Source: https://patents.google.com/patent/JP5012092B2/en
Timestamp: 2020-01-29 04:02:18
Document Index: 72723223

Matched Legal Cases: ['art 131', 'art 132', 'art 133', 'art 231', 'art 132', 'art 233', 'art 120', 'art 130', 'art 131', 'art 132', 'art 133', 'art 134']

JP5012092B2 - Biometric authentication device, biometric authentication program, and combined biometric authentication method - Google Patents
Biometric authentication device, biometric authentication program, and combined biometric authentication method Download PDF
JP5012092B2
JP5012092B2 JP2007053150A JP2007053150A JP5012092B2 JP 5012092 B2 JP5012092 B2 JP 5012092B2 JP 2007053150 A JP2007053150 A JP 2007053150A JP 2007053150 A JP2007053150 A JP 2007053150A JP 5012092 B2 JP5012092 B2 JP 5012092B2
JP2007053150A
JP2008217355A (en
2007-03-02 Application filed by 富士通株式会社 filed Critical 富士通株式会社
2007-03-02 Priority to JP2007053150A priority Critical patent/JP5012092B2/en
2008-09-18 Publication of JP2008217355A publication Critical patent/JP2008217355A/en
2012-08-29 Publication of JP5012092B2 publication Critical patent/JP5012092B2/en
The present invention relates to a biometric authentication apparatus, biometric authentication program, and composite biometric authentication method for authenticating a user using biometric information, and in particular, a biometric authentication apparatus capable of realizing high-speed and high-correspondence biometric authentication, The present invention relates to a biometric authentication program and a composite biometric authentication method.
Conventionally, a composite biometric authentication method that performs authentication by combining a plurality of biometric authentication methods is known. The composite biometric authentication method can improve the authentication accuracy, but has a disadvantage that it takes a long time for authentication because it needs to execute a plurality of biometric authentication methods.
In order to eliminate this drawback, Patent Document 1 discloses that the time required for authentication is obtained by acquiring biometric information using the first biometric authentication method and biometric information using the second biometric authentication method at a time. A technique for shortening is disclosed. Further, Patent Document 2 narrows down candidates by the first biometric authentication method and reduces the processing time of the second biometric authentication method by executing the second biometric authentication method for the narrowed candidates. The technology to be converted is disclosed.
JP 2005-168627 A Japanese Patent Laying-Open No. 2005-275508
However, the above-described conventional technique has a problem in that no consideration is given to unsupported persons. For example, in the case of fingerprint authentication, which is a typical biometric authentication method, several percent of people are unsupported due to reasons such as fingerprints being worn.
In the conventional composite biometric authentication method, it is assumed that the user who is authenticated can support all biometric authentication methods included in the composite biometric authentication method, and any biometric authentication method must be supported. Users who cannot do so could not be authenticated.
The present invention has been made to solve the above-described problems caused by the prior art, and provides a biometric authentication apparatus, a biometric authentication program, and a combined biometric authentication method capable of realizing biometric authentication at a high speed and a high response rate. The purpose is to provide.
In order to solve the above-described problem and achieve the object, according to one aspect of the present invention, there is provided a biometric authentication device that authenticates a user by using biometric information, wherein a first biometric information is input. Biometric information input means, second biometric information input means for inputting second biometric information, quality determination means for determining the quality of the first biometric information, and the first biometric information for each registrant The first biometric information is associated with the second biometric information, the first registrant group whose quality of the first biometric information is equal to or higher than a predetermined value, and the quality of the first biometric information is less than the predetermined value. Storage means for storing registrant information that holds the second registrant group in a distinguishable manner, and the user's first biometric information and the registrant information are collated, so that the user A first authentication means for authenticating whether or not one person is present; Second authentication means for authenticating whether or not the user is one of the registrants by collating the second biometric information of the user with the registrant information, and the first biometric information input The registrant information corresponding to the group of the first registrants when the quality of the first biometric information of the user acquired by the means is determined by the quality determination means to be a predetermined value or more. And the quality of the first biometric information of the user acquired by the first biometric information input means is less than the predetermined value by the quality judgment means. And an authentication control means for performing authentication by the second authenticating means with the registrant information corresponding to the second registrant group as a verification target when it is determined to be present.
According to this aspect of the present invention, a registrant that supports the high-speed authentication method and a registrant that does not support the high-speed authentication method are registered separately in advance, and the quality of the user's biometric information is set at the time of authentication execution. Users who are determined to be compatible with the high-speed authentication method are authenticated using the high-speed authentication method, and users who are determined not to be compatible with the high-speed authentication method are registered separately in advance. Since authentication is performed using the high correspondence rate authentication method only for registrants that do not support the high speed authentication method, high-speed and high correspondence rate biometric authentication can be realized.
According to another aspect of the present invention, there is provided a biometric authentication device that authenticates a user using biometric information, the first biometric information input means for inputting the first biometric information, and the second biometric information. Second biometric information input means for inputting the information, quality determination means for determining the quality of the first biometric information, and the first biometric information and the second biometric information for each registrant, Further, a first registrant group whose quality of the first biometric information is equal to or higher than a first predetermined value, and a second registration whose quality of the first biometric information is less than the first predetermined value. The user is one of the registrants by storing storage means for storing registrant information so as to be distinguishable from a group of registrants, and collating the first biometric information of the user with the registrant information. A first authenticating means for authenticating whether or not the user and the user Second authentication means for authenticating whether or not the user is one of the registrants by collating the biometric information with the registrant information and the biometric information input means obtained by the first biometric information input means When the quality of the first biometric information of the user is determined to be greater than or equal to the first predetermined value and less than the second predetermined value by the quality determination means, the first registrant And authentication control means for performing authentication by the first authentication means and authentication by the second authentication means with the registrant information corresponding to the group as a verification target.
According to the aspect of the present invention, although the high-speed authentication method is supported, a user who has been determined that the high-speed authentication method alone cannot authenticate with sufficient accuracy is combined with the high-speed authentication method and the high response rate authentication method. Therefore, the accuracy of authentication can be improved.
According to another aspect of the present invention, in the aspect of the invention described above, the authentication control means is configured such that the quality of the first biological information of the user acquired by the first biological information input means is the quality. When it is determined by the determination means that the value is greater than or equal to the first predetermined value and less than the second predetermined value, the registrant information corresponding to the group of the first registrant is used as the verification target. Authenticating by the first authenticating means to extract registrants having a matching degree equal to or higher than a predetermined level, and performing authentication by the second authenticating means using the registrant information corresponding to the extracted registrants as a verification target. Features.
