JP2010113433A - Biometric authentication system, biometric authentication device, and information recording device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a biometric authentication system, a biometric authentication device, and an information recording device for properly performing biometric authentication while maintaining user friendliness. <P>SOLUTION: The biometric authentication system includes the biometric authentication device and the information recording device. The information recording device reads out parameters on operation conditions of a biometric information sensor from a storage means which stores the parameters and feature patterns of biometric information, and transmits the read parameters to the biometric authentication device by a second communication means. The biometric authentication device receives the parameters transmitted from the information recording device by a first communication means, sets the operation conditions of the biometric information sensor using the received parameters, acquires the biometric information by the biometric information sensor, and transmits the feature patterns extracted from the acquired biometric information to the information recording device by the first communication means. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a biometric authentication system, a biometric authentication apparatus, and an information recording apparatus that perform identity verification by biometric authentication.

  Conventionally, when performing financial transactions or entering / leaving management using information devices such as computers, identity verification methods such as personal identification numbers and passwords, and only personal information such as cards are used. It was common to check using things that could be held. However, passwords, passwords, cards, and the like have the disadvantage of being easily spoofed if they are stolen by others. Therefore, in recent years, biometric authentication using biometric information that is difficult for other people to steal, such as fingerprints, irises, and finger veins, and is different for each individual, has attracted attention. For example, in personal authentication based on fingerprints, fingerprints are read by bringing the fingerprints into contact with the fingerprint sensor, feature patterns such as fingerprint endpoints and branch points are extracted, and collated with the already registered fingerprint feature patterns. Confirm whether or not you are the person.

  An apparatus for acquiring biometric information includes a biosensor for obtaining biometric features such as fingerprints, finger veins, irises, and voices. In Patent Document 1, in order to acquire biometric information from a biometric sensor in a form suitable for biometric authentication, biometric information acquired from a finger or palm by installing and positioning a guide for placing a finger on the biometric sensor. It has been disclosed to reduce the variation of.

JP 2008-140247 A

  In order to acquire biometric information in a form suitable for biometric authentication, it is necessary not only to position a living body such as a finger but also to appropriately set the operating conditions of the biometric sensor. Here, the operating conditions include shutter speed and squeezing and light application for a sensor that captures biological information, and microphone gain for a sensor that captures sound. For example, taking the shutter speed as an example, it is considered that the brightness of the acquired image is excessively bright if the shutter speed is too slow, and the brightness of the image is excessively dark if the shutter speed is too fast. As a parameter for such operating conditions, a predetermined value is set based on an experimental result at the time of shipment of the biometric authentication device.

  However, the surrounding environment when a user uses biometric authentication is not always the same. For example, the brightness of illumination and outside light varies depending on the location, and the temperature and humidity vary depending on the time zone used and the season. Therefore, parameters suitable for biometric information acquisition may differ depending on the surrounding environment. In particular, when the biometric authentication device is portable, it is considered that there is a high possibility that the tendency will be prominent because it is used in various places.

  Moreover, parameters suitable for biometric information acquisition may differ due to different biometric features for each user. Furthermore, this biological characteristic changes under the influence of temperature and physical condition. For example, when the temperature is relatively high, sweating may occur, and the average size of voices may differ between morning and evening.

  As described above, parameters for appropriately acquiring biometric information change due to differences in the surrounding environment, users, and the like. Therefore, even when a predetermined value is set as a parameter, it is necessary to adjust the parameter. is there. However, if parameter adjustment is repeated many times for each biometric authentication, there is a problem that the time required for the biometric authentication becomes long and the usability is poor.

  An object of the present invention is to provide a biometric authentication system, a biometric authentication apparatus, and an information recording apparatus that can appropriately perform biometric authentication while maintaining good usability.

  A biometric authentication system according to the present invention includes a biometric authentication device and an information recording device. The biometric authentication device includes a first communication unit that communicates with the information recording device, and a biometric information sensor that acquires biometric information. The information recording device includes a second communication unit that communicates with the biometric authentication device, and a storage unit that stores a parameter related to an operation condition of the biometric information sensor and a feature pattern of the biometric information. The information recording device reads the parameter from the storage unit, and transmits the read parameter to the biometric authentication device by the second communication unit. Then, the biometric authentication device receives the parameter transmitted from the information recording device by the first communication means, sets an operating condition of the biometric information sensor using the received parameter, and the biometric information Biometric information is acquired by a sensor, and a feature pattern extracted from the acquired biometric information is transmitted to the information recording apparatus by the first communication means.

  According to the present invention, it is possible to provide a biometric authentication system, a biometric authentication apparatus, and an information recording apparatus that can appropriately perform biometric authentication while maintaining good usability.

  FIG. 1 is a diagram illustrating a configuration example of a biometric authentication system. In FIG. 1, 1 is a biometric authentication device, 2 is a personal information recording device, and 9 is a user's biometric. In this example, the biometric sensor parameter indicating the operating condition of the biometric sensor adjusted when biometric information is acquired by the biometric authentication device 1 is recorded in the personal information recording device 2 and recorded at the time of the next authentication process. Use parameters. Thereby, it is possible to suppress the number of repetitions of parameter adjustment of the biosensor and biometric information acquisition.

