JP2009294780A - Security system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a security system for flexibly responding to circumstances under the consideration of a required security level and convenience. <P>SOLUTION: In collating detection data from a finger vein sensor with reference data in the first biometrics, a collation device decides that a testee is a legitimate user when the number of feature points coincident between the both data reaches a first threshold. Then, when the first biometrics is successful, the collation device decides that the testee is a legitimate user when the number of feature points coincident between the both data reaches a second threshold which is lower than a first threshold. when a door is opened, the threshold of the next biometrics is set to the first threshold. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a security system using biometric authentication.

  In Patent Document 1, it is determined whether or not the user is a vehicle user by using biometric authentication based on individual differences such as fingerprints, and the person who is recognized as a vehicle user is allowed to start the engine. On the other hand, a technology for prohibiting engine start for a third party who is not recognized as a vehicle user is disclosed.

  And when constructing a vehicle security system using such biometric authentication, for example, even after the engine is started, biometric authentication is performed prior to the operation of the shift lever. For example, it is possible to allow the shift operation only with respect to the above. That is, a system with a high security level can be constructed by performing biometric authentication every time an engine start button, a shift lever or the like is operated.

Taking fingerprint authentication as an example, when the number of feature points that match between the detection data by the fingerprint sensor and the reference data reaches a predetermined threshold value, the subject (fingerprint to allow engine start-up etc. is allowed). It is determined that the person who is authenticated) is a regular user. In general, the greater the number of feature points that should be matched, that is, the higher the threshold for biometric authentication, the lower the possibility that a third party can pass biometric authentication, thus improving the security level. . Therefore, in this type of system, a threshold value for biometric authentication is set according to the required security level.
JP 2005-239079 A (Claim 1, Claim 4, Paragraph Nos. 0008 to 0010, 0025)

  However, if the threshold value for biometric authentication is set to a high value, even if the user is an authorized user, biometric authentication cannot be passed unless this is cleared, and convenience is reduced. In other words, in such a case, the number of feature points that should match according to the physical condition at that time may not reach a predetermined threshold value and may not be determined as a regular user. Is very complicated.

  On the other hand, if the threshold value for biometric authentication is set to a low one, the so-called other person acceptance rate that can clear this and pass biometric authentication even if it is a third party will increase, in this case, Security level is reduced.

  On the other hand, when the threshold value for biometric authentication is set to an intermediate value, it seems suitable at first glance, but in this case, it cannot be said that the security level is high and convenience is also excellent. Therefore, difficulties remain in both aspects.

  The present invention has been made paying attention to such problems, and its purpose is a security system that can flexibly cope with the situation in consideration of the required security level and convenience. Is to provide.

  In order to achieve the above object, the invention according to claim 1 detects the biological information of the subject who is the person to be authenticated by the biological information detection means, and the detected data is the biological information data of the authorized user. In a security system that uses biometric authentication to determine that a subject is a legitimate user when the number of feature points that match between reference data reaches a predetermined threshold, the result of past biometric authentication is obtained. And at least the threshold setting means for setting the threshold value for biometric authentication at this time to be changeable, and the threshold setting means sets the number of feature points that match between the detection data by the biometric information detection means and the reference data. The gist of the present invention is to include a determination unit that determines that the subject is a regular user when the threshold value is reached.

  According to this configuration, the threshold value for biometric authentication can be changed, so in a situation where priority should be given to the security level, the threshold value should be set to a high value, or convenience should be given priority. It is possible to set the threshold value to a lower value so as to be superior to that below. Accordingly, it is possible to flexibly cope with the situation in consideration of the required security level and convenience.

  According to a second aspect of the present invention, in the security system according to the first aspect, the threshold value setting means is provided when a person who has been determined to be a regular user in past biometric authentication has received the past biometric authentication. The gist of the present invention is to set at least the threshold for biometric authentication at this time to be lower than the threshold for biometric authentication in the past when the person continues the present biometric authentication.

  According to the same configuration, when a person who has been determined to be a legitimate user in past biometric authentication continues to be in the place where the previous biometric authentication has been received, The threshold is set to be lower than the past biometric threshold. For this reason, in the current biometric authentication, the number of feature points to be matched is smaller than that in the past biometric authentication, and thus the subject can easily clear this. Therefore, it is possible to make the system more convenient for an authorized user who has passed past biometric authentication.