According to the aspect of the present invention, when performing authentication by combining the high-speed authentication method and the high response rate authentication method, after narrowing down candidates by the authentication by the high-speed authentication method, the high response rate authentication for the candidate is performed. Since the authentication by the method is executed, it is possible to prevent the processing speed from being lowered while improving the accuracy of the authentication.
According to another aspect of the present invention, in the above aspect of the invention, the authentication control unit is used for the first authentication unit to perform authentication according to a result of the quality determination unit. The threshold value of the degree of coincidence between the first biometric information of the person and the first biometric information included in the registrant information is changed.
According to the aspect of the present invention, since the threshold value of the degree of coincidence used for authentication is changed according to the quality of the biological information acquired from the user, the authentication accuracy and the recognition rate can be optimized. .
In another aspect of the present invention, in the above aspect of the invention, the registrant information includes a plurality of registrant information for each registrant in association with the change in environment of the first biological information and the second biological information. It is characterized by holding.
According to the aspect of the present invention, since a plurality of pieces of biometric information are registered in association with the environment for each user, biometric authentication can be performed accurately regardless of changes in the environment for obtaining biometric information from the user. Can be done.
According to another aspect of the present invention, in the above aspect of the invention, the registrant information holds a plurality of types of collation information in association with a registrant.
According to this aspect of the present invention, since a plurality of types of biometric information are registered for each user, it is possible to cope with changes in biometric authentication methods.
In addition, what applied the component, expression, or arbitrary combination of the component of this invention to a system, an apparatus, a system, a computer program, a recording medium, a data structure, etc. is also effective as an aspect of this invention.
According to one aspect of the present invention, a registrant that supports the high-speed authentication method and a registrant that does not support the high-speed authentication method are registered separately in advance, and the biometric information of the user is Users who are judged to be compatible with the high-speed authentication method after quality judgment are authenticated using the high-speed authentication method, and users who are determined not to support the high-speed authentication method are distinguished in advance. Since only registered registrants that do not support the high-speed authentication method are authenticated using the high-response rate authentication method, high-speed, including cases where the user cannot support the high-speed authentication method. There is an effect that biometric authentication with a high correspondence rate can be realized.
In addition, according to one aspect of the present invention, although the high-speed authentication method is supported, a user who is determined that the high-speed authentication method alone cannot authenticate with sufficient accuracy is used. Since authentication is performed by combining authentication methods, the accuracy of authentication can be improved.
Also, according to one aspect of the present invention, when authentication is performed by combining a high-speed authentication method and a high correspondence rate authentication method, after narrowing down candidates by authentication using the high-speed authentication method, the candidates are targeted. Since the authentication by the high correspondence rate authentication method is executed, it is possible to improve the accuracy of the authentication and prevent the processing speed from being lowered.
Further, according to one aspect of the present invention, since the threshold value of the degree of coincidence used for authentication is changed according to the quality of the biological information acquired from the user, the authentication accuracy and the recognition rate are optimized. There is an effect that can be done.
In addition, according to one aspect of the present invention, since a plurality of pieces of biological information are registered in association with the environment for each user, the accuracy is obtained regardless of changes in the environment for acquiring the biological information from the user. There is an effect that biometric authentication can be performed well.
Moreover, according to one aspect of the present invention, since a plurality of types of biometric information are registered for each user, there is an effect that it is possible to cope with a change in biometric authentication method.
Exemplary embodiments of a biometric authentication device, a biometric authentication program, and a combined biometric authentication method according to the present invention will be described below in detail with reference to the accompanying drawings.
First, an outline of the composite biometric authentication method according to the present embodiment will be described. The composite biometric authentication method according to the present embodiment includes a biometric authentication method (hereinafter referred to as “high-speed authentication method”) capable of executing authentication processing at high speed, and a biometric authentication method (hereinafter referred to as “high-speed authentication method”). , “High response rate authentication method”) is performed in combination.
The high-speed authentication method is, for example, a fingerprint authentication method. The fingerprint authentication method can perform authentication processing at high speed by digitizing and comparing the feature values of fingerprint information, but has a relatively high percentage of people who cannot handle due to fingerprint wear or the like.
The high correspondence rate authentication method is, for example, a vein authentication method. The vein authentication method compares the shape of the veins in the palm of the hand by pattern matching, so that it takes time to execute the authentication process, but can cope with most people. This is because the shape of the vein is information inside the living body and is not affected by wear or the like unlike a fingerprint.
The combined biometric authentication method according to the present embodiment realizes high-speed biometric authentication with a high response rate by combining a high-speed authentication method and a high response rate authentication method. In order to realize this, in the composite biometric authentication method according to the present embodiment, information on a registrant to be verified (hereinafter referred to as “registrant information”) is classified into two groups in advance.
The registrant information here refers to various attribute information of the registrant, biometric information acquired from the registrant in advance for the high-speed authentication method, and biometric information acquired from the registrant in advance for the high correspondence rate authentication method. This is information that is stored in association with information.
The first group is a group of registrants whose biometric information acquired in advance for the high-speed authentication method is high quality, that is, a group of registrants who can perform authentication with sufficient accuracy even with the high-speed authentication method alone. . The second group is a group of registrants whose biometric information acquired in advance for the high-speed authentication method is low quality, typically a group of registrants that cannot be handled by the high-speed authentication method.
If the fingerprint authentication method is adopted as the high-speed authentication method, the unsupported rate in the fingerprint authentication method is several percent. Therefore, the second group has about several percent of registrants, and most of the other The registrant belongs to the first group.
In performing the authentication, the composite biometric authentication method according to the present embodiment first acquires biometric information for the high-speed authentication method from the user, and determines its quality. If it is determined that the quality is sufficiently high, authentication is performed using the high-speed authentication method for the first group.
On the other hand, if it is determined that the quality of the biometric information acquired for the high-speed authentication method is not sufficiently high, the biometric information for the high correspondence rate authentication method is acquired from the user, and the second group is As a target, authentication is performed using a high correspondence rate authentication method.
According to this method, since a user who supports the high-speed authentication method is authenticated using the high-speed authentication method, the user can be authenticated in a short time. In addition, even users who do not support the high-speed authentication method are authenticated by the high response rate authentication method for a small number of registrants grouped in advance, so even if the high response rate authentication method is slow, Authentication can be obtained in a sufficiently short time.
Next, the configuration of the biometric authentication device 100 that executes the composite biometric authentication method according to the present embodiment described above will be described. FIG. 1 is a functional block diagram illustrating the configuration of the biometric authentication apparatus 100 according to the present embodiment. As shown in the figure, the biometric authentication device 100 includes a biometric information input unit 110a, a biometric information input unit 110b, a user interface unit 120, a control unit 130, and a storage unit 140.
