JP7091619B2 - Authentication processing device, IC card, authentication processing method, and authentication processing program - Google Patents

Description

The present invention relates to a technical field of an authentication processing device capable of authenticating a user (personal authentication) using the biometric information of the user and determining whether or not the physical condition of the user satisfies a standard. ..

Conventionally, for example, a drunk driving prevention device as shown in Patent Document 1 has been proposed. When the driver presses the pressing part of the start switch to start the engine of the vehicle, this drunk driving prevention device irradiates the driver's finger with infrared rays from an infrared light source, and images the finger in this state. Personal authentication is performed using the blood vessel pattern obtained. The drunk driving prevention device detects the alcohol component by the alcohol sensor provided in the start switch when the personal authentication is successful, and starts the engine of the vehicle only when the alcohol is not detected (). Paragraphs 0049 to 0051, etc.).

Japanese Unexamined Patent Publication No. 2008-308037

However, in the drunk driving prevention device disclosed in Patent Document 1, when the start switch is pressed with a finger and the finger is released immediately after the time required for acquiring the blood vessel pattern (that is, the time required for successful authentication), the alcohol component is detected. Not enough time is available, and as a result, there may be an omission of detection that alcohol is not detected even though the patient is drinking.

Therefore, the present invention has been made in view of the above points, and is a case where authentication of a user using biometric information and determination of whether or not the physical condition of the user satisfies the criteria are performed at the same time. It is an object of the present invention to provide an authentication processing device, an IC card, an authentication processing method, and an authentication processing program capable of more reliably preventing detection omission.

In order to solve the above problem, the invention according to claim 1 has a biometric information acquisition sensor for acquiring biometric information for use in user authentication, and a state information for acquiring state information indicating the physical condition of the user. An authentication processing device having an acquisition sensor and capable of communicating with a control device that controls the operation of a controlled object, a detection means for detecting contact with a part of the user's body, and the biometric information acquisition sensor. The state information obtained from the user authentication means for authenticating the user using the biometric information acquired by the detection means and the part of the body for which contact is detected by the detection means, and the state information acquisition. While the determination means for determining whether or not the state of the body indicated by the state information acquired by the sensor satisfies a preset criterion and the detection means for detecting a part of the user's body. The biometric information is provided with a transmission means for transmitting information indicating operation permission for the control target when the authentication by the authentication means is successful and the determination means determines that the criteria are satisfied. The acquisition sensor acquires the crest on the palm or finger pad of the user as the biometric information, and the user authentication means acquires the crest on the palm or finger pad of the user acquired by the biometric information acquisition sensor. The user is authenticated a plurality of times by using the above, and the user authentication means determines the ratio of the portion of the entire palm or finger pad using a random number, and the pattern of the portion of the determined ratio is determined. And, in the crest shown by the collation data stored in advance, it is determined whether or not the plurality of feature points in both crests match a predetermined number or more by collating with the crest of the portion of the portion, and both crests. When a plurality of feature points in the above match a predetermined number or more, it is determined that the authentication is successful .

The invention according to claim 2 is the authentication processing apparatus according to claim 1, wherein the determination means cancels the determination when the contact of a part of the user's body is no longer detected during the determination. It is characterized by that.

The invention according to claim 3 is the authentication processing apparatus according to claim 1, wherein the detection means detects an electrical change with respect to a part of the body.

The invention according to claim 4 is the authentication processing apparatus according to claim 1 , wherein the determination means uses a reference in which the physical condition is preset during a plurality of authentications of the user. It is characterized in that it is determined whether or not it is satisfied.

The invention according to claim 5 includes a biometric information acquisition sensor that acquires biometric information for use in user authentication, and a state information acquisition sensor that acquires state information indicating the physical condition of the user. An IC card that can communicate with a control device that controls the operation of a controlled object, and is a detection means that detects contact with a part of the user's body, and the living body acquired by the biometric information acquisition sensor. The state information obtained from the user authentication means that authenticates the user using the information and the part of the body whose contact is detected by the detection means, and the state information acquired by the state information acquisition sensor. The authentication means by the authentication means while the determination means for determining whether or not the state of the body indicated by the state information satisfies a preset standard and the detection means detect a part of the user's body. When the authentication is successful and the determination means determines that the criteria are satisfied, the biometric information acquisition sensor comprises a transmission means for transmitting information indicating operation permission for the control target, and the biometric information acquisition sensor is the user. The crest on the palm or finger pad of the user is acquired as the biometric information, and the user authentication means uses the crest on the palm or finger pad of the user acquired by the biometric information acquisition sensor to obtain the user's crest. The authentication is performed a plurality of times, and the user authentication means determines the ratio of the portion in the entire palm or finger pad using a random number, and the crest of the portion corresponding to the determined ratio is stored in advance. In the crest indicated by the collation data, it is determined whether or not the plurality of feature points in both crests match by a predetermined number or more by collating with the crests of the portion of the above ratio, and the plurality of feature points in both crests are If there are more than a predetermined number of matches, it is determined that the authentication is successful .

The invention according to claim 6 includes a biometric information acquisition sensor that acquires biometric information for use in user authentication, and a state information acquisition sensor that acquires state information indicating the physical condition of the user, and is a controlled object. It is an authentication processing method performed by a computer capable of communicating with a control device that controls the operation of the user, and is acquired by a detection step for detecting contact with a part of the user's body and the biometric information acquisition sensor. The user authentication step for authenticating the user using the biometric information and the state information obtained from the part of the body whose contact is detected by the detection step, which is acquired by the state information acquisition sensor. A determination step for determining whether or not the physical condition indicated by the state information satisfies a preset criterion, and the authentication step while a part of the user's body is detected by the detection step. The biometric information acquisition sensor includes a transmission step of transmitting information indicating operation permission to the control target when the authentication is successful and the determination step determines that the criteria are satisfied. , The crest on the palm or finger pad of the user is acquired as the biometric information, and in the user authentication step, the crest on the palm or finger pad of the user acquired by the biometric information acquisition sensor is used. The user is authenticated a plurality of times. In the user authentication step, a random number is used to determine the ratio of the portion of the entire palm or finger pad, and the crest of the portion corresponding to the determined ratio is determined. , In the crest indicated by the collation data stored in advance, it is determined whether or not the plurality of feature points in both crests match a predetermined number or more by collating with the crests of the parts of the above proportions, and in both crests. When a plurality of feature points match a predetermined number or more, it is determined that the authentication is successful .