  According to a third aspect of the present invention, in the security system according to the first or second aspect, a person who has been determined to be a legitimate user by past biometric authentication attempts to leave the place where the past biometric authentication has been received. The threshold value setting unit is further configured to move away from a place where a person who has been determined to be a legitimate user by past biometric authentication has received the past biometric authentication by the behavior detection unit. The gist is to set the threshold value for the next biometric authentication to an initial value when an action to be detected is detected.

  According to the same configuration, when a person who is determined to be a legitimate user by past biometric authentication detects an action to leave the place where the past biometric authentication was received, the person who will receive the next biometric authentication is the legitimate user. Not necessarily. For this reason, assuming that the person who will receive the next biometric authentication may be a third party, select a higher threshold for biometric authentication and use it as the initial value so that the third party The possibility that the biometric authentication can be passed can be reduced. Therefore, the so-called acceptance rate of others is lowered, and the security level can be improved.

Since this invention is comprised as mentioned above, there exist the following effects.
According to the present invention, it is possible to flexibly cope with the situation in consideration of the required security level and convenience.

Hereinafter, an embodiment embodying the present invention will be described.
As shown in FIG. 1, the security system 1 is applied to the vehicle of this embodiment. The security system 1 includes an electronic key 2 possessed by a vehicle user and a security device 3 provided on the vehicle side, and bidirectional communication is possible between them. The electronic key 2 is called a portable device because of its possession.

  The electronic key 2 has a reception function by wireless communication and a transmission function by wireless communication, and includes a reception antenna 21, a reception circuit 22, a microcomputer 23, a transmission circuit 24, and a transmission antenna 25.

  The receiving antenna 21 is a medium for receiving a request signal transmitted from the security device 3. The reception circuit 22 demodulates the request signal received by the reception antenna 21 to generate a reception signal, and outputs the reception signal to the microcomputer 23.

  The microcomputer 23 includes a non-volatile memory 23a, and an ID code (ID code of the electronic key 2) individually set for the electronic key 2 is stored in the memory 23a. When the reception signal related to the request signal is input from the reception circuit 22, the microcomputer 23 generates a signal (ID code signal) including the ID code of the electronic key 2 in order to respond to the request signal. The code signal is output to the transmission circuit 24.

  The transmission circuit 24 modulates the ID code signal input from the microcomputer 23 into a radio wave having a predetermined frequency (300 MHz in this embodiment). The transmission antenna 25 is a medium for transmitting the ID code signal modulated by the transmission circuit 24.

  The security device 3 has a transmission function by wireless communication and a reception function by wireless communication, and includes a transmission circuit 31, a transmission antenna 32, a reception antenna 33, a reception circuit 34, and a verification device 35.

  The transmission circuit 31 modulates the request signal input from the collation device 35 into a radio wave having a predetermined frequency (134 KHz in this embodiment). The transmission antenna 32 is a medium for transmitting the request signal modulated by the transmission circuit 31.

  Here, the request signal transmitted from the transmission antenna 32 extends over substantially the entire area inside the vehicle and hardly reaches outside the vehicle. In FIG. 2, the region is indicated by a two-dot chain line as a predetermined region A32 in the vehicle. In the predetermined area A32 in the vehicle, bidirectional communication between the electronic key 2 and the security device 3 is possible. That is, when the electronic key 2 is brought into the predetermined area A32 in the vehicle while the request signal is transmitted in the predetermined area A32 in the vehicle, the request signal is received by the electronic key 2 and the electronic key 2 2 transmits an ID code signal.

  Returning to FIG. 1, the receiving antenna 33 is a medium for receiving an ID code signal transmitted from the electronic key 2 as a response signal to the request signal. The receiving circuit 34 demodulates the ID code signal received by the receiving antenna 33 to generate a received signal, and outputs the received signal to the verification device 35.

  The verification device 35 includes a non-volatile memory 35a, and the memory 35a has the same ID code as the ID code of the electronic key 2 (= the regular electronic key 2) that is suitable for the vehicle on which the security device 3 is mounted. A code (reference ID code) is stored.

