JP2019202643A - Biological authentication data registration system and biological authentication data registration method - Google Patents

Abstract

To provide a biological authentication data registration system and a biological authentication data registration method that enable easy registration of biological authentication data.SOLUTION: When biological authentication data Dk to be used for biological authentication on a vehicle user is registered to a vehicle 1 in advance, a terminal-side sensor 23 of a portable terminal 21 acquires the biological authentication data Dk on the user. The portable terminal 21 transmits the acquired biological authentication data Dk to the vehicle 1 through a server 28. The vehicle 1 writes and saves the biological authentication data Dk, acquired from the portable terminal 21 through the server 28, in a memory 17.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a biometric data registration system and biometric data registration method for registering biometric data.

  2. Description of the Related Art Conventionally, in a vehicle electronic key system, a technique including a biometric authentication function that acquires biometric authentication data (biometric information) from a user and authenticates the biometric authentication data is well known (see, for example, Patent Document 1). In the case of this electronic key system, when the ID verification of the electronic key is established and biometric authentication is also established, the operation of the in-vehicle device (for example, engine start operation) is permitted or executed.

JP-A-2018-62306

  By the way, when authenticating whether the biometric authentication data is correct or not, it is necessary to register biometric authentication data as a correct answer in the vehicle in advance. Here, as a pre-registration method of biometric authentication data, for example, a method of performing an operation of moving the instrument panel of the driver's seat or the car navigation system to the registration screen and touching the biometric authentication sensor in that state is considered. It is done. However, in the case of this method, there is a problem that the operation is complicated and difficult to understand until the transition to the registered state.

  An object of the present invention is to provide a biometric data registration system and a biometric data registration method that enable simple registration of biometric data.

  A biometric authentication data registration system that solves the above problems is performed by authenticating biometric authentication data captured from a user through a device-side sensor provided in the device and biometric authentication data pre-registered on the device side. This configuration is used when pre-registering the biometric authentication data, and performs pre-registration of the biometric authentication data by registering the biometric authentication data acquired by the terminal-side sensor provided in the mobile terminal with the device. A data registration unit is provided.

  According to this configuration, biometric authentication data for pre-registration is acquired by the mobile terminal and registered on the device side. For this reason, when biometric authentication data is pre-registered on the device side, it is possible to acquire biometric authentication data for pre-registration using a portable terminal accustomed to operation and shift to registration. Therefore, simple registration of biometric authentication data is possible.

  In the biometric authentication data registration system, the mobile terminal is provided with a biometric authentication function that authenticates the correctness of the biometric information captured by the terminal-side sensor and permits the operation of the mobile terminal if the authentication is established. Preferably, the data registration unit acquires the biometric authentication data for pre-registration using the terminal-side sensor used for the biometric authentication function of the mobile terminal. According to this configuration, since biometric authentication data can be acquired using a high-performance terminal-side sensor provided in advance in the mobile terminal, biometric authentication can be performed with high accuracy. In this way, it is possible to ensure the determination accuracy of biometric authentication.

  In the biometric data registration system, the data registration unit preferably pre-registers the biometric data in the device via a server. According to this configuration, for example, biometric authentication data acquired by the mobile terminal can be safely registered on the device side via the server using a network communication function provided in advance in the device.

  A biometric authentication data registration method that solves the above problems is performed by authenticating biometric authentication data captured from a user through a device-side sensor provided in the device and biometric authentication data pre-registered on the device side. This method is used when pre-registering the biometric authentication data, and performs pre-registration of the biometric authentication data by registering biometric authentication data acquired by a terminal-side sensor provided in a mobile terminal with the device. To do.

  According to the present invention, biometric authentication data can be easily registered.

The lineblock diagram of the biometrics data registration system of one embodiment. The flowchart which shows the procedure of the prior registration of biometrics data. The schematic diagram of the biometrics data registration system of another example.