The invention according to claim 7 includes a biometric information acquisition sensor that acquires biometric information for use in user authentication, and a state information acquisition sensor that acquires state information indicating the physical condition of the user, and is a controlled object. A computer capable of communicating with a control device that controls the operation of the user, using the detection means for detecting the contact of a part of the user's body and the biometric information acquired by the biometric information acquisition sensor. The state information obtained from the user authentication means for performing the authentication and the part of the body whose contact is detected by the detection means, and the body indicated by the state information acquired by the state information acquisition sensor. While the detection means detects a part of the user's body and the determination means for determining whether or not the state of the above satisfies a preset criterion, the authentication by the authentication means succeeds and When it is determined by the determination means that the criteria are satisfied, the biometric information acquisition sensor functions as a transmission means for transmitting information indicating operation permission for the control target, and the biometric information acquisition sensor is in the palm or finger pad of the user. The crest is acquired as the biometric information, and the user authentication means authenticates the user a plurality of times using the crest on the palm or finger pad of the user acquired by the biometric information acquisition sensor. There, the user authentication means determines the ratio of the portion of the entire palm or finger pad using a random number, and the crest of the portion corresponding to the determined ratio and the crest indicated by the collation data stored in advance. It is determined whether or not the plurality of feature points in both crests match a predetermined number or more by collating with the crests of the proportions, and the plurality of feature points in both crests match a predetermined number or more. In this case, it is characterized in that it is determined that the authentication is successful .

According to the present invention, it is possible to more reliably prevent omission of detection when the authentication of a user using biometric information and the determination of whether or not the physical condition of the user satisfies the criteria are performed at the same time. can.

It is a figure which shows an example of the functional block of the license confirmation apparatus 1 which concerns on this embodiment. (A) is a plan view showing an example of the internal structure when the license confirmation device 1 is an IC card, and (B) is a sectional view showing an example of the internal structure of the IC card shown in (A). .. (A) and (B) are diagrams showing a state in which the pad of a user's finger is in contact with the contact surface 11X of the biometric sensor 11 and the contact surface 12X of the alcohol sensor 12. (A) is a plan view showing an example of the internal structure of the alcohol sensor 12, and (B) and (C) are cross-sectional views showing an example of the internal structure of the alcohol sensor 12 (cross-sectional view of the XX portion). Is. (A) is a flowchart showing an example of the monitoring process executed by the control unit 136, and (B) is a flowchart showing an example of the license confirmation process executed by the control unit 136. It is a conceptual diagram which shows the transition of the operation state of the license confirmation apparatus 1. (A) is a flowchart showing an application example of the license confirmation process executed by the control unit 136, and (B) is a diagram showing an example of dividing the fingerprint area into two parts, (C). Is a diagram showing an example in which the fingerprint area is divided into three parts.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The embodiment described below is an embodiment when the present invention is applied to a license confirmation device that executes an operation permission / rejection determination for a controlled object. Examples of the control target include a vehicle (vehicle, ship, aircraft, train, etc., drive mechanism (for example, engine) of a hoist, a door lock / unlock drive mechanism, an alarm output circuit, and the like.

[1. Configuration and function of license confirmation device 1]
First, the configuration and function of the license confirmation device 1 according to the present embodiment will be described with reference to FIG. 1 and the like. The license confirmation device 1 is an example of the authentication processing device of the present invention. The license confirmation device 1 may be an IC card owned by the user. The IC card is used as a driver's license, employee card, personal certificate, and the like. FIG. 1 is a diagram showing an example of a functional block of the license confirmation device 1 according to the present embodiment. As shown in FIG. 1, the license confirmation device 1 according to the present embodiment includes a biometric sensor 11, an alcohol sensor 12, a secure element 13, and the like, and is a control unit 2 (control device) that controls the operation of the control target 3. It is possible to communicate with (one example) via wired or wireless. For example, when the license confirmation device 1 is mounted on a vehicle, the license confirmation device 1 has an engine control unit that controls the operation of the engine, a steering control unit that controls the steering operation, and a shift lever that controls the operation of the shift lever. Communicate with the control unit. The engine control unit, steering control unit, and shift lever control unit may be connected to a gateway device that serves as an interface with the license confirmation device 1.

The biometric sensor 11 is an example of a biometric information acquisition sensor that acquires biometric information for use in authentication of a user who uses the license confirmation device 1 (hereinafter, referred to as “user authentication”). In the present embodiment, the pad of the finger of the user is taken as an example as a part of the body of the user, and the fingerprint of the user (the crest on the pad of the finger) is taken as an example of biometric information. The biometric sensor 11 has, for example, tens of thousands of electrodes, a contact surface with which the pad of the user's finger comes into contact, and the like. When the pad of the user's finger comes into contact with the contact surface, the electrode is charged with an amount of electric charge according to the proximity to the contact surface due to the unevenness (that is, the unevenness constituting the fingerprint) on the pad of the user's finger. Accumulate. Then, the biometric sensor 11 detects the amount of electric charge accumulated in each electrode and converts it into a numerical value (that is, a numerical value corresponding to the amount of electric charge) to show biometric information (matrix corresponding to an image) indicating a fingerprint. Is acquired, and the acquired biometric information is transmitted to the secure element 13 via a wiring (not shown).

The alcohol sensor 12 is an example of a state information acquisition sensor that acquires state information indicating the physical condition of the user. In this embodiment, the concentration of alcohol is taken as an example as state information. The alcohol sensor 12 has a contact surface or the like with which the pad of the user's finger comes into contact. When the pad of the user's finger comes into contact with this contact surface, the alcohol sensor 12 detects fluorescence according to the concentration of the alcohol component contained in the sweat of the user and converts it into a numerical value (a numerical value according to the intensity of fluorescence). By converting, the state information indicating the intensity of the fluorescence is acquired, and the acquired state information is transmitted to the secure element 13 via a wiring (not shown).

FIG. 2A is a plan view showing an example of the internal structure when the license confirmation device 1 is an IC card, and FIG. 2B is an example of the internal structure of the IC card shown in FIG. 2A. It is a cross-sectional view (cross-sectional view of XX part) which shows. As shown in FIG. 2B, the IC card is insulated by laminating an insulating sheet 1x on a printing sheet 2x as a base material (in the example of FIG. 2B, a printing sheet on the lower side (back side)). A print sheet 3x (in the example of FIG. 1B, a print sheet on the upper side (front side)) is laminated on the sheet 1x. That is, the insulating sheet 1x is sandwiched between the two printing sheets 2x and 3x. Such a laminated structure is formed by a method such as spin coating or coating. The insulating sheet 1x is made of, for example, a polyimide having a thickness of about 50 μm to 400 μm. The print sheets 2x and 3x are made of, for example, polyethylene terephthalate (PET) or PET-G having a thickness of about 100 μm, respectively. The print sheet 2x is printed on the back side 4x, and the print sheet 3x is printed on the front side 5x.

A biometric sensor 11, an alcohol sensor 12, a secure element 13, and an antenna 14 are mounted on the insulating sheet 1x. In particular, the biometric sensor 11 and the alcohol sensor 12 are arranged side by side on the print sheet 2x so as not to overlap each other in the thickness direction Y of the print sheet 2x. By arranging the biometric sensor 11 and the alcohol sensor 12 side by side on the printed sheet 2x in this way, the user can perform personal authentication (user authentication) and alcohol detection (alcohol component detection) without moving the finger. Therefore, if each process is continuously performed, the troublesomeness given to the user who is the subject can be reduced. The contact surface 11X of the biometric sensor 11 and the contact surface 12X of the alcohol sensor 12 can each have the pad of the user's finger in contact with the through hole 101 provided in the printing sheet 3x.

