RU127971U1 - LAYOUT OF THE AUTOMATED WORKPLACE FOR REGISTRATION, VERIFICATION AND IDENTIFICATION OF THE OWNER OF LDPE BY BIOMETRIC CHARACTERISTICS - Google Patents

Abstract

A mock-up of an automated workstation for registration, verification and identification of the owner of LDPE according to biometric characteristics, comprising a person’s face image input device, a keyboard, a display, a fingerprint scanner for fingerprints and an RFID chip information reader, further comprising a computing unit, a scanner the iris, a fingerprint scanner to obtain a rolled fingerprint and a fingerprint scanner to obtain a simultaneous print and four fingers, while the RFID chip information reader is also a means of writing information to the RFID chip, and the computing unit is configured to receive reference biometric samples, to write reference biometric samples to the RFID chip, to store a database of biometric samples and for receiving biometric biometric samples, as well as for comparing biometric biometric samples with reference biometric samples from an RFID chip in the verification mode and comparing biometric biometric samples with reference accurate biometric samples from the database in identification mode, while the output of the fingerprint scanner for receiving a fingerprint is connected to the first input of the computing unit, the output of the fingerprint scanner for receiving a rolled fingerprint is connected to the second input of the computing unit, the output of a fingerprint scanner for obtaining a simultaneous four-fingerprint connected to the third input of the computing unit, the output of the scanner of the iris of the eye is connected to the fourth input of the calculator

Description

The utility model relates to computing, and more precisely, to computer multi-biometric systems and, in particular, to a mock-up of a workstation for registration, verification and identification of the owner of a new generation of passport and visa documents (LDPE) by biometric characteristics and can be used in testing equipment and procedures registration, verification and identification of the owner of LDPE.

Known biometric systems, which are means for obtaining biometric samples and using the obtained samples for identification or verification of the person who owns these biometric samples. Biometric systems using joint capture, storage and, in particular, the use of biometric samples of two or more modalities are known as multibiometric systems. Among the multibiometric systems is the State System for the Production, Registration and Control of New Generation Passport and Visa Documents (GS PVNP), which includes, among other things, special automated workstations (AWS) for the implementation of procedures for the manufacture and use of PVNP. Such procedures include registration of the biometric data of the owner of the document and subsequent biometric verification or identification of the person presenting the document by comparing the biometric samples taken directly from the owner of the LDPE with the samples taken earlier when registering the biometric data.

Known devices for performing these procedures. Due to the complexity of biometric procedures and the involvement of expensive hardware, the selection and refinement of the configuration of a biometric system, as a rule, requires testing of one or more configurations of the biometric system. A disadvantage of the known biometric systems intended for biometric registration, verification or identification procedures is their narrow specialization associated with the high cost and complexity of biometric systems, which is quite justified in their practical operation, but interfering with experimental work involving varying the hardware composition and functions of the system .