Hereinafter, an embodiment of a biometric data registration system and a biometric data registration method will be described with reference to FIGS.
As shown in FIG. 1, the vehicle 1 is equipped with an electronic key system 4 that performs wireless ID verification with the electronic key 2 to permit or execute the operation of the in-vehicle device 3. The electronic key system 4 is a key operation free system that performs ID collation (smart collation) by narrow-band radio in response to communication from the vehicle 1. The in-vehicle device 3 includes, for example, a door lock device or an engine.

  The electronic key system 4 includes a system device 5 that operates the electronic key system 4 in the vehicle 1. In the electronic key 2 and the system device 5, an electronic key ID and a key unique key used for smart verification are registered. The electronic key 2 and the system device 5 execute smart verification by bidirectional communication in which radio waves are transmitted and received to perform communication. The smart collation performs, for example, an electronic key ID collation for confirming whether the electronic key ID is correct or challenge response authentication using a key unique key. Radio wave transmission from the system device 5 to the electronic key 2 uses radio waves in the LF (Low Frequency) band, and radio wave transmission from the electronic key 2 to the system device 5 uses radio waves in the UHF (Ultra High Frequency) band. ing.

  The vehicle 1 includes a biometric authentication function (vehicle user biometric authentication function: biometric authentication system 8) for confirming the correctness of a user who uses the vehicle 1 by biometric authentication. The biometric authentication system 8 of this example includes biometric information acquired from a user through a device-side sensor 10 provided on the vehicle 1 (device 9), biometric authentication data Dk pre-registered on the vehicle 1 side (device 9 side), and By authenticating the user, it is confirmed whether the user is right or wrong. Prior registration is a type of initial registration in which biometric authentication data Dk that is a correct answer value is registered before using biometric authentication using the device-side sensor 10.

  The device-side sensor 10 includes a fingerprint sensor when the biometric authentication is fingerprint authentication. The device-side sensor 10 is disposed on an engine switch 11 that is operated at the time of transition of vehicle power (when the engine is started). In the case of this example, the device-side sensor 10 is externally provided through a hole 13 penetrating in the center of the knob 12 of the engine switch 11 so that the user can read the fingerprint of the finger when operating the engine switch 11. It is attached to be exposed.

  The biometric authentication system 8 includes an authentication control unit 15 that controls the operation of the biometric authentication system 8. The authentication control unit 15 is provided in the vehicle 1. The authentication control unit 15 includes an authentication processing unit 16 that performs authentication of biometric information (biometric authentication data Dx) acquired from the device-side sensor 10. The authentication processing unit 16 performs biometric authentication by comparing the biometric authentication data Dx input from the device-side sensor 10 with the biometric authentication data Dk pre-registered in the memory 17. When the biometric authentication is fingerprint authentication, the fingerprint feature quantity of the biometric authentication data Dx is extracted, and it is confirmed whether or not this matches the pre-registered biometric authentication data Dk feature quantity.

  When the electronic key 2 enters the LF radio wave communication area that the vehicle 1 forms outside the system 1, the system device 5 performs smart communication (smart verification) with the electronic key 2 located outside the room. The system device 5 permits or executes locking / unlocking of the vehicle door when smart verification (outdoor smart verification) of LF-UHF communication performed with the electronic key 2 located outdoors is established. Thus, the vehicle door is unlocked when the outside door handle is touch-operated, and the vehicle door is locked when the outside door handle lock button is operated.

  When the electronic key 2 enters the LF radio wave communication area formed by the vehicle 1 in the room, the system device 5 performs smart communication (smart verification) with the electronic key 2 located in the room. At this time, the system device 5 checks whether or not smart collation (indoor smart collation) by LF-UHF communication is established with the electronic key 2 located indoors.