The biometric information input unit 110a is a processing unit that acquires biometric information for the high-speed authentication method. For example, when the biometric authentication device 100 employs a fingerprint authentication method as a high-speed authentication method, the biometric information input unit 110a corresponds to a fingerprint sensor.
The biometric information input unit 110b is a processing unit that acquires biometric information for the high correspondence rate authentication method. For example, when the biometric authentication device 100 employs the vein authentication method as the high correspondence rate authentication method, the biometric information input unit 110b corresponds to a vein sensor.
The user interface unit 120 is an interface unit that displays various messages to the user and the administrator of the biometric authentication device 100 and receives inputs such as instructions, and includes a monitor, a keyboard, and the like.
The control unit 130 is a control unit that controls the biometric authentication device 100 as a whole, and includes an authentication control unit 131, a quality determination unit 132, a registration unit 133, an authentication unit 134a, and an authentication unit 134b. The authentication control unit 131 is a control unit that controls each unit in the apparatus in order to execute the composite biometric authentication method according to the present embodiment. A detailed control procedure of the authentication control unit 131 will be described later.
The quality determination unit 132 is a processing unit that determines the quality of the biometric information for the rapid authentication method acquired by the biometric information input unit 110a. Quality here means whether the biometric information is suitable for biometric authentication, and it is determined that the biometric information suitable for biometric authentication has higher quality.
For example, when the biometric authentication device 100 employs the fingerprint authentication method as the high-speed authentication method, the quality determination unit 132 may detect the amount of noise in the fingerprint image acquired by the biometric information input unit 110a, the luminance distribution in pixel units, and the like. And the fingerprint image evaluated as having a clear ridge is determined to have high quality. The method for measuring the quality of biometric information can be changed as appropriate according to the biometric authentication method to be employed.
The quality determination unit 132 outputs a quality value as the evaluation result of the biological information. The quality value is expressed by a numerical value such as 10 to 1 in descending order of quality. Here, a specific example of evaluation by the quality determination unit 132 will be described by taking the case of a fingerprint image as an example.
FIG. 8A illustrates an example of high-quality fingerprint images, and these fingerprint images are determined to have a quality value of 10 to 9, for example. FIG. 8-2 illustrates an example of a normal quality fingerprint image, and the quality value of these fingerprint images is determined to be, for example, 8-6. FIG. 8C illustrates an example of fingerprint images with inferior quality, and these fingerprint images are determined to have a quality value of 5 to 3, for example. And FIG. 8-4 has shown the example of the fingerprint image which cannot respond | correspond with biometrics authentication, and these fingerprint images are determined with the quality value of 2-1 for example.
The registration unit 133 is a processing unit that stores registrant information in the storage unit 140. Based on the quality of the biometric information for the high-speed authentication method included in the registrant information, the registration unit 133 performs registration by distinguishing between registrants that can support the high-speed authentication method and registrants that cannot support it. Here, a procedure for registering registrant information will be described.
When the biometric authentication device 100 is requested to register new registrant information, the authentication control unit 131 first acquires biometric information for the high-speed authentication method from the biometric information input unit 110a. And instructing the biometric information input unit 110b to acquire biometric information for the high correspondence rate authentication method, and acquiring attribute information such as the name of the registrant to the user interface unit 120. To instruct.
Subsequently, the authentication control unit 131 instructs the quality determination unit 132 to determine the quality of the biometric information acquired by the biometric information input unit 110a. And the authentication control part 131 transmits the acquired biometric information and attribute information, and the determination result of the quality determination part 132 to the registration part 133, and instruct | indicates to register as registrant information.
Upon receiving the instruction, the registration unit 133 compares the quality value, which is the determination result of the quality determination unit 132, with a predetermined value. If the comparison result indicates that the registrant can support the high-speed authentication method, the transmission unit The registered information is registered in the registrant information 141a of the storage unit 140, and if the determination result of the quality determination unit 132 indicates that the registrant cannot support the high-speed authentication method, the transmitted information is stored in the storage unit. 140 registered in the registrant information 141b.
The predetermined value here is a reference value for classifying the registrant information into a group that can support the high-speed authentication method and a group that cannot support the high-speed authentication method. An appropriate value is appropriately set according to the determination accuracy and the like.
The registrant information 141a is registrant information holding registrant information that is of high quality and compatible with the high-speed authentication method. As shown in FIG. 2, the registrant information such as the registrant number and name, The biometric information for the high-speed authentication method and its quality value are stored in association with the biometric information for the high correspondence rate authentication method. The biometric information held in the registrant information 141a is the biometric information itself acquired by the biometric information input unit 110a or the biometric information input unit 110b or the result of extracting the feature amount. The registrant information 141b is registrant information that holds registrant information that is low quality and cannot support the high-speed authentication method, and has the same data configuration as the registrant information 141a.
Note that the registrant information 141a and the registrant information 141b do not necessarily need to be physically distinguished, and it is only necessary to be able to easily discriminate between registrants who can handle the high-speed authentication method and registrants who can't. . In addition, it is not necessary to completely divide the registrant information into registrants that can support the high-speed authentication method and registrants that cannot support it. In addition, registrants near the boundary may overlap so that registrants with quality values of 3 to 1 are registrants that cannot support the high-speed authentication method.
In the biometric authentication device 100, the registration unit 133 is not an essential component, and may transfer registrant information registered in another device to the storage unit 140, or may be registered in the other device. The biometric authentication device 100 may access the stored registrant information via a network.
Returning to the description of FIG. 1, the authentication unit 134 a is a processing unit that performs biometric authentication by a high-speed authentication method. The authentication unit 134a performs biometric authentication by collating the biometric information acquired by the biometric information input unit 110a with the biometric information for high-speed authentication of each registrant included in the registrant information 141a. In addition, when performing personal authentication by biometrics authentication, emphasis is placed on accuracy, and registrants whose biometric information match rate is equal to or higher than the threshold and show the highest match rate may be authenticated with the user, and high speed is emphasized. Then, the first registrant whose biometric information matching rate is equal to or greater than the threshold may be authenticated as the principal. The coincidence rate is an example of a criterion for evaluating the degree of coincidence of biometric information, and other values may be used as a criterion for evaluating the degree of coincidence of biometric information.
The authentication unit 134b is a processing unit that performs biometric authentication using the high correspondence rate authentication method. The authentication unit 134b is for high correspondence rate authentication of the biometric information acquired by the biometric information input unit 110b and each registrant included in the registrant information 141b or a part of registrants included in the registrant information 141a. Biometric authentication is performed by collating with biometric information. In addition, when performing personal authentication by biometrics authentication, emphasis is placed on accuracy, and registrants whose biometric information match rate is equal to or higher than the threshold and show the highest match rate may be authenticated with the user, and high speed is emphasized. Then, the first registrant whose biometric information matching rate is equal to or greater than the threshold may be authenticated as the principal.