Further, in the example of FIG. 2B, since the biometric sensor 11, the alcohol sensor 12, and the secure element 13 are fixedly arranged on the printed sheet 2x, the insulating sheet 1x has a through hole from the front surface to the back surface thereof. 102 is provided. A biometric sensor 11, an alcohol sensor 12, and a secure element 13 are incorporated (fitted) into the through hole 102, and are bonded, for example. The biometric sensor 11, the alcohol sensor 12, and the secure element 13 each have a thickness equal to or less than the thickness of the insulating sheet 1x. The thickness of the secure element 13 is usually in the range of about 50 μm to 200 μm. The biometric sensor 11 and the alcohol sensor 12 are electrically connected to the secure element 13 via, for example, a wiring pattern formed on the insulating sheet 1x.

3A and 3B are views showing a state in which the pad of the user's finger is in contact with the contact surface 11X of the biometric sensor 11 and the contact surface 12X of the alcohol sensor 12. As shown in FIG. 3A, the biometric sensor 11 and the alcohol sensor 12 are arranged side by side on the IC card (that is, the printing sheet 2x) as the license confirmation device 1. By arranging the biometric sensor 11 and the alcohol sensor 12 side by side in this way, the user can perform personal authentication (user authentication) and alcohol detection (alcohol component detection) without moving his / her finger. If this is continuously performed, the annoyance given to the user who is the subject can be reduced.

As another example of the method of arranging the biometric sensor 11, the alcohol sensor 12, and the secure element 13, the biometric sensor 11 and the alcohol sensor 12 are placed on the surface (upper surface or lower surface) of the insulating sheet 1x. , And the secure element 13 may be configured to be arranged (eg, arranged by adhesion). In this case, a spacer sheet or the like is laminated on the side where the biometric sensor 11, the alcohol sensor 12, and the secure element 13 protrude (that is, a spacer sheet or the like is provided between the insulating sheet 1x and the printing sheet 2x or 3x. In addition, a through hole capable of absorbing the height of these components is provided in a portion of the spacer sheet or the like where the biometric sensor 11, the alcohol sensor 12, and the secure element 13 come into contact with each other.

The antenna 14 is formed by forming a resist on, for example, an aluminum foil laminated on an insulating sheet 1x, and leaving only the coil shape by a photo-etching technique. The antenna 14 is formed so as to be wound for several turns on the 1x surface of the insulating sheet. Further, both ends of the coil forming the antenna 14 are electrically connected to the secure element 13 via, for example, a wiring pattern formed on the insulating sheet 1x. When the IC card is held by the reader / writer RW, electric power is generated in the coil of the antenna 14 by the electromagnetic wave from the reader / writer RW, and the electric power is supplied to the secure element 13. Further, power is supplied from the secure element 13 to the alcohol sensor 12 and the biometric sensor 11 via the wiring pattern. The IC card is, for example, press-laminated in a state where the insulating sheet 1x on which the biometric sensor 11, the alcohol sensor 12, the secure element 13, and the antenna 14 are mounted and the printing sheets 2x and 3x are laminated. Generated by.

Next, the details of the configuration and function of the alcohol sensor 12 will be described with reference to FIG. 4 (A) is a plan view showing an example of the internal structure of the alcohol sensor 12, and FIGS. 4 (B) and 4 (C) are cross-sectional views (XX portions) showing an example of the internal structure of the alcohol sensor 12. (Cross section). As shown in FIGS. 3A and 3B, the alcohol sensor 12 includes an insulating resin material 121, a light transmitting resin material 122, a dehydrogenase film material 123, an ultraviolet light emitting diode 124, a photo sensor 125, and the like. .. Further, the alcohol sensor 12 is formed by laminating a light-transmitting resin material 122 and a dehydrogenase film material 123 on an insulating resin material 121. The insulating resin material 121 is made of, for example, a polyimide having a thickness of 40 μm to 200 μm. The light-transmitting resin material 122 and the dehydrogenase film material 123 have a thickness of about 10 μm to 200 μm, respectively, and the upper surface of the light-transmitting resin material 122 and the dehydrogenase film material 123 is penetrated by the pad of the user's finger. Corresponds to the contact surface that is contacted through the hole 101. The light-transmitting resin material 122 is made of a material that transmits ultraviolet rays from the ultraviolet light emitting diode 124, but does not necessarily have to be provided as a component of the alcohol sensor 12.

An ultraviolet light emitting diode 124 and a photo sensor 125 are attached to the insulating resin material 121. In the example of FIG. 4B, the ultraviolet light emitting diode 124 and the photo sensor 125 are incorporated in the same insulating resin material 121 provided on the printing sheet 2x, and in the thickness direction Y of the printing sheet 2x, the ultraviolet light emitting diode 124 and the photo sensor 125 are incorporated. The light transmissive resin material 122 is arranged on the ultraviolet light emitting diode 124, and the dehydrogenase membrane material 123 is arranged on the photo sensor 125. However, in the example of FIG. 4B, the light emitting surface 124X of the ultraviolet light emitting diode 124 and the detection surface 125X of the photo sensor 125 are not covered with the insulating resin material 121, and the light emitting surface 124X is the light transmitting resin material 122. The detection surface 125X is in contact with the dehydrogenase membrane material 123. According to the structure of the alcohol sensor 12 shown in FIG. 4B, the ultraviolet light emitting diode 124 is covered with the insulating resin material 121 and the light transmissive resin layer 122, and the photo sensor 125 is the insulating resin material 121 and the dehydrogenase film material. Since it is covered with 123, the durability of the product (IC card) can be improved. Further, according to the structure of the alcohol sensor 12 shown in FIG. 4 (B), the surface of the two modules can be easily shaped by being separated into the resin layer and the module layer, so that the production efficiency of the card can be improved. Can be done. On the other hand, in the example of FIG. 4C, the ultraviolet light emitting diode 124 is arranged on the insulating resin material 121 by, for example, adhesively, and the photo sensor 125 is insulated so that its detection surface 125X is not covered by the insulating resin material 121. It is incorporated in the resin material 121, and the dehydrogenase membrane material 123 is arranged on the photo sensor 125 in the thickness direction Y of the base material. According to the structure of the alcohol sensor 12 shown in FIG. 4C, since a permeable resin is not used, the manufacturing cost of members and the like can be kept low. In both cases of FIGS. 4 (B) and 4 (C), the ultraviolet light emitting diode 124 and the photo sensor 125 are arranged side by side on the print sheet 2x so as not to overlap each other in the thickness direction of the print sheet 2x.

The ultraviolet light emitting diode 124 receives power from the secure element 13 and emits ultraviolet rays having a wavelength near 340 nm (for example, 300 to 370 nm) from the light emitting surface 124X. The dehydrogenase membrane material 123 is irradiated with ultraviolet rays from the ultraviolet light emitting diode 124. The dehydrogenase membrane material 123 is produced, for example, by immobilizing a dehydrogenase on a carrier. For the carrier, a chemically stable material is used, which serves as a base for fixing the dehydrogenase. The dehydrogenase membrane material may be produced by solidifying the dehydrogenase itself without using a carrier.

