JP2021064301A - Fingerprint authentication IC card - Google Patents

Abstract

To provide a fingerprint authentication IC card that operates in both of a contact interface and a non-contact interface, with which fingerprint authentication is made possible by preferentially using fingerprints compatible with an external interface that the fingerprint authentication IC card uses.SOLUTION: A fingerprint authentication IC card 1 includes fingerprint authentication means 130 for storing, in a NVM 103, reference fingerprint information 107 preferentially used when operating in a contact interface 101 and reference fingerprint information 107 preferentially used when operating in a non-contact interface 102, as reference fingerprint information 107 used for fingerprint authentication, in a state where the external interface compatible with each of these is identifiable, setting the first reference fingerprint information 107 used for fingerprint authentication to the reference fingerprint information 107 compatible with the external interface currently in use, as the function realized utilizing a processor 100, and fingerprint authenticating the fingerprint information read by a fingerprint sensor 111.SELECTED DRAWING: Figure 4

Description

The present invention relates to a fingerprint authentication IC card, which is an IC card to which a fingerprint authentication function is added.

For identity verification required for services such as payment services, two-factor authentication using a password that serves as knowledge-based factor and a card that serves as possession-based factor has been performed for some time. The card used as possession information was a magnetic card, but nowadays, IC cards are widely used as possession information cards.

Although the security has been improved by using the IC card as the possession information card, if the IC card is lost or stolen, and if the password is leaked, it is not the legitimate holder (Card Holder) of the IC card. A person can use an IC card illegally. There are still many cases where passwords that can be easily guessed are set, and unauthorized use of IC cards has become a problem.

Therefore, in recent years, in order to realize higher security, the use of biometric information for identity verification required for services such as payment services has been promoted. Biological information that can be used for identity verification includes veins and voiceprints, but in the case of IC cards used for identity verification, fingerprints are generally used.

A fingerprint authentication IC card, which is an IC card with a fingerprint authentication function, has already been disclosed, and the fingerprint authentication IC card is used in addition to an MCU (Micro Controller Unit) that processes commands sent from an external terminal device. It has a fingerprint sensor module that reads the owner's fingerprint.

Fingerprint authentication There are two configurations for performing fingerprint authentication on an IC card. For example, the fingerprint authentication IC card disclosed in Patent Document 1 is configured so that the fingerprint sensor module itself authenticates the fingerprint read by the fingerprint sensor module. Further, for example, the fingerprint authentication IC card disclosed in Patent Document 2 is configured so that the processor included in the MCU authenticates the fingerprint read by the fingerprint sensor module.

Further, the external I / F (interface) used for connecting the fingerprint authentication IC card and the terminal device corresponds to the contact I / F and the non-contact I / F, respectively. The fingerprint authentication IC card disclosed in Patent Document 1 operates with a non-contact I / F, and the fingerprint authentication IC card disclosed in Patent Document 2 operates with either a contact I / F or a non-contact I / F. Operate. Further, Patent Document 3 discloses a fingerprint authentication IC card that operates in both contact I / F and non-contact I / F.

Special Table 2017-532683 Japanese Unexamined Patent Publication No. 2018-18324 Japanese Unexamined Patent Publication No. 2012-238126

In the case of a fingerprint authentication IC card that operates in both contact I / F and non-contact I / F as in the invention disclosed in Patent Document 3, the fingerprint authentication IC card depends on the external I / F used. Since the finger used for fingerprint authentication often changes, it is desirable to preferentially use the fingerprint of the finger corresponding to the external I / F used by the fingerprint authentication IC card for fingerprint authentication.

Therefore, in the present invention, in the fingerprint authentication IC card that operates in both the contact I / F and the non-contact I / F, the fingerprint corresponding to the external I / F used by the fingerprint authentication IC card is preferentially used. The purpose is to enable fingerprint authentication.