Next, a processing procedure of the biometric authentication device 100 when performing biometric authentication will be described. FIG. 3 is a flowchart showing a processing procedure of the biometric authentication device 100. In this processing procedure, the authentication control unit 131 first instructs the biometric information input unit 110a to acquire biometric information for the high-speed authentication method (step S101), and determines the quality of the acquired biometric information. The unit 132 makes a determination (step S102).
Then, the authentication control unit 131 compares the quality value obtained as the determination result of the quality determination unit 132 with a predetermined threshold value, and whether the biometric information for the high-speed authentication method acquired in step S101 has sufficient quality. Determine whether or not. The threshold here is a reference value for determining whether or not the quality of the biometric information obtained at the time of the authentication process has sufficient quality suitable for biometric authentication. It may be a value different from a reference value for determining the quality of biometric information at the time of information registration.
If the determined quality value is equal to or greater than the threshold value, that is, if the user is a person who can support the high-speed authentication method (Yes at step S103), the authentication control unit 131 instructs the authentication unit 134a to register. Biometric authentication processing by a high-speed authentication method is executed on the person information 141a (step S104).
On the other hand, if the determined quality value is less than the threshold value, that is, if the user is a person who cannot cope with the high-speed authentication method (No at Step S103), the authentication control unit 131 instructs the biometric information input unit 110b, Biometric information for the high correspondence rate authentication method is acquired (step S105), and the authentication unit 134b is instructed to execute biometric authentication processing by the high correspondence rate authentication method for the registrant information 141b (step S106).
In this processing procedure, a user who supports the high-speed authentication method can be authenticated in a short time because the user is authenticated using the high-speed authentication method. In addition, users who do not support the high-speed authentication method are authenticated by the high response rate authentication method for a small number of registrants grouped in advance, so even if the high response rate authentication method is slow, Authentication can be obtained in a sufficiently short time.
Each threshold mentioned in the description of the above processing procedure can be changed as appropriate according to the accuracy and processing speed required for the authentication processing.
In the above processing procedure, the threshold used for the subsequent authentication processing may be dynamically changed according to the quality evaluation result of the biometric information by the quality determination unit 132. For example, when the quality determination unit 132 determines that the quality of the acquired biometric information for high-speed authentication is high, authentication is performed with high accuracy by increasing the threshold value of the matching rate for identifying the person. Can do. Further, when the quality determination unit 132 determines that the quality of the acquired biometric information for rapid authentication is low, the recognition rate is improved by lowering the threshold value of the matching rate for identifying the person. Can do.
By the way, the configuration of the biometric authentication apparatus 100 according to the present embodiment shown in FIG. 1 can be variously changed without departing from the gist of the present invention. For example, a function equivalent to that of the biometric authentication apparatus 100 can be realized by mounting the function of the control unit 130 of the biometric authentication apparatus 100 as software and executing the function by a computer. Hereinafter, an example of a computer that executes the biometric authentication program 1081 in which the function of the control unit 130 is implemented as software will be described.
FIG. 4 is a functional block diagram showing a computer 1000 that executes the biometric authentication program 1081. The computer 1000 includes a CPU (Central Processing Unit) 1010 that executes various arithmetic processes, an input device 1020 that receives input of data from a user, a monitor 1030 that displays various information, and a medium that reads a program from a recording medium. A reader 1040, a network interface device 1050 that exchanges data with other computers via a network, a biometric information input device 1060a that acquires biometric information for a high-speed authentication method, and a high correspondence rate authentication method For example, a biometric information input device 1060b for acquiring biometric information, a RAM (Random Access Memory) 1070 for temporarily storing various information, and a hard disk device 1080 are connected by a bus 1090.
The hard disk device 1080 includes a biometric authentication program 1081 having the same function as that of the control unit 130 shown in FIG. 1 and biometric authentication data 1082 corresponding to various data stored in the storage unit 140 shown in FIG. Is memorized. The biometric authentication data 1082 can be appropriately distributed and stored in another computer connected via a network.
Then, when the CPU 1010 reads the biometric authentication program 1081 from the hard disk device 1080 and develops it in the RAM 1070, the biometric authentication program 1081 functions as the biometric authentication process 1071. Then, the biometric authentication process 1071 expands information read from the biometric authentication data 1082 and the like in an area allocated to itself on the RAM 1070 as appropriate, and executes various data processing based on the expanded data and the like.
Note that the biometric authentication program 1081 is not necessarily stored in the hard disk device 1080, and the computer 1000 may read and execute the program stored in a storage medium such as a CD-ROM. . The computer 1000 stores the program in another computer (or server) connected to the computer 1000 via a public line, the Internet, a LAN (Local Area Network), a WAN (Wide Area Network), or the like. You may make it read and run a program from these.
As described above, in the first embodiment, registrant information of a person who cannot support the high-speed authentication method is stored so as to be distinguishable from other registrants, and the acquired high-speed authentication is performed at the time of authentication execution. If the quality of the biometric information is evaluated and it is determined that the person is not compatible with the high-speed authentication method, only the registrant information of the person who cannot support the high-speed authentication method will be authenticated using the high response rate authentication method. As a result, it is possible to realize complex biometric authentication with high speed and high response rate.
In the first embodiment, an example is shown in which registrant information is classified into two groups based on the quality of biometric authentication information for a high-speed authentication method acquired in advance. An example in which the registrant information is further subdivided to improve the above will be described.
FIG. 5 is a diagram for explaining classification of registrant information in the present embodiment. As shown in the figure, in the present embodiment, the registrant information has first the quality value of biometric authentication information (hereinafter referred to as “acquired authentication information”) for the high-speed authentication method acquired in advance. Are grouped into a group 20 higher than the predetermined value T1 and a group 30 whose acquired authentication information quality value is lower than the first predetermined value T1.
Here, the first predetermined value T1 is a reference value for determining whether or not the quality of the acquired authentication information is applicable to authentication by the high-speed authentication method. Therefore, the registrant corresponding to the registrant information classified into the group 20 can be regarded as a registrant to which the authentication by the fast authentication method can be applied, and the registration corresponding to the registrant information classified into the group 30 is registered. The user can be regarded as a registrant who cannot apply the authentication by the high-speed authentication method.
The registrant information classified into the group 20 includes the group 21 in which the quality value of the acquired authentication information is higher than the second predetermined value T2, and the quality value of the acquired authentication information is higher than the second predetermined value T2. It is further classified into a low group 22.
