JP4279173B2 - Processing system with personal authentication - Google Patents

Description

  The present invention relates to a system that performs personal authentication and executes corresponding processing, and also performs information transmission or specific processing, and in particular, prevents spoofing, transmits information that only the user can know, and processes intended by the user. It is related with the processing system by the personal authentication which can perform.

  Conventional personal authentication using biometric data such as fingerprints and voices is used to open and close important material storage room doors, safe doors, and the like.

  In addition, as a prior art for permitting entry into a room and performing personal authentication for information access in a computer with a fingerprint, Japanese Patent Laid-Open No. 2002-140708 “Personal Authentication System and Method Using Fingerprints” published on May 17, 2002 (Applicant: NC Soft Corporation, inventor: Kenichi Komatsu).

JP 2002-140708 A (refer to pages 5 to 8)

  However, the above-described conventional identity authentication technology only authenticates the person, and does not transmit information known only to the person by inputting biometric data such as a fingerprint.

  Specifically, in the case of a door that opens and closes by fingerprint collation, it is determined whether or not the fingerprint read by the fingerprint reading device is properly registered, and if it is a registered fingerprint, the door is opened. It has become.

  However, if a person who can open and close the door is threatened by a robber with a weapon and forced to open and close the door, the only way to open and close the door is to open and close the door. Information could not be transmitted.

  The present invention has been made in view of the above circumstances, and a plurality of pieces of information or / and processing arbitrarily defined by an individual while performing personal authentication using biometric data such as a fingerprint, An object of the present invention is to provide a processing system based on personal authentication that executes processing and transmits information to the outside by a sequence branch of special processing.

The present invention, in the processing system according to authentication, an input unit for inputting biometric data, the multiple biometric data, a user identifier for identifying the user, biometric identifier for identifying a living body, by associating the biometric data storage for verification database, the details of a process corresponding to the permutations of multiple biometric data, a user identifier, the process identifier for specifying the processing content, the processing sequence data stored in association with permutations of a plurality of biological identifiers based, with the information that certain data and input user has arbitrarily defined for that particular order that a permutation of multiple biometric data, a user identifier, a sequence number indicating an input rank in permutation biometric identifiers, biometric identifiers, information a storage unit comprising information / processing database that associates and stores a broadcast, a plurality of biometric data are sequentially input from the input section If the personal authentication is performed with reference to the database for collation with respect to the column and the input biometric data is stored in the database for collation, the corresponding biometric identifier is taken out, and the biometric identifier is extracted from the input biometric data. To create a permutation of the living body, refer to the processing sequence database, check the permutation, and if there is a permutation of the biometric identifier that matches the generated permutation of the living body, take out the corresponding processing identifier, run the process specified further, and against the permutation of biometric data input continues from the input unit after execution of the process retrieves the biometric identifier by the same process, the biometric identifier extracted the information / reference to the process database, and charts of the biological identifier identified by the sequence number corresponding to the order of input of the biometric identifiers match In case, the input person in response to a biological identifier retrieves the information arbitrarily defined, those having a control unit for executing a process of transmitting the information, performs authentication, permutations of a plurality of biological data The process of transmitting the information arbitrarily defined by the input person can be easily executed while executing the contents of the corresponding process.

The present invention, in the processing system according to the authentication, the processing sequence database, are treated identifier one or more storage to the user identifier, the control unit is fetched for permutation of the plurality of biometric data input if one or more process identifiers by referring to the processing sequence databases, is intended to perform one or more processing specified by the process identifier, taken for a permutation of the plurality of biometric data When there are one or more processed process identifiers, the contents of the corresponding one or more processes can be easily executed.

