RU61904U1 - AUTOMATED PASSPORT AND VISA CONTROL SYSTEM - Google Patents

Abstract

The invention relates to computer technology, in particular, to an automated passport control system for citizens. The technical result is to increase the reliability of the identity verification system by implementing procedures for automatic control of biometric parameters and documented personality data. The technical result is achieved by the fact that the system includes a passport scan data receiving unit, a risk database reference address identification unit, a data search interval determination unit, a risk database address generation unit, a risk citizen data identification unit, a visual reading data identification unit, a biological identification unit personality characteristics. 7 ill.

Description

The invention relates to the field of computer technology, in particular, to an automated passport and visa control system

The transition to a new generation of foreign passports in Russia is interconnected with two other automation projects implemented at the federal level - “Border control” (a system for collecting, storing and processing information about persons, vehicles and goods that passed through the state border) and “Migration” (control system migration situation in Russia, including the creation of a databank for registering foreign citizens and stateless persons). All of these systems will process identical data that can be integrated.

Thus, in addition to the fight against terrorism, new passports will also help in the fight against illegal migration. The same functions of the biometric control system are going to be used in Europe. The countries of the Big Five of the European Union intend to make joint efforts to deport illegal immigrants, in connection with which they are lobbying for the acceleration of the introduction of new passports. The development of biometric passports is also supported by the International Organization for Migration.

In this regard, the task of creating a system for identifying and verifying the identity of citizens, which would contribute to increasing the efficiency and reliability of passport control, especially in connection with the transition to electronic passport systems, is particularly acute.

The main reason for the introduction of electronic passports is the desire to prevent people who have fake documents and pose a potential threat to the country's security from crossing the border.

In the framework of the new system, for example, when crossing the border, a citizen must put his electronic passport including a device that will check whether the data and photos indicated on the first page correspond to those data and photos that are contained in the chip memory. Then he should put the index finger of his right hand on another reader. Thus, a check will be made that the fingerprints match the data recorded in the chip memory.

Known systems that could be used to solve the problem (1, 2).

The first of the known systems contains data reception and storage units connected to control and data processing units, search and selection units connected to data storage and display units, the synchronizing inputs of which are connected to the outputs of the control unit (1).

A significant drawback of this system is the impossibility of solving the problem of updating data stored in memory in the form

relevant documents at the same time as solving the problem of issuing the contents of these documents to users in real time.

Another system is known that contains data processing units, the information inputs of which are connected to the data reception and control units, and the outputs are connected to the first group of memory units, the central processor, the inputs of which are connected to the outputs of the memory units of the first group and data processing units, and the outputs are connected with the inputs of the memory blocks of the second group and data display blocks (2).

The last of the above technical solutions is closest to the described.

Its disadvantage lies in the low reliability of personal identification, due to the fact that the personality control procedure is carried out by visual viewing of passport data, and this inevitably leads to the fact that upon presentation of high quality forged documents, false identification is possible, and, as a result, the passage of potential terrorists through the border point.

The purpose of the invention is to increase the reliability of the identity verification system by implementing procedures for automatic control of biometric parameters and documented identity data.

This goal is achieved by the fact that in the known system containing the passport scan data receiving unit, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, while the information input of the passport scanning data receiving unit is designed to receive data from the output of an automated electronic data reader passports, and the synchronizing input of the passport scan data receiving unit is designed to receive synchronizing signals from output of an automated electronic passport data reader, first output

the passport scan data receiving unit is the information output of the system intended for issuing passport data of citizens to the information input of the database server, the risk database address generation unit, the address output of which is the first address output of the system intended for issuing data read addresses to the address input of the database server data, the synchronizing output of the risk database address generation unit is the first synchronizing output of the system designed to issue a signal controls for reading data to the input of the first channel for interrupting the database server, and the installation output of the risk database address generation unit is connected to the installation input of the passport scan data receiving unit, the identification unit of reference addresses of the risk database is introduced, the information input of which is connected to the second output of the data receiving unit passport scan, the synchronizing input of the identification block of the reference addresses of the risk database is connected to the first synchronizing input of the system, one is informational The first output of the identification block of reference addresses of the risk database is connected to the information input of the block of generating addresses of the risk database, and the synchronizing output of the identification block of reference addresses of the risk database is connected to the synchronizing input of the block of generating addresses of the risk database, the block for determining the interval for searching data whose information input is connected to another information output of the identification block of the reference addresses of the risk database, synchronizing the input of the block determining the interval of data search by it is connected to the synchronizing output of the identification block of the reference addresses of the risk database, and the installation input of the unit for determining the interval of the data search is connected to the installation output of the unit for generating the addresses of the risk database, while one output of the unit for determining the interval of the data search is connected to the counting