Here, the second predetermined value T2 is a reference value for determining whether or not the quality of the acquired authentication information is at a level that can be sufficiently accurately obtained by authentication using only the high-speed authentication method. Therefore, the registrant corresponding to the registrant information classified into the group 21 can be regarded as a registrant who can be authenticated with sufficient accuracy by the authentication using only the high-speed authentication method. A registrant corresponding to the above can be regarded as a registrant who can apply authentication by the high-speed authentication method but cannot obtain sufficient authentication accuracy only by the authentication by the high-speed authentication method.
In the composite biometric authentication method according to the present embodiment, the authentication accuracy is improved by executing a combination of the authentication by the high-speed authentication method and the authentication by the high-corresponding authentication method for the registrant corresponding to the group 22.
Next, the configuration of the biometric authentication apparatus 200 that executes the composite biometric authentication method according to the present embodiment will be described. FIG. 6 is a functional block diagram illustrating the configuration of the biometric authentication apparatus 200 according to the present embodiment. As shown in the figure, in the biometric authentication device 200, the authentication control unit 131 and the registration unit 133 are replaced with the authentication control unit 231 and the registration unit 233, respectively, and the registrant information stored in the storage unit 140 is the registrant. Except for being classified into three groups of information 241a, registrant information 241b, and registrant information 241c, the biometric authentication apparatus 100 has the same configuration as the biometric authentication apparatus 100 shown in FIG. Only the differences will be described.
The authentication control unit 231 is a control unit that controls each unit in the apparatus in order to execute the composite biometric authentication method according to the present embodiment. A detailed control procedure of the authentication control unit 231 will be described later.
The registration unit 233 is a processing unit that stores registrant information in the storage unit 140. The registration unit 233 performs registration by classifying the registrant information into three groups as shown in FIG. 5 based on the quality of the biometric information for the high-speed authentication method included in the registrant information. Here, a procedure for registering registrant information will be described.
When the biometric authentication device 200 is requested to register new registrant information, the authentication control unit 231 first acquires biometric information for the high-speed authentication method from the biometric information input unit 110a. And instructing the biometric information input unit 110b to acquire biometric information for the high correspondence rate authentication method, and acquiring attribute information such as the name of the registrant to the user interface unit 120. To instruct.
Subsequently, the authentication control unit 231 instructs the quality determination unit 132 to determine the quality of the biometric information acquired by the biometric information input unit 110a. And the authentication control part 231 transmits the acquired biometric information and attribute information, and the determination result of the quality determination part 132 to the registration part 233, and instruct | indicates to register as registrant information.
Upon receiving the instruction, the registration unit 233 compares the quality value, which is the determination result of the quality determination unit 132, with the first predetermined value T1, and when the quality value is less than the first predetermined value T1, that is, the registration If the authentication by the high-speed authentication method is not applied to the person, the transmitted information is registered in the registrant information 241c of the storage unit 140.
In addition, when the quality value is equal to or higher than the first predetermined value T1 and equal to or higher than the second predetermined value T2, that is, the registrant who can authenticate with sufficient accuracy only by the authentication by the high-speed authentication method. If it is, the transmitted information is registered in the registrant information 241a of the storage unit 140. In addition, when the quality value is equal to or higher than the first predetermined value T1 but lower than the second predetermined value T2, that is, authentication by the high-speed authentication method can be applied to the registrant. If authentication cannot be performed with sufficient accuracy, only the transmitted information is registered in the registrant information 241b of the storage unit 140.
The registrant information 241a is registrant information that holds registrant information that is of high quality and can be authenticated with sufficient accuracy only by the high-speed authentication method, and corresponds to the group 21 in FIG. The registrant information 241b is registrant information that holds registrant information that is of medium quality and can be authenticated by the high-speed authentication method, but cannot be authenticated with sufficient accuracy only by the authentication by the high-speed authentication method. 5 corresponds to group 22 in FIG. The registrant information 241c is registrant information that holds registrant information that is of low quality and cannot be authenticated by the high-speed authentication method, and corresponds to the group 30 in FIG.
Also, the registrant information 241a and the registrant information 241b are configured to be accessible as registrant information 241x that is registrant information that is a combination of the two, and this registrant information 241x corresponds to the group 20 in FIG.
Note that the registrant information 241a to 241c does not necessarily need to be physically distinguished as long as the registrant can easily determine which of the three groups shown in FIG. Further, the registrant information does not need to be completely classified into each group, the registrant with the quality value of 10 to 7 is group 21, the registrant with the quality value of 7 to 3 is group 22, and the quality value is 3 The registrants near the boundary may overlap so that ˜1 registrants are group 30.
In biometric authentication device 200, registration unit 233 is not an essential component, and may transfer registrant information registered in another device to storage unit 140, or may be registered in another device. The biometric authentication device 200 may access the stored registrant information via a network.
Next, a processing procedure of the biometric authentication device 200 when performing biometric authentication will be described. FIG. 7 is a flowchart showing a processing procedure of the biometric authentication device 200. In this processing procedure, the authentication control unit 231 first instructs the biometric information input unit 110a to acquire biometric information for the high-speed authentication method (step S201), and determines the quality of the acquired biometric information. The unit 132 makes a determination (step S202).
If the determined quality value is greater than or equal to the first threshold and greater than or equal to the second threshold (Yes at Step S203 and Yes at Step S204), the authentication control unit 231 instructs the authentication unit 134a to set the quality value to the second value. The biometric authentication process by the high-speed authentication method is executed on the registrant information equal to or greater than the predetermined value T2, that is, the registrant information 241a (step S205).
Here, the first threshold value is a reference value corresponding to the first predetermined value T1, and the second threshold value is a reference value corresponding to the second predetermined value T2. Therefore, if the determined quality value is greater than or equal to the first threshold and greater than or equal to the second threshold, it is possible to apply authentication using the high-speed authentication method to the user, and only authentication using the high-speed authentication method. It shows that sufficient authentication accuracy can be obtained. Note that the first threshold value and the second threshold value may be values having a certain width in consideration of variations in quality values caused by differences in various conditions when reading biometric information.
On the other hand, if the determined quality value is greater than or equal to the first threshold value and less than the second threshold value, that is, the user is a person who can support the high-speed authentication method, the high-speed authentication method alone performs authentication with sufficient accuracy. If it cannot be performed (Yes at Step S203 and No at Step S204), the authentication control unit 231 instructs the authentication unit 134a to register information whose quality value is equal to or higher than the first predetermined value T1, that is, registrant information. Biometric authentication processing by the high-speed authentication method is executed on the registrant information 241x including 241a and registrant information 241b, and registrants with higher matching rates are extracted (step S206).
Then, the biometric information input unit 110b is instructed to acquire biometric information for the high correspondence rate authentication method (step S207), and the authentication unit 134b is instructed to be extracted from the registrant information 241x in step S206. The biometric authentication process by the high correspondence rate authentication method is executed on the information corresponding to the registered user (step S208).
