JP2000163585A - Living body information collating system, setting operator and equipment to be operated - Google Patents

Abstract

PROBLEM TO BE SOLVED: To immediately obtain a collation result even when fingerprint data are simultaneously fetched in a system and also to execute collation even when the fingerprint database of a center device is damaged. SOLUTION: A communication control part 1A and the fingerprint database 1B are arranged in the center device 1. The fingerprint database 1 stores fingerprint data of a person permitted to operate the whole system. Each setting operator 2 is provided with a fingerprint data storage part 2B, a fingerprint data fetching part 2C and a fingerprint collating part 2D. The fingerprint data storage part 2B copies and preserves fingerprint data of the operation permitted person, which is assigned to itself from the fingerprint database 1B of the center device 1. The fingerprint data collating part 2D collates fingerprint data of the operation permitted person in the fingerprint data storage part 2B with fingerprint data from the fingerprint data fetching part 2C and permits equipment to be operated 3 to execute the operation.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a biometric information collating system for performing personal identification from biometric information such as a fingerprint, and a setting operation device and an operated device used in this system.

[0002]

2. Description of the Related Art Conventionally, as this kind of biometric information collating system, there is a fingerprint collating system as shown in FIG.
In the figure, 100 is a center device, 200 is a terminal device, and 300 is a communication network. Terminal device 200
Are connected to the communication network 300. The center device 100 includes a communication control unit 100A, a fingerprint data matching unit 100B, and a fingerprint database 100C. The fingerprint database 100C stores the fingerprint data of the authorized person of the entire system. Terminal device 200
Has a communication control unit 200A and a fingerprint data reading unit 200B. This fingerprint matching system is disclosed in, for example,
No. 27032.

FIG. 9 is a processing flowchart of this fingerprint collation system. In this fingerprint matching system, fingerprint data is captured by the fingerprint data reading unit 200B of the terminal device 200 (step 901), and the captured fingerprint data is transmitted to the center device 100 (step 90).
2). In the center device 100, the fingerprint data matching unit 100
B, received fingerprint data and fingerprint database 1
Fingerprint data stored in 00C (registered fingerprint data)
(Step 903). If the matching result indicates that the matching fingerprint data is in the registered fingerprint data, the center device 100 transmits a matching signal to the terminal device 200 (step 904). The terminal device 200 is connected to the center device 10.
Upon receiving the coincidence signal from 0, a predetermined terminal process is started (step 905).

[0004]

However, in such a conventional fingerprint collating system, the fingerprint data of the authorized user of the entire system is stored in the fingerprint database 100C, managed in a unified manner, and a plurality of terminal devices 200 are stored. Since the fingerprint data is shared by the center device 100 and the fingerprint data is collated collectively by the center device 100, there is a problem that it takes time until the collation result is obtained if the fingerprint data is simultaneously captured in the system. Was. In addition, since the fingerprint data of the authorized user of the entire system is centrally managed in the fingerprint database 100C in the center device 100, if the fingerprint database 100C is damaged, fingerprint collation becomes impossible.

The present invention has been made to solve such a problem, and an object of the present invention is to provide a system which can quickly obtain a collation result even when biological information is simultaneously captured in a system. An object of the present invention is to provide a biometric information collating system capable of performing collation even if a biometric information database of the device is damaged, and a setting operation device and an operated device used in the system.

[0006]

SUMMARY OF THE INVENTION In order to achieve the above object, according to the present invention, a terminal device copies and stores biometric information of an operation permitter assigned to itself from a biometric information database of a center device. And a biometric information collating unit for collating the biometric information of the authorized operator stored in the biometric information storage unit with the captured biometric information of the operator. According to this invention, the biometric information of the operation permitter assigned to itself is copied and stored from the biometric information database of the center device to the biometric information storage unit provided in the terminal device. Then, in the biometric information collating unit provided in the terminal device, the biometric information of the operation permitter stored in the biometric information storage unit is collated with the captured biometric information of the operator. In this case, as the terminal device, a setting operation device, an operated device operated (including setting) by the setting operation device, or the like is assumed. Further, according to the present invention, the setting operation device is provided with a biometric information acquisition unit in addition to the biometric information storage unit and the biometric information matching unit, and the operated device is provided with a biometric information acquisition unit in conjunction with the biometric information storage unit and the biometric information matching unit. It is assumed that an input unit is provided, a biometric information storage unit and a biometric information collating unit are provided in the operated device, and the setting operating device biometric information is fetched, and the fetched biometric information is transferred to the operated device.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail based on embodiments. [Embodiment 1] FIG. 1 is a configuration diagram of a fingerprint collating system showing an embodiment (Embodiment 1) of the present invention. In the figure, 1 is a center device, 2 (2-1 to 2-n) is a setting operation device, 3 (3-1 to 3-m) is an operated device, and 4 is a communication network. Center device 1 and setting device 2
-1 to 2-n and the operated devices 3-1 to 3-m are mutually connected via a communication network 4.