According to the present invention, an input unit for inputting biometric data, the multiple biometric data, a user identifier for identifying the user, biometric identifier for identifying a living body, reference data stored in association with biometric data base, the details of a process corresponding to the permutations of multiple biometric data, a user identifier, the process identifier for specifying the processing content, the processing sequence database that associates and stores a permutation of a plurality of biological identifiers, number multiple about permutations of the biometric data and specific data for that particular order input user information that is arbitrarily defined, a user identifier, a sequence number indicating an input rank in permutation biometric identifiers, biometric identifiers, associating the information storage information / processing data and a storage unit comprising a base, matching database for permutation of the plurality of biometric data are sequentially input from the input section If the biometric data entered is stored in the verification database, the corresponding biometric identifier is extracted, and a biometric permutation is created from the input biometric data using the biometric identifier. , Referring to the processing sequence database, collating the permutation, and if there is a permutation of the biometric identifier that matches the permutation of the created biometric, retrieve the corresponding processing identifier, and execute the process specified by the processing identifier, Furthermore, the pair permutation of biometric data input continues from the input unit after execution of the process retrieves the biometric identifier by the same process, the biometric identifier extracted said, with reference to the information / processing database, if the order of the biological identifier identified by the sequence number corresponding to the order of input of the biometric identifiers match, input in response to a biological identifier Who removed arbitrarily defined information, since a processing system according to authentication and a control unit for executing a process of transmitting the information, performs authentication, processing corresponding by permutation of the plurality of biometric data There is an effect that processing for transmitting information arbitrarily defined by the input person can be easily executed while executing the contents.

According to the present invention, the process sequence database stores one or more process identifiers for the user identifier, and the control unit processes the process identifiers extracted for the permutations of the plurality of input biometric data. if one or more with reference to the physical sequence database, since the above authentication by the processing system to perform one or more processing specified by the process identifier, taken for a permutation of the plurality of biometric data When there are one or a plurality of processed identifiers, there is an effect that the contents of the corresponding one or a plurality of processes can be easily executed.

Embodiments of the present invention will be described with reference to the drawings.
The processing system by personal authentication according to the embodiment of the present invention forms a permutation by combining biometric data such as a plurality of fingerprints or speech words and the biometric data, and information or / and processing contents determined by the permutation. If the process is special, the corresponding information is transmitted to the outside by a sequence branch of the special process, for example, opening and closing of the door While processing, specific information (for example, the number of robbers is 3) is transmitted to the outside by a sequence branch of special processing.

A configuration of a processing system based on personal authentication (this system) according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a block diagram showing the configuration of a processing system using personal authentication according to an embodiment of the present invention.
As shown in FIG. 1, a processing system using personal authentication (this system) according to an embodiment of the present invention includes a control unit 1, a fingerprint reader 2, a database (DB) 3, a transmission unit 4, and a door control. Unit 5, alarm device 6, video control unit 7, camera 8, main memory 9, and storage unit 10 are basically provided.
Here, the DB 3 includes a verification DB 3a, a processing sequence DB 3b, and an information DB 3c. Note that the contents of the DB 3 correspond to the storage unit in the claims.

Each part in this system is explained concretely.
The control unit 1 performs overall control, inputs the fingerprint read by the fingerprint reader 2, reads the corresponding processing and information from the DB 3, and performs the processing (door opening / closing, alarm, video recording, etc.). The information is executed and transmitted to the outside by the transmission unit 4. Detailed control in the control unit 1 will be described later.
The fingerprint reader 2 reads the fingerprint and outputs the read fingerprint data to the control unit 1.
Here, fingerprint data is used as the biometric data, but it is possible to register and use a voice word or a combination of words as voice data other than the fingerprint.

The database (DB) 3 includes a collation database (DB) 3a for use in fingerprint collation, and a processing sequence database (DB) for defining specific processing (processing arbitrarily defined by the input person) and shifting to execution ) 3b and an information database (DB) 3c for defining specific information (information arbitrarily defined by the input person) and transmitting the information.
Here, the definition of the specific process and the definition of the specific information are performed by the person who registered the fingerprint and are processes and information that only the person can know.

  The DB 3 also stores a program for executing specific processing and a program for transmitting specific information.

The transmission unit 4 is a means for transmitting specific information according to an instruction from the control unit 1.
The door control unit 5 is means for controlling the opening and closing of the door, and receives an instruction from the control unit 1 to open and close the door.
The alarm device 6 is a means for generating an alarm according to an instruction from the control unit 1.
The video control unit 7 is means for controlling video recording in accordance with an instruction from the control unit 1.
The camera 8 is a means for inputting video under the control of the video control unit 7.
The main memory 9 is a memory in which the control unit 1 loads and expands a processing program stored in the storage unit 10 and temporarily operates the processing program.
The storage unit 10 is a storage unit that stores the processing program of the present invention (for example, a program that executes the flow of FIG. 4) and temporary data.

The collation DB 3a, the processing sequence DB 3b, and the information DB 3c in the DB 3 will be specifically described with reference to FIG. FIG. 2 is a schematic diagram showing an outline of DB 3 of the information transmission system based on the personal authentication according to the embodiment of the present invention.
The verification DB 3a registers and stores a user identifier, a finger identifier, and biometric data as elements.