Dehydrogenase is an enzyme that catalyzes the reaction of oxidizing alcohol (CH ₃ CH ₂ OH: ethanol) to acetaldehyde (CH ₃ CHO) in the presence of coenzyme. As the dehydrogenase, for example, alcohol dehydrogenase (EC.1.1.1.1, EC.1.1.1.2, EC.1.1.1.71) is used. As the coenzyme, NAD ⁺ (oxidized form of nicotinamide adenine dinucleotide) or NADP ⁺ (oxidized form of nicotinamide adenine dinucleotide phosphate) is used. This coenzyme is applied, for example, to the surface of the dehydrogenase membrane material. By the enzymatic reaction of alcohol, coenzyme, and dehydrogenase, acetaldehyde and NADH (reduced form of nicotinamide adenine dinucleotide) or NADPH (nicotinamide) are used as shown in the chemical formula (1) or (2) below. A reduced form of adenine dinucleotide phosphate) is produced.

CH ₃ CH ₂ OH + NAD ⁺ → CH ₃ CHO + NADH + H ⁺ ... (1)

CH ₃ CH ₂ OH + NADP ⁺ → CH ₃ CHO + NADPH + H ⁺ ... (2)

Here, NADH or NADPH is a substance produced in the dehydrogenase membrane material 123 by an alcohol component contained in the user's sweat (for example, sweat sweated from the pad of the user's finger), and depends on the concentration of alcohol. do. NADH or NADPH emits excited fluorescence by absorbing the ultraviolet rays emitted from the ultraviolet light emitting diode 124. That is, NADH or NADPH absorbs ultraviolet rays in the vicinity of 340 nm to change from the ground state to the excited state and emit fluorescence.

The photosensor 125 is configured to include a photodiode, and detects fluorescence emitted by NADH or NADPH generated in the dehydrogenase film material 123 due to an alcohol component contained in the user's sweat by absorbing ultraviolet rays in the vicinity of 340 nm. Detected through surface 125X. The fluorescence detected in this way is converted into a numerical value as described above, and is transmitted to the secure element 13 via wiring as state information. Since the wavelength of the fluorescence emitted as described above is 450 to 510 nm, a photosensor 125 that detects the fluorescence having a wavelength of 450 to 510 nm is adopted.

Next, the details of the configuration and the function of the secure element 13 will be described. The secure element 13 includes a program storage unit 131, a data storage unit 132, a transmission / reception unit 133 to 135, a control unit 136, and the like, and communicates with the control unit 2 via wired or wireless communication and is a biometric sensor. It controls the operation of the 11 and the alcohol sensor 12. The program storage unit 131 and the data storage unit 132 are composed of, for example, at least one of a ROM (Read Only Memory) and an NVM (Non Volatile Memory). Programs such as an OS (operating system) and an application are stored in the program storage unit 131. The data storage unit 132 stores collation data for collation used for user authentication, determination standard data indicating a determination standard (for example, a threshold value) for determining the physical condition of the user, and the like. Here, biometric information acquired in advance by the biometric sensor 11 is used as the collation data. Therefore, the collation data indicates a fingerprint on the pad of the user's finger.

The transmission / reception unit 133 serves as an interface for communicating with the control unit 2. The transmission / reception unit 134 includes a connection terminal connected to the wiring from the biometric sensor 11, and serves as an interface for communicating with the biometric sensor 11. The transmission / reception unit 135 includes a connection terminal connected to the wiring from the alcohol sensor 12, and serves as an interface for communicating with the alcohol sensor 12.

The control unit 136 (an example of a computer) is composed of a CPU (Central Processing Unit), a RAM (Random Access Memory), a random number generator, and the like, and the control unit 136 stores a program in response to a request from the control unit 2. The license confirmation process is executed according to the program stored in the unit 131. The license confirmation process is a process of confirming whether or not to grant an operation permission (in other words, to grant a license) to the controlled object 3 (that is, to determine whether or not the operation is permitted). In the license confirmation process, the control unit 136 includes an information acquisition unit 1361, a user body detection unit 1362 (an example of a detection means), a user authentication unit 1363 (an example of a user authentication means), and a state determination unit 1364 (an example of a determination means). And functions as an information transmission unit 1365 (an example of transmission means) and the like.

The information acquisition unit 1361 activates the biometric sensor 11 by transmitting an activation signal to the biometric sensor 11 via the transmission / reception unit 134. In this state, when the pad of the user's finger is placed on the contact surface of the biometric sensor 11, the biometric sensor 11 detects the amount of charge accumulated in the electrode and acquires and acquires biometric information indicating a fingerprint. Biometric information is transmitted to the secure element 13 via wiring. As a result, the information acquisition unit 1361 receives (acquires) the biometric information acquired by the biometric sensor 11 via the transmission / reception unit 134.

Further, the information acquisition unit 1361 activates the alcohol sensor 12 by transmitting an activation signal to the alcohol sensor 12 via the transmission / reception unit 135. When the alcohol sensor 12 is activated by the activation signal, it emits ultraviolet rays from the ultraviolet light emitting diode 124. In this state, when the pad of the user's finger is placed on the contact surface of the alcohol sensor 12, the alcohol sensor 12 acquires the state information indicating the fluorescence intensity detected by the photo sensor 125, and the acquired state information is wired. It is transmitted to the secure element 13 via. As a result, the information acquisition unit 1361 receives (acquires) the state information acquired by the alcohol sensor 12 via the transmission / reception unit 135.

The user body detection unit 1362 detects the contact of the user's finger (an example of a part of the user's body). The user body detection unit 1362 is for monitoring whether or not the user's finger continues to be in contact with the contact surface 12X. For example, the user body detection unit 1362 may change the electrical capacitance when the pad of the user's finger comes into contact with the contact surface 12X of the alcohol sensor 12 (for example, the change in capacitance between the pad of the finger and the contact surface 12X). Or, the change in the resistance value of the thin film on the contact surface 12X) is detected, and the state after the change (energization state) is continuously monitored. The contact of the user's finger may be detected by another method. For example, as disclosed in Patent Document 1, a switch that is turned on (contact ON) by pressing with a user's finger may be provided. In this case, the user body detection unit 1362 detects the energization due to the on of the switch and continues to monitor the energization state. However, according to a method of detecting an electrical change when the pad of a user's finger touches without providing such a switch, the license confirmation device 1 can be configured with a smaller number of parts. In addition, it is possible to prevent the detection and avoidance of alcohol by pressing the switch with an instrument other than the finger.

The user authentication unit 1363 performs user authentication using the biometric information acquired by the biometric sensor 11. For example, the user authentication unit 1363 collates the fingerprint indicated by the biometric information acquired by the biometric sensor 11 with the fingerprint indicated by the collation data stored in the data storage unit 132, and a plurality of feature points (a plurality of feature points in both fingerprints). For example, when the end point and the branch point) match a predetermined number or more, it is determined that the user authentication is successful.