The center device 1 has a communication control section 1A and a fingerprint database 1B. The fingerprint database 1B stores the fingerprint data of the authorized person of the entire system. In the present embodiment, the fingerprint data stored in the fingerprint database 1B is processed as original data that cannot be restored.

For example, as in a collation method called a “characteristic method”, characteristic information (characteristic parameters) is extracted from original image data of a fingerprint and stored as original fingerprint data that cannot be restored. I have. Further, for example, as in “Phase Only Correlation Method” disclosed in Japanese Patent Application Laid-Open No. 9-22406 by the present applicant, amplitude information is discarded after performing Fourier transform on original image data of a fingerprint, and phase information is discarded. Only the fingerprint data, and this is stored in the original fingerprint data as fingerprint data that cannot be restored. In any case, the processed image data cannot be returned to the original image data, and the malicious third
Even if a person can obtain the processed data, he does not know what data.

The setting operation device 2 (2-1 to 2-m) includes a communication control unit 2A, a fingerprint data storage unit (cache mirror database) 2B, and a fingerprint data acquisition unit (fingerprint sensor).
2C, a fingerprint collating unit 2D, a setting operation input unit 2E, and a switch unit 2F. FIG. 5 shows the appearance of the setting operation device 2. In FIG. 2, reference numeral 2G denotes a display unit, and the sensor unit of the fingerprint data capturing unit 2C, the numeric keypad unit of the setting operation input unit 2E, and the display unit 2G are exposed outside the setting operation device 2.

The communication control unit 2A controls communication through the communication network 4. The fingerprint database 1 of the center device 1 is stored in the fingerprint data storage unit 2B via the communication control unit 2A.
The fingerprint data of the operation permitter assigned to himself from B is copied and stored. The fingerprint data capturing section 2C captures fingerprint data of the operator. The fingerprint data collating unit 2D collates the fingerprint data of the authorized person stored in the fingerprint data storage unit 2B with the fingerprint data from the fingerprint data capturing unit 2C. The setting operation input unit 2E is an input unit for various operations including settings for the operated device 3 from the operator. The fingerprint data from the fingerprint data capturing unit 2C (the captured fingerprint data) is stored in the fingerprint database 1B in the center device 1.
Like the fingerprint data in the middle, the original fingerprint data is processed as fingerprint data that cannot be restored.

FIG. 2 is a processing flowchart of the fingerprint collation system. In this fingerprint collation system, for example, when it is desired to change the set value in the operated device 3-1 using the setting operation device 2-1, the operator sends a signal to the sensor of the fingerprint data capturing unit 2C of the setting operation device 2-1. Put your finger.

Then, fingerprint data of the operator is captured by the fingerprint data capturing section 2C (step 20).
1) The fingerprint data of the captured operator is stored in the fingerprint matching unit 2
Sent to D. The fingerprint collation unit 2D includes a fingerprint data storage unit 2
The fingerprint data (registered fingerprint data) of the authorized person in B is read (step 202), and the read registered fingerprint data is compared with the fingerprint data captured by the operator (step 203).

If the matching fingerprint data is found in the registered fingerprint data as a result of the comparison (YES in step 204), that is, if it is confirmed that the operator is the authorized operator assigned to the setting operation device 2-1. The fingerprint matching unit 2D turns on the switch unit 2F (step 205). As a result, the setting operation input signal from the setting operation input section 2E is validated, that is, the operation of changing the set value by designating the operated device 3-1 is validated (step 206). Is operated device 3 through communication control unit 2A.
1 is transmitted. In response to the setting operation input signal, the set value is changed in the operated device 3-1 (step 20).
7).

According to the first embodiment, since the collation of the fingerprint data is performed not by the center device 1 but by the setting operation device 2 without passing through the communication network 4, the time until the collation result is obtained is the communication time. Compared to the case where the processing is performed on the side of the center apparatus 1 via the network 4, the time becomes much shorter, and a collation result can be obtained quickly.

Further, according to the first embodiment, even when fingerprint data is fetched simultaneously from the fingerprint data fetching sections 2C of the setting operation devices 2-1 to 2-n, the setting operation device 2-1 can be used.
Since the fingerprint collation is individually performed in .about.2-n, a collation result can be obtained quickly.

Further, according to the first embodiment, since the fingerprint data of the operator does not go out of the setting operation device 2 onto the communication network 4, there is a risk that the fingerprint data of the operator leaks to the outside. And the communication load is light. Further, even if the communication network 4 goes down, it is possible to perform fingerprint collation in the setting operation device 2.