In the above processing procedure, biometric authentication processing by the high-speed authentication method is executed on the registrant information 241x including the registrant information 241a and the registrant information 241b, and after the registrant with the highest matching rate is extracted, The biometric authentication process by the correspondence rate authentication method is executed. However, after the biometric authentication process by the high-speed authentication method is executed for the registrant information 241x including the registrant information 241a and the registrant information 241b, the registrant information 241b is executed. Alternatively, biometric authentication processing by a high correspondence rate authentication method may be executed.
If the determined quality value is less than the second threshold, that is, if the user is a person who cannot support the high-speed authentication method (No at Step S203), the authentication control unit 231 instructs the biometric information input unit 110b. The biometric information for the high correspondence rate authentication method is acquired (step S209), and the authentication unit 134b is instructed to execute biometric authentication processing by the high correspondence rate authentication method for the registrant information 241c (step S209). S210).
This second processing procedure corresponds to a high-speed authentication method, and a user who has acquired sufficiently high quality biometric information in the biometric information input unit 110a is authenticated at high speed and with high accuracy using the high-speed authentication method. Is done.
In addition, a user who is compatible with the high-speed authentication method but has not acquired sufficiently high-quality biometric information in the biometric information input unit 110a can be accurately authenticated by combining the high-speed authentication method and the high correspondence rate authentication method. Is done. In this case, authentication by the high response rate authentication method is performed for registrants narrowed down by the high-speed authentication method, so even if the high response rate authentication method is slow, authentication can be performed in a sufficiently short time. it can.
In addition, users who do not support the high-speed authentication method are authenticated by the high response rate authentication method for a small number of registrants grouped in advance, so even if the high response rate authentication method is slow, Authentication can be obtained in a sufficiently short time.
In the above processing procedure, when the quality value is equal to or higher than the first threshold value and equal to or higher than the second threshold value, biometric authentication processing by the high-speed authentication method is executed only for the registrant information 241a. When the number of information is small or when the authentication process of the adopted high-speed authentication method is sufficiently fast, the biometrics by the high-speed authentication method is applied to the registrant information 241x including the registrant information 241a and the registrant information 241b. Authentication processing may be executed. In this case, although the time required for the authentication process becomes long, there is no possibility of an accident in which the person's information is excluded from the registrant information to be authenticated, and a reduction in the person rejection rate is expected.
By the way, the configuration of the biometric authentication device 200 according to the present embodiment shown in FIG. 6 can be variously changed without departing from the gist of the present invention. For example, a function equivalent to that of the biometric authentication apparatus 200 can be realized by mounting the function of the control unit 130 of the biometric authentication apparatus 200 as software and executing the function by a computer. The configuration of a computer that executes a biometric authentication program in which the function of the control unit 130 is implemented as software is the same as that shown in FIG.
As described above, in the second embodiment, the high-speed authentication method is supported. However, a user who is determined that the high-speed authentication method alone cannot be authenticated with sufficient accuracy is the user authentication of the high-speed authentication method and the high response rate. Since authentication is performed by combining authentication methods, the accuracy of authentication can be improved.
In each of the above embodiments, biometric information for high-speed authentication method authentication and biometric information for high-correspondence authentication method authentication are individually acquired. However, it is necessary to acquire biometric information. In order to reduce the burden on the user and reduce the time required for the authentication process, it is possible to simultaneously acquire biometric information for authentication of the high-speed authentication method and biometric information for authentication of the high correspondence rate authentication method Information input means may be used.
In addition, in order to cope with changes in biometric information due to differences in the types of biometric information input means and environments in which biometric information is acquired (for example, brightness, season, posture taken by the user, etc.) A plurality of biometric information of the same type may be registered every time.
In addition, in order to support each authentication method, it is possible to switch between an authentication method adopted as a high-speed authentication method and an authentication method adopted as a high-correspondence authentication method according to differences in the environment in which biometric information is acquired. Moreover, you may enable it to register many types of biometric information for every registrant.
In each of the above embodiments, fingerprint authentication is employed as a high-speed authentication method and vein authentication is employed as a high correspondence rate authentication method. However, for example, iris authentication is employed as a high-speed authentication method. Also good. Further, as the high correspondence rate authentication method, for example, face authentication or signature authentication may be adopted. Further, fingerprint authentication may be adopted as the high-speed authentication method, and iris authentication may be adopted as the high correspondence rate authentication method.
(Supplementary note 1) A biometric authentication device for authenticating a user using biometric information,
First biological information input means for inputting first biological information;
Second biological information input means for inputting second biological information;
Quality judging means for judging the quality of the first biological information;
The first biometric information and the second biometric information are associated with each registrant, and the first registrant group in which the quality of the first biometric information is equal to or higher than a predetermined value; Storage means for storing registrant information for distinguishably holding a second registrant group whose quality of biometric information is less than a predetermined value;
A first authentication means for authenticating whether or not the user is one of the registrants by collating the first biometric information of the user with the registrant information;
A second authentication means for authenticating whether or not the user is one of the registrants by collating the second biometric information of the user with the registrant information;
The group of the first registrants when the quality of the first biometric information of the user acquired by the first biometric information input means is determined to be greater than or equal to a predetermined value by the quality determination means. Authentication by the first authenticating unit is performed on the registrant information corresponding to the user ID, and the quality of the first biometric information of the user acquired by the first biometric information input unit is the quality determination. Authentication control means for performing authentication by the second authentication means with the registrant information corresponding to the second registrant group as a verification target when it is determined by the means to be less than the predetermined value. A biometric authentication device.
(Supplementary Note 2) A biometric authentication device that authenticates a user using biometric information,
The first biometric information and the second biometric information are associated with each registrant, and the first registrant group whose quality of the first biometric information is equal to or higher than a first predetermined value; Storage means for storing registrant information that can be distinguished from a group of second registrants whose quality of the first biometric information is less than the first predetermined value;
The quality of the first biometric information of the user acquired by the first biometric information input means is greater than or equal to the first predetermined value and less than a second predetermined value by the quality determination means. Authentication control means for performing authentication by the first authentication means and authentication by the second authentication means with the registrant information corresponding to the group of the first registrant as a verification target. A biometric authentication device characterized by comprising.
(Supplementary Note 3) The authentication control means has a quality of the first biometric information of the user acquired by the first biometric information input means equal to or higher than the first predetermined value by the quality judgment means, And when it determines with it being less than a 2nd predetermined value, the said registrant information corresponding to the said 1st registrant's group is made into an object of collation, authentication by the said 1st authentication means is performed, and a coincidence degree is The biometric authentication device according to appendix 2, wherein more than a predetermined number of registrants are extracted, and authentication is performed by the second authentication unit with the registrant information corresponding to the extracted registrants as a verification target.
