KR102646405B1 - Identification method using face and fingerprint - Google Patents

Abstract

The present invention provides an identity verification terminal of an identity verifier who wishes to verify the identity of an identity card holder in the field: scanning a two-dimensional code included in the identity card of the identity card holder; Extracting first feature information encoded in a two-dimensional code; Generating a second facial image by photographing the face of the ID holder and generating a second fingerprint image by recognizing the fingerprint of the ID holder; Extracting second feature point information from the second facial image and the second fingerprint image; And a step of comparing the first characteristic point information and the second characteristic point information, analyzing the degree of matching of the characteristic points, and determining whether the identity of the ID card and the identity of the ID holder match.

Description

IDENTIFICATION METHOD USING FACE AND FINGERPRINT}

The present invention relates to an identification method using face and fingerprint.

In modern society, efforts are being made to detect illegal activities related to disguising one's identity to obtain unfair profits. However, while the method of disguising one's identity is simple, it is relatively difficult to establish and utilize a system to detect newspaper disguising.

For example, the illegal act of impersonating a specific person, including identical twins, by using that person's ID card is widely known, but there is no proper system in place to detect this.

In addition, you can use a method to verify your identity by separately collecting and managing confidential information such as identity information and facial information, but when important information is stored and managed in a database, it is necessary to maintain the security of the stored data. A security system must be in place, and even if a security system is in place, there is room for abuse in various directions, such as data provided at the request of institutions, etc. being used continuously rather than being discarded.

Accordingly, the inventor of the present invention completed the present invention after a long period of research and development through trial and error in order to solve the above-mentioned problems.

In order to solve the problems described above, the present invention generates and provides a two-dimensional code containing unique biometric information to generate an ID card of an ID holder with the two-dimensional code printed on it, and prints the ID card on the face of the ID holder photographed at a specific location. The purpose is to provide an identification method using the face and fingerprint that can confirm the identity of the ID holder by analyzing the biometric information image generated based on the ID card along with the feature point information decoded through scanning the two-dimensional code of the ID card.

The technical problems to be achieved in the present invention are not limited to the above technical problems, and other technical problems not mentioned will be clearly understood by those skilled in the art from the description below.

One aspect of the present invention to solve the above-described problem is to provide an identity verification terminal of an identity verifier who wishes to verify the identity of an identity card holder in the field: scanning a two-dimensional code included in the identity card of an identity card holder; Extracting first feature information encoded in a two-dimensional code; Generating a second facial image by photographing the face of the ID holder and generating a second fingerprint image by recognizing the fingerprint of the ID holder; Extracting second feature point information from the second facial image and the second fingerprint image; And comparing the first characteristic point information and the second characteristic point information, analyzing the degree of matching of the characteristic points, and determining whether the ID card and the identity of the ID holder match, where the characteristic point information is included in the facial image and fingerprint image. It is a template that dataizes the characteristic points of each biometric component, and is unique biometric information to identify the ID holder. The ID verifier terminal scans the two-dimensional code included in the ID card on site and collects the ID holder's unique biometric information. By verifying the ID card and the identity of the ID holder, identity verification is possible even when data transmission and reception using the network is impossible.

One aspect of the present invention to solve the above-described problem is to provide a service server that performs an identification method using face and fingerprint: receiving a two-dimensional code included in the identification card of an identification card holder from an identification terminal; Extracting first feature information encoded in a two-dimensional code; Receiving a second facial image generated through photographing the face of the ID holder and a second fingerprint image generated through fingerprint recognition of the ID holder from the identity verification terminal; Extracting second feature point information from the second facial image and the second fingerprint image; Comparing the first feature point information and the second feature point information, analyzing the degree of matching of the feature points, and determining whether the identity of the ID card holder matches the ID card holder; And a step of transmitting the identity match determination result to the identity verification terminal, wherein the feature point information is a template that dataizes the feature points of each biometric component included in the facial image and fingerprint image, and is unique biometric information for identifying the ID holder. am.

One aspect of the present invention to solve the above-described problem is to provide an identity verification terminal of an identity verifier who wishes to verify the identity of an identity card holder in the field: scanning a two-dimensional code included in the identity card of an identity card holder; Extracting first feature information encoded in a two-dimensional code; generating a third facial image and a third fingerprint image by photographing an image for identification included in the ID card of the ID holder; Extracting third feature point information from the third facial image and the third fingerprint image; Comparing first feature point information and third feature point information; And if the first characteristic point information and the third characteristic point information do not match, it includes the step of determining that the image for identification included in the ID card is forged, and the characteristic point information is the characteristic point of each biometric component included in the facial image and fingerprint image. It is a data template that contains unique biometric information to identify the ID holder, and the ID verifier terminal scans the two-dimensional code included in the ID card on site and captures and compares the identification image included in the ID card. By determining whether the image for identification has been forged or altered, it is possible to determine whether the ID card has been forged or altered even when data transmission and reception using the network is impossible.

