain network. storing;
generating, by the biometric recognizer, a resulting hash value based on the visitor's biometric information;
authenticating, by the biometric recognizer, the corresponding visitor based on the resulting hash value of the visitor and the biometric DB in the form of the blockchain; and
The biometric recognizer outputs a door driving control signal based on the authentication result in the authentication step; includes,
Generating the resulting hash value,
photographing an image including the visitor's body;
extracting a biometric image from the biometric image of the visitor;
extracting feature points from the extracted visitor's biometric image and generating biometric information based on the extracted feature points; and
Applying the generated biometric information to a hash function to generate a resulting hash value. The method of claim 9,
The step of distributing and storing to the biometric recognizer,
receiving a biometric information registration request including template data corresponding to the biometric feature points of the registrant;
generating a hash value by applying the template data of the registrant to a hash function, and generating a block including the template data of the registrant and the resulting hash value of the registrant;
Forming a biometric DB in the form of a block chain based on the block; and
Distributing and transmitting the biometric DB in the form of a block chain to the biometric recognizer. The method of claim 10,
The biometric information registration request further includes ID information of the registrant;
The step of generating the block includes including the ID information of the registrant together in the block. delete The method of claim 9,
The visitor's biometric image,
The door control method based on biometrics, characterized in that the image includes any one of the visitor's face, fingerprint, and iris. The method of claim 9,
The biometric information of the visitor,
A door control method based on biometrics, characterized in that it includes template data corresponding to the biometric feature points of the visitor. The method of claim 9,
The biometric recognition-based door control method further comprising the step of, by the biometric recognizer, issuing an alarm to the outside according to the authentication result. The method of claim 15
The step of issuing the warning is,
A door control method based on biometrics, characterized in that an alarm is issued when the authentication result means authentication failure, and a facial image of the corresponding visitor is provided to the outside together with the alarm.

Images