The state determination unit 1364 determines the user state using the state information obtained from the finger whose contact with the contact surface 12X is detected by the user body detection unit 1362, and the state information acquired by the alcohol sensor 12. .. For example, the state determination unit 1364 determines whether the fluorescence intensity indicated by the state information (an example of the user's physical condition) is less than the determination standard (in other words, does the user's physical condition satisfy a preset standard). It is determined whether or not (this is called a user status determination). Here, the determination standard is, for example, a threshold value indicated by the determination reference data stored in the data storage unit 132, and if the fluorescence intensity is equal to or higher than the threshold value, it is considered that the alcohol concentration exceeds the reference value. If, for example, the user releases his / her finger from the contact surface 12X of the alcohol sensor 12 during the user state determination, the user's finger is no longer detected, the interrupt process cancels the user state determination and returns to the initial state. ..

In the information transmission unit 1365, while the user body detection unit 1362 detects the contact of the user's finger, the user authentication unit 1363 succeeds in user authentication, and the state determination unit 1364 indicates that the state information is fluorescent. When it is determined that the intensity is less than the criterion (that is, the physical condition of the user satisfies the preset criterion), the information indicating the license validity for the controlled object 3 (that is, the operation permission for the controlled object 3 is granted. The information shown) is transmitted (response) to the control unit 2 via the transmission / reception unit 133.

[2. Operation of license confirmation device 1]
Next, the operation of the license confirmation device 1 will be described with reference to FIGS. 5 and 6. FIG. 5A is a flowchart showing an example of the monitoring process executed by the control unit 136. FIG. 5B is a flowchart showing an example of the license confirmation process executed by the control unit 136. FIG. 6 is a conceptual diagram showing a transition of the operating state of the license confirmation device 1.

When the power supply is started in the control unit 2 by turning on the power, for example, a reset (signal) is transmitted from the control unit 2 to the license confirmation device 1. Upon receiving the reset from the control unit 2, the control unit 136 of the license confirmation device 1 transmits a reset response to the control unit 2 via the transmission / reception unit 133. Upon receiving the reset response from the license confirmation device 1, the control unit 2 transmits a license confirmation request (that is, an execution request for operation permission / rejection determination for the control target 3) to the license confirmation device 1. In this way, when the control unit 136 of the license confirmation device 1 receives the license confirmation request from the control unit 2 (that is, the execution request for the operation permission / rejection determination for the control target 3) (initial state), the control unit 13 (user body detection unit) 1362) determines whether or not an electrical change on the contact surface 12X of the alcohol sensor 12 is detected, and the pad of the user's finger comes into contact with the contact surface 12X, whereby the electricity on the contact surface 12X of the alcohol sensor 12 is determined. When a specific change is detected (user contact detection), the monitoring process shown in FIG. 5A and the license confirmation process shown in FIG. 5B are started. The license confirmation process and the monitoring process are executed in parallel by, for example, multitasking of the OS.

When the monitoring process shown in FIG. 5A is started, the control unit 13 (user body detection unit 1362) is in a state after an electrical change in the contact surface 12X of the alcohol sensor 12 (for example, the above-mentioned capacitance). And resistance value) is determined whether or not it has returned to the state before the change (step S1). When the control unit 13 (user body detection unit 1362) determines that the state after the electrical change has not returned to the state before the change (step S1: NO), the control unit 13 returns to step S1 (that is, the state after the change). Continue to monitor). On the other hand, in the control unit 13 (user body detection unit 1362), when the user releases the finger from the contact surface 12X of the alcohol sensor 12, the state after the electrical change returns to the state before the change (that is, the user's state). When it is determined (step S1: YES) that the finger contact is no longer detected), the license confirmation process is interrupted (step S2), and the monitoring process is terminated.

On the other hand, when the license confirmation process shown in FIG. 5B is started, the control unit 13 executes the user authentication process (step S11). In the user authentication process, the control unit 13 (information acquisition unit 1361) activates the biometric sensor 11 by transmitting an activation signal to the biometric sensor 11 via the transmission / reception unit 134, and is acquired by the biometric sensor 11. The biometric information is acquired (received) via the transmission / reception unit 134. Next, the control unit 136 (user authentication unit 1363) performs user authentication using the acquired biometric information. For example, the control unit 136 (user authentication unit 1363) collates the fingerprint indicated by the acquired biometric information with the fingerprint indicated by the collation data stored in the data storage unit 132, and determines a plurality of feature points in both fingerprints. Determine if there are more than a few matches. When a plurality of feature points on both fingerprints match a predetermined number or more, the control unit 136 (user authentication unit 1363) determines that the user authentication is successful, and stores information indicating the user authentication success (for example, the user). Turn on (1) the flag indicating authentication success). On the other hand, when a plurality of feature points on both fingerprints do not match a predetermined number or more, the control unit 136 (user authentication unit 1363) determines that the user authentication has failed and stores information indicating the user authentication failure (for example, the user). Turn off (0) the flag indicating authentication success).

Next, the control unit 13 executes the user state determination process (step S12). In the user state determination process, the control unit 13 (information acquisition unit 1361) activates the alcohol sensor 12 by transmitting an activation signal to the alcohol sensor 12 via the transmission / reception unit 135, and the fluorescence detected by the alcohol sensor 12 The state information indicating the strength of is acquired (received) via the transmission / reception unit 135. Next, the control unit 13 (state determination unit 1364) uses the state information obtained from the finger at which the contact of the alcohol sensor 12 with the contact surface 12X is detected, and the state information acquired by the alcohol sensor 12 is used. Judge the user status. For example, the control unit 13 (state determination unit 1364) determines whether or not the fluorescence intensity indicated by the acquired state information is less than the determination standard. Then, when the control unit 13 (state determination unit 1364) determines that the fluorescence intensity is less than the determination standard (that is, determines that the user state is good), the control unit 13 stores information indicating that the user state is good (for example, the user state is good). (1) is set to the flag indicating. On the other hand, when the control unit 13 (state determination unit 1364) determines that the fluorescence intensity is not less than the determination standard, the control unit 13 stores information indicating a user condition defect (for example, the flag indicating a user condition good condition is set to off (0)). )do. The user state determination process may be executed immediately before the user authentication process.

Next, the control unit 13 determines whether or not the user authentication is successful and the user state is good (step S13). In step S11, it is determined that the user authentication is successful (that is, the information indicating that the user authentication is successful is stored), and in step S12, it is determined that the user condition is good (that is, the information indicating that the user condition is good is stored). It is determined whether or not it is. When the control unit 13 determines that the user authentication is successful and the user condition is good (step S13: YES), the control unit 13 stores the information indicating the license validity (license validity record) (step S14), and performs the license confirmation process. finish. On the other hand, when the control unit 13 determines that the user authentication has failed or the user status is not good (step S13: NO), the control unit 13 stores information indicating license invalidity (license invalidation record) (step S15), and ends the license confirmation process. do. When the license confirmation process is completed without the interrupt process occurring during the license confirmation process, the control unit 13 shifts to the response process as the license confirmation is successful, as shown in FIG. In this response process, the control unit 13 (information transmission unit 1365) transmits information (confirmation result) indicating license validity or license invalidity to the control unit 2 via the transmission / reception unit 133 as a response to the license confirmation request.