One aspect of the present invention to solve the above-described problem is to provide a service server that performs an identification method using face and fingerprint: receiving a two-dimensional code included in the identification card of an identification card holder from an identification terminal; Extracting first feature information encoded in a two-dimensional code; Receiving a third facial image and a third fingerprint image generated by photographing an image for identification included in the identification card from the identity verification terminal; Extracting third feature point information from the third facial image and the third fingerprint image; Comparing first feature point information and third feature point information; If the first characteristic point information and the third characteristic point information do not match, determining that the image for identification included in the identification card is forged; And a step of transmitting the identity match determination result to the identity verification terminal, wherein the feature point information is a template that dataizes the feature points of each biometric component included in the facial image and fingerprint image, and is unique biometric information for identifying the ID holder. am.

One aspect of the present invention to solve the above-described problem is to provide an identity verification terminal of an identity verifier who wishes to verify the identity of an identity card holder in the field: scanning a two-dimensional code included in the identity card of an identity card holder; Extracting first feature information encoded in a two-dimensional code; Generating a second facial image by photographing the face of the ID holder and generating a second fingerprint image by recognizing the fingerprint of the ID holder; Extracting second feature point information from the second facial image and the second fingerprint image; generating a third facial image and a third fingerprint image by photographing an image for identification included in the ID card of the ID holder; Extracting third feature point information from the third facial image and the third fingerprint image; And comparing the first characteristic point information to the third characteristic point information, analyzing the degree of matching of the characteristic points, and determining whether the identity of the ID card and the ID holder match and whether the ID card has been forged or altered, where the characteristic point information is a facial image. and a template that converts the characteristic points of each biometric component included in the fingerprint image into data, which is unique biometric information to identify the ID holder, and the identity verifier terminal uses the two-dimensional code included in the ID card and the identification image included in the ID card at the scene. And by comparing the unique biometric information of the ID holder, it is possible to determine whether the ID card matches the identity of the ID holder and whether the ID card has been forged or altered, even when data transmission and reception using the network is impossible.

One aspect of the present invention to solve the above-described problem is to provide a service server that performs an identification method using face and fingerprint: receiving a two-dimensional code included in the identification card of an identification card holder from an identification terminal; Extracting first feature information encoded in a two-dimensional code; Receiving a second facial image generated through photographing the face of the ID holder and a second fingerprint image generated through fingerprint recognition of the ID holder from the identity verification terminal; Extracting second feature point information from the second facial image and the second fingerprint image; Receiving a third facial image and a third fingerprint image generated by photographing an image for identification included in the identification card from the identity verification terminal; Extracting third feature point information from the third facial image and the third fingerprint image; Comparing the first feature point information to the third feature point information and analyzing the degree of matching of the feature points to determine whether the identification card and the identity of the ID holder match and whether the ID card has been forged or altered; And a step of transmitting the identity match determination result to the identity verification terminal, wherein the feature point information is a template that dataizes the feature points of each biometric component included in the facial image and fingerprint image, and is unique biometric information for identifying the ID holder. am.

One aspect of the present invention to solve the above-described problem is that a service server that performs an identification method using face and fingerprint: receives identity information from the ID creation requester terminal, and performs a first encryption in which the received identity information is encoded. generating and storing code; assigning a matching identifier to the first encryption code; Extracting first feature point information from the first facial image and first fingerprint image included in the identity information; generating a second encryption code in which the extracted first feature point information is encoded; assigning a matching identifier identical to the matching identifier assigned to the first encryption code to the second encryption code; And a step of generating an identification card containing a second encryption code, wherein the matching identifier is given so that it can be viewed even when the encryption code is not decoded, and the feature point information is each biometric component included in the facial image and fingerprint image. It is a template that dataizes the characteristic points of and is unique biometric information to identify the ID holder.

According to one embodiment of the present invention, receiving a second encryption code included in the identification card from the identity verification terminal; Checking the first encryption code corresponding to the received second encryption code using a matching identifier; Combining corresponding first encryption codes and second encryption codes to generate a third encryption code in which identity information and first feature information are encoded; And decoding the third encryption code to extract identity information and first feature information; Receiving a second facial image generated through photographing the face of the ID holder and a second fingerprint image generated through fingerprint recognition of the ID holder from the identity verification terminal; Extracting second feature point information from the second facial image and the second fingerprint image; Comparing the first feature point information and the second feature point information, analyzing the degree of matching of the feature points, and determining whether the identity of the ID card holder matches the ID card holder; And a step of transmitting the identity match determination result and the identity information to the identity verifier terminal, wherein the first encryption code and the second encryption code overlap each other to form a third encryption code composed of a new pattern, and the first encryption code is Information encoded in the code and the second encryption code can be decoded only by the third encryption code.

According to one embodiment of the present invention, generating a first encryption code in which a partial area is composed of a first decoding discrimination area; Generating a decoding allowance pattern for decoding a third encryption code formed through an overlap combination of a first encryption code and a second encryption code; And generating a second encryption code in which a partial area is composed of a second decoding discrimination area, and generating a decoding allowance pattern when the first decoding discrimination area and the second decoding discrimination area overlap each other. .