A well-known automated system for registering personal biometric data of applicants for passport and visa documents (invention of the Russian Federation No. 2395838, class G06F 13/00, G06Q 50/00, publ. 2010). This device is characterized by the following features: an automated system for recording personal biometric data of applicants for a new generation of passport and visa documents contains a selection block of reference addresses of applicants in the server database, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, respectively, while the information input block selection of reference addresses of applicants in the server database is designed to receive identifiers applicant’s data, and the synchronizing input of the block of selection of reference addresses of citizens of applicants in the server database is designed to receive signals entering the identification data of applicants into the block of selection of reference addresses of applicants in the server database, the control unit for selecting records of the server database, the first information input of which is connected to the first information output of the selection block of reference addresses of applicants in the server database, and the first synchronizing input of the control block for selecting records of the database The server’s data is connected to the synchronizing output of the selection block of the reference addresses of applicants in the server database, while the address output of the control unit for fetching records of the server database is the address output of the system designed to provide addresses of data records to the address input of the database server, the first synchronizing output of the control unit the selection of server database records is the first synchronizing output of the system designed to issue control signals to the input of the first interrupt channel faith of the database, the second synchronizing output of the control unit for selecting the database records of the server is the second synchronizing output of the system intended for issuing control signals to the input of the second channel for interrupting the database server, the third synchronizing output of the control unit for selecting records of the database of the server is the third synchronizing output of the system, designed to issue control signals to the input of the third channel of the database server interrupt, and the second information output of the selection block and reference addresses of applicants in the server database is the first information output of the system, designed to issue applicants data to the information input of the database server, and also contains an applicant data identification unit, one of which information and synchronization inputs are the second information and synchronization inputs of the system, respectively, and another information input of the applicants data identification unit is connected to the second information output of the applicants reference addresses selection unit in In terms of server data, the second information input of the system is intended for receiving database records, and the second synchronizing input of the system is intended for recording database records in the applicants data identification block, while the information output of the applicants data identification block is the second information output of the system, the first synchronizing block output Applicant data identification is the fourth synchronizing output of the system, and the signal output of the applicants data identification unit is a signal the system output, a selection block for the applicants data identification time period, the information input of which is connected to the third information output of the applicants data identification block, and the clock input of the applicants data identification time selection block is connected to the clock output of the applicants data identification block, while the information output of the selection block the time period for identifying the applicants data is connected to the second information input of the database record selection control unit server is the third information output of the system, one synchronizing output of the selection block of the time period for identifying the applicants data is connected to the second synchronizing input of the control unit for selecting records of the server database, and the other synchronizing output of the selection block for the time period of identifying the data of applicants is connected to the third synchronizing input of the control unit selection of server database records, discrimination block for applicants data update area, information the synchronizing inputs of which are the third information and synchronizing inputs of the system, respectively, while the third information input of the system is designed to receive data from the update area of applicants data, the third synchronizing input of the system is designed to receive signals from entering data from the update area into the discrimination unit of the applicants data update area, the first and second the control outputs of the discrimination unit of the applicants data update area are connected to the first and second control by the inputs of the applicants data identification unit, respectively, and the synchronizing output of the discrimination unit of the applicants data update area is connected to the fourth synchronizing input of the server database record sample selection control unit, and the applicants data processing time cycle identification unit, the first and second information inputs of which are connected to the first and second information outputs of the discrimination unit of the area of updating the applicants data, respectively, the clock input of the identification unit in the applicants data processing cycle is connected to the synchronizing output of the discrimination unit of the applicants data update area, the first and second synchronizing inputs of the applicants data processing time cycle identification unit are connected to the second and third synchronizing outputs of the applicants data identification unit, respectively, while the information output of the processing time cycle identification unit data of applicants is connected to the third information input of the control unit for selecting database records server data, the synchronizing output of the applicants data processing time cycle identification unit is connected to the fifth synchronizing input of the server database records selection control unit, and the installation output of the applicants data processing time cycle identification unit is connected to the installation input of the discrimination unit of the applicants data update area.

The following features of the specified known system coincide with the essential features of the proposed utility model:

the automated system is designed to register personal biometric data of applicants for a new generation of passport and visa documents, contains tools for managing the database, an information input for receiving the applicant’s identification data, as well as an applicant data identification unit.

The disadvantages of the known system are: the lack of a device for taking a photographic image, the lack of a device for taking samples of the iris, the absence of a specialized device for taking the fingerprints required to register the receiver of the LDPE, the lack of a recorder for the RFID chip, and, as a result, the inability to register the receiver of the LDPE with entering biometric data into the RFID chip, as well as the inability to carry out verification and identification procedures using bi isometric samples of the iris.

A well-known automated system for verifying the data of citizens during registration and issuance of biopassports (invention of the Russian Federation No. 2378687, class G06F 12/00, publ. 2010).

This device is characterized by the following features:

An automated system for verifying citizen data during registration and issuing biopassports contains a module for selecting the reference address of profiles in the server database, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, while the information input of the module for selecting the reference address of profiles in the server database is designed to receive identification data of citizens, and the synchronizing input of the module for selecting the reference address of profiles in the server database is intended for receiving the synchronization signals of entering citizens identification codes into the selection module of the reference address of profiles in the server database, the module for identifying verified profiles, one information input of which is connected to the first information output of the module for selecting the reference address of profiles in the server database, the other information input of the module for identifying verified profiles is the second information input of the system, designed to receive verified profiles from the server database, and the synchronizing input of the identifier module of the profiles of verified profiles is the second synchronizing input of the system, intended for receiving synchronizing signals for entering verified profiles into the identification module of verified profiles, a module for generating addresses for reading verified profiles, the address input of which is connected to the second information output of the module for selecting the reference address of profiles in the server database, the synchronizing input the module for generating addresses for reading verified questionnaires is connected to the synchronizing output of the module for selecting the reference address for anke t in the server database, while the address output of the module for generating addresses for reading verified questionnaires is the first address output of the system intended for issuing the addresses for reading verified citizens' profiles for the address input of the database server, and the synchronizing output module for generating addresses for reading verified profiles is the first synchronizing output systems designed to issue control signals to the input of the first channel of the database server interrupt, module for setting operating modes, information whose input is connected to the information output of the verified questionnaire identification module, the first clock input of the operating mode setting module is the first clock input of the system designed to receive clock signals of the passport issuing mode, the second clock input of the operating mode setting module is the second clock input of the operating mode setting module clock signals of the reading mode of the chip, the third clock input of the module for setting the operating modes is the third clock input of the system, p designed to receive clock signals from the passport and chip data comparison mode, the information output of the operating mode setting module is the first information output of the system designed to provide the data of the verified questionnaire to the operator monitor, the first synchronizing output of the operating mode setting module is the second synchronizing output of the system for issuing control signals to the input of the second channel of the database server interrupt, the second synchronizing output of the installation module operating modes is the third synchronizing system output intended for issuing control signals to the input of the third channel of the database server interrupt, the third synchronizing output of the operating mode setting module is the fourth synchronizing output of the system intended for issuing control signals to the input of the fourth channel of the database server interrupt, and the control output of the module for setting operating modes is connected to the control input of the module for selecting the reference address of profiles in the server database, and t also contains a module for selecting the boundaries of the selection of verified profiles in the server database, the information input of which is connected to the third information output of the module for selecting the reference address of the profiles in the server database, the synchronizing input of the module for selecting the boundaries of the selection of verified profiles in the server database is connected to the synchronizing output of the module for selecting the reference addresses of profiles in the server database, and the counting input of the module for selecting the boundaries of the selection of checked profiles in the server database is connected to the first clock output of the module I identify verified profiles, while the installation input of the module for selecting the boundaries of the selection of verified profiles in the server database is connected to the installation output of the module for generating the read addresses of the verified profiles, one output of the module for selecting the borders of the sample of verified profiles in the server database is connected to the counting input of the module for generating the read addresses checked profiles, the second output of the module for selecting the boundaries of the selection of checked profiles in the server database is connected to the first installation input of the module reading addresses of verified questionnaires, the second installation input of which is connected to the second clocking output of the verified questionnaire identification module, connected to the control input of the operating mode setting module, passport data identification module, one information input of which is connected to the information output of the verified questionnaire identification module, another information input of the module identification of passport data is the third information input of the system designed to receive passport data, and synchronize The input input of the passport data identification module is the third synchronizing input of the system, intended for receiving synchronizing signals for entering passport data into the passport data identification module, the information output of the passport data identification module is the second information output of the system intended for issuing passport data to the operator monitor, the signal output of the module identification of passport data is connected to the installation input of the module for setting operating modes and is the first signal m system output, intended for issuing error signals in the passport data, and a chip data identification module, one information input of which is connected to the information output of the passport data identification module, the other information input of the chip data identification module is the fourth information input of the system intended for receiving data the chip, and the clock input of the chip data identification module is the fourth clock input of the system, designed to receive clock signals On entering the chip data into the chip data identification module, the control input of the chip data identification module is connected to the control output of the passport data identification module, the information output of the chip data identification module is the third information output of the system intended for the output of chip data to the operator monitor, the first signal output of the module identification of the chip data is the second signal output of the system, designed to issue error signals in the chip data, and the second signal output mode For identification of the chip data, it is connected to the installation input of the passport data identification module and is the third signal output of the system, intended for issuing signals of completion of passport issuing operations.

The following features of this known system coincide with the essential features of the proposed utility model: an automated system is designed to verify citizens 'data when issuing and issuing biopassports, contains database management tools, an information input for receiving citizens' identification data, an identification module, an information input for receiving data from the database server data, output for outputting data to the database, module for setting operating modes, including chip read mode and data comparison mode x passport and chip, information output for issuing data to the operator’s monitor, passport data identification module, information input for receiving passport data, input for entering passport data into the passport data identification module, output for issuing passport data to the operator’s monitor, chip data identification module , information input for receiving chip data, information output for issuing chip data to the operator’s monitor.

The disadvantages of the known system are: the lack of devices for taking biometric data necessary for registration of the recipient or verification of the owner of the LDPE, the lack of an RFID chip recorder, and, as a result, the inability to register the receiver of LDPE with the inclusion of biometric data in the RFID chip, as well as the impossibility implementation of verification and identification procedures with the direct collection of biometric samples from the owner of the LDPE.