The first invention for solving the above-mentioned problems, a contact I / F and a non-contact I / F which are external I / Fs used for connection with a terminal device, an MCU having a processor and an NVM, and a fingerprint sensor module having a fingerprint sensor. As the reference fingerprint information used for fingerprint authentication, the reference fingerprint information that is preferentially used when operating with the contact I / F and the reference fingerprint information that is preferentially used when operating with the non-contact I / F. Is stored in the NVM in a state where each corresponding external I / F can be identified, and as a function realized by using the processor, the first reference fingerprint information used for fingerprint authentication corresponds to the external I / F in use. The fingerprint authentication IC card is provided with a fingerprint authentication means for fingerprinting the fingerprint information read by the fingerprint sensor by setting the reference fingerprint information to be used. In order to solve the problem of the present invention, the first invention is configured so that the first reference fingerprint information used for fingerprint authentication can be set as the reference fingerprint information corresponding to the external I / F in use.

Further, the second invention is the fingerprint authentication IC card described in the first invention, in which the fingerprint authentication means is in use when the fingerprint authentication using the reference fingerprint information corresponding to the external I / F in use fails. It is characterized in that fingerprint authentication is executed using other reference fingerprint information that does not correspond to the external I / F. The second invention is configured so that when fingerprint authentication using the reference fingerprint information corresponding to the external I / F in use fails, fingerprint authentication can be executed using other reference fingerprint information.

Further, the third invention is the fingerprint information read by the fingerprint sensor when operating with the contact I / F as a function realized by using the processor in the fingerprint authentication IC card described in the first invention or the second invention. Is registered in NVM as the reference fingerprint information corresponding to the contact I / F, and the fingerprint information read by the fingerprint sensor when operating in the non-contact I / F is registered in the NVM as the reference fingerprint information corresponding to the non-contact I / F. It is characterized in that it is provided with a fingerprint registration means. The third invention is configured so that the reference fingerprint information can be stored in the NVM in a state in which the corresponding external I / F can be identified without requiring the setting of the external I / F.

As described above, according to the present invention, in the fingerprint authentication IC card that operates in both the contact I / F and the non-contact I / F, the finger of the finger corresponding to the external I / F used by the fingerprint authentication IC card. Fingerprint authentication can be performed using fingerprints with priority.

The figure explaining the surface of the fingerprint authentication IC card which concerns on embodiment. The figure explaining the structure of the fingerprint authentication IC card which concerns on embodiment. The block diagram of the MCU mounted on the fingerprint authentication IC card which concerns on embodiment. The functional block diagram of the fingerprint authentication IC card 1 which concerns on embodiment. The figure explaining the finger used for fingerprint authentication. The figure explaining the operation of the fingerprint authentication IC card at the time of performing fingerprint authentication. The figure explaining the operation of the fingerprint authentication IC card at the time of registering fingerprint information.

From here, an embodiment according to the present invention will be described. The present embodiment is for facilitating the understanding of the present invention, and the present invention is not limited to the present embodiment. Unless otherwise specified, the drawings are schematic drawings drawn to facilitate understanding of the present invention.

The fingerprint authentication IC card 1 according to this embodiment will be described. FIG. 1 is a diagram for explaining the surface of the fingerprint authentication IC card 1 according to the embodiment, FIG. 2 is a diagram for explaining the configuration of the fingerprint authentication IC card 1 according to the embodiment, and FIG. 3 is a diagram for explaining the configuration of the fingerprint authentication IC card 1 according to the embodiment. It is a block diagram of the MCU 10 mounted on the IC card 1. Further, FIG. 4 is a functional block diagram of the fingerprint authentication IC card 1 according to the embodiment. FIG. 5 is a diagram illustrating a finger used for fingerprint authentication. FIG. 6 is a diagram illustrating the operation of the fingerprint authentication IC card 1 when performing fingerprint authentication. FIG. 7 is a diagram illustrating the operation of the fingerprint authentication IC card 1 when registering fingerprint information.

Referring to FIG. 1, the fingerprint authentication IC card 1 according to the present embodiment is a credit card-sized card medium, and a contact plate 101a having eight contact terminals and a fingerprint are formed on the surface of the fingerprint authentication IC card 1. A fingerprint sensor 111 to read appears. Information required for the service in which the fingerprint authentication IC card 1 is used can be printed on the front surface and the back surface of the fingerprint authentication IC card 1, and the medium required for the service in which the fingerprint authentication IC card 1 is used can be processed. For example, when the fingerprint authentication IC card 1 is used in a credit payment service, the credit card number, the name of the cardholder, and the expiration date are printed on the surface of the fingerprint authentication IC card 1. When the fingerprint authentication IC card 1 is used in a credit payment service, a hologram is processed on the front side and a signature line for entering a famous name is processed on the back side.