The user identifier (user ID) is an identifier for identifying a specific user.
The finger identifier is for identifying a finger. For example, the right thumb is “11”, the right index finger is “12”, the right middle finger is “13”, the right ring finger is “14”, and the right hand little finger is “15”. The finger identifiers are defined as “21” for the left thumb, “22” for the left index finger, “23” for the left middle finger, “24” for the left ring finger, and “25” for the left little finger.

Each finger identifier is stored in association with “biometric data” of the fingerprint data.
That is, a registered finger identifier and corresponding fingerprint data (biometric data) are stored in pairs for the user identifier. Here, when there are a plurality of users, the same finger identifier and biometric data are stored for each user identifier.

Next, an overview of the processing sequence DB 3b will be described with reference to FIG. FIG. 3 is a schematic diagram of the processing sequence DB 3b.
As illustrated in FIG. 3, the processing sequence DB 3b stores a user identifier, a processing identifier, and a plurality of finger identifiers as elements.
The process identifier is an identifier for specifying the process content. When the identifier is determined, the process is executed. Actually, the control unit 1 reads the process identifier and performs the process by itself or outputs a process instruction to the corresponding controller. The controller operates according to the instruction.
Specific examples of the controller include a door control unit 5 that controls opening and closing of the door, or a video control unit 7 that controls recording of images.

  A plurality of finger identifiers specify processing identifiers in the order (permutation) in which these identifiers are arranged, and the number of finger identifiers corresponding to the permutation formed by this identification differs. Specifically, assuming that the permutation of finger identifiers is “11” (right hand thumb) and “22” (left hand index finger), for example, the processing identifier is “A01”, and the process performs an “open door” operation. It has become a thing. Further, if the permutation of the finger identifiers is “21” (left thumb), “21” (left thumb), for example, the processing identifier is “A02”, and the processing is “Alarm output alarm”. The operation is to be performed. If the permutation of the finger identifier is “11” (right thumb), “11” (right thumb), “12” (right hand index finger), for example, the process identifier is “A03”, and the process is “crime prevention” The video recording of the image taken with the camera is performed.

  When one user performs a plurality of processes by inputting a fingerprint, a plurality of process identifiers are registered for the user identifier, and a permutation combining a plurality of finger identifiers defining the process identifier is stored. . When there are a plurality of users, the same identifier is stored for each user.

The information DB 3c defines specific information and is used to transmit the information, and stores a user identifier, a sequence number, a finger identifier, and a meaning (information) as elements.
Here, the user himself / herself registers “meaning” in the information DB 3c. Thereby, the defined meaning becomes information that only the person knows.
The sequence number indicates a specific order in the permutation of finger identifiers. “Sequence number n” indicates “nth fingerprint data input”.
Here, when the finger identifier in the “sequence number” is the “finger identifier” defined in the information DB 3c, the defined “meaning” (information) is provided. That is, special information is represented by the order in which the finger identifiers are input. When the information is specified, the information is output from the control unit 1 to the transmission unit 4 and transmitted from the transmission unit 4 to the outside. That is, information transmission is performed.

  Specifically, assuming that the sequence number is “3”, the order “3” is shown in the permutation, and the third input fingerprint data is the “finger identifier” shown next, for example, the right hand ring finger If it is “14”, the subsequent meaning (information), for example, information of “SOS” is specified. That is, when the fingerprint data of the third ring finger is input for the third time, the information of “SOS” is specified.

  Here, a specific meaning (information) is specified by the sequence number and the finger identifier, but a specific process may be executed by the sequence number and the finger identifier. For example, it is possible to perform a process (another process) of transmitting a video (moving image data) taken by a security camera to the police while transmitting to a security room such as a building, a security company, or the police. In this case, since the processing content (processing program) is stored in the information DB 3c, it can be called an information / processing DB. The processing program may not be stored in the information / processing DB, but may be stored in another DB, and the storage location of the corresponding program may be stored as an index in the information / processing DB.