  The collation device 35 is electrically connected to a door courtesy switch 40 for detecting the open / closed state of the door, and the collation device 35 indicates that the door has been opened based on a detection signal to be input. recognize. Then, when the door is opened, the verification device 35 outputs a request signal to the transmission circuit 31 in order to monitor boarding (entry into the predetermined area A32 in the vehicle) by the owner of the proper electronic key 2. That is, in this case, the collation device 35 performs in-vehicle communication control. As a result, a request signal is transmitted from the transmission antenna 32 into the predetermined area A32 in the vehicle.

  When the reception signal related to the ID code signal is input from the reception circuit 34 due to the execution of the in-vehicle communication control, the verification device 35 matches the ID code included in the reception signal with the reference ID code. Judge whether or not. That is, in this case, the collating device 35 executes in-vehicle ID code verification (in-vehicle key authentication). And the collation apparatus 35 determines with the regular electronic key 2 being utilized, when both ID codes correspond by this in-vehicle key authentication. As a result, when the regular electronic key 2 is used, one of the conditions necessary for starting the engine is satisfied.

Next, feature points in the vehicle of this embodiment will be described.
In the vehicle of the present embodiment, as a condition for allowing the engine to start, in addition to determining that the regular electronic key 2 has been used by in-vehicle key authentication, biometric authentication (in this embodiment, finger vein authentication is used) ) To determine that the user is an authorized user.

  The verification device 35 is electrically connected to an engine start button 50 that functions as an operating means that is operated when starting the engine. The engine start button 50 is connected to a person who performs the engine start operation. The finger vein sensor 55 for detecting the biometric information (finger vein pattern in this embodiment) is provided. The finger vein sensor 55 detects a finger vein pattern of a person who performs the operation of pressing the engine start button 50, that is, a person who receives finger vein authentication (subject) so that the engine is allowed to start. At the same time, the detected finger vein pattern data is output to the collating device 35.

  The memory 35a stores finger vein pattern data (reference finger vein pattern data) as biometric information data of the authorized user, and the matching device 35 uses the detected finger vein pattern data input from the finger vein sensor 55 as a reference. Match with finger vein pattern data. And the collation apparatus 35 determines with a test subject being a regular user, when the number of the feature points which correspond between both data reaches a predetermined threshold value.

  Then, when the verification device 35 determines that the regular electronic key 2 is used by in-vehicle key authentication and determines that the subject is a regular user by biometric authentication, the engine control device 35 allows the engine to start. An engine start permission signal is output to 60. As a result, the engine is started by the engine control device 60.

  The collating device 35 is electrically connected to a shift lever 70 that functions as an operating means that is operated when switching the shift position. The shift lever 70 is connected to a person who performs a shift operation. A finger vein sensor 75 for detecting biological information (in this embodiment, a finger vein pattern) is provided. The finger vein sensor 75 detects the finger vein pattern of the person who performs the shift operation of the shift lever 70, that is, the person (subject) who receives the finger vein authentication so that the shift position can be switched. At the same time, the detected finger vein pattern data is output to the collating device 35.

  The collation device 35 collates the detected finger vein pattern data input from the finger vein sensor 75 with the reference finger vein pattern data, and when the number of matching feature points between the two data reaches a predetermined threshold, the subject Is determined to be a regular user.

  When the verification device 35 determines that the subject is a legitimate user through biometric authentication, the verification device 35 outputs a shift position switching permission signal to the shift control device 80 in order to allow switching of the shift position. As a result, the shift position is switched by the shift control device 80.

Next, an operation for setting a threshold value for biometric authentication will be described.
When the door is opened (YES in S1 shown in FIG. 3), the verification device 35 sets the biometric authentication threshold value to an initial value (S2). In the present embodiment, this initial value is defined as the first threshold value, and the number of feature points to be matched, which means this, is “10”.

  When the subject operates the engine start button 50 (shift lever 70) with the biometric authentication threshold set to the first threshold in this manner, the verification device 35 detects by the finger vein sensor 55 (finger vein sensor 75). Finger vein pattern data is collated with reference finger vein pattern data. Then, in this case, when the number of matching feature points between the two data reaches “10”, the collation device 35 determines that the subject is a regular user (that is, biometric authentication has been established) (YES in S3). ).

  When the biometric authentication is thus established, the collation device 35 sets the biometric authentication threshold to a second threshold lower than the first threshold (S4). This means that the number of feature points to be matched is “7”.