Referring to FIG. 2, the configuration of the fingerprint authentication IC card 1 according to the present embodiment includes an MCU 10 (Micro Controller Unit) that controls processing executed by the fingerprint authentication IC card 1 and a fingerprint sensor 111 that reads a fingerprint. The fingerprint sensor module 11 includes a contact plate 101a for establishing contact communication, and an antenna coil 102a for establishing non-contact communication.

Referring to FIG. 3, the MCU 10 includes a contact I / F 101 and a non-contact I / F 102 as an external I / F (interface) used for connection with the external terminal device 2. The contact I / F 101 is, for example, an external I / F conforming to ISO7816 and is connected to the contact plate 101a for establishing contact communication. The non-contact I / F 102 is, for example, an external I / F conforming to ISO14443 and is connected to the antenna coil 102a for establishing non-contact communication.

Further, the MCU 10 includes an internal I / F 106 for establishing communication between the MCU 10 mounted on the fingerprint authentication IC card 1 and the fingerprint sensor module 11. As the internal I / F 106 for establishing communication between the MCU 10 and the fingerprint sensor module 11, for example, SPI (Serial Peripheral Interface) can be used.

The MCU 10 includes a processor 100 that executes an instruction set described in a computer program, a ROM 104 that is an electrically non-rewritable non-volatile memory, a RAM 105 that is an electrically rewritable volatile memory, and an electrically rewritable memory. It is provided with NVM103 (Non-volatile memory) which is a non-volatile memory.

The NVM 103 included in the MCU 10 includes reference fingerprint information 107 (first reference fingerprint information 107a), which is preferentially used when operating with the contact I / F 101, and non-contact I / F 102 as reference fingerprint information 107 used for fingerprint authentication. The reference fingerprint information 107 (second reference fingerprint information 107b) that is preferentially used when operating in the above is stored in a state in which the corresponding external I / F can be identified. In the present invention, the number of reference fingerprint information 107 stored in the NVM 103 is the number of external I / Fs (here, two) used for communication with the terminal device 2, but the number of reference fingerprint information 107 is larger than this. The 107 can also be registered in the NVM 103.

Since the external I / F corresponding to each of the two reference fingerprint information 107 can be identified, the NVM 103 included in the MCU 10 stores the fingerprint management information 108 in which the reference fingerprint information 107 and the external I / F corresponding to the reference fingerprint information 107 are associated with each other. To. In the present embodiment, since the MCU 10 includes the contact I / F 101 and the non-contact I / F 102 as the external I / F used for communication with the terminal device 2, the fingerprint management information 108 stored in the NVM 103 is the first. The 1-reference fingerprint information 107a is associated with the contact I / F 101, and the 2nd reference fingerprint information 107b is associated with the non-contact I / F 102.

Referring to FIG. 2, the fingerprint sensor module 11 includes a fingerprint sensor 111 having a function of reading a fingerprint and a controller 110 that controls communication with the MCU 10. In the fingerprint authentication IC card 1 of the present embodiment, the MCU 10 and the fingerprint sensor module 11 each operate independently by the electric power supplied from the external I / F. When activated by the contact I / F 101, the power input to the Vcc terminal of the contact plate 101a connected to the contact I / F 101 is supplied to the MCU 10 and the fingerprint sensor module 11, respectively. When activated by the non-contact I / F 102, the power excited by the antenna coil 102a connected to the non-contact I / F 102 is supplied to the MCU 10 and the fingerprint sensor module 11, respectively.

As a method of reading the fingerprint, there is also a swipe type in which the finger placed on the sensor is slid, but in the present embodiment, the fingerprint authentication IC card 1 is placed on the sensor without slipping in consideration of the operability of the fingerprint authentication IC card 1. The fingerprint sensor 111 uses a capacitive area type that reads the fingerprint of a finger. As shown in FIG. 1, the area type fingerprint sensor 111 has a planar shape.