Further, according to the first embodiment, the fingerprint data of the operation permitter assigned to itself from the fingerprint database 1B of the center device 1 is copied and stored in the fingerprint data storage unit 2B of the setting operation device 2. Therefore, even if the fingerprint database 1B of the center device 1 is damaged, the setting operation device 2 can perform fingerprint collation. In this case, the fingerprint database 1B can be restored by copying and storing the fingerprint data stored in the fingerprint data storage unit 2B of the setting operation unit 2-1 to 2-n in the fingerprint database 1B. There is no need to re-register the fingerprint data for the authorized person.

According to the first embodiment, the setting operation unit 2 includes the fingerprint data capturing unit 2C and the fingerprint data storage unit 2B.
And the fingerprint collating unit 2C, the operation target device 3 does not need to be changed, and a system can be constructed for any operation target device 3.

Further, according to the first embodiment, the fingerprint database 1B of the center device 1 stores the fingerprint data processed as the data that cannot be restored to the original fingerprint data. When the fingerprint data of the authorized user is copied and stored from the fingerprint database 1B of the setting operation device 2 to the fingerprint data storage unit 2B of the setting operation device 2, it is assumed that a malicious third party can view the fingerprint data on the communication network 4. Cannot restore the original fingerprint data,
Security when fingerprint data of the authorized user flows on the communication network 4 is guaranteed.

[Embodiment 2] FIG. 3 is a block diagram of a fingerprint collation system showing another embodiment (Embodiment 2) of the present invention. In the figure, the same reference numerals as those in FIG. 1 indicate the same or equivalent components.

In this fingerprint collation system, the operated device 3
(3-1 to 3-m) include a communication control unit 3A, a fingerprint data storage unit (cache mirror database) 3B, a fingerprint data acquisition unit (fingerprint sensor) 3C, and a fingerprint collation unit 3D.
, A setting operation input unit 3E, a switch unit 3F, and an internal circuit 3H.

The communication control unit 3A controls communication through the communication network 4. The fingerprint data storage unit 3B stores the fingerprint database 1 of the center device 1 via the communication control unit 3A.
The fingerprint data of the operation permitter assigned to himself from B is copied and stored. The fingerprint data capturing unit 3C captures fingerprint data of the operator. The fingerprint data collating unit 3D collates the fingerprint data of the authorized person stored in the fingerprint data storage unit 3B with the fingerprint data from the fingerprint data capturing unit 3C. The setting operation input unit 3E serves as an input unit for various operations including settings for the operated device 3 from the operator. The fingerprint data (fetched fingerprint data) from the fingerprint data capturing unit 3C is processed as fingerprint data that cannot be restored to the original fingerprint data, like the fingerprint data in the fingerprint database 1B in the center device 1.

FIG. 4 is a processing flowchart of the fingerprint collation system. In this fingerprint collation system, for example, when it is desired to change the set value in the operated device 3-1, the operator places his finger on the sensor unit of the fingerprint data capturing unit 3C of the operated device 3-1.

Then, the fingerprint data of the operator is captured by the fingerprint data capturing section 3C (step 401), and the captured fingerprint data of the operator is sent to the fingerprint collating section 3D. The fingerprint collating unit 3D reads the fingerprint data (registered fingerprint data) of the operation permitter from the fingerprint data storage unit 3B (step 402), and compares the read registered fingerprint data with the captured fingerprint data of the operator. Perform (Step 403).

If the matching fingerprint data is found in the registered fingerprint data as a result of the collation (YES in step 404), that is, if it is confirmed that the operator is the authorized person assigned to the operated device 3-1. The fingerprint matching unit 3D turns on the switch unit 3F (step 405). As a result, the setting operation input signal from the setting operation input unit 3E is validated, that is, the operation of changing the set value in the operated device 3-1 is validated (step 406), and the internal operation is performed according to the setting operation input signal. The circuit 3H is controlled to change the set value in the operated device 3-1 (step 40).
7).

According to the second embodiment, since the collation of the fingerprint data is performed not on the center device 1 but on the operated device 3 without passing through the communication network 4, the time until the collation result is obtained is the communication time. Compared to the case where the processing is performed on the side of the center apparatus 1 via the network 4, the time becomes much shorter, and a collation result can be obtained quickly.

Further, according to the second embodiment, even when fingerprint data is fetched from the fingerprint data fetching sections 3C of the operated devices 3-1 to 3-m all at once, the operated device 3-1 can be operated.
Since the fingerprint collation is performed individually in the case of .about.3-m, the collation result can be obtained quickly.

Further, according to the second embodiment, since the fingerprint data of the operator does not go out of the operated device 3 onto the communication network 4, there is a risk that the fingerprint data of the operator leaks outside. And the communication load is light. Further, even when the communication network 4 goes down, fingerprint collation can be performed within the operated device 3, and operation of the operated device 3 by an operation permitter is also possible.