  The biometric authentication device 1 acquires biometric information from the user's biometric 9. This device may be a dedicated device for acquiring biometric information, or may have other functions such as entrance / exit management, financial transaction processing, and telephone. Further, it has a function of determining whether or not the biometric information is acquired in a form suitable for personal authentication by examining the luminance of an image obtained by imaging the user's biometric 9 under a certain condition.

  The personal information recording device 2 has a function of storing the feature pattern of the biometric information acquired by the biometric authentication device 1, and a biometric sensor used by the biometric authentication device 1 to acquire biometric information from the user's biometric 9. It has a function of storing various parameters, and performs personal authentication processing using information acquired from the biometric authentication device 1. The personal information recording device 2 may have a function of storing other information such as a personal identification number, or may have other functions such as an encryption processing function and a financial transaction function. As the personal information recording device 2, for example, an IC card, a SIM card, or a mobile phone is used. The personal information recording device 2 may be detachable from the biometric authentication device 1. For example, a case where a mobile phone is used as the biometric authentication device 1 and a SIM card is used as the personal information recording device 2 can be considered.

  The biometric authentication device 1 includes a biometric information sensor 10, a program storage memory 11, an arithmetic processing unit 12, a data storage memory 13, and a communication unit 19, which are connected to each other via a communication bus or the like. Has been.

  The biological information sensor 10 has a function of reading biological information. The biometric information is, for example, a finger vein pattern, a fingerprint pattern, an iris pattern, or the like. The biological information sensor 10 includes an imaging unit 101 and a light source unit 102. The imaging unit 101 acquires an image of biological information from the user's living body 9. A camera or the like is used as the imaging unit 101. Note that the image capturing unit 101 has a function of adjusting part or all of parameters used for image capturing, such as the shutter speed, the degree of aperture, and the focus. The light source unit 102 is configured by an LED or the like, and is used, for example, when the biometric information sensor 10 captures an image with the imaging unit 101 while irradiating light on the living body 9 of the user. The light source unit 102 has a function of adjusting part or all of parameters used for light emission, such as light intensity, frequency, light emitting angle, and the number and type of light emitting elements to emit light.

  The program storage memory 11 stores a control program for the biometric authentication device 1 to perform processing, and includes a semiconductor memory, a hard disk, and the like.

  The arithmetic processing unit 12 controls the entire biometric authentication device 1 and executes a program stored in the program storage memory 11 to perform processing. As the arithmetic processing unit 12, for example, a microprocessor is used.

  The data storage memory 13 is a memory for storing data necessary for the biometric authentication device 1 to perform processing, and includes a semiconductor memory, a hard disk, and the like. The data storage memory 13 is not limited to an individual configuration, and a part or all of the configuration is included in another module such as the biological information sensor 10, the program storage memory 11, or the arithmetic processing unit 12. It may be.

  The communication unit 19 transmits / receives information to / from an external device such as the personal information recording device 2. As the communication unit 19, for example, a module that performs communication conforming to ISO / IEC 7816, which is a communication standard for contact IC cards, and a communication that conforms to ISO / IEC 14443, which is a communication standard for non-contact IC cards. Modules, wired LAN modules, wireless LAN modules, USB modules, etc. are used. Next, the data stored in the data storage memory 13 will be described. The data storage memory 13 stores a biosensor parameter storage table 130 and a luminance range 131. In addition to these data, other data may be stored.

  In the biosensor parameter storage table 130, biosensor parameters relating to operating conditions when the biometric information sensor 10 acquires biometric information, such as the shutter speed of the imaging unit 101 and the brightness of the LED of the light source unit 102, are stored. . The biometric authentication device 1 sets operating conditions of the imaging unit 101 and the light source unit 102 based on these biometric sensor parameters, and acquires biometric information. In the biosensor parameter storage table 130, predetermined biosensor parameters are stored in advance as preset values, but when biosensor parameters are received from the personal information recording device 2, they are rewritten to the values. Note that when a predetermined time elapses after the biological information is acquired using the parameter received from the personal information recording device 2, this parameter may be deleted and returned to the preset value. In the example of FIG. 1, 135, 136, and 137 are stored as biosensor parameters, but the biosensor parameters to be stored are not limited to three.

  The luminance range 131 stores a luminance range that should be satisfied by a part or all of the biological information image captured by the biological information sensor 10. This range may be a range that the average value of the luminance of a part or all of the image should satisfy, or a range that the maximum value or minimum value of the luminance should satisfy. The biometric authentication device 1 determines whether or not biometric information has been acquired in a form suitable for personal authentication by examining the luminance of an image obtained by imaging the user's biometric 9 and comparing the luminance with the luminance range 131.

  In this example, in order to determine whether or not the biometric authentication device 1 has acquired biometric information in a form suitable for personal authentication, the luminance range of the imaged biometric information is used. However, the present invention is not limited to this. Alternatively, the determination may be made based on other conditions such as image focus. Further, a combination of a plurality of conditions may be determined. In this case, necessary information is stored in the data storage memory 13 instead of the luminance range 131 or in addition to the luminance range 131.