(Additional remark 4) The said authentication control means is a case where multiple candidates arise as a result of authenticating by the said 1st authentication means according to the quality of the said 1st biometric information being more than the said predetermined value. The biometric authentication apparatus according to appendix 1 or 2, wherein authentication is performed with a candidate having a maximum matching degree equal to or greater than a predetermined threshold as the user.
(Additional remark 5) The said authentication control means is a case where multiple candidates arise as a result of authenticating by the said 2nd authentication means according to the quality of the said 1st biometric information being less than the said predetermined value. The biometric authentication apparatus according to appendix 1 or 2, wherein authentication is performed with a candidate having a maximum matching degree equal to or greater than a predetermined threshold as the user.
(Additional remark 6) The said authentication control means is the said registrant corresponding to the said extracted registrant according to the quality of the said 1st biometric information being more than the said predetermined value and less than the said 2nd predetermined value. When a plurality of candidates are generated as a result of performing authentication by the second authentication unit using information as a verification target, use the candidate having the maximum matching degree and a predetermined threshold value or more in the authentication by the second authentication unit. The biometric authentication device according to appendix 2, wherein authentication is performed as an authorized person.
(Additional remark 7) The said authentication control means is used for the said 1st biometric information and the said registrant information which the said 1st authentication means uses for authenticating according to the result of the said quality determination means. The biometric authentication device according to appendix 1 or 2, wherein the threshold value of the degree of coincidence with the first biometric information included is changed.
(Additional remark 8) The said registrant information matches the said 1st biometric information and said 2nd biometric information with the change of an environment, and hold | maintains two or more for every registrant. Biometric authentication device.
(Supplementary note 9) The biometric authentication device according to Supplementary note 1 or 2, wherein the registrant information holds a plurality of types of collation information in association with a registrant.
(Supplementary note 10) The biometric authentication device according to any one of supplementary notes 1 to 8, wherein the first biometric information is fingerprint information.
(Supplementary note 11) The biometric authentication device according to any one of supplementary notes 1 to 8, wherein the first biometric information is iris information.
(Supplementary note 12) The biometric authentication device according to any one of supplementary notes 1 to 8, wherein the second biometric information is vein information.
(Supplementary note 13) The biometric authentication device according to any one of supplementary notes 1 to 8, wherein the second biometric information is face information.
(Supplementary note 14) The biometric authentication device according to any one of supplementary notes 1 to 8, wherein the second biometric information is signature information.
(Supplementary note 15) A biometric authentication program for authenticating a user using biometric information,
A first biometric information input procedure for inputting first biometric information;
A second biological information input procedure for inputting second biological information;
A quality determination procedure for determining the quality of the first biological information;
The first biometric information and the second biometric information are associated with each registrant, and the first registrant group in which the quality of the first biometric information is equal to or higher than a predetermined value; By comparing the registrant information that can distinguish the second registrant group whose quality of the biometric information is less than a predetermined value with the first biometric information of the user, the user can register the registration information. A first authentication procedure for authenticating whether or not the user is one of
A second authentication procedure for authenticating whether or not the user is one of the registrants by collating the second biometric information of the user with the registrant information;
The group of the first registrants when the quality of the first biometric information of the user acquired by the first biometric information input procedure is determined to be a predetermined value or more by the quality determination procedure. The registrant information corresponding to is authenticated by the first authentication procedure, and the quality of the first biometric information of the user acquired by the first biometric information input procedure is the quality determination. An authentication control procedure for performing authentication according to the second authentication procedure using the registrant information corresponding to the second registrant group as a verification target when the procedure determines that the value is less than the predetermined value; A biometric authentication program that is executed by a computer.
(Supplementary Note 16) First biological information input means for inputting first biological information;
Used in a biometric authentication device comprising: second authentication means for authenticating whether or not the user is one of the registrants by collating the second biometric information of the user with the registrant information. A biometric authentication method for performing biometric authentication of a person,
Determining the quality of the first biological information of the user acquired by the first biological information input means in the quality determination means;
When the quality determination means determines that the quality of the first biometric information of the user is equal to or higher than a predetermined value, the registrant information corresponding to the group of the first registrant is used as a verification target. A step of performing authentication by the first authentication means;
When the quality determination unit determines that the quality of the first biometric information of the user is less than the predetermined value, the registrant information corresponding to the second registrant group is used as a verification target. And a step of performing authentication by the second authentication means.
(Supplementary Note 17) A biometric authentication program for authenticating a user using biometric information,
The first biometric information and the second biometric information are associated with each registrant, and the first registrant group in which the quality of the first biometric information is equal to or higher than a predetermined value; By comparing the registrant information that can distinguish the second registrant group whose quality of the biometric information is less than a predetermined value with the first biometric information of the user, the user A first authentication procedure for authenticating whether or not one of the registrants;
The quality of the first biometric information of the user acquired by the first biometric information input procedure is not less than the first predetermined value and less than the second predetermined value by the quality determination procedure. An authentication control procedure for performing authentication by the first authentication procedure and authentication by the second authentication procedure with the registrant information corresponding to the group of the first registrant as a verification target. A biometric authentication program that is executed by a computer.
(Supplementary Note 18) First biological information input means for inputting first biological information;
A biometric authentication device comprising: a second authentication unit configured to authenticate whether or not the user is one of the registrants by collating the second biometric information of the user with the registrant information. A composite biometric authentication method for performing biometric authentication of a user,
The quality of the first biometric information of the user acquired by the first biometric information input means is greater than or equal to the first predetermined value and less than a second predetermined value by the quality determination means. And a step of performing authentication by the first authentication means and authentication by the second authentication means with the registrant information corresponding to the group of the first registrants as a verification target. A combined biometric authentication method.
As described above, the biometric authentication device, the biometric authentication program, and the composite biometric authentication method according to the present invention are useful when authenticating a user using biometric information, and in particular, a high-speed and high-correspondence biometric. Suitable when authentication is required.
1 is a functional block diagram illustrating a configuration of a biometric authentication apparatus according to a first embodiment. It is a figure which shows an example of a data structure of registrant information. 3 is a flowchart illustrating a processing procedure of the biometric authentication apparatus according to the first embodiment. It is a functional block diagram which shows the computer which performs a biometrics authentication program. It is a figure for demonstrating the classification of registrant information in Example 2. FIG. It is a functional block diagram which shows the structure of the biometrics apparatus which concerns on Example 2. FIG. 10 is a flowchart illustrating a processing procedure of the biometric authentication apparatus according to the second embodiment. It is a figure which shows the example of a high quality fingerprint image. It is a figure which shows the example of the fingerprint image of normal quality. It is a figure which shows the example of the fingerprint image inferior in quality. It is a figure which shows the example of the fingerprint image which cannot respond | correspond with biometric authentication.