Further, according to the second embodiment, the fingerprint data of the operation permitter assigned to itself from the fingerprint database 1B of the center device 1 is copied and stored in the fingerprint data storage unit 3B of the operated device 3. Therefore, even if the fingerprint database 1B of the center device 1 is damaged, the operated device 3 can perform fingerprint collation. In this case, the fingerprint database 1B can be restored by copying and storing the fingerprint data stored in the fingerprint data storage unit 3B of the operated devices 3-1 to 3-m in the fingerprint database 1B. There is no need to re-register the fingerprint data for the authorized person.

According to the second embodiment, the operated device 3 includes the fingerprint data capturing unit 3C and the fingerprint data storage unit 3B.
And the fingerprint collating unit 3C, the system becomes compact, and the number of nodes connected to the communication network 4 is “the number of operated devices 3 + 1 (for the center device 1)”.
And the least.

Further, according to the second embodiment, the fingerprint database 1B of the center device 1 stores the fingerprint data processed as the data that cannot be restored to the original fingerprint data. When the fingerprint data of the authorized user is copied and stored from the fingerprint database 1B of the operated device 3 to the fingerprint data storage unit 3B of the operated device 3, it is assumed that a malicious third party can view the fingerprint data on the communication network 4. Cannot restore the original fingerprint data,
Security when fingerprint data of the authorized user flows on the communication network 4 is guaranteed.

[Embodiment 3] FIG. 6 is a block diagram of a fingerprint matching system showing another embodiment (Embodiment 3) of the present invention. In the figure, the same reference numerals as those in FIGS. 1 and 3 indicate the same or equivalent components.

In this fingerprint collation system, the setting operation device 2
(2-1 to 2-n) are provided with a communication control unit 2A, a fingerprint data capture unit 2C, a collation result receiving unit 2H, a setting operation input unit 2E, and a switch unit 2F.

The communication control section 2A controls communication through the communication network 4. The fingerprint data capturing section 2C captures fingerprint data of the operator. The setting operation input unit 2E is an input unit for various operations including settings for the operated device 3 from the operator. The collation result receiving unit 2H includes the fingerprint data capturing unit 2
The fingerprint data of the operator from C is transmitted to the operated device 3 via the communication control unit 2A, and the collation result transmitted from the operated device 3 via the communication control unit 2A is received.

In this fingerprint collation system, the operated device 3 (3-1 to 3-m) includes a communication control unit 3A, a fingerprint data storage unit 3B, a fingerprint collation unit 3D, and an internal circuit 3H.
Are provided. The communication control unit 3A includes a communication network 4
Control the communication through. In the fingerprint data storage unit 3B, the fingerprint data of the operation permitter assigned to itself from the fingerprint database 1B of the center device 1 is copied and stored via the communication control unit 3A.

FIG. 7 is a processing flowchart of the fingerprint collation system. In this fingerprint collation system, for example, when it is desired to change the set value in the operated device 3-1 using the setting operation device 2-1, the operator operates the "device" of the operated device 3-1 through the setting operation input unit 2E. No. "is designated (step 701), and the finger is placed on the sensor unit of the fingerprint data capturing unit 2C.

Then, the fingerprint data of the operator is captured by the fingerprint data capturing section 2C (step 702), and the captured fingerprint data of the operator is sent to the verification result receiving section 2H. On the other hand, at this time, the switch unit 2F is turned on, and the "device N" of the operated device 3-1 specified by the operator.
O. Is sent to the comparison result receiving unit 2H. The collation result receiving unit 2H sends the operator's fingerprint data to the designated “device N”.
O. To the operated device 3-1 via the communication control unit 2A (step 703).

The fingerprint data of the operator transmitted to the operated device 3-1 is transmitted to the fingerprint collating unit 3D via the communication control unit 3A. The fingerprint collating unit 3D reads the fingerprint data (registered fingerprint data) of the authorized user from the fingerprint data storage unit 3B (step 704), and compares the read registered fingerprint data with the captured fingerprint data of the operator. Perform (step 705).

If the matching fingerprint data is found in the registered fingerprint data as a result of the collation (YES in step 706), that is, if it is confirmed that the operator is the authorized person assigned to the operated device 3-1 The fingerprint collating unit 3D transmits a coincidence signal to the setting operation device 2-1 via the communication control unit 3A (step 707). If there is no matching fingerprint data in the registered fingerprint data (NO in step 706), that is, if it is confirmed that the operator is not the authorized person assigned to the operated device 3-1, the fingerprint collating unit 3D does not match. The signal is transmitted to the setting operation device 2-1 via the communication control unit 3A (step 708).