A well-known automated system for identifying citizens according to passport and visa documents (invention of the Russian Federation No. 2306603, class G06K 9/00, publ. 2007). This device is characterized by the following features: an automated system for identifying citizens according to passport and visa documents contains a block for receiving passport and visa documents, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, and the first information output of the block for receiving passport and visa documents is the information output of the system, intended for data output to the information input of the database server, when the first information input of the system is intended for receiving citizens' data from workstations of passport and visa services, and the first synchronizing input of the system is designed to receive a synchronizing signal from workstations of passport and visa services for entering input data into the data receiving unit of passport and visa documents, a unit for receiving write and read addresses, an information input of which is connected to the output of the first memory unit, and an output for a unit for receiving write and read addresses x is connected to one information input of the unit for integrating write and read signals, the address output of which is an address output of the system designed to provide write and read addresses to the address input of the database server, while the first synchronizing output of the unit for integrating write and read signals is the first synchronizing output of the system, intended for issuing synchronizing signals to the input of the first channel of interruption of the database server, and the second synchronizing output d the integration block of the signals of writing and reading data is the second synchronizing output of the system, intended for issuing a synchronizing signal on the data display board, the receiving unit of records of the server database, the information and synchronizing inputs of which are the second information and synchronizing inputs of the system, while the second information input of the system designed to receive server database records, and the second synchronizing system input is designed to receive synchronizing pulses with rvera for entering the server database records in the receiving unit records database server; in addition, the system contains a recording address identification block in the server database, the information input of which is connected to the second output of the passport and visa document data receiving block, the synchronizing input of the recording address identification block in the server database is connected to one synchronizing output of the passport and visa data block documents, and the control outputs of the recording address identification block in the server database are connected to the corresponding read inputs of the first memory block, the processing mode selection block data stream, the information input of which is connected to the third output of the passport and visa document data receiving unit, the synchronizing input of the data processing mode selection unit is connected to another synchronizing output of the passport and visa document data receiving unit, while one output of the data processing mode selection unit is connected to the first the synchronizing input of the unit for integrating data recording and reading signals, the other output of the data processing mode selection unit is the third synchronizing output of the system, intended for issuing synchronizing pulses to the input of the second channel for interrupting the database server, and the synchronizing input of the unit for receiving write and read addresses is connected to another synchronizing output of the unit for receiving data of passport and visa documents, the unit for identifying biological personality parameters, one information input of which is connected to the fourth the output of the data receiving unit of passport and visa documents, another information input of the identification unit of the biological parameters of the personality is connected to the output of the recording database recording unit of the server database, the synchronizing input of the identification module of the biological parameters of the personality is connected to the second synchronizing input of the system, while one output of the identification block of the biological parameters of the personality is the signal output of the system, designed to issue synchronizing pulses to the input of the third channel of the server interrupt current addresses of data documentation, the output of which is connected to another information input of the recording signal integration unit and reading data, a second memory unit, the output of which is connected to an information input of a unit for generating current addresses for documenting data, and a black list data management unit, an input of which is connected to another output of an identification unit for identifying biological parameters of a person, while the first output of a black data documenting control unit the list is connected to the read input of the second memory unit, the second output of the control unit for documenting the data of the black list is connected to one synchronization the input of the unit for generating the current addresses for documenting data and with the second synchronizing input for the unit for integrating the data recording and reading signals, and the third output of the unit for documenting data management of the black list is connected to another synchronizing input for the unit for generating the current addresses for documenting data and to the third synchronizing input for the unit for integrating recording signals and reading data.

The following features of this known system coincide with the essential features of the proposed utility model: an automated system is designed to identify citizens by passport and visa documents, contains a block for receiving passport and visa documents, an information output for issuing data to the database, tools for managing the database , information input for receiving citizens' data from workstations of passport and visa services, entrance for receiving data of passport and visa documents c, a data reading unit, an output for issuing a signal on a data display panel, an input for receiving database records, an identifying unit for a recording address in a database, an information input for receiving passport and visa document data, a data processing mode selection unit, a signal integration unit records, a unit for identifying biological parameters of personality

The disadvantages of the known system are: the lack of devices for taking biometric data necessary for registration of the recipient or verification of the owner of the LDPE, the lack of an RFID chip recorder, and, as a result, the inability to register the receiver of LDPE with the inclusion of biometric data in the RFID chip, as well as the impossibility verification and identification procedures using biometric samples directly taken from the owner of the LDPE.

The closest analogue (prototype) of the claimed utility model is known — a terminal for transmitting identification data in biometric systems (Utility Model of the Russian Federation No. 50327, class G08C 17/02, publ. 2005).