In the fingerprint authentication IC card 1 of the present embodiment, the controller 110 of the fingerprint sensor module 11 performs an operation of reading the fingerprint information of the finger placed on the fingerprint sensor 111 until the fingerprint information can be read, and is performed on the fingerprint sensor 111. The fingerprint information of the finger placed on the controller 110 is stored in the memory of the controller 110. Further, the controller 110 communicates with the processor 100 of the MCU 10 by using the internal I / F 106, and executes a process corresponding to the request from the processor 100. This process includes a process of notifying the reading status of the fingerprint information and a process of transmitting the fingerprint information read by the fingerprint sensor 111 to the processor 100 of the MCU 10.

Referring to FIG. 4, the fingerprint authentication IC card 1 according to the embodiment includes a command processing means 120, a fingerprint authentication means 130, and a fingerprint registration means 140 as functions realized by using a computer program for operating the processor 100. ..

The command processing means 120 included in the fingerprint authentication IC card 1 is a processing means for processing a command received from an external terminal device 2 using an external I / F. The command supported by the command processing means 120 depends on the service that uses the fingerprint authentication IC card 1, but in FIG. 4, the identity verification command 121 that confirms the holder of the fingerprint authentication IC card 1 by using the fingerprint. The fingerprint registration command 122 for registering the fingerprint information of the holder in the fingerprint authentication IC card 1 is illustrated as the command.

The fingerprint authentication means 130 is a means called by the command processing means 120 when the command processing means 120 processes the identity verification command 121. When the fingerprint authentication means 130 is called from the command processing means 120, the fingerprint authentication IC card 1 identifies the external I / F in use, and the first reference fingerprint information 107 used for fingerprint authentication is in use. The reference fingerprint information 107 corresponding to the above is set, and the fingerprint authentication process of fingerprint information read by the fingerprint sensor 111 is executed. In the present embodiment, the external I / F in use is the external I / F on which the activation process for activating the fingerprint authentication IC card 1 has been executed, and the activation for activating the fingerprint authentication IC card 1 is performed. When the processing is executed, the fingerprint authentication IC card 1 is in a state where command processing is possible.

When performing fingerprint authentication, the fingerprint authentication means 130 sets the first reference fingerprint information 107 used for fingerprint authentication to the reference fingerprint information 107 corresponding to the external I / F in use, as shown in FIG. This is because the finger used for fingerprint authentication often changes depending on the holder when the fingerprint authentication IC card 1 is used for the contact I / F 101 and when the fingerprint authentication IC card 1 is used for the non-contact I / F 102.

As shown in FIG. 5A, when the fingerprint authentication IC card 1 is used in the terminal device 2a corresponding to the contact I / F 101, a part of the fingerprint authentication IC card 1 is inserted into the terminal device 2a. The finger used for fingerprint authentication is often the index finger. On the other hand, as shown in FIG. 5B, when the fingerprint authentication IC card 1 is used in the terminal device 2b compatible with the non-contact I / F 102, the fingerprint authentication IC card 1 is sandwiched between the thumb and the index finger. Since it is held over the terminal device 2b, the finger used for fingerprint authentication is often the thumb. In this way, if only the fingerprint information of the thumb, which is often used for fingerprint authentication in non-contact I / F102, can be used for fingerprint authentication, fingerprint authentication in contact I / F101 despite being a legitimate owner. Will fail.

Therefore, in the present invention, the fingerprint information of the finger (for example, the index finger) used by the holder in the fingerprint authentication in the contact I / F 101 and the fingerprint of the finger (for example, the thumb) used by the holder in the fingerprint authentication in the non-contact I / F 102. Each piece of information is registered in the fingerprint authentication IC card 1 as reference fingerprint information 107. Then, the fingerprint authentication means 130 is used in fingerprint authentication by first using the reference fingerprint information 107 corresponding to the external I / F used by the fingerprint authentication IC card 1 to perform fingerprint authentication by the fingerprint authentication IC card 1. It reduces fingerprint authentication failures due to different fingers on external I / Fs.

From here, the operation of the fingerprint authentication IC card 1 will be described in detail. First, the operation of the fingerprint authentication IC card 1 when performing fingerprint authentication will be described with reference to FIG.