According to one embodiment of the present invention, the step of generating the second encryption code is to form the entire area of the second encryption code to be larger than the entire area of the first encryption code, and to form the first encryption code among the entire area of the second encryption code. Setting an overlap area to overlap; And setting the area other than the second decoding determination area that overlaps the first decoding determination area among the overlap areas as a no-data area, wherein the location of the overlap area of the second encryption code is determined every time the second encryption code is generated. Can be set randomly.

The present invention has the effect of easily confirming the identity of a specific person by analyzing the facial image obtained by photographing the face of the specific person and the fingerprint image collected through fingerprint recognition together with the feature point information obtained from the ID card when it is necessary to confirm the identity of a specific person. There is.

For example, in the past, identity verifiers such as police officers visually compared the face of the person being inspected with the photo on the ID card, making it difficult to determine whether the person was the same person or causing errors.

However, the present invention compares the first characteristic point information included in the ID card with the second characteristic point information obtained from the facial image and fingerprint image of the ID holder collected in the field to determine whether or not the identity matches, greatly improving the accuracy of determining whether the person is the same person. You can do it.

In the case of an ID holder whose ID card was created a long time ago, the appearance may have changed significantly compared to when the ID card was created due to age or wearing accessories such as glasses, etc. However, according to the present invention, even in such cases, it is possible to accurately determine whether the person is the same person.

Additionally, the ID card includes identity information such as name, social security number, and photo. If an ID counterfeiter forges the photo on the ID card, the identity of the ID counterfeiter may be considered the same as that written on the ID card.

In this case, if only the information of the two-dimensional code included in the ID card can be secured, the identity information corresponding to the two-dimensional code can be transmitted to easily determine the identity information of the ID holder and detect whether the ID card is forged. It works.

In addition, the present invention generates a two-dimensional code in the form of an encryption code, making it difficult to copy and create without permission, so it has the effect of preventing forgery of identification cards.

Meanwhile, it is to be added that even if the effects are not explicitly mentioned herein, the effects described in the following specification and their potential effects expected from the technical features of the present invention are treated as if described in the specification of the present invention.

Figure 1 is a reference diagram for briefly explaining the identification method using face and fingerprint according to the present invention.
Figures 2 and 3 are flowcharts of an identification method using face and fingerprint according to the present invention.
Figures 4 and 5 are flowcharts of an identification method using face and fingerprint according to an embodiment of the present invention.
Figures 6 and 7 are reference diagrams for explaining an encryption code generation method according to an embodiment of the present invention.

In describing the present invention, detailed descriptions of related known functions will be omitted if they are obvious to those skilled in the art and are judged to unnecessarily obscure the gist of the present invention.

The system of the present invention and a device implementing the same may be implemented by a computer including one or more processors, memory, etc. Examples of computers may include various devices such as personal computers, server computers, smartphones, tablets, and wearable devices. At this time, the computer can be expressed as an ID holder terminal, service terminal, service server, etc. depending on the user.

In this specification, terms such as 'part', 'module', 'component', and 'interface' relate to a computer-related entity and may mean hardware, a combination of hardware and software, or software. For example, 'communication unit' and 'communication module' may refer to hardware that performs communication functions, a combination of hardware and software, or software.

The method of encoding or decoding the two-dimensional code and color code mentioned in the present invention can be implemented by a computer including a code encoding module and a code decoding module. For example, a computer includes an identity verification terminal used by an identity verification executor and a service server used by a service provider.

Figure 1 is a reference diagram for briefly explaining the identification method using face and fingerprint according to the present invention.

According to the present invention, an on-site identity verifier, such as a police officer, can easily confirm the identity of an ID holder by determining unique biometric information through an identity verifier terminal.

First, a two-dimensional code encoding first feature point information is printed on the ID card held by the ID holder. Here, the first feature point information is extracted from the first facial image taken at the time of generating the ID card and the first fingerprint image generated through recognition, and the feature point information is the feature point of each biometric component included in the facial image and fingerprint image. It is a data template and may be unique biometric information to identify the ID holder. For example, in the first facial image, the distance ratio between biological components such as eyes, nose, and mouth, the angle of the jaw line, the height of the ears, the degree of bone protrusion, etc. may be extracted and included in the first feature information.

When the identity verification terminal scans the two-dimensional code of the ID card, the above-mentioned first feature point information can be obtained, and then a second facial image created by photographing the ID holder and a second fingerprint image created by recognizing the ID holder's fingerprint. It is possible to confirm the identity of the ID holder by extracting the second characteristic point information from and comparing it with each other. Here, since the second feature point information also includes the same types of information as the first feature point information, comparative analysis between feature point information can be performed.

Below, the identification method using a two-dimensional code according to the present invention will be described in detail.