  Next, the internal configuration of the personal information recording device 2 will be described. The personal information recording device 2 includes a program storage memory 21, an arithmetic processing unit 22, a data storage memory 23, and a communication unit 29, which are connected to each other via a communication bus or the like.

  The program storage memory 21 stores a control program for the biometric authentication device 1 to perform processing, and includes a semiconductor memory, a hard disk, and the like.

  The arithmetic processing unit 22 controls the entire personal information recording device 2 and executes a program stored in the program storage memory 21 for processing. As the arithmetic processing unit 22, for example, a microprocessor is used.

  The data storage memory 23 stores data necessary for the personal information recording device 2 to perform processing, and includes a semiconductor memory, a hard disk, and the like. The data storage memory 23 is not limited to an individual configuration, and a part or all of the configuration may be included in another module such as the program storage memory 21 or the arithmetic processing unit 22.

  The communication unit 29 transmits and receives information to and from an external device such as the biometric authentication device 1. As the communication unit 29, for example, a module that performs communication conforming to ISO / IEC 7816, which is a communication standard for contact IC cards, and communication that conforms to ISO / IEC 14443, which is a communication standard for contactless IC cards. Modules, wired LAN modules, wireless LAN modules, USB modules, etc. are used.

  Next, data stored in the data storage memory 23 will be described. The data storage memory 23 includes a biometric sensor parameter storage table 230 and a biometric template storage unit 239. In addition to these data, other data may be stored.

  The biometric sensor parameter storage table 230 stores biometric sensor parameters transmitted from the biometric authentication device 1. In the example of FIG. 1, biosensor parameters 235, 236, and 237 are stored, but the biosensor parameters to be stored are not limited to three. Until the biometric sensor parameters are received from the biometric authentication device 1, no parameters may be stored in the biosensor parameter storage table 230, or average parameters may be stored in the biosensor parameter storage table 230. The data may be updated using the biometric sensor parameter transmitted from the biometric authentication device 1.

  The biometric template storage unit 239 stores the feature pattern of the user's biometric information as a biometric template. The arithmetic processing unit 22 compares the biometric template stored in the biometric template storage unit 239 with the feature pattern of the biometric information transmitted from the biometric authentication device 1 and calculates the matching rate or the mismatching rate. Authentication processing is performed using the algorithm of.

  Next, FIG. 2 shows an example of a processing flow of biometric authentication processing executed by the biometric authentication device 1 and the personal information recording device 2. For example, the personal information recording device 2 is placed at a predetermined location of the biometric authentication device 1, the biometric authentication device 1 and the personal information recording device 2 are within a predetermined range, The operation starts when the information recording device 2 is inserted.

  The biometric authentication device 1 and the personal information recording device 2 perform mutual authentication processing (S1000, S1010). If the authentication is successful, the personal information recording device 2 transmits the biometric sensor parameters stored in the biometric sensor parameter storage table 230 to the biometric authentication device 1 (S1020). At this time, if the biosensor parameter is not stored in the biosensor parameter storage table 230, data indicating that fact is transmitted to the biometric authentication device 1.

  When receiving the biometric sensor parameter from the personal information recording device 2, the biometric authentication device 1 stores the acquired biometric sensor parameter in the biometric sensor parameter storage table 130, and sets the biometric information sensor 10 (S1030). For example, the shutter speed of the imaging unit 101, the brightness of the LED of the light source unit 102, and the like are set.

  When the biometric authentication device 1 acquires the biometric information from the biometric information sensor 10 (S1040), the average luminance or the maximum or minimum value of the luminance of some or all of the captured biometric information is included in the luminance range 131. It is determined whether or not (S1050). Thereby, it is determined whether the acquired biometric information is suitable for biometric authentication. Note that, as described above, the determination may be performed using a condition other than luminance or a combination of a plurality of conditions.

  When the luminance of the pixel of the biometric information imaged in S1050 is not within the luminance range 131, the biometric authentication device 1 adjusts the biometric sensor parameter in the biometric sensor parameter storage table 130 and sets the operating condition of the biometric information sensor 10 to Change (S1060). For example, when the brightness of the captured image is too bright, adjustments such as shortening the shutter speed or making the brightness of the LED darker are performed. Thereafter, the process proceeds to step S1040, and the biological information sensor 10 acquires biological information based on the changed operating condition.

  On the other hand, when the luminance of the pixel of the biological information imaged in S1050 is within the luminance range 131, the arithmetic processing unit 12 extracts the characteristic pattern from the biological information, and the characteristic pattern and the biological sensor parameter are stored in the personal information recording device 2. Send to.

When the personal information recording device 2 receives the feature pattern and the biometric sensor parameter from the biometric authentication device 1, the personal information recording device 2 uses the feature pattern of the biometric information acquired from the biometric authentication device 1 and the feature pattern stored in the biometric template storage unit 239. The matching process is performed (S1080).
It is determined whether the authentication process is successful (S1090), and if successful, the personal information recording device 2 uses the biometric sensor parameters stored in the biometric sensor parameter storage table 230 to be transmitted from the biometric authentication device 1. Update to the parameter value (S1100). On the other hand, when the authentication process fails, the value of the biosensor parameter is not updated.