The coincidence signal or the non-coincidence signal transmitted to the setting operation unit 2-1 is provided to the collation result receiving unit 2H via the communication control unit 2A. When a match signal is sent, the matching result receiving unit 2H turns on the switch unit 2F (step 710). Thereby, the setting operation input unit 2E
Is valid, that is, the operation of changing the set value for the operated device 3-1 is valid (step 711), and the setting operation input signal is transmitted to the communication control unit 2.
It is transmitted to the operated device 3-1 via A. In the operated device 3-1, the internal circuit 3H is controlled in accordance with the setting operation input signal from the setting operation device 2-1 to change the set value (step 712).

According to the third embodiment, the setting operation device 2
Even when fingerprint data is simultaneously captured from the fingerprint data capturing units 2C of -1 to 2-n, the operated device 3 to be operated is
Since the fingerprint collation is individually performed in the above, the collation result can be obtained quickly.

According to the third embodiment, the fingerprint database 1B of the center device 1 is stored in the fingerprint data storage unit 3B.
Since the fingerprint data of the operation permitter assigned to the user is copied and stored, the operated device 3 can perform fingerprint collation even if the fingerprint database 1B of the center device 1 is damaged. In this case, restoration of the fingerprint database 1B is performed by the operated devices 3-1 to 3-
The fingerprint data stored in the m fingerprint data storage unit 3B may be copied and stored in the fingerprint database 1B, and there is no need to re-register the fingerprint data for the authorized user of the entire system.

Further, according to the third embodiment, since the setting operation unit 2 is provided with the fingerprint data capturing unit 2C and the operated device 3 is provided with the fingerprint data storage unit 3B and the fingerprint matching unit 3D, Costs can be reduced when the operated devices 3 are operated by a large number of setting operation devices 2.

That is, for example, when the operated device 3-1 is operated by the setting operation devices 2-1 to 2-5 (not shown), in the system shown in FIG. −
5 requires a fingerprint data storage unit 2B and a fingerprint collation unit 2D, respectively. In the third embodiment, the operated device 3-1
Only the fingerprint data storage unit 3B and the fingerprint collation unit 3D are required, and the setting operation units 2-1 to 2-5 do not require the fingerprint data storage unit 2B and the fingerprint collation unit 2D. This allows
The cost of the setting operation device 2 itself is reduced, and the cost of the entire system is reduced.

Further, according to the third embodiment, the fingerprint database 1B of the center device 1 stores the fingerprint data processed as the data that cannot be restored to the original fingerprint data. When the fingerprint data of the authorized user is copied and stored from the fingerprint database 1B of the operated device 3 to the fingerprint data storage unit 3B of the operated device 3, it is assumed that a malicious third party can view the fingerprint data on the communication network 4. Cannot restore the original fingerprint data,
Security when fingerprint data flows on the communication network 4 is guaranteed.

Further, according to the third embodiment, the fingerprint data (fetched fingerprint data) from the fingerprint data capturing section 2C of the setting operation device 2 is processed as original fingerprint data which cannot be restored. Therefore, when the fingerprint data is sent to the fingerprint collating unit 3D of the operated device 3, even if a malicious third party can see the fingerprint data on the communication network 4, the fingerprint data can be restored to the original fingerprint data. As a result, security when fingerprint data of the operator flows on the communication network 4 is guaranteed.

In Embodiments 1 to 3 described above, biometric information for personal identification is used as a fingerprint, but any biometric information such as an iris and a face that can identify the person is used. You may. As the operated device 3, various controllers such as an air-conditioning controller and various devices such as a POS terminal, a credit terminal, and a cash dispenser can be considered. It may be something.

If a non-volatile memory is used as the fingerprint data storage unit 2B in the setting operation device 2 shown in FIG. 1 and the fingerprint data storage unit 3B in the operated device 3 shown in FIGS. Even if the power of the device 2 or the operated device 3 is turned off, the stored contents (fingerprint data of the assigned authorized person) are not lost. For example, in the setting operation device 2, there is a case where it is desired to add a function of automatically turning off the power to save energy when the setting operation is not performed.
This can be realized by using a nonvolatile memory as the fingerprint data storage unit 2B.

[0050]

As is apparent from the above description, according to the present invention, in the first invention (the invention according to claim 1),
A biometric information storage unit for copying and storing the biometric information of the operation permitter assigned to the terminal device from the biometric information database of the center device, and the biometric information of the operation permitter stored in the biometric information storage unit. And a biometric information collating unit that performs collation with the biometric information of the captured operator, so that even when biometric information is simultaneously captured in the system, a collation result can be quickly obtained in each terminal device. Further, even if the biometric information database of the center device is damaged, the collation can be performed in each terminal device. In this case, in order to restore the biometric information database of the center device, the biometric information stored in each terminal device may be copied and stored in the biometric information database. There is no need to start over.