  When the user switches the vehicle power supply, the knob 12 of the engine switch 11 is pushed. At this time, the fingerprint of the user's finger is read by the device-side sensor 10, and the biometric authentication data Dx is output to the authentication control unit 15. The authentication processing unit 16 performs biometric authentication by comparing the biometric authentication data Dx input from the device-side sensor 10 with the biometric authentication data Dk pre-registered in the memory 17. If these biometric authentication data Dx and Dk match, the authentication processing unit 16 permits the transition to establishment of smart verification (indoor smart verification). On the other hand, if the biometric authentication data Dx and Dk do not match, the authentication processing unit 16 does not permit the transition to establishment of smart verification (indoor smart verification).

  The system device 5 permits the vehicle power supply transition by the operation of the engine switch 11 when the indoor smart verification is shifted to establishment. Thereby, if the engine switch 11 in the driver's seat is pushed while depressing the brake pedal, the engine is started.

  The biometric authentication system 8 includes a function (biometric authentication data registration system 20) that performs pre-registration of the biometric authentication data Dk to the device 9 (in this example, the vehicle 1). The biometric authentication data registration system 20 of the present example uses the portable terminal 21 having a biometric authentication function (terminal user biometric authentication function) to provide biometric authentication data Dk as a correct value for biometric authentication on the device 9 side (vehicle 1 side). The terminal user biometric authentication function is a kind of authentication function that imposes establishment on the user when the mobile terminal 21 logs in, for example. The mobile terminal 21 is preferably a high function mobile phone, for example.

  The mobile terminal 21 includes a controller 22 that controls the operation of the mobile terminal 21, a terminal-side sensor 23 that detects biological information in the mobile terminal 21, and a network communication module 24 that performs network communication in the mobile terminal 21. The terminal side sensor 23 is composed of a fingerprint sensor, for example, and outputs the detected biological information to the controller 22. For example, when authenticating a user by biometric authentication at the time of login, the controller 22 acquires biometric authentication information by the terminal-side sensor 23. If this matches biometric information registered in advance in the mobile terminal 21, the biometric authentication is established. , Allow login. Thereby, the portable terminal 21 becomes operable.

  The biometric authentication data registration system 20 includes a data registration unit 27 that performs pre-registration of biometric authentication data Dk used for vehicle user biometric authentication. The data registration unit 27 is provided in the controller 22 of the mobile terminal 21. The data registration unit 27 of this example acquires biometric information using the terminal-side biometric authentication function, and pre-registers it in the vehicle 1 as biometric authentication data Dk used in the vehicle-side biometric authentication function. As described above, the data registration unit 27 performs pre-registration of the biometric data Dk by registering the biometric data Dk acquired by the terminal-side sensor 23 provided in the mobile terminal 21 in the vehicle 1.

  The biometric authentication data registration system 20 (data registration unit 27) adopts a method of pre-registering biometric authentication data Dk in the vehicle 1 via the server 28. In this case, the vehicle 1 includes a network communication module 29 capable of network communication in the vehicle 1. The authentication control unit 15 can communicate with the server 28 via the network communication module 29 and acquires the biometric authentication data Dk transferred from the server 28.

  The biometric data registration system 20 includes a data writing unit 30 that writes the biometric data Dk acquired by the vehicle 1 from the server 28 into the memory 17. The data writing unit 30 is provided in the authentication control unit 15. When the data writing unit 30 inputs biometric authentication data Dk for pre-registration from the portable terminal 21 via the server 28, the data writing unit 30 writes and stores it in the memory 17.

Next, the operation and effect of the biometric data registration system 20 of this embodiment will be described using FIG.
As shown in FIG. 2, in step 101, the data registration unit 27 of the mobile terminal 21 performs authentication of a user who performs pre-registration with the server 28. In this case, first, a personal authentication screen is displayed on the display of the portable terminal 21, and a user ID and a password are input to the personal authentication screen. The portable terminal 21 performs personal authentication with the server 28 based on the data group input on the personal authentication screen. If the personal authentication is established, the process is continued, and the process proceeds to step 102. On the other hand, if the personal authentication is not established, the process is forcibly terminated.