  In S1110, the personal information recording device 2 transmits the result of the authentication process to the biometric authentication device 1, and ends the authentication process.

  As described above, the parameters of the biometric sensor adjusted when the biometric authentication device 1 acquires biometric information are stored in the personal information recording device 2, and the parameters are read and used in the next authentication process. be able to. In general, when a user performs authentication processing using a personal information recording device, it is often performed repeatedly with a biometric authentication device installed in a certain place such as a bank near the home or a company. Conceivable. Even if the location is different, the location where the biometric authentication device is installed may be the same surrounding environment. Therefore, as in this example, the biometric sensor parameters used when the authentication is successful are stored in the personal information recording device, and the parameters stored in the next authentication process are transmitted to the biometric authentication device. By setting the operating conditions of the biometric sensor using the parameters, there is a high possibility that biometric information can be acquired in a form suitable for biometric authentication. Thereby, the number of repetitions of parameter adjustment and biometric information acquisition can be suppressed, and user convenience can be improved without impairing authentication accuracy.

  In this example, the biosensor parameter is transmitted to the personal information recording device 2 regardless of whether or not the biosensor parameter is readjusted in S1060, but only when the readjustment is performed. May be transmitted. In this case, the personal information recording device 2 executes the process by omitting S1100.

  Further, in this example, when the biometric information matching process is successful, the biometric information sensor parameter of the personal information recording device 2 is updated to the value acquired from the biometric authentication device 1, but the present invention is not limited to this. For example, when the biometric information matching process is successful, it may be determined whether or not to update the biometric sensor parameter in accordance with the biometric information matching rate or mismatch rate. Thereby, it becomes possible to set the operating condition of the biometric information sensor using a parameter that is highly likely to obtain biometric information with high authentication accuracy. Hereinafter, description will be made with reference to FIGS. 3 and 4.

  FIG. 3 is a diagram illustrating a configuration example of a biometric authentication system. In FIG. 3, the same components as those in FIG.

The example of FIG. 3 is different from the example of FIG. 1 in that the biometric information matching rate is stored in the biosensor parameter storage unit 230 in association with the biosensor parameters 235, 236, and 237.
Here, the biometric information matching rate 231 includes a feature pattern and a biometric template when biometric information matching processing is performed using a biometric feature pattern acquired using biometric sensor parameters stored correspondingly. Information indicating the matching rate is stored. The biometric information coincidence rate 231 is preferably handled only within the personal information recording device 2 and is not disclosed to the outside. The biometric information matching rate 231 may be information indicating a mismatch rate instead of information indicating a matching rate.

  FIG. 4 shows a processing flow example of authentication processing executed in the biometric authentication system of FIG. 4, the same processing steps as those in FIG. 2 are denoted by the same reference numerals, and description thereof is omitted.

  In this example, after the process of S1080, the personal information recording apparatus 2 adds the biometric information matching rate in the collation process of S1080 to the biosensor parameter storage table 230 in addition to the determination of whether the authentication process is successful. It is determined whether or not the stored biometric information matching rate 231 is greater. When the authentication is successful and the biometric information matching rate in S1080 is larger than the stored biometric information matching rate 231, the biometric sensor parameters 235, 236, and 237 and the biometric information matching rate 231 stored in the biometric sensor parameter storage table 230 are updated. (S2100). On the other hand, when authentication fails or when the biometric information matching rate in S1080 is smaller than the biometric information matching rate 231, the biometric sensor parameters 235, 236, 237 and the biometric information matching rate 231 are not updated.

  As described above, the biometric sensor parameter when the coincidence rate of the biometric information is high is stored in the personal information recording device 2 and used as a parameter for setting the operating condition of the biometric information sensor in the subsequent authentication processing. As a result, the authentication accuracy can be increased, the number of repetitions of parameter adjustment and biometric information acquisition can be suppressed, and user convenience can be improved.

  In the example of FIG. 1, the biometric sensor parameter is stored regardless of the environment when the parameter is used. However, environmental information indicating external light, noise, temperature, and the like is acquired, and the information and the biometric parameter are acquired. Sensor parameters may be stored in association with each other. Since parameters suitable for biometric information acquisition are likely to differ depending on the surrounding environment, the biometric sensor parameters and the environment information are stored in association with each other in this manner, so that the biometric authentication is performed. Since the operating condition of the biological information sensor can be set, the number of repetitions of parameter adjustment and biological information acquisition of the biological sensor can be suppressed. Hereinafter, description will be made with reference to FIGS. 5 and 6.

  FIG. 5 is a diagram illustrating a configuration example of a biometric authentication system. In FIG. 5, the same components as those in FIG. In the example of FIG. 5, the environment information acquisition unit 18 is added to the biometric authentication device 1, and the biometric sensor parameters are stored in the biometric sensor parameter storage unit 230 of the personal information recording device 2 in association with the environment information. However, this is different from the example of FIG.