Figures 2 and 3 are flowcharts of an identification method using face and fingerprint according to the present invention.

Referring to Figure 2, the identification method using the face and fingerprint according to the present invention can be performed by an identification terminal.

Here, the identity verifier terminal is a terminal operated by an identity verification enforcer who wishes to confirm the identity of an ID holder. For example, it may correspond to a terminal of a police officer who wishes to confirm the identity of a driver.

The identification method using face and fingerprint according to the present invention consists of the following processes.

Scan the two-dimensional code included in the ID card holder's ID card (S200). Here, the scanning of the two-dimensional code can also be performed directly through the identity verifier terminal or through a separate scanning device connected to the identity verifier terminal and a network.

The two-dimensional code is decoded to extract the first feature point information included in the two-dimensional code (S210). Here, the first feature point information is extracted from the first facial image and the recognized first fingerprint image taken at the time of generating the ID card, and is the feature point of the user's biometric components included in the first facial image and first fingerprint image. is extracted.

A second facial image is created by photographing the face of the ID holder, and a second fingerprint image is created through fingerprint recognition of the ID holder (S220). Here, facial photography and fingerprint recognition of the ID holder can be performed directly by the identification terminal, or may be performed through a separate imaging device connected to the identification terminal through a network.

Obtain second feature point information extracted from the second facial image and the second fingerprint image (S230). Here, the second feature point information may include information of the same format or item so that it can be compared with the first feature point information.

The first feature point information and the second feature point information are compared, the degree of matching of the feature points is analyzed, and it is determined whether the ID card and the identity of the ID holder match (S240). Here, matching accuracy standards can be set in advance by taking into account some errors that may occur in the process of determining whether unique biometric information matches. For example, if the match between both characteristic point information is 98% or more, the identity of the ID card and the ID holder match. It can be determined by doing this.

Referring to Figure 3, the identification method using face and fingerprint according to the present invention can be performed by a service server.

The identification method using a two-dimensional code performed by the service server consists of the following processes.

The two-dimensional code information included in the ID card holder's ID card is received from the ID verification terminal (S300).

The two-dimensional code is decoded to extract the first feature point information included in the two-dimensional code (S310).

A second facial image generated through photographing the face of the ID holder and a second fingerprint image generated through fingerprint recognition of the ID holder are received from the identity verification terminal (S320).

Second feature point information extracted from the second facial image and the second fingerprint image is acquired (S330).

The first feature point information and the second feature point information are compared, the degree of matching of the feature points is analyzed, and it is determined whether the ID card and the identity of the ID holder match (S340). The identity match determination result can be transmitted to the identity verifier terminal so that the identity verifier can complete the identity verification.

The ID verification method using the above-described first characteristic point information and second characteristic point information is based on the first facial image and first fingerprint image used when creating the ID card and the second facial image and second fingerprint image of the ID holder collected on site. Since this is done, the identity verifier can check whether the ID card presented by the ID card holder has been stolen.

In addition, the identification method using a two-dimensional code performed by the identity verifier terminal can be performed even when the identity verifier terminal is unable to transmit and receive data through the network, so it has the advantage of being usable even in radio barren areas.

According to a preferred embodiment of the present invention, a third facial image and a third fingerprint image generated by photographing an image for identification included in an identification card can be used.

In this case, the identity verification terminal captures the identity verification image included in the ID holder's ID card, creates a third facial image and a third fingerprint image, and extracts third feature point information from the third facial image and third fingerprint image. It includes the step of comparing the first characteristic point information and the third characteristic point information, analyzing the degree of matching of the characteristic points, and determining whether the ID card and the identity of the ID holder match.

In addition, the service server receives the third facial image and third fingerprint image generated by taking the image for identification included in the ID card from the identity verifier terminal, and receives third feature point information from the third facial image and third fingerprint image. It includes the step of extracting, comparing the first feature point information and the third feature point information, analyzing the degree of matching of the feature points, and determining whether the identity of the ID card and the identity of the ID holder match.

The identification method using the above-described first characteristic point information and third characteristic point information includes the first facial image and first fingerprint image used when creating an ID card, and the third facial image and third fingerprint generated through the identity verification image of the ID card. Since it is performed based on the image, it is possible to check whether the ID card presented by the ID holder is forged.

According to a preferred embodiment of the present invention, a second facial image and a second fingerprint image generated by collecting the unique biometric information of the ID holder on site, a third facial image generated by photographing the image for identification included in the ID card, and All third-party fingerprint images can be used.

In this case, it may include both the above-described steps for using the second facial image and the second fingerprint image and the above-described steps for using the third facial image and the third fingerprint image.

Accordingly, the identification method using the first characteristic point information or the third characteristic point information includes the first facial image and first fingerprint image used when creating the ID card, the second facial image and second fingerprint image of the ID holder taken on site, Since it is performed based on the third facial image and third fingerprint image created through the identification image, it is possible to check whether the ID card presented by the ID card holder has been stolen or forged.