  When the subject operates the engine start button 50 (shift lever 70) without opening the door (NO in S5) with the biometric authentication threshold set to the second threshold in this manner. The finger vein pattern data detected by the finger vein sensor 55 (finger vein sensor 75) is collated with the reference finger vein pattern data. Then, in this case, when the number of matching feature points between the two data reaches “7”, the collation device 35 determines that the subject is a regular user (biometric authentication is established) (YES in S6). .

  When the biometric authentication is thus established, the collation device 35 maintains the biometric authentication threshold value set to the second threshold value (S4). That is, the collation device 35 sets the biometric authentication threshold to the second threshold on the condition that the door cannot be opened when the biometric authentication threshold is set to the second threshold lower than the first threshold. Keep set. On the other hand, when the door is opened (YES in S5), the verification device 35 sets the biometric authentication threshold to an initial value (first threshold) (S2).

  Unlike such a configuration, a biometric authentication is provided on the condition that a third threshold, a fourth threshold, and the like are provided as the biometric authentication threshold in addition to the first threshold and the second threshold, and the door cannot be opened. Each time is established, a lower threshold value may be set. For example, when the first threshold (initial value) is “10”, the second threshold is “7”, the third threshold is “5”, and the fourth threshold is “3”, the door can be opened. If there is no such condition, each time biometric authentication is established, the first threshold value, the second threshold value, the third threshold value, and the fourth threshold value may be set. When the door is opened, the first threshold (initial value) may be set regardless of which threshold is set.

Next, the operation when driving the vehicle will be described.
When the user holding the electronic key 2 opens the door, a request signal is transmitted into the predetermined area A32 in the vehicle, and when the user enters the vehicle, the request signal is received by the electronic key 2. Then, an ID code signal is transmitted from the electronic key 2 and the ID code signal is received by the security device 3. Then, the collation device 35 of the security device 3 collates the ID code included in the ID code signal with the reference ID code, and when both codes match by such in-vehicle key authentication, it is determined that the regular electronic key 2 has been used. The

  When the user presses the engine start button 50, the finger vein pattern of the user is detected by the finger vein sensor 55, and the detected finger vein pattern data is output from the finger vein sensor 55 to the verification device 35. . Then, the collation device 35 collates the detected finger vein pattern data with the reference finger vein pattern data. At this stage, since the biometric authentication has not yet been established after the door is opened, the first threshold (initial value) “10” is selected as the biometric authentication threshold at this time. Is done. Therefore, at this time (first time), when the number of matching feature points between the two data reaches “10”, the subject (a user who has received finger vein authentication to allow the engine to start) ) Is determined to be an authorized user.

  When it is determined that the authorized electronic key 2 is used by the key authentication and the subject is determined to be the authorized user by the biometric authentication, the two conditions necessary for starting the engine are both satisfied. Then, an engine start permission signal is output from the verification device 35 to the engine control device 60. As a result, the engine is started by the engine control device 60.

  Next, when the user performs a shift operation to switch the shift position from the parking position to the drive position, the finger vein pattern of the user is detected by the finger vein sensor 75, and the detected finger vein pattern data is received from the finger vein sensor 75. It is output to the collation device 35. Then, the collation device 35 collates the detected finger vein pattern data with the reference finger vein pattern data. At this stage, since the biometric authentication has already been established once and the door has not been opened after it has been established, the second threshold “7” is set as the biometric authentication threshold at this time. Is selected. Therefore, in the biometric authentication at this time (second time), when the number of matching feature points between the two data reaches “7”, the subject (finger vein authentication was received so as to allow shift position switching). User) is determined to be a regular user.

  When it is determined by biometric authentication that the subject is an authorized user, a shift position switching permission signal is output from the verification device 35 to the shift control device 80. As a result, the shift control device 80 switches the shift position from the parking position to the drive position.

  Next, when the user performs a shift operation to switch the shift position from the drive position to the reverse position, the finger vein pattern of the user is detected by the finger vein sensor 75, and the detected finger vein pattern data is detected by the finger vein sensor. 75 to the collation device 35. Then, the collation device 35 collates the detected finger vein pattern data with the reference finger vein pattern data. At this stage, since the biometric authentication has already been established twice, and the door has not been opened after they have been established, the second threshold “7” is set as the biometric authentication threshold at this time. Is selected. Therefore, even in the biometric authentication at this time (third time), when the number of matching feature points between the two data reaches “7”, the subject (finger vein authentication was received so as to allow shift position switching). User) is determined to be a regular user.