The closest independent claim 32 of the prototype formula is characterized by the following features: a terminal for transmitting identification data in biometric systems, comprising an image input device, characterized in that it further comprises a keyboard, non-volatile memory (FLASH), a display, a second input / output port, a microcontroller, a reader fingerprint, clock generator and RFID reader with a radio channel frequency of 13.56 MHz, configured to read passport call identification data from an external passive transponder made in the passport and visa document, the first input-output of the microcontroller is connected to the first input-output of the second input-output port, the second input-output of the microcontroller is connected to the input-output of the image input device, the output of the fingerprint reader connected to the first input of the microcontroller, the fourth input-output of which is connected to the input-output of the said RFID reader, the clock output of which is connected to the input the clock frequency generator, the output of which is connected to the clock input of the RFID reader, the second input-output of the second I / O port is designed to transmit data to / from the database server of the local area network, the third input-output of the microcontroller is connected to the input-output of the non-volatile memory , the keyboard output is connected to the second input of the microcontroller, the output of which is connected to the display input, wherein said image input device consists of a video camera, a micro an ontroller and a video processor, the first input-output of which is the input-output of the image input device, the second input-output of the video processor is connected to the second input-output of the microcontroller, the first input-output of which is connected to the input-output of a camera designed to form an image of a person's face.

The following features of the prototype coincide with the essential features of the proposed utility model: it is intended for transmitting identification data in biometric systems, it contains an image input device for imaging a person’s face, it contains a keyboard, a display, a fingerprint reader, and a radio frequency identifier reader with a radio channel frequency of 13.56 MHz made with the possibility of reading passport and visa identification data from an external passive transponder made in pa Taylor-visa document,

The disadvantages of the prototype are: the lack of a device for taking samples of the iris, the lack of a specialized device for taking fingerprints required for registration of the receiver of LDPE, the lack of an RFID chip recorder, and, as a result, the inability to register the receiver of LDPE, as well as the inability to carry out verification procedures and identification using biometric samples of the iris.

The task to which the proposed utility model is aimed is to create a technical tool suitable for modeling special automated workstations designed to work as part of the State system for the production, processing and control of new generation passport and visa documents (GS LDPE), in order to measure actual FAR and FRR characteristics for a number of biometric procedures of the designed system and to clarify the configuration of biometric sampling devices in the workplace.

The technical result is the modeling of a workstation for registering a recipient of a new generation of passport and visa documents (LDPE) and an automated workstation for verification and identification of the owner of LDPE.

The technical result is achieved by the fact that in a known device designed to transmit identification data in biometric systems, containing an image input device, a keyboard, a display, a fingerprint reader and a radio frequency identifier reader with the ability to read passport and visa identification data from an external passive transponder made in passport and visa document, an image input device for forming an image of a person’s face, add the following elements: a computing unit with a database of biometric samples configured to receive reference biometric samples, to write reference biometric samples to an RFID chip, to store a database of biometric samples and to obtain request biometric samples, as well as to compare request biometric samples with reference biometric samples from the RFID chip in the verification and comparison mode of the requested biometric samples with reference biometric samples from the database in the mode and identification, wherein the output of the fingerprint scanner to obtain a fingerprint is connected to the first input of the computing unit, the output of the fingerprint scanner to obtain a rolled fingerprint is connected to the second input of the computing unit, the output of the fingerprint scanner to obtain a simultaneous print of four fingers is connected to the third input of the computing unit, the output the iris scanner is connected to the fourth input of the computing unit, the output of the person’s face image input device and connected to the fifth input of the computing unit, the keyboard output is connected to the sixth input of the computing unit, the input / output of the computing unit is connected to the input-output of the RFID chip reader and writer, the information output of the computing unit is connected to the display input.

The need to connect three different fingerprint scanners is based on the need to use a special, most suitable fingerprint scanner for each biometric procedure. The information content and associated identification capabilities of such types of biometric samples as a print of one finger of a hand, a rolled fingerprint of one finger of a hand or a simultaneous print of four fingers of one hand are different, although the listed biometric samples belong to the same biometric modality. When implementing the same identification procedure, comparing fingerprints taken with different scanner models can give different values of the FAR and FRR parameters. Therefore, the applicability of the mentioned types of biometric samples to the problems of registration, verification and identification is different. The technical complexity and, consequently, the cost of hardware and software for obtaining the mentioned types of biometric samples are also significantly different. In this regard, it is advisable to use specialized sampling devices (scanners) for registration, identification and verification, rather than one type of universal device with a maximum variety of capabilities. It is also advisable to use specialized scanners for testing equipment and procedures for registration, verification and identification. These differences are typical for fingerprint scanners and are not significant for input devices for facial and iris images.