According to a preferred embodiment of the present invention, the identification method using a two-dimensional code performed by the service server may further include the following processes.

(1) Receive the first facial image and first fingerprint image of the ID holder from the ID holder terminal.

(2) Obtain the first characteristic point information of the ID holder extracted from the received first facial image and first fingerprint image.

(3) Generate a two-dimensional code in which the generated first feature point information is encoded.

(4) Ensure that an identification card containing a two-dimensional code is created.

Here, the first facial image and the first fingerprint image may refer to the user's biometric information image that is transmitted to generate the ID card. The received first facial image and first fingerprint image can be stored and managed in a separate database, and when the service server transmits the identity match determination result to the identity verification terminal, etc., the stored first facial image and first fingerprint image are stored in a separate database. The image can be transmitted to the identity verification terminal together. In addition, the first facial image and the first fingerprint image from which the first characteristic point information was extracted through the same matching identifier assigned to the first facial image and first fingerprint image and the first characteristic point information used to derive the identity match determination result. can be searched in the database, and by transmitting the searched first facial image and first fingerprint image together to the identity verifier terminal, the identity verifier can easily check whether the ID card is forged.

Figures 4 and 5 are flowcharts of an identification method using face and fingerprint according to an embodiment of the present invention.

The identification method using the face and fingerprint according to an embodiment of the present invention is performed by a service server and may include the following processes.

Identity information is received from the ID creation requester terminal, and a first encryption code in which the received identity information is encoded is generated and stored (S400). Here, the identity information of the person requesting identification may be provided directly to the service server, or may be provided to the service server through another route or series of processes. In addition, the identity information of the person requesting identification may be stored in a separate database in the form of a first encryption code, and the first encryption code is formed so as not to be decoded if it does not meet the separate decoding requirements described later, thereby providing security. do.

A matching identifier is assigned to the first encryption code (S410).

First feature point information is extracted from the first facial image and first fingerprint image included in the identity information (S420).

A second encryption code in which the extracted first feature point information is encoded is generated (S430).

A matching identifier identical to the matching identifier assigned to the first encryption code is assigned to the second encryption code (S440).

An identification card containing the second encryption code is generated (S450).

Receive the second encryption code information included in the ID card (S500).

The first encryption code corresponding to the input second encryption code is searched among the stored first encryption codes using the matching identifier (S510).

The corresponding first encryption code and second encryption code are combined to generate a third encryption code in which identity information and first feature information are encoded (S520).

Here, the first encryption code and the second encryption code overlap each other to form a third encryption code composed of a new pattern, and the information encoded in the first encryption code and the second encryption code is decoded only by the third encryption code. It can be.

Therefore, even if the first encryption code is stored in a separate database, it can avoid the risk of the information encoded in the code being stolen, and the second encryption code can also be exposed to the identity card of each ID holder, so that face-related body information is leaked. You can prevent it from happening.

The third encryption code is decoded to extract identity information and first feature point information (S530).

A second facial image generated through photographing the face of the ID holder and a second fingerprint image generated through fingerprint recognition of the ID holder are received from the identity verification terminal (S540).

Second feature point information is extracted from the second facial image and the second fingerprint image (S550).

The first feature point information and the second feature point information are compared, the degree of matching of the feature points is analyzed, and it is determined whether the ID card and the identity of the ID holder match (S560).

Afterwards, the identification result and identity information are transmitted to the identity verifier terminal so that the identity verifier completes the identity verification.

Here, if the ID card holder forges or alters the part of the ID card excluding the second encryption code, the fact of forgery or alteration of the ID card can be revealed by the identity information transmitted to the identity verifier terminal.

In addition, if the ID holder forges or alters the second encryption code of the ID card, a notification that identity verification is impossible because the first encryption code corresponding to the forged second encryption code is not derived may be sent to the identity verifier terminal.

Additionally, if the ID card holder steals the ID card, the facial and fingerprint analysis results determined to be mismatched may be transmitted to the ID verifier terminal.

Figures 6 and 7 are reference diagrams for explaining an encryption code generation method according to an embodiment of the present invention.

Referring to FIG. 6, the first encryption code 10 and the second encryption code 20 can be generated according to the following process.

First, a first encryption code 10 whose partial area consists of a first decoding discrimination area is generated.

Next, a decoding allowance pattern (D) for decoding the third encryption code 30, which is formed through an overlap combination of the first encryption code 10 and the second encryption code 20, is generated.

Next, a second encryption code 20 is generated in which a partial area is composed of a second decoding discrimination area, and when the first decoding discrimination area and the second decoding discrimination area overlap each other, a decoding allowance pattern (D) is formed. Create.

When the first decoding discrimination area of the first encryption code 10 and the second decoding discrimination area of the second encryption code 20 are separated from each other, they exist as meaningless areas, but as they overlap each other, the decoding allowance pattern (D ), by satisfying the decoding requirements, the service server can decode the third encryption code.

Referring to FIG. 7, the second encryption code 20 can be generated including the more specific process below.