Referring to FIG. 6, when performing fingerprint authentication, the command processing means 120 of the fingerprint authentication IC card 1 receives the identity verification command 121 from the terminal device 2 (S1). Since the fingerprint authentication IC card 1 according to the present embodiment includes both the contact I / F 101 and the non-contact I / F 102, the external I / F that receives the command from the terminal device 2 is the contact I / F 101 or the non-contact I / F 101. It becomes either contact I / F102. Further, the type of command received from the terminal device 2 can generally be identified from the APDU (Application Protocol Data Unit) of the command received from the terminal device 2.

The command processing means 120 of the fingerprint authentication IC card 1 calls the fingerprint authentication means 130 when the identity verification command 121 is received from the terminal device 2 (S2).

The fingerprint authentication means 130 called from the command processing means 120 inquires the controller 110 of the fingerprint sensor module 11 about the reading status of the fingerprint information, and when the fingerprint information reading is completed on the fingerprint sensor module 11 side, the fingerprint information Is instructed to the controller 110, and the fingerprint information read by the fingerprint sensor 111 is received from the controller 110 of the fingerprint sensor module 11 (S3).

Next, the fingerprint authentication means 130 identifies the external I / F in use (S4). The processor 100 of the MCU 10 generally has a flag indicating the external I / F used by the MCU 10, and the external I / F in use can be identified by referring to this flag.

Next, the fingerprint authentication means 130 refers to the fingerprint management information 108, and sets the first reference fingerprint information 107 used for fingerprint authentication to the reference fingerprint information 107 corresponding to the external I / F in use (S5). As described above, in the present embodiment, the MCU 10 includes the contact I / F 101 and the non-contact I / F 102 as the external I / F used for communication with the terminal device 2, and the first reference fingerprint in the fingerprint management information 108. The information 107a is associated with the contact I / F 101, and the second reference fingerprint information 107b is associated with the non-contact I / F 102. Therefore, when the external I / F in use is the contact I / F 101, the first reference fingerprint information 107 used for fingerprint authentication becomes the first reference fingerprint information 107a, and the external I / F in use is the non-contact I / F 102. In the case of, the first reference fingerprint information 107 used for fingerprint authentication becomes the second reference fingerprint information 107b.

Next, the fingerprint authentication means 130 collates the fingerprint information received from the controller 110 of the fingerprint sensor module 11 in S3 of FIG. 6 with the reference fingerprint information 107 set in S4 of FIG. Fingerprint authentication is performed on the fingerprint information received from the controller 110 (S6).

Next, the fingerprint authentication means 130 branches the process according to the result of the fingerprint authentication executed in S6 of FIG. If the fingerprint authentication executed in S6 of FIG. 6 is successful, the fingerprint authentication means 130 proceeds to S9 of FIG. 6, sets the fingerprint authentication result to success, and ends the procedure of FIG.

If the fingerprint authentication executed in S6 of FIG. 6 fails, the finger used for the fingerprint authentication may be different. Therefore, the fingerprint authentication means 130 refers to the fingerprint management information 108 and refers to the reference fingerprint information used for the fingerprint authentication. Set 107 to other reference fingerprint information 107 that does not correspond to the external I / F in use (S7).

Next, the fingerprint authentication means 130 collates the fingerprint information received from the controller 110 of the fingerprint sensor module 11 in S3 of FIG. 6 with the reference fingerprint information 107 set in S7 of FIG. Fingerprint authentication is performed on the fingerprint information received from the controller 110 (S8).

Next, the fingerprint authentication means 130 branches the process according to the result of the fingerprint authentication executed in S8 of FIG. If the fingerprint authentication executed in S8 of FIG. 6 is successful, the fingerprint authentication means 130 proceeds to S9 of FIG. 6, sets the fingerprint authentication result to success, and ends the procedure of FIG. If the fingerprint authentication executed in S8 of FIG. 6 fails, the fingerprint authentication means 130 proceeds to S10 of FIG. 6, sets the fingerprint authentication result to failure, and ends the procedure of FIG.