The combination of technical means used in the proposed utility model allows you to simulate any of the specialized jobs without changing the hardware configuration of the layout. In order to take biometric samples, in particular fingerprints, corresponding to the task (registration, identification, verification), the exact device (fingerprint scanner) is used, the capabilities of which meet the requirements of the task and do not exceed these requirements.

The essence of the proposed utility model is illustrated by drawings.

Figure 1 presents the structural diagram of the layout of the workstation registration, verification and identification.

Figure 2 presents the structural diagram of the automated workstation of registration of the recipient of the LDPE in the variant for the tasks of migration registration, modeled using the layout of the workstation registration, verification and identification.

Figure 3 presents the structural diagram of the automated workstation of the registration of the recipient of the LDPE in the variant for the tasks of internal registration, modeled using the layout of the workstation registration, verification and identification.

Figure 4 presents the structural diagram of the workstation of the LDPE, modeled using the layout of the workstation registration, verification and identification.

In Fig.5 and Fig.6 presents a diagram of the layout of the workstation registration, verification and identification when performing the setup procedure of the layout.

Figure 7 presents the operation scheme of the workstation registration, verification and identification when performing the biometric registration of the recipient of the LDPE.

On Fig presents a diagram of the layout of the workstation registration, verification and identification when performing the procedure of biometric verification of the owner of the LDPE.

Figure 9 presents the operation scheme of the workstation registration, verification and identification when performing the procedure for identification of biometric data recorded in the RFID chip LDPE, on a biometric database.

The proposed utility model can be implemented as follows.

A person’s face image input device relates to known devices. A means for realizing this feature can be, for example, a television camera or digital camera.

The computing unit relates to known devices. A means for implementing this feature may be, for example, a computer system unit.

The iris scanner is a known device (see, for example, patent RU 2318438, publ. 10.03.2008). A means for implementing this feature can be a specified or similar scanner, equipped with software for the computing unit, in the form of a driver or library of functions from the device manufacturer (the so-called firmware).

A fingerprint scanner for imprinting one finger is a known device (see, for example, patent US 7657067, publ. 02.02.2010). The means for implementing this feature can be a specified or similar scanner, equipped with software for the computing unit, in the form of a driver or library of functions from the manufacturer of the device.

A fingerprint scanner for obtaining a rolled fingerprint is a known device (see, for example, US Pat. No. 7,613,334, publ. June 16, 2005). The means for implementing this feature can be a specified or similar scanner, equipped with software for the computing unit, in the form of a driver or library of functions from the manufacturer of the device.

A fingerprint scanner for obtaining a simultaneous print of four fingers is a known device (see, for example, patent US 7822236 publ. 26.10.2010, patent RU 2311679 publ. 27.11.2007). The means for implementing this feature can be one of these or a similar scanner, equipped with software for the computing unit, in the form of a driver or library of functions from the device manufacturer.

A means of reading information from an RFID chip and writing information to an RFID chip is a known device (see, for example, US Pat. No. 7,032,822, published May 26, 2004). A means for implementing this feature can be a specified or similar device, equipped with software for the computing unit, in the form of a driver or library of functions from the manufacturer of the device.

A computing unit configured to receive reference biometric samples, to write reference biometric samples to an RFID chip, to store a database of biometric samples and to obtain request biometric samples, as well as to compare request biometric samples with reference biometric samples from an RFID chip in the mode verification and comparison of biometric samples with reference biometric samples from the database in identification mode, can be implemented as a system a lot of a computer unit, which is a programmable (customizable) multifunctional tool, equipped with software in the form of an operating system, drivers and libraries for connected devices, as well as a control program.

In support of the possibility of such a tool performing the functions prescribed to it as part of the utility model, the block diagrams (Figs. 5-9) of the algorithms used and the following description of the example of practical implementation of the proposed utility model are given.

The mock AWP registration, verification and identification (figure 1) contains the system unit of computer 1 with a database of biometric samples. The database contains an array of records, each of which contains fingerprint images, a face photo and images of the irises of the eyes belonging to one person, as well as a biometric template containing codes of biometric features extracted from the listed biometric images. A keyboard 2 and a display 3 are connected to the system unit.