  In step 102, when the personal authentication is completed, the data registration unit 27 acquires biometric authentication data Dk to be pre-registered. In this case, first, the data registration unit 27 displays a request for pre-registering the biometric authentication data Dk on the display of the mobile terminal 21. In accordance with this request, the user places a finger or the like on the terminal-side sensor 23. When the data registration unit 27 detects a touch operation of the terminal-side sensor 23, the data registration unit 27 acquires biometric information at that time, that is, biometric authentication data Dk for pre-registration.

  In step 103, the data registration unit 27 transmits the biometric authentication data Dk acquired from the terminal side sensor 23 to the server 28 through network communication. For example, when a data transmission button displayed on the display of the mobile terminal 21 is operated, the data registration unit 27 transmits the biometric authentication data Dk acquired by the terminal-side sensor 23.

In step 104, the server 28 transfers the biometric authentication data Dk received from the portable terminal 21 to the vehicle 1 through network communication.
In step 105, when the data writing unit 30 of the authentication control unit 15 receives the biometric authentication data Dk transferred from the server 28 by the network communication module 29, it writes it into the memory 17. Thereby, the biometric authentication data Dk on the vehicle 1 side used in the vehicle user biometric authentication function is pre-registered in the memory 17.

  In step 106, when the writing of the biometric authentication data Dk to the memory 17 is completed, the data writing unit 30 transmits a write response notifying that the pre-registration has been written to the server 28 through network communication.

  In step 107, the server 28 transfers the write response received from the vehicle 1 to the mobile terminal 21 through network communication. When the mobile terminal 21 receives the write response from the server 28, the mobile terminal 21 displays on the display that the pre-registration of the biometric data Dk is completed. Thereby, the user can grasp that pre-registration of biometrics authentication data Dk was completed.

  In the case of this example, the biometric authentication data Dk for pre-registration is acquired by the mobile terminal 21 and registered on the vehicle 1 side. For this reason, when pre-registering the biometric authentication data Dk on the vehicle 1 side, it becomes possible to acquire the pre-registration biometric authentication data Dk using the portable terminal 21 that is accustomed to the operation. Therefore, the biometric authentication data Dk can be registered easily.

  The mobile terminal 21 is provided with a biometric authentication function (terminal user biometric authentication function) that authenticates the authenticity of the biometric information captured by the terminal-side sensor 23 and permits the operation of the mobile terminal 21 when the authentication is established. Yes. The data registration unit 27 uses the terminal-side sensor 23 used for the biometric authentication function (terminal user biometric authentication function) of the mobile terminal 21 to acquire biometric data Dk for pre-registration. For this reason, since the biometric authentication data Dk can be acquired using the high-performance terminal-side sensor 23 provided in advance in the mobile terminal 21, biometric authentication can be performed with high accuracy. Thus, the determination accuracy of biometric authentication can be ensured.

  The data registration unit 27 pre-registers the biometric authentication data Dk in the vehicle 1 (the memory 17 of the authentication control unit 15) via the server 28. Therefore, for example, using the network communication function (network communication block 29) provided in the vehicle 1, the biometric authentication data Dk acquired by the mobile terminal 21 can be safely registered on the vehicle 1 side via the server 28. it can.

In addition, this embodiment can be implemented with the following modifications. The present embodiment and the following modifications can be implemented in combination with each other within a technically consistent range.
As shown in FIG. 3, the biometric data Dk for pre-registration acquired by the mobile terminal 21 may be directly transmitted from the mobile terminal 21 to the vehicle 1, for example. In this case, it is preferable that the biometric authentication data Dk is transmitted from the portable terminal 21 to the vehicle 1 through, for example, near field communication (for example, Wi-Fi (registered trademark) or Bluetooth (registered trademark)). Therefore, for example, even in a non-network communication environment, the biometric authentication data Dk acquired by the mobile terminal 21 can be registered in the vehicle 1.

  The biometric authentication data Dk may be transmitted after being encrypted with a secret key held by the vehicle 1, the portable terminal 21, and the server 28. In this case, the biometric authentication data Dk can be safely transmitted to the other party.