By executing the procedure of FIG. 6, when the fingerprint authentication IC card 1 is operating with the contact I / F 101, the reference fingerprint information 107 used first in the fingerprint authentication is the first corresponding to the contact I / F 101. When the reference fingerprint information 107a is obtained and the fingerprint authentication using the first reference fingerprint information 107a fails, the reference fingerprint information 107 used in the fingerprint authentication is switched to the second reference fingerprint information 107b corresponding to the non-contact I / F 102. Further, when the fingerprint authentication IC card 1 is operating with the non-contact I / F 102, the reference fingerprint information 107 used first in the fingerprint authentication becomes the second reference fingerprint information 107b corresponding to the non-contact I / F 102. If the fingerprint authentication using the second reference fingerprint information 107b fails, the reference fingerprint information 107 used in the fingerprint authentication is switched to the first reference fingerprint information 107a corresponding to the contact I / F 101.

Next, the operation of the fingerprint authentication IC card 1 when registering fingerprint information will be described with reference to FIG. 7.

Referring to FIG. 7, when registering fingerprint information, the command processing means 120 of the fingerprint authentication IC card 1 receives the fingerprint registration command 122 from the terminal device 2 (S20), and the command processing means 120 of the fingerprint authentication IC card 1 Calls the fingerprint registration means 140 when it receives the fingerprint registration command 122 from the terminal device 2 (S21).

The fingerprint registration means 140 called from the command processing means 120 inquires the controller 110 of the fingerprint sensor module 11 about the reading status of the fingerprint information, and when the fingerprint information reading is completed on the fingerprint sensor module 11 side, the fingerprint information Is instructed to the controller 110, and the fingerprint information read by the fingerprint sensor 111 is received from the controller 110 of the fingerprint sensor module 11 (S22).

Next, the fingerprint registration means 140 identifies the external I / F in use (S23). Next, the fingerprint registration means 140 wrote the fingerprint information received from the controller 110 of the fingerprint sensor module 11 in S22 of FIG. 7 as reference fingerprint information 107 in the NVM 103 (S24), and then wrote it in the NVM 103 in S24 of FIG. By writing the information associated with the reference fingerprint information 107 to the external I / F in use specified in S23 of FIG. 7 in the fingerprint management information 108, the fingerprint management information 108 is updated (S25), and the fingerprint management information 108 is updated (S25). The procedure ends.

By executing the procedure of FIG. 7, the fingerprint information read by the fingerprint sensor 111 when operating on the contact I / F 101 is registered in the NVM 103 as the reference fingerprint information 107 corresponding to the contact I / F 101, and the non-contact I / The fingerprint information read by the fingerprint sensor 111 when operating in the F102 is registered in the NVM 103 as the reference fingerprint information 107 corresponding to the non-contact I / F 102.

1 Fingerprint authentication IC card 10 MCU
100 Processor 101 Contact I / F
102 Non-contact I / F
103 NVM
107 Reference fingerprint information 108 Fingerprint management information 11 Fingerprint sensor module 110 Controller 111 Fingerprint sensor 120 Command processing means 130 Fingerprint authentication means 140 Fingerprint registration means

Claims (3)

A reference fingerprint used for fingerprint authentication by mounting a contact I / F and non-contact I / F, which are external I / Fs used for connection with a terminal device, an MCU having a processor and an NVM, and a fingerprint sensor module having a fingerprint sensor. As information, the reference fingerprint information that is preferentially used when operating in the contact I / F and the reference fingerprint information that is preferentially used when operating in the non-contact I / F are the corresponding external I / Fs. As a function realized by using the processor by storing in the NVM in a state where the fingerprint can be identified, the first reference fingerprint information used for fingerprint authentication is set as the reference fingerprint information corresponding to the external I / F in use, and the fingerprint is fingerprinted. A fingerprint authentication IC card characterized by being provided with a fingerprint authentication means for fingerprint authentication of fingerprint information read by a sensor. If the fingerprint authentication means fails to perform fingerprint authentication using the reference fingerprint information corresponding to the external I / F in use, the fingerprint authentication means executes fingerprint authentication using other reference fingerprint information not corresponding to the external I / F in use. The fingerprint authentication IC card according to claim 1, wherein the fingerprint authentication IC card is used. As a function realized by using the processor, the fingerprint information read by the fingerprint sensor when operating in the contact I / F is registered in NVM as the reference fingerprint information corresponding to the contact I / F, and the non-contact I / F is used. The fingerprint according to claim 1 or 2, wherein the fingerprint registration means for registering the fingerprint information read by the fingerprint sensor in the NVM as the reference fingerprint information corresponding to the non-contact I / F during operation is provided. Authentication IC card.

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