On the other hand, when the above interrupt processing occurs during the license confirmation processing, as shown in FIG. 6, the license confirmation processing is stopped as a license confirmation failure, and the initial state (for example, the state before detecting an electrical change) is restored. Returning and again, the control unit 13 (user body detection unit 1362) will start detecting an electrical change in the contact surface 12X of the alcohol sensor 12. In this way, the progress of the processing process is invalidated by the user releasing the finger during the license confirmation process, so that the user authentication process and the user status determination process are surely performed for the same person. Can be done.

When the control unit 2 receives the information indicating that the license is valid from the license confirmation device 1, the control unit 2 transmits a drive signal (that is, an operation permission signal) to the control target 3 to start the operation of the control target 3. For example, when the control unit 2 is an engine control unit, the engine is started by transmitting a start signal (an example of a drive signal) indicating engine start to the control target 3. On the other hand, for example, when the control unit 2 is a steering control unit or a shift lever control unit, the steering or shift lever is unlocked by transmitting an unlock signal (an example of a drive signal) to the control target 3. On the other hand, for example, when the control unit 2 is a gateway device, a drive signal is transmitted to the engine control unit, and an unlock signal (an example of the drive signal) is transmitted to the steering control unit and the shift lever control unit. On the other hand, when the control unit 2 is a lock / unlock control unit that controls the lock / unlock of the door, the door is unlocked by transmitting an unlock signal (an example of a drive signal) to the control target 3.

On the other hand, when the control unit 2 receives the information indicating that the license is invalid from the license confirmation device 1, the control unit 2 transmits a lock signal (that is, an operation disapproval signal) or an error signal to the control target 3, thereby operating the control target 3. To lock. For example, when the control unit 2 is an engine control unit, the drive signal is not transmitted to the control target 3. On the other hand, for example, when the control unit 2 is a steering control unit or a shift lever control unit, the steering or shift lever is locked by transmitting a lock signal to the control target 3. On the other hand, for example, when the control unit 2 is a gateway device, a lock signal is transmitted to the steering control unit and the shift lever control unit. On the other hand, when the control unit 2 is a lock / unlock control unit that controls the locking / unlocking of the door, the unlocking signal is not transmitted to the control target 3. When the control unit 2 is a control unit that controls the alarm output circuit, an error signal is transmitted to the control target 3 to output an alarm.

As described above, according to the above embodiment, in the license confirmation device 1, the user authentication by the user authentication unit 1363 is successful while the user body detection unit 1362 detects the contact of the user's finger, and the user authentication unit 1363 is used. When the user status is determined to be good by the status determination unit 1364, information indicating that the license for the control target 3 is valid is transmitted to the control unit 2 via the transmission / reception unit 133, so that user authentication and user status determination are performed. And can be reliably performed for the same person, and detection omission can be prevented more reliably.

[3. Application example of license confirmation process]
Next, an application example of the above-mentioned license confirmation process will be described with reference to FIG. 7. FIG. 7A is a flowchart showing an application example of the license confirmation process executed by the control unit 136. In the license confirmation process shown in FIG. 5B, if the energized state can be maintained by attaching the conductive band to the contact surface 12X of the alcohol sensor 12, the alcohol sensor 12 can be used even if the user releases his / her finger after the user authentication. There is a problem that the alcohol component is not detected based on the state information acquired by the user and the user state is determined to be good. Therefore, instead of the license confirmation process shown in FIG. 5 (B), the license confirmation process shown in FIG. 7 (A) may be executed. In the license confirmation process shown in FIG. 7A, the user authentication unit 1363 authenticates the user a plurality of times using the biometric information acquired by the biometric sensor 11, and the state determination unit 1364 performs the user authentication a plurality of times. In the meantime, the user status is determined using the status information acquired by the alcohol sensor 12. The contents of the user authentication processes 1 to 3 shown in steps S21, S23, and S25 shown in FIG. 7 (A) are the same as the user authentication processes shown in step S11, and steps S22, shown in FIG. 7 (A). The contents of the user state determination processes 1 to 3 shown in S24 and S26 are the same as those of the user state determination process shown in step S12.

Then, the control unit 13 determines whether or not the user authentication is successful in all of steps S21, S23, and S25, and it is determined that the user state is good in all of steps S22, S24, and S26. Determination (step S27). When it is determined that the user authentication is successful in all of steps S21, S23, and S25, and it is determined that the user state is good in all of steps S22, S24, and S26 (step S27: YES), the control unit. 13 stores information indicating license validity (license validity record) (step S28), and ends the license confirmation process. On the other hand, when the control unit 13 determines that the user authentication has failed in any of the user authentication processes 1 to 3 or that the user state is not good in any of the user state determination processes 1 to 3 (step S27: NO). Information indicating license invalidity is stored (license invalidation record) (step S29), and the license confirmation process is terminated. That is, if a user state determination process is inserted between each user authentication process and it is determined that the user state is not good in any of the user state determination processes, the license is invalidated. In this way, if the user authentication process is divided, if the user releases the finger after the user authentication, there is a high possibility that the next user authentication process will fail, so it is difficult to avoid the user state determination process. .. For example, when a user who is a driver keeps an energized state by attaching a conductive band to the contact surface 12X of the alcohol sensor 12 and keeps a finger away from the alcohol sensor 12, a plurality of fingerprints are used. Since the degree of matching of the feature points of the above is dramatically reduced and the possibility that the user authentication process fails is dramatically increased, it is possible to prevent the engine of the vehicle from starting in such a case.

In addition, in FIG. 7A, the process of steps S24 to S26 may be omitted. In this case, if it is determined in steps S21 and S23 that the user authentication is successful, and if it is determined in step S22 that the user state is good, the control unit 13 stores information indicating that the license is valid. Further, the authentication algorithm (authentication method) may be different in a plurality of user authentications. In this case, for example, in the user authentication process 1 of step S21, the user authentication unit 1363 collates the fingerprint indicated by the acquired biometric information with the fingerprint indicated by the collation data, and a plurality of feature points (for example, for example) in both fingerprints. , The end point and the branch point) are matched by a predetermined number or more (that is, the degree of matching of the feature points) is determined. On the other hand, in the user authentication process 2 in step S23, the user authentication unit 1363 collates the fingerprint indicated by the acquired biometric information with the fingerprint indicated by the collation data in addition to the degree of matching of the feature points, and both fingerprints are collated. It is determined whether or not a plurality of ridge lines (lines crossing between feature points) in the above match a predetermined number or more. As a result, it is possible to make the time required for each user authentication different, so that it is possible to make it difficult to avoid the user state determination process.

Further, the fingerprints of different parts may be configured to be different in a plurality of user authentications, which also makes it difficult to avoid the user state determination process. FIG. 7B is a diagram showing an example in which the fingerprint area is divided into two parts, and FIG. 7C is a diagram showing an example in which the fingerprint area is divided into three parts. In the examples of FIGS. 7 (B) and 7 (C), the fingerprint area is divided in the vertical direction, but it may be divided in the horizontal direction. The example of FIG. 7B is an example in which the processing of steps S24 to S26 is omitted. In this case, the user authentication unit 1363 is the part X indicated by the acquired biometric information in the user authentication processing of step S21. It is determined whether or not the plurality of feature points in both fingerprints match a predetermined number or more by collating the fingerprint of the above with the fingerprint of the portion X indicated by the collation data, and the plurality of feature points in both fingerprints are a predetermined number. If the above matches, it is determined that the user authentication is successful. Further, in the user authentication process of step S23, the user authentication unit 1363 collates the fingerprint of the portion Y indicated by the acquired biometric information with the fingerprint of the portion Y indicated by the collation data, and a plurality of feature points in both fingerprints are obtained. It is determined whether or not a predetermined number or more match, and if a plurality of feature points on both fingerprints match a predetermined number or more, it is determined that the user authentication is successful.