Next, the operation of this system will be described with reference to FIG. FIG. 4 is a flowchart showing processing in the control unit of the processing system based on personal authentication according to the embodiment of the present invention.
When the user identifier is input from the input unit (S1) and the fingerprint is continuously input from the fingerprint reader 2 (S2), the control unit 1 of the present system sets the DB 3a for verification in the DB 3 from the continuously input fingerprint data. Search, calculate and collate (S3).
Here, even if the accuracy of collation is not so high, since the same person performs fingerprint input a plurality of times with a plurality of fingers, if the authentication accuracy is obtained as a whole, the identity authentication can be considered successful.

  As a result of the collation, if the input fingerprint data is not registered in the collation DB 3a (in the case of NG), the process returns to S1. If the input fingerprint data is registered in the verification DB 3a (in the case of OK), the corresponding finger identifier is extracted (S4).

Next, a finger permutation is created from the input fingerprint data (S5), and the finger permutation is collated with reference to the processing sequence DB 3b (S6).
As a result of referring to the processing sequence DB 3b, if “the number of finger permutations is not reached (insufficient)”, the processing returns to the processing S2. Further, as a result of referring to the processing sequence DB 3b, if there is anything that “matches” the created finger permutation, a corresponding processing identifier is taken out (S7).

Next, the content of the extracted processing identifier is determined (S8).
If the process identifier indicates “NG”, an NG process is performed as an unexpected situation (S9), and a transmission process is performed to cause the transmitter 4 to transmit an “unexpected situation” (S10). ), The process returns to step S1.

If the process identifier indicates “door”, the door control unit 5 is caused to perform the door opening / closing process (S11).
If the process identifier indicates “alarm”, the alarm device 6 is made to output an alarm (S12).
If the process identifier indicates “video”, the video control unit 7 is caused to perform a video recording process (S13). In the video recording process, an image taken by the camera 8 is recorded under the control of the video control unit 7.

  After the processes S11, S12, and S13, the process identifier is determined again for the input finger permutation (S14), and it is determined whether or not the "report" identifier defined in the information DB 3c is included. . If it is “non-report”, the process returns to the process S1. If it is “report”, the information DB 3c is searched and the meaning is specified, and the meaning content (information) is extracted (S16). The transmission process is performed (S16), and the process returns to the process S1. Meaning content is “robbery, two people” or the like.

In the above example, the information registered in the information DB 3c is transmitted and output. However, depending on the device, more advanced information transmission is possible.
For example, if the combination of the sequence number and the finger identifier is a specific one, it is possible to represent the number or type by a fingerprint that is input thereafter.
To the last, it is the user himself / herself that represents “number or type”, which is defined and registered by the user himself / herself, and is information that only the user knows.

Specifically, this will be described with reference to FIGS. FIG. 5 is a schematic diagram of the information DB 3c, and FIGS. 6 and 7 are explanatory diagrams showing the corresponding processing contents in fingerprint data input.
When the sequence number is “3” and the finger identifier is “13” (right middle finger), the meaning of “the number of robbers is 3” is defined. When the sequence number is “3” and the finger identifier is “14” (right hand ring finger) The meaning of “the number of robberies is 4” is defined.
“The number of robbers is 3” or “the number of robbers is 4” is information determined by sequence branching of special processing, and these information are processed to be transmitted to the outside.

  That is, as shown in FIG. 6A, when fingerprint data is input in the order of finger identifier “11” (right thumb) and finger identifier “22” (left hand index finger), the processing identifier is “A01”. The contents will open the door. Also, as shown in FIG. 6B, when fingerprint data is input in the order of finger identifier “11” (right hand thumb), finger identifier “22” (left hand index finger), and finger identifier “13” (right hand middle finger). The processing identifier remains “A01”, the processing content opens the door, and “the number of robbers is three” is transmitted for notification.

  Also, in the case of the finger identifier “11” (right thumb) with the sequence number “5”, the meaning of “the weapon of robbery is a knife” is defined, and the finger identifier “21” (left thumb) is assigned with the sequence number “5”. In this case, if the meaning of “the robber is a pistol” is defined, when the sequence number “3” + finger identifier “13”, sequence number “5” + finger identifier “11” are acquired, The number of people can be comprehensive information such as “the weapon is a knife”. When the sequence number “3” + finger identifier “14”, the sequence number “5” + finger identifier “21” are acquired, It can be comprehensive information such as “the number of robberies is 4 and the weapon is a pistol”, and detailed information can be transmitted to the outside.