To connect biometric information input devices, the system unit 1 is equipped with at least six USB ports. Via USB ports, a device for reading and writing information from an RFID chip 4, a fingerprint scanner for receiving a fingerprint 5, a fingerprint scanner for receiving a rolled fingerprint 6 and a fingerprint scanner for simultaneously printing four fingers 7, also suitable for taking impressions, are connected to the system unit 1 palm, which is required in some types of registration, an iris scanner 8, and a digital camera 9.

The layout software for registration, verification and identification includes a library of functions for each of the fingerprint scanners 5, 6 and 7, a library of functions for working with an iris scanner, a library of functions for working with a digital camera and a library of functions for working with a reader and recording information of the RFID chip 4, as well as a control program for biometric registration, verification and identification procedures.

The system unit 1 is configured to perform the following operations: obtaining reference biometric samples, writing reference biometric samples to the RFID chip using device 4, writing reference biometric samples to the database, storing and reading biometric samples from the database, receiving requested biometric samples from scanners 5, 6, 7, 8 and a digital camera 9, reading reference biometric samples from an RFID chip using an RFID chip reader and writer 4, comparing biometrics of samples with the reference biometric samples from the RFID-chip in the verification mode of interrogation and comparison of biometric sample with the reference biometric samples from the database in the identification mode.

The proposed utility model works as follows. The mock AWP registration, verification and identification carries out, according to the choice of the operator, one of the three main biometric procedures: registration of the recipient of the LDPE, verification of the owner of the LDPE or identification of the owner of the LDPE.

The entire set of used devices is constantly connected to the system unit 1. The configuration of the used input devices is automatically selected for this procedure, by accessing the control program to exactly the library that is designed to control the scanner corresponding to the procedure. For each procedure, only one of the fingerprint scanners 5, 6, or 7 physically attached to the system unit 1 is available (assigned). If necessary, for example, according to the conditions of the test program, use a different type of fingerprint images, the operator assigns a different model of the fingerprint scanner for the selected biometric procedures. Replacement of the assigned scanner is performed by the setup procedure of the control program of the system unit 1, without physical replacement of devices.

The digital camera 9 and the scanner of the iris 8 are constantly available for use by the control program.

To perform the registration procedure of the recipient of the LDPE, the mock AWP registration, verification and identification works in a configuration that simulates the automated workstation of the registration of the recipient of LDPE (figure 2 and figure 3). To solve the registration problems for various purposes, there are two configuration options for the workstation of registration of the recipient of the LDPE.

Migration varieties of the registration procedure require taking the most informative biometric samples. In particular, full fingerprinting of the registered person should be performed, with the preparation of a fingerprint including rolled fingerprints, control prints of four fingers and palm prints. Full fingerprinting is performed on the scanner to obtain a simultaneous print of four fingers 7.

For the first version of the registration procedure corresponding to the tasks of migration registration, the operator configures the workstation for registration of the recipient of the LDPE in accordance with the diagram in figure 2, by performing a software configuration procedure.

The layout setup procedure intended to replace the fingerprint scanner model used by one of the biometric procedures uses well-known techniques and is carried out by requesting and receiving data from the operator, followed by modification of the configuration file.

The operator invokes the setup procedure by selecting an item in the main menu using the keyboard. The algorithm of the tuning procedure is illustrated by a flowchart (Fig. 4 and Fig. 5), which shows the sequence of basic operations performed during the tuning process.

The setup program, by displaying a message on the display, asks you to enter the procedure code for which you want to change the settings. The operator using the keyboard indicates the procedure code. Then, the setup program, by displaying a message on the display, asks to enter the model code. The operator using the keyboard indicates the model code. The setup program writes the code of the selected procedure and the code of the scanner model assigned to it in the configuration file.

The setup program displays the name of the selected procedure and the name of the scanner model assigned to it, after which it finishes work.

For the second version of the registration procedure corresponding to the tasks of internal registration, the operator before starting work configures the workstation for registering the recipient of the LDPE in accordance with the diagram in Fig. 3.

The mentioned variants of the registration procedure differ only in the model of the used fingerprint scanner and the composition of the fingerprint samples obtained with its help. The composition and sequence of operations carried out by the automated workstation of registration in both of the mentioned variants of the registration procedure are the same. The action of the device is illustrated by the example of the internal registration procedure (see Fig.7). The operator from the keyboard 2 enters textual demographic data of the registered person and initiates the procedure for obtaining biometric samples. Images from scanners 6 and 8, and digital camera 9 enter the system unit.