As shown on the left side of FIG. 7, the entire area of the second encryption code 20 is formed to be larger than the first encryption code 10, and the first encryption code 10 of the entire area of the second encryption code 20 is overlapped. Set an overlap area (21) to do this.

Next, the area of the overlap area 21 excluding the second decoding determination area 23, which overlaps the first decoding determination area of the first encryption code 10, is set as the no data area 22. The area excluding the first decoding discrimination area of the first encryption code 10 is located in the non-data area 22, so that the information encoded in the first encryption code 10, such as the identity information of the ID holder, is located intact. do.

In this case, even if the third encryption code 30 is generated, the code data of the first encryption code 10 is not combined with the code data of the second encryption code 20, so the first encryption code 10 ) and no additional decoding process is required to decode the information encoded in the second encryption code 20. Therefore, through the method of generating the third encryption code 30, it is possible to secure security for data encoded in the first and second encryption codes and simultaneously ensure ease of code decoding.

In addition, the position of the overlap area 21 of the second encryption code 20 can be set randomly every time the second encryption code 20 is generated, and the size and shape of the overlap area 21 can also be set randomly. . Through this, an unlimited number of cases for combining encryption codes can be secured, and all generated first encryption codes and second encryption codes can be matched and combined one-to-one.

For example, the overlap area 21 may be comprised of a plurality of areas spaced apart from each other, and each area spaced apart from each other may also have a different shape.

It is obvious to those skilled in the art that the present invention can be embodied in other specific forms without departing from the characteristics of the present invention. Accordingly, the above detailed description should not be construed as restrictive in all respects and should be considered illustrative. The scope of the present invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the present invention are included in the scope of the present invention.

Claims (10)