  That is, as shown in FIG. 7A, when fingerprint data is input in the order of finger identifier “11” (right thumb) and finger identifier “22” (left hand index finger), the processing identifier is “A01”. The contents will open the door. As shown in FIG. 7B, finger identifier “11” (right thumb), finger identifier “22” (left hand index finger), finger identifier “13” (right hand middle finger), finger identifier “mn” (arbitrary finger) When the fingerprint data is input in the order of the finger identifier “11” (right thumb), the processing identifier is “A01”, the processing content opens the door, and “the number of robbers is three”, “the weapon is a knife” Send and report. Also, as shown in FIG. 7C, finger identifier “21” (right thumb), finger identifier “22” (left hand index finger), finger identifier “14” (right hand ring finger), finger identifier “mn” (arbitrary Finger) and finger identifier “21” (left thumb), when the fingerprint data is input, the processing identifier is “A01”, the processing content is opened, “the number of burglars is four”, “the weapon is a pistol ”Will be reported.

In the above-described embodiment, the application of the door has been described. However, the present invention can be applied to a safe door, a material room door, and a medicine door.
Also, it can be applied to an independent fingerprint authentication device (IAU: Intelligent Authentication Unit), and it is possible to transmit information known only to the person to the process using a computer, a mobile phone, etc. connected to the fingerprint authentication device. Become.
IAU will be described with reference to FIGS.

  First, an independent fingerprint authentication device (IAU) will be briefly described with reference to FIGS. FIG. 8 is an external view of a stand-alone fingerprint authentication device, and FIG. 9 is a block diagram of the configuration of the fingerprint authentication device. Details of the independent fingerprint authentication device (IAU) are described in detail in Japanese Patent Application Laid-Open No. 2003-85149 “Fingerprint authentication device and authentication system” (Applicant: System Needs Co., Ltd., Inventor: Keisuke Nakayama et al.).

  As shown in FIG. 8, the independent fingerprint authentication device (IAU) is provided with a terminal 200 of an external connection interface unit on the back surface as shown in a thin box shape 8 (b). In addition to performing fingerprint collation, appropriate data is acquired and transferred from among a plurality of data stored therein depending on the authentication result.

  As shown in FIG. 9, the internal configuration of the independent fingerprint authentication apparatus (IAU) includes a plurality of data files (DF) 123 for storing data corresponding to an application, a fingerprint template file 124 for storing fingerprint data, and each of the files. A master file (MF) 122 for storing an encryption key for decrypting a key for accessing the file, inputting an encrypted key, decrypting with the encryption key of the master file, accessing each file, and contents of the file An IC card CPU 121 that executes processing means for outputting a file, a file access control condition table (FACCT) 113 that stores an encrypted key for accessing a corresponding file in response to a request from an application, a fingerprint Fingerprint sensor unit 114 that performs detection and responds to requests from applications An encrypted key relating to access to the file is read from the FACCT 113 and output to the processing means executed by the IC card CPU 121. When fingerprint data is acquired from the processing means, it is compared with the fingerprint data detected by the fingerprint sensor unit 114. And a control unit 111 for comparing and transferring the collation result to the application.

  As an operation when using an independent fingerprint authentication device (IAU), when an application of the processing device 140 requests acquisition of highly confidential data from the IC card unit 120, fingerprint verification is performed in this device. When the collation result at the collation level requested by the application is true, access to the data file requested by the application is started.

  For example, in the case of an application that extracts data of file01 in the DF0 area in the IC card unit 120, if the fingerprint collation result is true, the common control unit 111 is encrypted for accessing DF0 with reference to the FACCT113. Is extracted and output to the IC card CPU 121 of the IC card unit 120. The IC card CPU 121 decrypts the encrypted Key0 using the encryption key KeyM of MF1, and uses the decrypted Key0 to the DF0 area. Allow access. Therefore, even if an unauthorized user reads Key0 of FACCT13, DF0 cannot be accessed without knowing KeyM of MF1.

  Next, the common control unit 11 refers to the FACCT13 and outputs the encrypted Key01 for accessing file01 to the IC card CPU21. The IC card CPU21 encrypts the Key01 encrypted using KeyM of MF1. Is decrypted, and access to file01 is permitted using the decrypted Key01.

  Then, the IC card CPU 121 reads the data of file01 and outputs the data to the common control unit 111, and the common control unit 111 transfers the data to the host 140. If the data of file01 is encrypted, it is effective to decrypt and transfer it to the host 140, or to transfer the encrypted data to the host 140 if it is highly confidential.