In the second invention (the invention according to claim 2), the setting operation device includes a biometric information storage unit for copying and storing the biometric information of the operation permitter assigned to itself from the biometric information database of the center device. The biometric information capturing unit that captures the biometric information of the operator, and the biometric information of the operation permitter stored in the biometric information storage unit is compared with the biometric information captured from the biometric information capturing unit to be operated. Since the biometric information collating unit for permitting the operation on the device is provided, the following effects are obtained in addition to the effects of the first invention. Since the biometric information collation is performed in the setting operation device without passing through the communication network, the time until the collation result is obtained is much faster than when the center device or the operated device is conducted via the communication network. It is shorter, and a collation result can be obtained quickly. Since the biometric information of the operator does not go out of the setting operation device onto the communication network, there is no danger of the biometric information of the operator leaking outside, and the communication load is light. The setting operation unit has a biometric information acquisition unit, a biometric information storage unit, and a biometric information collation unit, so there is no need to make any changes to the operated device, and the system can be used for any operated device. Can be built.

In the third invention (the invention according to claim 3), a biometric information storage unit for copying and storing the biometric information of the operation permitter assigned to the operated device from the biometric information database of the center device in the operated device. A biometric information capturing unit that captures the biometric information of the operator, and compares the biometric information of the authorized operator stored in the biometric information storage unit with the biometric information captured from the biometric information capturing unit. Since the biometric information collating unit for permitting the operation of the operated device is provided, the following effect is obtained in addition to the effect of the first invention. Since the verification of the biometric information is performed in the operated device without passing through the communication network, the time until the verification result is obtained is significantly shorter than when the center device performs the verification via the communication network, and the verification is performed quickly. The result can be obtained. Since the biometric information of the operator does not go out of the operated device onto the communication network, there is no danger of the biometric information of the operator leaking outside and the communication load is light. Even if the communication network goes down, fingerprint collation can be performed in the operated device, and operation by an authorized person is also possible. Since the operated device is provided with the biometric information acquisition unit, the biometric information storage unit, and the biometric information matching unit, the system is compact, and the number of nodes connected to the communication network is “the number of operated devices + 1 (center Device)).

In the fourth invention (the invention according to claim 4), the setting operation device is provided with a biometric information capturing unit for capturing the biometric information of the operator, and the operated device is provided with the operation permitter assigned to the operator. A biometric information storage unit for copying and storing biometric information from the biometric information database of the center device, and a biometric information of an operation permitter stored in the biometric information storage unit and a biometric information acquisition unit of the setting operation device. And a biometric information collating unit for permitting the operated device to be operated from the setting operation device by performing collation with the biometric information obtained, so that the following effect is obtained in addition to the effect of the first invention. Play. A biometric information collating unit is provided in the setting operation device, and a biometric information storage unit and a biometric information collating unit are provided in the operated device. Therefore, when one operated device is operated by a large number of setting operation devices, the system The overall cost is reduced.

According to a fifth invention (an invention according to claim 5), in the first to fourth inventions, the biological information stored in the biological information database and the biological information of the captured operator are converted into the original biological information data. Since it is processed as unrecoverable data, when copying and saving the biometric information of the operation permitter from the biometric information database of the center device to the biometric information storage unit of the terminal device such as the setting operation device and the operated device, Even if a malicious third party can view the biometric information on the communication network, it cannot be restored to the original fingerprint data, and the security when the fingerprint data of the authorized user flows on the communication network is guaranteed. You. Further, when sending the captured biological information of the operator to the biological information collating unit of the operated device (fourth invention), even if a malicious third party can view the biological information on the communication network. The original fingerprint data cannot be restored, and security when the biometric information of the operator flows on the communication network is guaranteed.

In the sixth invention (the invention according to claim 6), a biometric information storage unit for copying and storing the biometric information of the operation permitter assigned to itself from the biometric information database of the center device, A biometric information capturing unit that captures information, a biometric information matching unit that compares biometric information of the operation permitter stored in the biometric information storage unit with biometric information captured from the biometric information capturing unit, and an operation. And a setting operation input unit serving as an input unit for various operations including settings for the operated device from the operator, provided only in the setting operation device, and only when the operator is confirmed by the biometric information matching unit to be an operation permitted person, The setting operation input signal from the setting operation input means is made valid, and the setting operation input signal is transmitted to the operated device via the communication control unit. Setting Setting operation unit which is integrated operation function is realized, it is possible to embody the second aspect of the invention by using the setting operation unit, it is possible to obtain the same effect as described in the second invention.