  Here, the environment information acquisition unit 18 includes various sensors and measurement devices such as an optical sensor, a temperature sensor, a humidity sensor, an acceleration sensor, a pressure sensor, a microphone, a GPS, and a clock, and an environment in which the biometric authentication device 1 is used. Get information about. The information to be acquired includes, for example, the state of external light, temperature, body temperature, humidity, date, time, location, noise, moving speed, and the like. In addition, the environment information acquisition unit 18 is not limited to an individual configuration, and may be included in another configuration such as the arithmetic processing unit 12. Further, when the surrounding environment of the place where the biometric authentication device 1 is installed hardly changes, an environment information storage unit that stores predetermined environment information in advance may be provided instead of the environment information acquisition unit 18. good.

  The environment information 232 and 242 store information indicating the environment when the biological information is acquired using the biological sensor parameter. For example, the environmental information 232 stores information that “temperature is 0 to 10 ° C.”, and the environmental information 242 stores information that “temperature is 10 to 20 ° C.”. As described above, the environment information is not limited to the temperature information, and other information such as outside light may be used, or a plurality of information such as outside light and temperature may be combined.

  FIG. 6 shows a processing flow example of authentication processing executed in the biometric authentication system of FIG. In FIG. 6, the same processing steps as those in FIG.

In this example, when the mutual authentication process is successful (S1000, S1010), the biometric authentication device 1 transmits the environment information acquired by the environment information acquisition unit 18 to the personal information recording device 2 (S3015). Then, the personal information recording device 2 transmits, to the biometric authentication device 1, biometric sensor parameters corresponding to the environmental information received from the biometric authentication device 1 among the biometric sensor parameters stored in the biometric sensor parameter storage table 230 (S1020). ). The biometric authentication device 1 acquires biometric information using the received biometric sensor parameter (S1030).
In this way, by using the biometric sensor parameters based on the environment information, the operating conditions of the biometric information sensor can be set so as to be suitable for the environment where biometric authentication is performed. Can be suppressed.

  When the personal information recording device 2 succeeds in the authentication (S1090), the biometric sensor parameter corresponding to the environmental information previously received from the biometric authentication device 1 among the biometric sensor parameters stored in the parameter storage table 230 is biometrically authenticated. The biosensor parameter transmitted from the device 1 is updated.

  In the example of FIG. 5, an example of information stored in the biosensor parameter storage table 230 is shown in FIG.

  In FIG. 7, four environmental information items 232, 242, 252 and 262 are stored in the biometric sensor parameter storage table. The biometric sensor parameters 235, 236 and 237 are stored in the environmental information 232, and the environmental information 242 is stored in the environmental information 242. The biometric sensor parameters 245, 246, and 247 are stored in association with the biometric sensor parameters 255, 256, and 257 in the environment information 252 and the biometric sensor parameters 265, 266, and 267 are associated with the environmental information 262, respectively.

  In the environment information, information acquired by the environment information acquisition unit 18 of the biometric authentication device 1 is stored. Here, “temperature” and “external light” are taken as an example, and “external light” is assumed to be 0 when it is extremely dark such as a dark room, and 100 is extremely bright such as direct sunlight. The environmental information may be information other than temperature and outside light.

  For example, the environment information 232 stores the biometric sensor parameter to be transmitted in step S3020 when information “external light 0-50” is received from the biometric information terminal 1 at “temperature 0-10 ° C.”. In the example, the biosensor parameter 235 stores a parameter “shutter speed is low” regarding the operation condition of the imaging unit 101 of the biometric authentication device 1, and the biosensor parameter 236 includes “ The parameter “LED is bright” is stored. Similarly, it is assumed that the biological sensor parameter 237 stores parameters relating to the operating conditions of the biological information sensor 10. The biometric authentication device 1 receives these biometric parameters and adjusts the biometric information sensor 10 to acquire biometric information under conditions suitable for the environment of “outside light 0-50” at “temperature 0-10 ° C.” be able to. As a result, the number of repetitions of parameter adjustment and biometric information acquisition of the biosensor can be suppressed.

  The environment information transmitted from the biometric authentication device 1 may be information that the environment information is within a certain range, or may be a specific value. For example, information such as “the temperature is in the range of 0 to 10 ° C.” or information such as “the temperature is 5 ° C.” may be used. In the former case, a format conforming to the environmental information condition classification in the biometric sensor parameter storage table 230 of the personal information recording device 2 is used, and in the latter case, range determination or the like is performed on the personal information recording device 2 side.

  As described above, the case where the environmental information and the biometric sensor parameter are stored in combination has been described. However, the biometric information matching rate is stored in combination with the biometric sensor parameter and the environmental information, and the biometric information in S1080 is more than the stored biometric information matching rate. Only when the coincidence rate is large, the biosensor parameter stored in the biosensor parameter storage table 230 may be updated.