T1 1st predetermined value T2 2nd predetermined value 20, 21, 22, 30 group 100 biometric authentication apparatus 110a, 110b biometric information input part 120 user interface part 130 control part 131 authentication control part 132 quality judgment part 133 registration part 134a , 134b Authentication unit 140 Storage unit 141a, 141b Registrant information 200 Biometric authentication device 231 Authentication control unit 233 Registration unit 241a, 241b, 241c Registrant information 1000 Computer 1010 CPU
1020 Input device 1030 Monitor 1040 Medium reader 1050 Network interface device 1060a, 1060b Biological information input device 1070 RAM
1071 Biometric authentication process 1080 Hard disk device 1081 Biometric authentication program 1082 Biometric authentication data 1090 Bus
A biometric authentication device that authenticates a user using biometric information,
When the quality of the first biometric information of the user acquired by the first biometric information input means is determined to be greater than or equal to the predetermined value by the quality determination means, the first registrant's The first authentication is performed for a registrant who has a degree of coincidence with the first biometric information of the user by a predetermined threshold by performing a comparison with the first biometric information of each registrant included in the group. means to authenticate, when the quality of the first biometric information of the user acquired by the first biometric information input unit is determined to be smaller than the predetermined value by said quality judgment means, said first A registrant having a degree of coincidence with a second threshold value of the user's second biometric information by executing collation with the second biometric information of each registrant included in the group of two registrants. Let the second authentication means authenticate Biometric authentication device characterized by comprising an authentication control unit.
In the authentication control means, the quality of the first biometric information of the user acquired by the first biometric information input means is equal to or higher than the first predetermined value by the quality judgment means, and second When it is determined that the value is less than the predetermined value, authentication by the first authentication unit and authentication by the second authentication unit are performed on the registrant information corresponding to the first registrant group. Okona TURMERIC a biometric authentication apparatus according to claim 1, wherein the.
In the authentication control means, the quality of the first biometric information of the user acquired by the first biometric information input means is equal to or higher than the first predetermined value by the quality judgment means, and second When it is determined that the registration value is less than a predetermined value, the first authentication unit performs authentication using the registrant information corresponding to the first registrant's group as a verification target, and the degree of coincidence is a predetermined value or more. 3. The biometric authentication apparatus according to claim 2, wherein a person is extracted, and authentication is performed by the second authentication unit with the registrant information corresponding to the extracted registrant as a verification target.
The authentication control means uses the first authentication means included in the first biometric information of the user and the first registrant information for the first authentication means to perform authentication according to the result of the quality determination means. The biometric authentication apparatus according to claim 1, wherein the threshold value of the degree of coincidence with the biometric information is changed.
The biometric authentication according to claim 1 or 2, wherein the registrant information holds a plurality of the first biometric information and the second biometric information for each registrant in association with a change in environment. apparatus.
The biometric authentication device according to claim 1 or 2, wherein the registrant information holds a plurality of types of collation information in association with registrants.
A biometric authentication program that uses biometric information to authenticate users,
When the quality of the first biometric information of the user acquired by the first biometric information input procedure is determined to be greater than or equal to the predetermined value by the quality determination procedure, the first registrant's The first authentication is performed for a registrant who has a degree of coincidence with the first biometric information of the user by a predetermined threshold by performing a comparison with the first biometric information of each registrant included in the group. If the quality of the first biometric information of the user acquired by the first biometric information input procedure is determined to be less than the predetermined value by the quality determination procedure, the procedure is authenticated . A registrant having a degree of coincidence with a second threshold value of the user's second biometric information by executing collation with the second biometric information of each registrant included in the group of two registrants. Let the second authentication procedure authenticate Biometric authentication program, characterized in that to execute the authentication control procedure in the computer.
In the authentication control procedure, the quality of the first biometric information of the user acquired by the first biometric information input procedure is equal to or higher than the first predetermined value by the quality determination procedure, and the second When it is determined that the value is less than the predetermined value, authentication by the first authentication procedure and authentication by the second authentication procedure are performed on the registrant information corresponding to the group of the first registrant. Okona TURMERIC a biometric authentication program according to claim 7, characterized in.
A biometric authentication device comprising: a second authentication unit configured to authenticate whether the user is one of the registrants by collating the second biometric information of the user with the registrant information; A composite biometric authentication method for performing biometric authentication of a user,
The first biometric information of each registrant included in the first registrant's group when the quality judging means judges that the quality of the first biometric information of the user is equal to or higher than a predetermined value. The first authenticating means authenticating a registrant having a degree of coincidence equal to or higher than a predetermined threshold with the first biometric information of the user by executing a collation with
When the quality determination unit determines that the quality of the first biometric information of the user is less than the predetermined value , the second biometric of each registrant included in the second registrant group. And a step of authenticating a registrant who has a degree of coincidence with information equal to or greater than a predetermined threshold in the second authenticating means .
The quality of the first biometric information of the user acquired by the first biometric information input means is greater than or equal to the first predetermined value and less than a second predetermined value by the quality determination means. If it is determined, the method further includes a step of performing authentication by the first authentication unit and authentication by the second authentication unit with respect to the registrant information corresponding to the group of the first registrant. The composite biometric authentication method according to claim 9 .
JP2007053150A 2007-03-02 2007-03-02 Biometric authentication device, biometric authentication program, and combined biometric authentication method Expired - Fee Related JP5012092B2 (en)
JP2007053150A JP5012092B2 (en) 2007-03-02 2007-03-02 Biometric authentication device, biometric authentication program, and combined biometric authentication method
EP08101973A EP1965331A3 (en) 2007-03-02 2008-02-26 Biometric authentication method and biometric authentication apparatus
EP11155061.2A EP2339498B1 (en) 2007-03-02 2008-02-26 Biometric authentication method and biometric authentication apparatus
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CN2008100815613A CN101256628B (en) 2007-03-02 2008-02-29 Biometric authentication method and biometric authentication apparatus
US12/041,193 US8797140B2 (en) 2007-03-02 2008-03-03 Biometric authentication method and biometric authentication apparatus
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2007-03-02 JP JP2007053150A patent/JP5012092B2/en not_active Expired - Fee Related
2008-02-26 EP EP08101973A patent/EP1965331A3/en not_active Withdrawn
2008-02-26 EP EP11155061.2A patent/EP2339498B1/en active Active
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EP2339498B1 (en) 2013-12-18
CN101256628A (en) 2008-09-03
EP1965331A2 (en) 2008-09-03
EP2339498A1 (en) 2011-06-29
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US20080211627A1 (en) 2008-09-04
US8797140B2 (en) 2014-08-05
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