The example of FIG. 7C is an example in which the processes of steps S24 to S26 are not omitted. In this case, the user authentication unit 1363 is the part X indicated by the acquired biometric information in the user authentication process 1 of step S21. It is determined whether or not the plurality of feature points in both fingerprints match a predetermined number or more by collating the fingerprint of the above with the fingerprint of the portion X indicated by the collation data, and the plurality of feature points in both fingerprints are a predetermined number. If the above matches, it is determined that the user authentication is successful. Further, in the user authentication process 2 of step S23, the user authentication unit 1363 collates the fingerprint of the portion Y indicated by the acquired biometric information with the fingerprint of the portion Y indicated by the collation data, and a plurality of feature points in both fingerprints. Is determined to match a predetermined number or more, and if a plurality of feature points on both fingerprints match a predetermined number or more, it is determined that the user authentication is successful. Further, in the user authentication process 3 of step S25, the user authentication unit 1363 collates the fingerprint of the portion Z indicated by the acquired biometric information with the fingerprint of the portion Z indicated by the collation data, and a plurality of feature points in both fingerprints. Is determined to match a predetermined number or more, and if a plurality of feature points on both fingerprints match a predetermined number or more, it is determined that the user authentication is successful.

Further, the area of the finger portion may be configured to be randomly different in a plurality of user authentications, which also makes it difficult to avoid the user state determination process. In this case, for example, the user authentication unit 1363 determines the ratio (for example, 40%) of the portion in the entire finger pad (100%) using a random number, and the fingerprint of the portion corresponding to the determined ratio and the collation data. It is determined whether or not the plurality of feature points in both fingerprints match a predetermined number or more by collating with the fingerprints of the above-mentioned proportions in the fingerprint indicated by If they match, it is determined that the user authentication is successful.

In the above embodiment, the biometric sensor 11 is configured to acquire the fingerprint of the user as biometric information, but it may be configured to acquire the crest (palm print) on the palm of the user as biometric information. good. In this case, the user authentication unit 1363 collates the palm print indicated by the biometric information acquired by the biometric sensor 11 with the palm print indicated by the collation data stored in the data storage unit 132, and a plurality of feature points in both palm prints. If is more than a predetermined number, it is determined that the user authentication is successful. Also in this case, by applying the above application example, the user authentication unit 1363 may perform user authentication a plurality of times using the palm print indicated by the biometric information acquired by the biometric sensor 11. Further, the user authentication unit 1363 may use the palm prints of different parts in a plurality of user authentications.

Alternatively, the biometric sensor 11 may be configured to acquire a blood vessel (vein) pattern (image) in the user's palm or finger as biometric information. In this case, the biometric sensor 11 includes an infrared light emitting unit and a blood vessel imaging unit, and a blood vessel pattern (image) is obtained by imaging the finger with the imaging unit while the infrared light emitting unit irradiates the palm or finger. Acquired as biometric information. Then, the user authentication unit 1363 collates the blood vessel pattern indicated by the biological information acquired by the biometric sensor 11 with the blood vessel pattern indicated by the collation data stored in the data storage unit 132, and a plurality of blood vessel patterns in both blood vessel patterns. If the feature points match a predetermined number or more, it is determined that the user authentication is successful. Also in this case, by applying the above application example, the user authentication unit 1363 may perform user authentication a plurality of times using the blood vessel pattern indicated by the biometric information acquired by the biometric sensor 11. Further, the user authentication unit 1363 may use blood vessel patterns at different sites in a plurality of user authentications.

Further, in the above embodiment, the alcohol sensor 12 is configured to acquire state information indicating fluorescence according to the concentration of alcohol by using an enzyme light emitting sensor, and is disclosed in, for example, Japanese Patent Application Laid-Open No. 2008-308037. By using a semiconductor-type gas sensor (semiconductor-type sensor) using tin oxide, the "resistance value of tin oxide" according to the concentration of alcohol may be acquired as state information. In this case, the state determination unit 1364 is the state information obtained from the finger on which the contact of the alcohol sensor 12 with the contact surface 12X is detected, and the resistance value indicated by the state information acquired by the alcohol sensor 12 is data. If it is less than the threshold value indicated by the determination criterion data stored in the storage unit 132 in advance, it is determined that the physical condition of the user satisfies the preset criterion (that is, it is determined that the user condition is good). Further, the alcohol sensor 12 may be configured to acquire a "current value" according to the concentration of alcohol as state information by using an electrochemical sensor in addition to the enzyme light emitting sensor and the semiconductor sensor. The electrochemical sensor has a platinum selective catalytic electrode in which the alcohol is electrochemically oxidized to generate an electrode current. The higher the concentration of alcohol produced by the user, the higher the electrode current value. The electrochemical sensor has a longer life and higher high temperature resistance than the enzyme-emitting sensor, and the selection accuracy of the gas to be detected is higher than that of the semiconductor sensor, and the operation time until the operation becomes stable is high. There are merits such as being short. When an electrochemical sensor is used, the state determination unit 1364 is state information obtained from a finger on which contact with the contact surface 12X of the alcohol sensor 12 is detected, and is an electrode indicated by the state information acquired by the alcohol sensor 12. If the current value is less than the threshold value indicated by the determination reference data stored in advance in the data storage unit 132, it is determined that the physical condition of the user satisfies the preset criterion (that is, it is determined that the user condition is good).

Further, in the above embodiment, the concentration of the alcohol component has been described as an example as state information indicating the state of the user's body, but for example, the substrate disclosed in JP-A-2009-168671 (the substrate of dehydrogenase). It may be the concentration of the component. In this case, the state information acquisition sensor acquires the state information obtained from the finger or palm in contact with the contact surface of the state information acquisition sensor and indicates the concentration of the above component, and obtains the state information. It is transmitted to the secure element 13. Then, if the concentration of the above component is less than the threshold value indicated by the determination reference data stored in advance in the data storage unit 132, the state determination unit 1364 determines that the physical condition of the user satisfies the preset standard ( That is, it is determined that the user condition is good). Alternatively, the pulse rate of the user may be used as another example of the state information indicating the physical state of the user. In this case, the state information acquisition sensor acquires the state information which is the state information obtained from the finger or the palm in contact with the contact surface of the state information acquisition sensor and indicates the pulse rate of the user, and obtains the state information. It is transmitted to the secure element 13. Then, the state determination unit 1364 determines that the user's physical condition satisfies the preset standard if the pulse rate of the user is less than the threshold value indicated by the determination reference data stored in advance in the data storage unit 132 ( That is, it is determined that the user condition is good). The state information indicating the state of the user's body may be the body temperature of the user. In this case, the state information acquisition sensor acquires the state information indicating the user's body temperature, which is the state information obtained from the finger or palm in contact with the contact surface of the state information acquisition sensor, and secures the state information. Send to element 13. Then, the state determination unit 1364 determines that the user's physical condition satisfies the preset standard if the body temperature is less than the threshold value indicated by the determination reference data stored in the data storage unit 132 in advance (that is,). Judge that the user condition is good).