  In the example of FIG. 7, a combination of two elements “temperature” and “external light” is stored as environmental information, but a table corresponding to each element such as “temperature” and “external light” is stored. You may make it provide. FIG. 8 separately has a table in which “temperature” of environment information and biometric sensor parameters are associated with each other, and a table in which “external light” of environment information and biometric sensor parameters are combined. An example is shown.

  Note that the environmental information transmitted from the biometric authentication device 1 may include a plurality of elements such as “temperature” and “external light”. As a result, when a plurality of biosensor parameters are listed as candidates, the biosensor parameter selection is controlled by selecting a biosensor parameter with a higher biometric information matching rate or selecting a biosensor parameter based on any of the factors. The program is stored in the program storage memory 21, and the biometric sensor parameter read based on this program is transmitted to the biometric authentication device 1. For example, when information “temperature 0 to 10 ° C.” and “external light 0 to 33” is transmitted as environmental information from the biological information terminal 1, it corresponds to the biological sensor parameter corresponding to the environmental information 232 and the environmental information 262. Both biosensor parameters are candidates. Here, when selecting based on the biometric information matching rate, the biometric information matching rate 231 and the biometric information matching rate 261 are compared, and the biometric sensor parameter associated with the biometric information matching rate 261 having a higher matching rate is compared. Send. Further, a plurality of biometric sensor parameters may be transmitted without being selected by the personal information recording device 2, and the biometric sensor parameters used for setting may be selected on the biometric authentication device 1 side.

  In the example of FIG. 5, the biometric authentication device 1 has the environment information acquisition unit 18. However, the present invention is not limited to this, and the personal information recording device 2 has a configuration corresponding to the environment information acquisition unit. It may be. In this case, in the processing flow of FIG. 6, S3015 is omitted, and instead, the personal information recording device 2 performs an environment information acquisition process prior to S3020.

  As described above, by acquiring environmental information and storing biometric sensor parameters and environmental information in association with each other, the operating conditions of the biometric information sensor can be set according to the environment in which biometric authentication is performed. As a result, the number of repetitions of parameter adjustment and biometric information acquisition of the biometric sensor can be effectively suppressed, and user convenience can be improved without impairing authentication accuracy.

  In addition to information such as biometric information matching rate and environmental information, for example, information indicating the part of the living body from which the biometric information has been acquired, such as the thumb or forefinger, and identification information of the biometric authentication device from which the biometric sensor parameter has been acquired, Related information related to the parameters may be stored in association with each other. Furthermore, when a plurality of biosensor parameters are stored, the use history of each biosensor parameter may be stored, and the biosensor parameter may be selected based on the use history. As described above, when a user performs an authentication process using a personal information recording device, it is often considered that the user repeatedly performs a biometric authentication device installed in a bank or company near the home. Further, even when biometric sensor parameters corresponding to a plurality of biological parts are stored, it is considered that a predetermined part such as an index finger is often used as the biological part used by the user for biometric authentication. Therefore, by using biosensor parameters that are frequently used, there is a high possibility that the operating conditions of the biometric information sensor can be appropriately set, and the number of repetitions of biosensor parameter adjustment and biometric information acquisition can be suppressed.

  An example of a system configuration and a processing flow when biometric sensor parameters are selected based on the use history will be described with reference to FIGS. 9 and 10.

  FIG. 9 is a diagram illustrating a configuration example of a biometric authentication system. In the figure, the same components as those in FIG. This example is different from the example of FIG. 1 in that a plurality of biometric sensor parameters are stored in the data storage memory 23 in association with the biometric template number, and a biometric template usage history 238 is further stored. Here, the biometric template number 233 and the biometric template number 243 store, for example, numbers corresponding to information related to the biometric sensor template, such as a biometric part and an identification number of a biometric authentication device. Note that the data is not limited to a number, and may be data such as other codes and addresses.

  The biometric template usage history 238 stores a history of using the biometric template stored in the personal information recording device 2 for biometric authentication. The usage history is stored in association with the biometric template number. Based on the biometric template usage history 238, the personal information recording device 2 selects a biometric sensor parameter to be transmitted to the biometric authentication device 1 from a plurality of biometric templates. For example, the item that has been used most frequently may be selected, or the item that is used most frequently in a predetermined period such as one month may be selected.

  FIG. 10 shows a processing flow example of authentication processing executed in the biometric authentication system of FIG. In the figure, the same processing steps as those in FIG.

  When the mutual authentication process is performed between the biometric authentication device 1 and the personal information recording device 2 and the authentication is successful (S1000, S1010), the personal information recording device 2 determines the biometric template number based on the biometric template usage history 238. Select (S4015). Then, among the biosensor parameters stored in the biosensor parameter storage table 230, the sensor parameter corresponding to the biometric template number selected in step S4015 is transmitted to the biometric authentication device 1 (S4020).

  When the biometric authentication device 1 appropriately acquires biometric information (S1050), in addition to the biometric information feature pattern and biometric sensor parameter, the biometric authentication device 1 identifies the biometric information and the biometric part from which the biometric information sensor has acquired biometric information. The information shown is transmitted (S4070).