The identity verification terminal of the person who wants to verify the identity of the ID holder on site is:
Scanning the second encryption code included in the ID card of the ID holder;
Checking the first encryption code corresponding to the received second encryption code using a matching identifier;
Combining corresponding first encryption codes and second encryption codes to generate a third encryption code in which identity information and first feature information are encoded; and
Decoding the third encryption code to extract identity information and first feature information;
Generating a second facial image by photographing the face of the ID holder and generating a second fingerprint image by recognizing the fingerprint of the ID holder;
Extracting second feature point information from the second facial image and the second fingerprint image; and
Comparing the first feature point information and the second feature point information, analyzing the degree of matching of the feature points, and determining whether the identity of the ID card and the identity of the ID holder match,
Feature point information is a template that dataizes the feature points of each biometric component included in the facial image and fingerprint image, and is unique biometric information to identify the ID holder.
The identity verification terminal verifies the identity of the ID card and the ID holder by scanning the second encryption code included in the ID card on site and collecting the ID holder's unique biometric information, thereby verifying the identity even when data transmission and reception using the network is impossible. This is possible,
The first encryption code and the second encryption code are two-dimensional codes formed from two-dimensional images, and overlap each other to form a third encryption code composed of a new pattern, and the information encoded in the first encryption code and the second encryption code is 3Decoded only by encryption code,
The identification card is generated by a service server performing an identification method using a two-dimensional code through steps (a) to (f) below,
(a) receiving identity information from the ID creation requester terminal, and generating and storing a first encryption code in which the received identity information is encoded;
(b) assigning a matching identifier to the first encryption code;
(c) extracting first feature point information from the first facial image and first fingerprint image included in the identity information;
(d) generating a second encryption code in which the extracted first feature point information is encoded;
(e) assigning a matching identifier identical to the matching identifier assigned to the first encryption code to the second encryption code; and
(f) Step of generating an identification card containing a second encryption code
The matching identifier is given so that it can be searched even when the encryption code has not been decoded.
Identification method using face and fingerprint.
The service server that performs the identification method using face and fingerprint is:
Receiving a second encryption code included in the ID card of the ID card holder from the identity verification terminal;
Checking the first encryption code corresponding to the received second encryption code using a matching identifier;
Combining corresponding first encryption codes and second encryption codes to generate a third encryption code in which identity information and first feature information are encoded; and
Decoding the third encryption code to extract identity information and first feature information;
Receiving a second facial image generated through photographing the face of the ID holder and a second fingerprint image generated through fingerprint recognition of the ID holder from the identity verification terminal;
Extracting second feature point information from the second facial image and the second fingerprint image;
Comparing the first feature point information and the second feature point information, analyzing the degree of matching of the feature points, and determining whether the identity of the ID card holder matches the ID card holder; and
Including the step of transmitting the identity match determination result to the identity verifier terminal,
Feature point information is a template that dataizes the feature points of each biometric component included in the facial image and fingerprint image, and is unique biometric information to identify the ID holder.
The first encryption code and the second encryption code are two-dimensional codes formed from two-dimensional images, and overlap each other to form a third encryption code composed of a new pattern, and the information encoded in the first encryption code and the second encryption code is 3Decoded only by encryption code,
The identification card is generated by a service server performing an identification method using a two-dimensional code through steps (a) to (f) below,
(a) receiving identity information from the ID creation requester terminal, and generating and storing a first encryption code in which the received identity information is encoded;
(b) assigning a matching identifier to the first encryption code;
(c) extracting first feature point information from the first facial image and first fingerprint image included in the identity information;
(d) generating a second encryption code in which the extracted first feature point information is encoded;
(e) assigning a matching identifier identical to the matching identifier assigned to the first encryption code to the second encryption code; and
(f) Step of generating an identification card containing a second encryption code
The matching identifier is given so that it can be searched even when the encryption code has not been decoded.
Identification method using face and fingerprint.
The identity verification terminal of the person who wants to verify the identity of the ID holder on site is:
Scanning the second encryption code included in the ID card of the ID holder;
Checking the first encryption code corresponding to the received second encryption code using a matching identifier;
Combining corresponding first encryption codes and second encryption codes to generate a third encryption code in which identity information and first feature information are encoded; and
Decoding the third encryption code to extract identity information and first feature information;
generating a third facial image and a third fingerprint image by photographing an image for identification included in the ID card of the ID holder;
Extracting third feature point information from the third facial image and the third fingerprint image;
Comparing first feature point information and third feature point information; and
If the first characteristic point information and the third characteristic point information do not match, it includes the step of determining that the image for identification included in the identification card is forged,
Feature point information is a template that dataizes the feature points of each biometric component included in the facial image and fingerprint image, and is unique biometric information to identify the ID holder.
The identity verification terminal scans the second encryption code included in the ID card on site, photographs and compares the identity verification image included in the ID card, and determines whether the image for identification included in the ID card has been forged or altered, thereby maintaining the network. Even if data transmission and reception is impossible, it is possible to determine whether the ID card has been forged or altered.
The first encryption code and the second encryption code are two-dimensional codes formed from two-dimensional images, and overlap each other to form a third encryption code composed of a new pattern, and the information encoded in the first encryption code and the second encryption code is 3Decoded only by encryption code,
The identification card is generated by a service server performing an identification method using a two-dimensional code through steps (a) to (f) below,
(a) receiving identity information from the ID creation requester terminal, and generating and storing a first encryption code in which the received identity information is encoded;
(b) assigning a matching identifier to the first encryption code;
(c) extracting first feature point information from the first facial image and first fingerprint image included in the identity information;
(d) generating a second encryption code in which the extracted first feature point information is encoded;
(e) assigning a matching identifier identical to the matching identifier assigned to the first encryption code to the second encryption code; and
(f) Step of generating an identification card containing a second encryption code
The matching identifier is given so that it can be searched even when the encryption code has not been decoded.
Identification method using face and fingerprint.
The service server that performs the identification method using face and fingerprint is:
Receiving a second encryption code included in the ID card of the ID card holder from the identity verification terminal;
Checking the first encryption code corresponding to the received second encryption code using a matching identifier;
Combining corresponding first encryption codes and second encryption codes to generate a third encryption code in which identity information and first feature information are encoded; and
Decoding the third encryption code to extract identity information and first feature information;
Receiving a third facial image and a third fingerprint image generated by photographing an image for identification included in the identification card from the identity verification terminal;
Extracting third feature point information from the third facial image and the third fingerprint image;