1 License confirmation device 2 Control unit 3 Control target 11 Biometric sensor 12 Alcohol sensor 13 Secure element 121 Insulation resin material 122 Light transmissive resin material 123 Dehydrogenase membrane material 124 Ultraviolet light emitting diode 125 Photosensor 131 Program storage unit 132 Data storage Units 133 to 135 Transmission / reception unit 136 Control unit 1361 Information acquisition unit 1362 User body detection unit 1363 User authentication unit 1364 Status determination unit 1365 Information transmission unit

Claims (7)

A control device including a biometric information acquisition sensor that acquires biometric information for use in user authentication and a state information acquisition sensor that acquires state information indicating the user's physical condition, and controls the operation of a controlled object. It is an authentication processing device that can communicate between
The detection means for detecting the contact of a part of the user's body,
A user authentication means for authenticating the user using the biometric information acquired by the biometric information acquisition sensor, and a user authentication means.
The state information obtained from the part of the body whose contact is detected by the detection means, and the reference set in advance for the state of the body indicated by the state information acquired by the state information acquisition sensor. A judgment means for determining whether or not the information is satisfied, and
When the authentication by the authentication means succeeds and the determination means determines that the criterion is satisfied while a part of the user's body is detected by the detection means, the control target is determined. A transmission means for transmitting information indicating operation permission, and
Equipped with
The biometric information acquisition sensor acquires the crest on the palm or finger pad of the user as the biometric information.
The user authentication means authenticates the user a plurality of times by using the crest on the palm or the pad of the finger acquired by the biometric information acquisition sensor.
The user authentication means uses a random number to determine the proportion of the portion of the entire palm or finger pad, and the proportion of the portion of the portion of the portion of the determined portion and the crest indicated by the collation data stored in advance. It is determined whether or not a predetermined number or more of the plurality of feature points in both crests match by collating with the crest of the part of the above, and when a predetermined number or more of the plurality of feature points in both crests match. An authentication processing device characterized by determining that authentication is successful . The authentication processing device according to claim 1, wherein the determination means cancels the determination when the contact of a part of the user's body is no longer detected during the determination. The authentication processing device according to claim 1 or 2, wherein the detection means detects an electrical change with respect to a part of the body. The authentication process according to claim 1 to 3, wherein the determination means determines whether or not the physical condition satisfies a preset standard during a plurality of authentications of the user. Device. A control device including a biometric information acquisition sensor that acquires biometric information for use in user authentication and a state information acquisition sensor that acquires state information indicating the user's physical condition, and controls the operation of a controlled object. It is an IC card that can communicate with
The detection means for detecting the contact of a part of the user's body,
A user authentication means for authenticating the user using the biometric information acquired by the biometric information acquisition sensor, and a user authentication means.
The state information obtained from the part of the body whose contact is detected by the detection means, and the reference set in advance for the state of the body indicated by the state information acquired by the state information acquisition sensor. A judgment means for determining whether or not the information is satisfied, and
When the authentication by the authentication means succeeds and the determination means determines that the criterion is satisfied while a part of the user's body is detected by the detection means, the control target is determined. A transmission means for transmitting information indicating operation permission, and
Equipped with
The biometric information acquisition sensor acquires the crest on the palm or finger pad of the user as the biometric information.
The user authentication means authenticates the user a plurality of times by using the crest on the palm or the pad of the finger acquired by the biometric information acquisition sensor.
The user authentication means uses a random number to determine the proportion of the portion of the entire palm or finger pad, and the portion of the portion in the crest of the portion of the determined proportion and the crest indicated by the collation data stored in advance. It is determined whether or not a predetermined number or more of the plurality of feature points in both crests match by collating with the crest of the part of the above, and when a predetermined number or more of the plurality of feature points in both crests match. An IC card characterized by determining that authentication is successful . A control device including a biometric information acquisition sensor that acquires biometric information for use in user authentication and a state information acquisition sensor that acquires state information indicating the user's physical condition, and controls the operation of a controlled object. It is an authentication processing method performed by computers that can communicate with each other.
A detection step that detects contact with a part of the user's body,
A user authentication step for authenticating the user using the biometric information acquired by the biometric information acquisition sensor, and a user authentication step.
The state information obtained from the part of the body in which contact is detected by the detection step, and the reference in which the state of the body indicated by the state information acquired by the state information acquisition sensor is preset. Judgment step to determine whether or not to meet,
When the authentication by the authentication step succeeds and the determination step determines that the criterion is satisfied while a part of the user's body is detected by the detection step, the control target is determined. A transmission step that sends information indicating operation permission, and
Including
The biometric information acquisition sensor acquires the crest on the palm or finger pad of the user as the biometric information.
In the user authentication step, the user is authenticated a plurality of times by using the crest on the palm or finger pad of the user acquired by the biometric information acquisition sensor.
In the user authentication step, a random number is used to determine the proportion of the portion of the entire palm or finger pad, and the proportion in the crest of the portion corresponding to the determined proportion and the crest indicated by the collation data stored in advance. When it is determined whether or not a predetermined number or more of the plurality of feature points in both crests match by collating with the crest of the minute part, and when a predetermined number or more of the plurality of feature points in both crests match. , An authentication processing method characterized by determining that the authentication is successful . A control device including a biometric information acquisition sensor that acquires biometric information for use in user authentication and a state information acquisition sensor that acquires state information indicating the state of the user's body, and controls the operation of a controlled object. Computers that can communicate between
The detection means for detecting the contact of a part of the user's body,
A user authentication means for authenticating the user using the biometric information acquired by the biometric information acquisition sensor, and a user authentication means.
The state information obtained from the part of the body whose contact is detected by the detection means, and the reference set in advance for the state of the body indicated by the state information acquired by the state information acquisition sensor. A judgment means for determining whether or not the information is satisfied, and
When the authentication by the authentication means succeeds and the determination means determines that the criterion is satisfied while a part of the user's body is detected by the detection means, the control target is determined. It functions as a transmission means to transmit information indicating operation permission ,
The biometric information acquisition sensor acquires the crest on the palm or finger pad of the user as the biometric information.
The user authentication means authenticates the user a plurality of times by using the crest on the palm or the pad of the finger acquired by the biometric information acquisition sensor.
The user authentication means uses a random number to determine the proportion of the portion of the entire palm or finger pad, and the portion of the portion in the crest of the portion of the determined proportion and the crest indicated by the collation data stored in advance. It is determined whether or not a predetermined number or more of the plurality of feature points in both crests match by collating with the crest of the part of the above, and when a predetermined number or more of the plurality of feature points in both crests match. An authentication processing program characterized by determining that authentication is successful .

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