In the seventh invention (the invention according to claim 7), a communication control unit for controlling communication through a communication network, a biological information capturing unit for capturing biological information of an operator, A verification result receiving unit that transmits the captured biological information of the operator to the operated device via the communication control unit and receives a verification result sent from the operated device via the communication control unit; A setting operation input unit, which is an input unit for various operations including settings for the operated device from the operator, is provided in the setting operation device, and the verification result receiving unit receives a verification result indicating that the operator is an authorized operator. Only, the setting operation input signal from the setting operation input means is made valid, and this setting operation input signal is transmitted to the operated device via the communication control unit. Settings you have Work unit is realized, it is possible to embody the fourth invention by using the setting operation unit, it is possible to obtain the same effect as described in the fourth invention.

In the eighth invention (an invention according to claim 8), a communication control unit for controlling communication through a communication network, and the biometric information of the operation permitter assigned to the communication control unit via the communication control unit are transmitted to the center device. A biological information storage unit that copies and stores the biological information of the operator, a biological information capture unit that captures the biological information of the operator, and a biological information and a biological information of the authorized operator stored in the biological information storage unit. A biometric information collating unit that performs collation with biometric information captured from the unit, and a setting operation input unit that serves as an input unit for various operations including settings for the operated device from the operator are provided in the operated device, Only when the biometric information collating means confirms that the operator is an authorized person, the setting operation input signal from the setting operation input means is validated, and its own internal circuit is activated in accordance with the setting operation input signal. As a result, a controlled device that integrates the biological information capturing function, the biological information collating function, and the setting operation function is realized, and the third invention can be embodied by using the controlled device. Thus, the same effect as that described in the third invention can be obtained.

In a ninth invention (an invention according to claim 9), a communication control unit for controlling communication through a communication network, and biometric information of an operation permitter assigned to the communication control unit via the communication control unit are transmitted to the center device. A biometric information storage unit that copies and stores the biometric information database from the biometric information database of the user, and the biometric information of the operation permitter stored in the biometric information storage unit and the biometric information of the captured operator sent from the setting operation device. The device to be operated is provided with a biometric information collating unit that performs collation of the information.The result of the collation by the biometric information collating unit is transmitted to the setting device, and the setting is performed when the result of the collation that the operator is the authorized operator is received. Since the internal circuit is controlled according to the setting operation input signal sent from the operation device, the operated device with the biometric information collation function is realized, and multiple devices with the biometric information reading function are realized. Setting By combining via a communication network and the operating unit, it is possible to embody the fourth invention, it is possible to obtain the same effect as described in the fourth invention.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a fingerprint matching system according to an embodiment (Embodiment 1) of the present invention.

FIG. 2 is a processing flowchart of the fingerprint collation system.

FIG. 3 is a configuration diagram of a fingerprint matching system according to another embodiment (Embodiment 2) of the present invention.

FIG. 4 is a processing flowchart of the fingerprint collation system.

FIG. 5 is a front view showing the appearance of a setting operation device in the fingerprint matching system of FIG. 1;

FIG. 6 is a configuration diagram of a fingerprint matching system according to another embodiment (Embodiment 3) of the present invention.

FIG. 7 is a processing flowchart of the fingerprint collation system.

FIG. 8 is a configuration diagram of a conventional fingerprint matching system.

FIG. 9 is a processing flowchart of the fingerprint collation system.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Center apparatus, 1A ... Communication control part, 1B ... Fingerprint database, 2 (2-1 to 2-n) ... Setting operation device, 3 (3-
1-3-m) operated device, 4 communication network, 2
A: communication control unit, 2B: fingerprint data storage unit, 2C: fingerprint data acquisition unit, 2D: fingerprint collation unit, 2E: setting operation input unit, 2F: switch unit, 2G: display unit, 2H: collation result reception unit 3A: communication control unit; 3B: fingerprint data storage unit;
3C: fingerprint data capturing unit, 3D: fingerprint collating unit, 3E: setting operation input unit, 3F: switch unit, 3H: internal circuit, 4
... communication network.

Continued on the front page (72) Inventor Hiroshi Nakajima 2-12-19 Shibuya, Shibuya-ku, Tokyo F-term (reference) 5B043 BA02 CA10 FA02 FA03 FA06 5B085 AE25 BG06

Claims (9)