  -Advance registration may be permitted. In this case, for example, when the vehicle door is unlocked or when the engine of the vehicle 1 is starting, pre-registration of the biometric data Dk may be permitted.

The mobile terminal 21 may be a terminal that does not have a terminal user biometric authentication function. In this case, the terminal side sensor 23 is provided in the portable terminal 21 so that biological information can be acquired.
The mobile terminal 21 may be a terminal having the key function of the vehicle 1.

The mobile terminal 21 may be changed to a terminal other than the high function mobile phone.
-The apparatus side sensor 10 is not limited to being arrange | positioned at the engine switch 11, and in the case of the vehicle 1, you may arrange | position to other members, such as a steering wheel, for example.

The device-side sensor 10 and the terminal-side sensor 23 are not limited to fingerprint sensors, and can be appropriately changed to other sensors depending on the type of biometric authentication.
The biometric authentication is not limited to fingerprint authentication, and may be changed to other authentication such as vein authentication, face authentication, voiceprint authentication, iris authentication.

  The electronic key system 4 is not limited to a system configuration in which radio wave transmitters are individually installed inside and outside the vehicle. For example, a system configuration may be adopted in which radio wave transmitters are provided on the left and right sides of the vehicle body, and the inside / outside determination of the electronic key 2 is performed by checking the combination of responses of the electronic key 2 to the radio waves transmitted from these radio wave transmitters.

The electronic key system 4 may be a wireless key system that can remotely control the vehicle 1 with the electronic key 2.
-The frequency of the radio wave communicated by the electronic key system 4 may be changed to a frequency other than LF and UHF. Further, the radio wave communication method of the electronic key system 4 may be appropriately changed to various modes.

The communication of the electronic key system 4 may use, for example, Bluetooth (registered trademark).
The electronic key system 4 may determine the inside / outside of the electronic key 2 by determining the distance between the vehicle 1 and the electronic key 2, for example.

-The apparatus 9 is not limited to the vehicle 1, For example, it can change into other members, such as a house.
Next, a technical idea that can be grasped from the above embodiment and modified examples will be described.
(A) In the biometric authentication data registration system, the device is provided with a system device (verification unit) that wirelessly executes the correctness of an electronic key provided for the device, and the system device includes the electronic key When the authentication is established and the biometric authentication is also established, the operation of the device is permitted or executed. In this case, it is possible to ensure security against unauthorized use of the device.

  DESCRIPTION OF SYMBOLS 1 ... Vehicle, 2 ... Electronic key, 8 ... Biometric authentication system, 9 ... Apparatus, 10 ... Apparatus side sensor, 20 ... Biometric authentication data registration system, 21 ... Portable terminal, 23 ... Terminal side sensor, 27 ... Data registration part, 28: Server, Dx: Biometric data, Dk: Biometric data.

Claims (4)

Used to pre-register the biometric data in the device when authenticating biometric data captured from a user through a device-side sensor provided in the device and biometric data pre-registered on the device side A biometric data registration system,
A biometric data registration system including a data registration unit that performs pre-registration of biometric data by registering biometric data acquired by a terminal-side sensor provided in a portable terminal in the device. The mobile terminal is provided with a biometric authentication function that authenticates the correctness of the biometric information captured by the terminal-side sensor and permits the operation of the mobile terminal if the authentication is established.
The biometric authentication data registration system according to claim 1, wherein the data registration unit acquires the biometric authentication data for pre-registration using the terminal-side sensor used for the biometric authentication function of the portable terminal. The biometric authentication data registration system according to claim 1 or 2, wherein the data registration unit pre-registers the biometric authentication data in the device via a server. Used to pre-register the biometric data in the device when authenticating biometric data captured from a user through a device-side sensor provided in the device and biometric data pre-registered on the device side A biometric data registration method,
A biometric authentication data registration method for executing pre-registration of biometric authentication data by registering biometric authentication data acquired by a terminal-side sensor provided in a portable terminal in the device.