  If authentication is successful in S1090, a biometric template number corresponding to information such as device identification information and biometric part information transmitted from the biometric authentication device 1 is extracted, and biosensor parameters and biometric template usage history corresponding to the biometric template number are extracted. Update. The biometric sensor parameter may be updated according to the biometric information matching rate as in the processing flow shown in FIG.

  Here, an example of the biometric template usage history 238 is shown in FIGS.

  In the example of FIG. 11, the biometric template number corresponding to the biometric template used in the latest six authentication processes is stored. In step S4015, the personal information recording device 2 selects a biometric sensor parameter to be transmitted to the biometric authentication device 1 based on this information. As a selection criterion, for example, a biological template used in the latest authentication may be selected (in this case, # 1), or a biological template that is frequently used in the last six times may be selected (in this case, # 3). ). Or you may give a score by how many times before being used. For example, if a biometric template used N times before is given a score of 6- (N-1) ("Score" row in FIG. 11), the score of # 1 is 6 + 5 = 11, and the score of # 2 is 4. , # 3 is 3 + 2 + 1 = 6. If the one with the highest score is selected, # 1 is selected.

  The example of FIG. 12 shows a case where the total number of times used for authentication is stored for each biometric template stored in the personal information recording device 2. In the selection process in step S4015, # 3 with the largest number of uses is selected based on this information.

  Note that the number of biometric template numbers selected in S4015 is not limited to one, and a plurality of biometric template numbers may be selected. Biometric sensor parameters corresponding to a plurality of selected numbers may be transmitted to the biometric authentication device 1, and biometric sensor parameters used for setting may be selected on the biometric authentication device 1 side.

  As described above, in the example shown in FIG. 1 and the like, the biometric authentication device 1 and the personal information recording device 2 are separated. However, the present invention is not limited to this. For example, as shown in FIG. And a biometric authentication device in which the personal information recording device is integrated. In this example, the biometric sensor parameter storage table 330, the luminance range 331, and the biometric template storage unit 339 are stored in the data storage memory 33. In FIG. 13, the same components as those in FIG.

  Next, FIG. 14 shows an example of a processing flow of authentication processing executed by the biometric authentication device 3.

  The arithmetic processing unit 12 sets the operating condition of the biological information sensor 30 using the biological sensor parameters stored in the biological sensor parameter storage table 330 (S5000). For example, the shutter speed of the imaging unit 301, the brightness of the LED of the light source unit 302, and the like are set. When the biological information is acquired from the biological information sensor 30 (S5010), the arithmetic processing unit 12 causes the average luminance or the maximum or minimum luminance value of some or all of the captured biological information to enter the luminance range 331. Determine whether or not. Note that, similarly to the examples of FIGS. 1 and 2, the determination may be performed using a condition other than the luminance or a combination of a plurality of conditions. If the result of determination is not within the luminance range 331, the biosensor parameter is readjusted (S5030). For example, when the brightness of the captured image is too bright, adjustments such as shortening the shutter speed or making the brightness of the LED darker are performed.

  On the other hand, if the result of determination is within the luminance range 331, the arithmetic processing unit 12 extracts the feature pattern from the biological information acquired from the biological information sensor 10, and stores the extracted feature pattern and the biological template storage unit 339. The matching process is performed using the feature pattern of the biometric information thus obtained (S5040).

  If the authentication process is successful, the biosensor parameter stored in the biosensor parameter storage table 330 is updated to the value adjusted in step S5030. On the other hand, if the authentication process fails, the authentication process is terminated without updating the biometric sensor parameter.

  As described above, the biometric authentication device 3 stores the parameters of the biometric sensor adjusted when acquiring biometric information, and can use the parameters in the next authentication process. This eliminates the need for parameter adjustment when biometric information is acquired under the same surrounding environment in the next authentication process. As a result, the number of repetitions of parameter adjustment and biometric information acquisition of the biosensor can be suppressed, and user convenience can be improved without impairing the authentication accuracy.

  Note that the processing flow is not limited to that shown in FIG. 14, and as shown in the processing flows of FIGS. 4, 6, and 10, updating is controlled according to the biological information matching rate, environment information, biological parts, and the like. A plurality of biosensor templates may be stored in association with the information, and the biosensor template may be selected based on environment information or usage history.

The figure which shows the structural example of a biometrics authentication system. The figure which shows the example of a processing flow of a biometrics authentication process. The figure which shows the structural example of a biometrics authentication system. The figure which shows the example of a processing flow of a biometrics authentication process. The figure which shows the structural example of a biometrics authentication system. The figure which shows the example of a processing flow of a biometrics authentication process. The figure which showed the example of the biosensor parameter storage table. The figure which showed the example of the biosensor parameter storage table. The figure which shows the structural example of a biometrics authentication system. The figure which shows the processing flow example of biometrics authentication processing. The figure which showed the example of the biometric template use log | history. The figure which showed the example of the biometric template use log | history. The figure which shows the structural example of a biometrics authentication apparatus. The figure which shows the processing flow example of biometrics authentication processing.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Biometric authentication apparatus, 2 ... Personal information recording device, 9 ... User's biological body, 10 ... Biometric information sensor, 11 ... Program storage memory, 12 ... Arithmetic processing part, 13 ... Data storage memory, 19 ... Communication part, 101 ... Imaging unit, 102 ... Light source unit, 130 ... Biosensor parameter storage table, 131 ... Luminance range, 21 ... Program storage memory, 22 ... Arithmetic processing unit, 23 ... Data storage memory, 29 ... Communication unit, 230 ... Biosensor parameter Storage table, 239 ... biological template storage unit