[Claims] 1. A center device including a biometric information database for storing biometric information of a person who is authorized to operate the entire system and a communication control unit; and a terminal device connected to the center device via a communication network; The terminal device includes: a biometric information storage unit that copies and stores biometric information of an operation permitter assigned to the terminal device from a biometric information database of the center device; A biometric information matching system comprising: a biometric information matching unit that matches biometric information with captured operator biometric information. 2. A center device including a biometric information database for storing biometric information of an operation permitter of the entire system and a communication control unit; a setting operation device connected to the center device via a communication network; A setting operation device, wherein the setting operation device includes: a biometric information storage unit that copies and stores biometric information of an operation permitter assigned to itself from a biometric information database of the center device; An information capturing unit, performing a check on the biometric information of the operation permitter stored in the biometric information storage unit with the biometric information captured from the biometric information capturing unit, and A biometric information collating system comprising: a biometric information collating unit for permitting an operation. 3. A center device including a biometric information database for storing biometric information of a person who is authorized to operate the entire system and a communication control unit, and an operated device connected to the center device via a communication network. The operated device includes a biometric information storage unit that copies and stores biometric information of an operation permitter assigned to the device from a biometric information database of the center device, and a biometric information capturing unit that captures biometric information of the operator. And comparing the biometric information of the operation permitter stored in the biometric information storage unit with the biometric information captured from the biometric information capturing unit to permit the operation on the operated device. A biometric information collating system comprising a biometric information collating unit. 4. A center device comprising a biometric information database for storing biometric information of a person who is permitted to operate the entire system and a communication control unit; a setting operation device connected to the center device via a communication network; The setting operation device includes a biometric information capturing unit that captures biometric information of an operator, and the operated device transmits biometric information of an operation permitter assigned to itself to the biometric information of the center device. A biometric information storage unit copied and stored from a database; collation of biometric information of the operation permitter stored in the biometric information storage unit with biometric information captured from a biometric information capturing unit of the setting operation device; And a biometric information matching unit for permitting the operated device to perform an operation from the setting operation device. 5. The biometric information according to claim 1, wherein the biometric information stored in the biometric information database and the captured biometric information of the operator are data that cannot be restored to the original biometric information data. A biological information collation system characterized by being processed. 6. A setting device connected to a center device and a device to be operated via a communication network, the center device including a biometric information database for storing biometric information of an operation permitter of the entire system and a communication control unit, wherein the communication A communication control unit that controls communication through a network; a biometric information storage unit that copies and stores biometric information of an operation permitter assigned to the user via the communication control unit from a biometric information database of the center device; A biological information capturing unit that captures the biological information of the operator; a biological body that performs a comparison between the biological information of the operation permitter stored in the biological information storage unit and the biological information captured from the biological information capturing unit. An information collating unit; and a setting operation input unit serving as an input unit for inputting various operations including settings for the operated device from an operator. Only when it is confirmed that the operator is the operation permitted person, the setting operation input signal from the setting operation input means is validated, and the setting operation input signal is transmitted to the operated device via the communication control unit. A setting operation device characterized by transmitting. 7. A setting device connected to a center device and a device to be operated via a communication network, the center device including a biometric information database for storing biometric information of an operation permitter of the entire system and a communication control unit, wherein the communication A communication control unit for controlling communication through the network, a biological information capturing unit for capturing biological information of the operator, and the biological information of the operator captured from the biological information capturing unit via the communication control unit Transmitting to the operated device,
A collation result receiving unit that receives a collation result sent from the operated device via the communication control unit, and a setting operation input unit serving as an input unit for various operations including settings for the operated device from an operator Only when the collation result receiving unit receives a collation result indicating that the operator is an operation permitter, the setting operation input signal from the setting operation input unit is validated, and the setting operation input signal is A setting operation device for transmitting to the operated device via the communication control unit. 8. An operated device connected via a communication network to a center device including a biometric information database for storing biometric information of an operation permitter of the entire system and a communication control unit, wherein communication via the communication network is performed. A biometric information storage unit for copying and storing biometric information of an operation permitter assigned to the user via the communication control unit from a biometric information database of the center device; A biometric information capturing unit that captures information, and a biometric information matching unit that performs a comparison between the biometric information of the operation permitter stored in the biometric information storage unit and the biometric information captured from the biometric information capturing unit. A setting operation input unit serving as an input unit for various operations including settings for the operated device from the operator. Only when it is confirmed that the user is an authorized user, the setting operation input signal from the setting operation input means is made valid, and the internal circuit is controlled according to the setting operation input signal. . 9. An operated device connected via a communication network to a center device and a setting operation device having a biometric information database for storing biometric information of an operation permitter of the entire system and a communication control unit, wherein the communication A communication control unit that controls communication through a network; a biometric information storage unit that copies and stores biometric information of an operation permitter assigned to the user via the communication control unit from a biometric information database of the center device; A biometric information collating unit for collating the biometric information of the authorized operator stored in the biometric information storage unit with the biometric information of the captured operator sent from the setting operation device; The collation result in the collation unit is transmitted to the setting operation device, and is transmitted from the setting operation device when the collation result indicating that the operator is the operation permitted person is received. An operated device and controlling an internal circuit of the self according to a setting operation input signal that.