Comparing first feature point information and third feature point information;
If the first characteristic point information and the third characteristic point information do not match, determining that the image for identification included in the identification card is forged; and
Including the step of transmitting the identity match determination result to the identity verifier terminal,
Feature point information is a template that dataizes the feature points of each biometric component included in the facial image and fingerprint image, and is unique biometric information to identify the ID holder.
The first encryption code and the second encryption code are two-dimensional codes formed from two-dimensional images, and overlap each other to form a third encryption code composed of a new pattern, and the information encoded in the first encryption code and the second encryption code is 3Decoded only by encryption code,
The identification card is generated by a service server performing an identification method using a two-dimensional code through steps (a) to (f) below,
(a) receiving identity information from the ID creation requester terminal, and generating and storing a first encryption code in which the received identity information is encoded;
(b) assigning a matching identifier to the first encryption code;
(c) extracting first feature point information from the first facial image and first fingerprint image included in the identity information;
(d) generating a second encryption code in which the extracted first feature point information is encoded;
(e) assigning a matching identifier identical to the matching identifier assigned to the first encryption code to the second encryption code; and
(f) Step of generating an identification card containing a second encryption code
The matching identifier is given so that it can be searched even when the encryption code has not been decoded.
Identification method using face and fingerprint.
The identity verification terminal of the person who wants to verify the identity of the ID holder on site is:
Scanning the second encryption code included in the ID card of the ID holder;
Checking the first encryption code corresponding to the received second encryption code using a matching identifier;
Combining corresponding first encryption codes and second encryption codes to generate a third encryption code in which identity information and first feature information are encoded; and
Decoding the third encryption code to extract identity information and first feature information;
Generating a second facial image by photographing the face of the ID holder and generating a second fingerprint image by recognizing the fingerprint of the ID holder;
Extracting second feature point information from the second facial image and the second fingerprint image;
generating a third facial image and a third fingerprint image by photographing an image for identification included in the ID card of the ID holder;
Extracting third feature point information from the third facial image and the third fingerprint image; and
Comparing the first feature point information to the third feature point information, analyzing the degree of matching of the feature points, and determining whether the identity of the ID card and the identity of the ID holder match and whether the ID card has been forged or altered;
Feature point information is a template that dataizes the feature points of each biometric component included in the facial image and fingerprint image, and is unique biometric information to identify the ID holder.
The identity verification terminal scans the second encryption code included in the ID card on site and compares the identity verification image included in the ID card with the ID holder's unique biometric information to check whether the ID card matches the ID holder's identity and the identity of the ID card holder. By determining whether the ID card has been forged or altered, it is possible to determine whether the ID card has been forged or altered even when data transmission and reception using the network is impossible.
The first encryption code and the second encryption code are two-dimensional codes formed from two-dimensional images, and overlap each other to form a third encryption code composed of a new pattern, and the information encoded in the first encryption code and the second encryption code is 3Decoded only by encryption code,
The identification card is generated by a service server performing an identification method using a two-dimensional code through steps (a) to (f) below,
(a) receiving identity information from the ID creation requester terminal, and generating and storing a first encryption code in which the received identity information is encoded;
(b) assigning a matching identifier to the first encryption code;
(c) extracting first feature point information from the first facial image and first fingerprint image included in the identity information;
(d) generating a second encryption code in which the extracted first feature point information is encoded;
(e) assigning a matching identifier identical to the matching identifier assigned to the first encryption code to the second encryption code; and
(f) Step of generating an identification card containing a second encryption code
The matching identifier is given so that it can be searched even when the encryption code has not been decoded.
Identification method using face and fingerprint.
The service server that performs the identification method using face and fingerprint is:
Receiving a second encryption code included in the ID card of the ID card holder from the identity verification terminal;
Checking the first encryption code corresponding to the received second encryption code using a matching identifier;
Combining corresponding first encryption codes and second encryption codes to generate a third encryption code in which identity information and first feature information are encoded; and
Decoding the third encryption code to extract identity information and first feature information;
Receiving a second facial image generated through photographing the face of the ID holder and a second fingerprint image generated through fingerprint recognition of the ID holder from the identity verification terminal;
Extracting second feature point information from the second facial image and the second fingerprint image;
Receiving a third facial image and a third fingerprint image generated by photographing an image for identification included in the identification card from the identity verification terminal;
Extracting third feature point information from the third facial image and the third fingerprint image;
Comparing the first feature point information to the third feature point information and analyzing the degree of matching of the feature points to determine whether the identification card and the identity of the ID holder match and whether the ID card has been forged or altered; and
Including the step of transmitting the identity match determination result to the identity verifier terminal,
Feature point information is a template that dataizes the feature points of each biometric component included in the facial image and fingerprint image, and is unique biometric information to identify the ID holder.
The first encryption code and the second encryption code are two-dimensional codes formed from two-dimensional images, and overlap each other to form a third encryption code composed of a new pattern, and the information encoded in the first encryption code and the second encryption code is 3Decoded only by encryption code,
The identification card is generated by a service server performing an identification method using a two-dimensional code through steps (a) to (f) below,
(a) receiving identity information from the ID creation requester terminal, and generating and storing a first encryption code in which the received identity information is encoded;
(b) assigning a matching identifier to the first encryption code;
(c) extracting first feature point information from the first facial image and first fingerprint image included in the identity information;
(d) generating a second encryption code in which the extracted first feature point information is encoded;
(e) assigning a matching identifier identical to the matching identifier assigned to the first encryption code to the second encryption code; and
(f) Step of generating an identification card containing a second encryption code
The matching identifier is given so that it can be searched even when the encryption code has not been decoded.
Identification method using face and fingerprint.
delete delete According to any one of claims 1 to 6,
Generating a first encryption code in which a partial area is composed of a first decoding discrimination area;
Generating a decoding allowance pattern for decoding a third encryption code formed through an overlap combination of a first encryption code and a second encryption code; and
Generating a second encryption code in which a partial area is composed of a second decoding discrimination area, and generating a decoding allowance pattern when the first decoding discrimination area and the second decoding discrimination area overlap each other.
Identification method using face and fingerprint.
According to clause 9,
The step of generating the second encryption code is
forming the entire area of the second encryption code to be larger than the entire area of the first encryption code, and setting an overlap area to overlap the first encryption code among the entire area of the second encryption code; and
It includes the step of setting an area other than the second decoding discrimination area that overlaps the first decoding discrimination area among the overlap areas as a no-data area,
The location of the overlap area of the second encryption code is randomly set each time the second encryption code is generated.
Identification method using face and fingerprint.