Claims (10)

A biometric authentication system comprising a biometric authentication device and an information recording device,
The biometric authentication device includes a first communication unit that communicates with the information recording device, and a biometric information sensor that acquires biometric information. The information recording device communicates with the biometric authentication device. Second communication means for performing communication, and storage means for storing parameters related to operating conditions of the biological information sensor and feature patterns of biological information,
The information recording device reads the parameter from the storage unit, transmits the read parameter to the biometric authentication device by the second communication unit,
The biometric authentication device receives the parameter transmitted from the information recording device by the first communication unit, sets an operating condition of the biometric information sensor using the received parameter, and uses the biometric information sensor. A biometric authentication system characterized in that biometric information is acquired, and a feature pattern extracted from the acquired biometric information is transmitted to the information recording device by the first communication means. The biometric authentication system according to claim 1,
The biometric authentication device determines whether the biometric information acquired by the biometric information sensor is suitable for biometric authentication, and determines that the biometric information is not suitable for biometric authentication when the parameter is determined. The biometric authentication system is characterized in that the operating condition of the biometric information sensor is set using the adjusted parameters. The biometric authentication system according to claim 2,
The biometric authentication device transmits the adjusted parameter together with the feature pattern extracted from the biometric information to the information recording device by the first communication unit,
When the information recording device receives the feature pattern and the parameter from the biometric authentication device by the second communication unit, the information recording device uses the feature pattern received by the second communication unit and the feature pattern stored in the storage unit. The biometric authentication system is characterized in that when the verification process is performed and the verification is successful, the parameter stored in the storage unit is updated with the parameter received by the second communication unit. The biometric authentication system according to claim 2,
The storage unit stores matching rate information indicating a matching rate between a feature pattern extracted from biological information acquired using the parameter and a feature pattern stored in the storage unit in association with the parameter. ,
The biometric authentication device transmits the adjusted parameter together with the feature pattern extracted from the biometric information to the information recording device by the first communication unit,
When the information recording device receives the feature pattern and the parameter from the biometric authentication device by the second communication unit, the information recording device uses the feature pattern received by the second communication unit and the feature pattern stored in the storage unit. To perform verification processing
The information recording device is a case where the collation is successful, and the matching rate between the received feature pattern and the feature pattern stored in the storage unit is higher than the matching rate stored in the storage unit In this case, the biometric authentication system updates the parameter stored in the storage unit with the parameter received by the second communication unit. The biometric authentication system according to claim 1,
The storage means stores a plurality of parameters and related information related to the plurality of parameters in association with each other,
The information recording apparatus selects a parameter to be transmitted to the biometric authentication apparatus from the plurality of parameters using the related information.   6. The biometric authentication system according to claim 5, wherein the related information is environmental information related to the environment or identification information of the biometric authentication device. The biometric authentication system according to claim 1,
The storage means stores a plurality of parameters and history information related to the usage history of the plurality of parameters,
The information recording apparatus selects a parameter to be transmitted to the biometric authentication apparatus from the plurality of parameters using the history information. A biometric authentication device used for biometric authentication,
A communication means for communicating between a parameter relating to the operating condition of the biological information sensor and an information recording device for storing a characteristic pattern of the biological information
A biological information sensor for acquiring biological information, receiving the parameter from the information recording device by the communication means, setting operating conditions of the biological information sensor using the received parameter, and using the biological information sensor A biometric authentication apparatus characterized by acquiring biometric information and transmitting a feature pattern extracted from the acquired biometric information to the information recording apparatus by the communication means. An information recording device used for biometric authentication,
A communication means for communicating with a biometric authentication device including a biometric information sensor;
Storage means for storing parameters relating to operating conditions of the biological information sensor and feature patterns of biological information,
Read the parameters from the storage means, send the read parameters to the biometric authentication device by the communication means,
When the communication means receives the feature pattern and parameters extracted from the biometric information acquired by the biometric information sensor from the biometric authentication device, the feature pattern received by the communication means and the feature pattern stored in the storage means Using the matching process,
An information recording apparatus, wherein when the verification is successful, the parameter stored in the storage unit is updated with the parameter received by the communication unit. A biometric authentication device used for biometric authentication,
A biological information sensor for acquiring biological information;
Storage means for storing parameters relating to operating conditions of the biological information sensor and feature patterns of biological information, and reading the parameters from the storage means, and using the read parameters to determine the operating conditions of the biological information sensor. Setting, acquiring biometric information by the biometric information sensor, extracting a feature pattern from the acquired biometric information, and performing a matching process using the extracted feature pattern and the feature pattern stored in the storage unit A biometric authentication device characterized in that it performs.

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