  When it is determined by biometric authentication that the subject is an authorized user, a shift position switching permission signal is output from the verification device 35 to the shift control device 80. As a result, the shift control device 80 switches the shift position from the drive position to the reverse position.

  Eventually, when the user finishes driving and opens the door when getting off, the first threshold (initial value) “10” is selected as the threshold for the next biometric authentication. Therefore, in the next biometric authentication, when the number of matching feature points between the two data reaches “10”, it is determined that the subject is a regular user.

  In the present embodiment, the finger vein sensors 55 and 75 correspond to a biological information detection unit that detects biological information (finger vein pattern) of a subject who is a person who receives authentication (finger vein authentication). On the other hand, the verification device 35 of the security device 3 corresponds to a threshold setting unit that receives a result of past biometric authentication and sets at least the current biometric threshold to be changeable. In addition, the collation device 35 is used as a determination unit that determines that the subject is a regular user when the number of feature points that match between the detected finger vein pattern data and the reference finger vein pattern data reaches a predetermined threshold. Equivalent to. On the other hand, the door courtesy switch 40 corresponds to a behavior detection unit that detects a behavior of a person who has been determined to be a legitimate user in past biometric authentication and is about to leave the place where the past biometric authentication has been received.

As described above, according to the present embodiment, the following operations and effects can be obtained.
(1) Since the threshold value for biometric authentication can be changed, the threshold value is set to a high value so that the security level becomes high in a situation where priority should be given, or the convenience should be given priority. It is possible to set the threshold value to be low so as to be superior to that. Accordingly, it is possible to flexibly cope with the situation in consideration of the required security level and convenience.

  (2) A person who has been determined to be a legitimate user by past biometric authentication continues to be in the place where the previous biometric authentication has been received, and the person has passed this biometric authentication, that is, passed biometric authentication once. When the person receives the second biometric authentication without opening the door, at least the current biometric threshold is set to be lower than the past biometric threshold. For this reason, in the current biometric authentication, the number of feature points to be matched is smaller than that in the past biometric authentication, and thus the subject can easily clear this. Therefore, it is possible to make the system more convenient for an authorized user who has passed past biometric authentication.

  (3) When a person who has been determined to be a legitimate user by past biometric authentication detects an action to leave the place where the previous biometric authentication was received, that is, when the door is opened, the next biometric authentication The person who receives it is not necessarily a regular user. For this reason, assuming that the person who will receive the next biometric authentication may be a third party, select a higher threshold for biometric authentication and use it as the initial value so that the third party The possibility that the biometric authentication can be passed can be reduced. Therefore, the so-called acceptance rate of others is lowered, and the security level can be improved.

  (4) Unlike the configuration of the present embodiment, instead of receiving the result of past biometric authentication, at least the current biometric authentication threshold is lowered in response to the result that the regular electronic key 2 is used by in-vehicle key authentication. In the case of adopting a configuration that changes to a thing, the following problems occur in a situation where the regular electronic key 2 is left behind in the vehicle. That is, in this case, when a third party gets into the vehicle and receives biometric authentication in a state where the regular electronic key 2 is misplaced, a low threshold is selected, so that the third party passes biometric authentication. The possibility of being able to be increased. In this regard, the configuration of the present embodiment is such that the threshold for the second biometric authentication is lowered on the condition that the biometric authentication is passed once, so that the regular electronic key 2 is left behind in the vehicle. In any case, a third party who has entered the vehicle needs to pass biometric authentication with a high threshold, and therefore, the possibility that the third party can pass biometric authentication can be reduced.

  (5) Although the threshold for the second biometric authentication is lower than that for the first, it does not mean that the second biometric authentication is not performed at all. For this reason, even if biometric authentication is passed once, a security level can be raised compared with the structure which does not perform biometric authentication of the 2nd time at all.

In addition, the said embodiment can also be changed and actualized as follows.
・ Instead of or in addition to the door courtesy switch 40, a seating sensor for detecting the presence or absence of an occupant seated in the driver's seat, a buckle switch for detecting the presence or absence of a seat belt by the occupant seated in the driver's seat, etc. You may employ | adopt as a detection means. When adopting a seating sensor, it is inconvenient for a legitimate user if the next biometric authentication threshold is set to an initial value when an occupant seated in the driver's seat performs an operation of raising his / her waist momentarily. Therefore, in order to avoid this, it is desirable that the threshold value for the next biometric authentication is set to the initial value only when a predetermined period has passed without sitting.