Images are processed and biometric samples are extracted from them. A set of biometric samples is combined with text data and saved as a record in the database of biometric samples. From the obtained biometric data, a biometric template is formed for recording a biometric passport in the RFID chip. The biometric template from the system unit 1 enters the device for reading and writing information of the RFID chip 4 and is recorded in the LDPE. The control program displays on the display 3 a message about the completion of the registration procedure.

To perform the verification procedure of the receiver of the LDPE or the procedure for identifying the receiver of the LDPE, the operator models, using the mock AWP registration, verification and identification, an automated workstation for verification and identification of the LDPE (Fig. 4, Fig. 8).

The operator from keyboard 2 initiates the verification procedure. The control program displays on the display 3 a proposal to select a biometric modality that should be used to verify the conformity of biometric samples received from the owner of the LDPE to the biometric samples taken during registration of the recipient of the LDPE. The operator indicates the selected biometric modality by entering the biometric modality code from the keyboard 2. The control program performs the function of acquiring an image of the selected biometric modality.

The function of receiving fingerprints includes the following operations: receiving procedure code from the calling procedure; reading and parsing the configuration file; retrieving the scanner model code corresponding to the procedure code; a request to the library of functions corresponding to the scanner model code to obtain fingerprint images; notifying the operator of the beginning and end of fingerprinting, that is, fingerprinting or rolling along the sensing surface of the scanner; recording received fingerprints in temporary files.

The functions of obtaining images of a person’s face and images of the irises of the eye include a request to the library of functions corresponding to the type of input device for receiving biometric images, notifying the operator of the beginning and end of shooting the image, and recording the received images in temporary files.

The resulting images are processed by the control program and biometric samples are extracted from them. A biometric template is generated from the obtained biometric samples for comparison with the RFID chip data of the biometric passport. The control program requests and receives a reference biometric template from an RFID chip 4 information reader and writer. The requested biometric template is compared with a reference biometric template. According to the results of the comparison, the control program displays on the display 3 a message about a positive or negative verification result. In the case of a negative result, the control program displays 3 mismatched images on the display.

The biometric identification procedure is illustrated by the example of checking the LDPE according to a stop list using the biometric data recorded in the LDPE RFID chip. The scheme of the workstation mockup when performing the identification procedure is shown in Fig.9.

The operator from keyboard 2 initiates the identification procedure. The control program requests to read the biometric template from the RFID chip. Biometric data from the RFID chip reader and writer is sent to the system unit. The control program sequentially reads the database entries related to the stop list and compares the request biometric template with the reference biometric template from the stop list entry. According to the results of the comparison cycle, the control program displays on the display 3 a message about a negative test result or a message about a positive test result and demographic data of the identified record from the stop list.

Thus, the described implementation of the proposed utility model, at the operator’s choice, models the workstation for registering the receiver of the LDPE and reproduces the procedure for registering biometric data, including writing the biometric template to the RFID chip of the LDPE, or simulates the automated workstation for verifying and identifying the owner of the LDPE and reproduces the procedures biometric verification and biometric identification.

Claims (1)

A mock-up of an automated workstation for registration, verification and identification of the owner of LDPE according to biometric characteristics, comprising a person’s face image input device, a keyboard, a display, a fingerprint scanner for fingerprints and an RFID chip information reader, further comprising a computing unit, a scanner the iris, a fingerprint scanner to obtain a rolled fingerprint and a fingerprint scanner to obtain a simultaneous print and four fingers, while the RFID chip information reader is also a means of writing information to the RFID chip, and the computing unit is configured to receive reference biometric samples, to write reference biometric samples to the RFID chip, to store a database of biometric samples and for for receiving biometric biometric samples, as well as for comparing biometric biometric samples with reference biometric samples from an RFID chip in the verification mode and comparing biometric biometric samples with reference accurate biometric samples from the database in identification mode, while the output of the fingerprint scanner for receiving a fingerprint is connected to the first input of the computing unit, the output of the fingerprint scanner for receiving a rolled fingerprint is connected to the second input of the computing unit, the output of a fingerprint scanner for obtaining a simultaneous four-fingerprint connected to the third input of the computing unit, the output of the scanner of the iris is connected to the fourth input of the calculator unit, the output of the person’s face image input device is connected to the fifth input of the computing unit, the keyboard output is connected to the sixth input of the computing unit, the input / output of the computing unit is connected to the input-output of the RFID chip reader and writer, the information output of the computing unit is connected to display input.

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