The contents of DB3 may be stored entirely in the IAU, or the contents of the processing sequence DB 3b and information DB 3c may be stored in a mobile phone, a personal computer, and a server.
Further, in the flow of FIG. 4, at least processes S1 to S5 are performed within the IAU.

Even people who are unable to speak in home care can be used to convey specific information.
Furthermore, although fingerprints have been described as biometric data, voice data may be used instead of fingerprint data. The voice data may be identified by words such as “apple”, “mandarin orange”, and “banana”, and the voiceprint of the speaker may be identified in addition to these words.

  In addition to the above, as biometric data, the identity authentication is performed using iris data or retinal pattern data, and the direction of movement (gaze) of the pupil (for example, the pupil moves up, then moves to the right, and A specific process may be executed by returning to the center or the like, and information that is known only to the person may be transmitted in the middle of the movement of the pupil, or another process that is known only to the person may be executed.

  According to the present system, the identity authentication is performed, the specific process is executed by the permutation of the biometric data, the information is transmitted by the finger identifier of the specific order of the permutation, or another process is executed. It is possible to transmit information that only the person knows, or to achieve a specific process and another process in parallel.

  The present invention is capable of performing a plurality of processes according to the input order of biometric data for a plurality of information / processes arbitrarily defined by an individual while performing personal authentication using biometric data, and can transmit information to the outside. It is suitable for a processing system based on personal authentication.

It is a block diagram of a configuration of a processing system using personal authentication according to an embodiment of the present invention. It is the schematic which showed the outline | summary of DB of the processing system by the personal authentication which concerns on embodiment of this invention. It is the schematic of process sequence DB3b. It is a flowchart which shows the process in the control part of the processing system by the personal authentication which concerns on embodiment of this invention. It is the schematic of information DB3c. It is explanatory drawing which shows the corresponding processing content in fingerprint data input. It is explanatory drawing which shows the corresponding processing content in fingerprint data input. It is an external view of a stand-alone fingerprint authentication device. It is a block diagram of the configuration of the fingerprint authentication device.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Control part, 2 ... Fingerprint reader, 3 ... Database (DB), 3a ... DB for collation, 3b ... Processing sequence DB, 3c ... Information DB, 4 ... Transmission part, 5 ... Door control part, 6 ... Alarm, 7 ... Video control unit, 8 ... Camera, 9 ... Main memory, 10 ... Storage unit

Claims (3)

An input unit for inputting biometric data;
For multiple biometric data, the verification database that associates and stores the user identifier for identifying a user, bio-identifier for identifying the biological, biological data,
The contents of processes corresponding to a plurality of biometric data permutation, a user identifier, the process identifier for specifying the processing content, the processing sequence database that associates and stores a permutation of a plurality of biological identifiers,
About information specific data and input user has arbitrarily defined for that particular order that a permutation of the plurality of biometric data, a user identifier, a sequence number indicating an input rank in permutation biometric identifiers, biometric identifiers, associate the information a storage unit comprising a storage for information / processing database,
Referring to the matching database for permutation of the plurality of biometric data are sequentially inputted from the entering force unit performs personal authentication, as long as the input biometric data is stored in the verification database , Taking out the corresponding biometric identifier, creating a permutation of the living body using the biometric identifier from the input biometric data, referring to the processing sequence database, and comparing the permutation, If there is a matching permutation of biometric identifiers, the corresponding process identifier is extracted, the process specified by the process identifier is executed, and further, the permutation of biometric data subsequently input from the input unit after execution of the process pair to retrieve the biometric identifier by the same process, the biometric identifier extracted said, by referring to the information / processing database, the biometric identifier If the order of the biological identifier identified by the sequence number corresponding to the input of rank match retrieves the information arbitrarily defined inputting person in correspondence with the biometric identifier, executes the process of transmitting the information A processing system using personal authentication , comprising: a control unit ; In the processing sequence database, one or a plurality of processing identifiers are stored for the user identifier,
The control unit, if one or more processing identifier fetched for permutation of the input plurality of biometric data has been with reference to the processing sequence database, one or more identified by the process identifier The processing system according to claim 1, wherein the processing is executed.   3. The processing system based on personal authentication according to claim 1 or 2, characterized in that the specific processing includes control processing for opening and closing a door, alarm processing for generating an alarm, and recording processing for controlling recording. .

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