In place of or in addition to finger vein authentication, biometric authentication relating to fingerprints, voiceprints, faces, irises, retinas, palm veins, etc. may be employed.
-You may embody in the security system which performs two-way communication between the security apparatus 3 which performs not only in-vehicle communication control but external vehicle communication control, and the electronic key 2. FIG. In this case, in addition to the in-vehicle communication control, the security device 3 performs in-vehicle communication control for transmitting a request signal to a predetermined area outside the vehicle. Then, in addition to the in-vehicle key authentication, the security device 3 checks the ID code included in the ID code signal from the electronic key 2 associated with the external communication control with the reference ID code. Car external key authentication is performed to determine that the electronic key is used.

  Here, the security device 3 detects that the vehicle door has been opened by the door courtesy switch 40 after it is determined that the regular electronic key 2 has been used in conjunction with the execution of the vehicle exterior communication control, and then the vehicle interior communication is performed. When it is determined that the regular electronic key 2 has been used with the execution of the control, at least the next biometric authentication threshold is set to be lower than the initial value.

  According to this configuration, when the owner of the authorized electronic key 2 temporarily goes out of the vehicle and then returns to the vehicle and resumes driving, the threshold for biometric authentication performed prior to resuming driving is the initial value. Is set to a lower value. For this reason, in the biometric authentication at this time, since the number of feature points to be matched is smaller than the initial value, the subject can easily clear it. Therefore, it is possible to make it convenient for the holder of the regular electronic key 2. In addition, when a third party who does not have the regular electronic key 2 receives biometric authentication prior to driving, key authentication is not established, so the threshold value remains the initial value. The possibility that a third party can pass biometric authentication can be reduced.

  By the way, even if a third party gets into the car and keeps driving with the legitimate electronic key 2 left behind in the car, the biometric threshold that precedes it remains the initial value. If it is high, the possibility that a third party can pass biometric authentication can be reduced. The reason for this is that when a third party performs such an action, vehicle key authentication has not been established, and vehicle interior key authentication has already been established before door opening is detected. This is because the condition (order of establishment of vehicle key authentication → establishment of door key → establishment of vehicle key authentication) necessary for setting a value lower than the initial value is not satisfied.

In such a configuration, when the door is opened, the threshold for the next biometric authentication may be set to an initial value.
When constructing a security system using biometric authentication, instead of or in addition to the engine start button 50 and the shift lever 70, each operation means such as a door outside handle, a steering wheel, etc., biometric information detection means such as a finger vein sensor May be provided.

  The present invention may be embodied not only as a security system for vehicles but also as a security system for buildings. In this case, for example, finger vein sensors are provided for each operation means such as a house entrance, a door knob of each room, and a lighting switch. Biological information detection means such as the above may be provided.

  -Although it is an example different from biometric authentication, it may be embodied in a security system that accepts the result of collation of past passwords and sets at least the number of digits (threshold) necessary for this collation. For example, as the number of digits of the personal identification number to be input, the number of digits required for the first verification may be set to 4 digits, the second to 3 digits, and the third to 2 digits. In this case as well, when the door is opened, the threshold value for the next verification may be set to the initial value (4 digits).

Next, a technical idea that can be grasped from the above embodiment and its modified examples will be described.
[1] The biometric information of the subject who is authenticated is detected by the biometric information detection means, and the detected data is compared with the reference data that is the biometric information data of the authorized user. When the number reaches a predetermined threshold, in the security system using biometric authentication that determines that the subject is a regular user,
A security device that performs out-of-vehicle communication control that transmits a request signal to a predetermined area outside the vehicle and in-vehicle communication control that transmits a request signal to the predetermined area inside the vehicle, and is individually set for the own key in response to the request signal Two-way communication is performed with an electronic key that transmits an ID code signal including an ID code, and the ID code included in the ID code signal from the electronic key is set as an authorized electronic key through the two-way communication. The electronic key system that uses key authentication to determine that the legitimate electronic key has been used and the vehicle door has been opened when both codes match with a reference ID code that is the same ID code as Linked to the door courtesy switch
After it is determined that a legitimate electronic key has been used in conjunction with the execution of the vehicle exterior communication control, it is detected that the vehicle door has been opened by the door courtesy switch. A threshold value setting means for setting a threshold value for at least the next biometric authentication to a value lower than the initial value when it is determined that the electronic key is used;
A determination unit that determines that the subject is a regular user when the number of feature points that match between the detection data by the biological information detection unit and the reference data reaches a threshold set by the threshold setting unit; A security system characterized by comprising:

  According to the same configuration, when the owner of the authorized electronic key temporarily goes out of the vehicle and then returns to the vehicle and resumes driving, the threshold of biometric authentication performed prior to restarting the driving is more than the initial value. Is also set low. For this reason, in the biometric authentication at this time, since the number of feature points to be matched is smaller than the initial value, the subject can easily clear it. Therefore, it is possible to make it convenient for the holder of the regular electronic key. If a third party who does not have a legitimate electronic key receives biometric authentication prior to driving, key authentication is not established, so the threshold value remains the initial value. The possibility that the three parties can pass biometric authentication can be reduced.

  By the way, when a third party gets into the car and keeps driving with the legitimate electronic key left behind in the car, the biometric threshold prior to that remains the initial value, so this is also high. Then, the possibility that a third party can pass biometric authentication can be reduced. The reason for this is that when a third party performs such an action, vehicle key authentication has not been established, and vehicle interior key authentication has already been established before door opening is detected. This is because the condition (order of establishment of vehicle key authentication → establishment of door key → establishment of vehicle key authentication) necessary for setting a value lower than the initial value is not satisfied.

[2] In the security system described in the technical idea [1],
It further comprises behavior detection means for detecting a behavior of a person who has been determined to be a legitimate user in past biometric authentication and who is about to leave the place where the past biometric authentication was received,
The threshold setting means detects the next biometric when the action detecting means detects an action that a person who has been determined to be a legitimate user by past biometric authentication attempts to leave the place where the past biometric authentication has been received. A security system characterized by setting an authentication threshold to an initial value.

  According to the same configuration, when a person who is determined to be a legitimate user by past biometric authentication detects an action to leave the place where the past biometric authentication was received, the person who will receive the next biometric authentication is the legitimate user. Not necessarily. For this reason, assuming that the person who will receive the next biometric authentication may be a third party, select a higher threshold for biometric authentication and use it as the initial value so that the third party The possibility that the biometric authentication can be passed can be reduced. Therefore, the so-called acceptance rate of others is lowered, and the security level can be improved.

The block diagram which shows the structure of the security system applied to the vehicle of this embodiment. Explanatory drawing which shows the predetermined area | region in a vehicle. The flowchart which shows operation | movement in the case of setting the threshold value of biometric authentication.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Security system, 2 ... Electronic key, 3 ... Security apparatus, 35 ... Verification apparatus (threshold setting means, determination means), 40 ... Door courtesy switch (action detection means), 55 ... Finger vein sensor (biological information detection means), 75: Finger vein sensor (biological information detection means).

Claims (3)

The biometric information of the subject who is authenticated is detected by the biometric information detection means, and the detected data is collated with the reference data that is the biometric information data of the authorized user, and the number of matching feature points between the two data is predetermined. In the security system using biometric authentication that determines that the subject is a legitimate user when the threshold is reached,
A threshold setting means for receiving a result of past biometric authentication and setting at least the threshold of the current biometric authentication to be changeable;
A determination unit that determines that the subject is a regular user when the number of feature points that match between the detection data by the biological information detection unit and the reference data reaches a threshold set by the threshold setting unit; A security system characterized by comprising: When the person who has been determined to be an authorized user in the past biometric authentication stays in the place where the past biometric authentication has been received and the person has undergone the present biometric authentication, the threshold setting means is at least the present biometric authentication. The security system according to claim 1, wherein the threshold value is set to be lower than the past biometric authentication threshold value. In the security system according to claim 1 or 2,
It further comprises behavior detection means for detecting a behavior of a person who has been determined to be a legitimate user in past biometric authentication and who is about to leave the place where the past biometric authentication was received,
The threshold setting means detects the next biometric when the action detecting means detects an action that a person who has been determined to be a legitimate user by past biometric authentication attempts to leave the place where the past biometric authentication has been received. A security system characterized by setting an authentication threshold to an initial value.

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