the input of the risk database address generation unit, and the other output of the data search interval determination unit is connected to one installation input of the risk database address generation unit, the risk citizens data identification unit, one information input of which is the second information input of the system for receiving database data risk from the information output of the database server, another information input of the risk identification data identification unit, and the synchronizing input of the database data reception unit Risk citizen is designed to receive synchronizing signals of the database server, connected to the first output of the passport scan data reception unit, another information input of the risk citizens data identification block is connected to the first output of the passport scan data reception blocks, the synchronization input of the risk citizens data identification block is the second synchronization input a system designed to receive synchronization signals of the database server for recording database records in the identification unit yes citizens of risk, while one output of the data identification block of risk citizens is connected to the counting input of the data search interval definition block, and the other output of the data search interval definition block is a signal output of the system designed to issue warning signals to the controller’s workstation, and connected to the second installation input of the risk database address generation unit, the visual readout data identification unit, one information input of which is the third inform insulating an input system for receiving data of the visual scan passports, other identification information input unit of visual reading data connected to the first output scan data reception unit passports, one clock input visual identification data block

the readout is the third synchronizing input of the system, intended for entering the visual scanning data of the passport into the identification unit of the visual reading data, and the other synchronizing input of the identification unit of the visual reading data is connected to the second output of the data search interval determination unit, while the first synchronizing output of the visual reading data identification block is the second synchronizing output of the system, intended for issuing control signals to the input of volts of the channel of interruption of the database server, the biometric identity data identification unit, one information input of which is the fourth information input of the system intended for receiving fingerprint data, the other information input of the personality biometric data identification unit is connected to the information output of the visual readout data identification unit, one synchronizing the input unit for identifying biometric personality data is the fourth synchronizing input of the system, intended In order to enter fingerprint data into the personality biometric data identification unit, another clock input of the personality biometric data identification block is connected to one clock output of the visual readout data identification block, while one clock output of the personality biometric data identification block is the third clock input of the system, intended for issuing control signals to the input of the third channel of the database server interrupt, and the other synchronously ziruyuschy output unit identifying biometric data of the person is the fourth input of the synchronizing system, designed to issue control signals to the input of the fourth channel database server interrupt.

The invention is illustrated by drawings, in which Fig. 1 is a structural diagram of a system, Fig. 2 is a structural diagram of a identification block of reference addresses of a risk database, Fig. 3 is a structural diagram of a block for determining a data search interval, and Fig. 4 is a structural diagram Risk database address generation unit, FIG. 5 is a structural diagram of a data identification block of risk citizens, FIG. 6 is a structural diagram of identification of visual reading data, and FIG. 7 is a structural diagram of identification of biological personality parameters.

The system (Fig. 1) comprises a passport scan data receiving unit 1, a risk database reference address identification unit 2, a data search interval determining unit 3, a risk database address generating unit 4, a risk citizen data identification unit 5, a visual data identification unit 6 reading, block 7 identification of biological parameters of personality.

1 also shows the first 17, second 18, third 19, fourth 20 and fifth 21 information inputs of the system, the first 22, second 23, third 24, fourth 25 and fifth 26 synchronizing inputs of the system, as well as information 27 and address 28 outputs system, the first 29, second 30, third 31 and fourth 32 synchronizing and signaling 33 system outputs.

Block 1 (Fig. 1) of receiving passport scan data is made in the form of a register having information 17, synchronizing 22 and installation 26 inputs, as well as first 15 and second 16 information outputs.

Block 2 (figure 2) identification of the reference addresses of the risk database, which are recorded "travel abroad" citizens, contains a memory block 40 made in the form of a permanent storage device, a decoder 41, elements 42-45 And, the first 46 and second 47 delay elements . On

the drawing shows informational 48 and synchronizing 49 inputs, as well as informational 50, 51 and synchronizing 52 outputs.

Block 3 (figure 3) determine the interval of the data search contains a register 52, a counter 53, a comparator 54, a delay element 55. The drawing shows the information input 56, the synchronizing input 57, the counting input 58 and the installation input 59, as well as the first 60 and second 61 outputs.

Block 4 (Fig. 4) of generating the risk database addresses contains a counter 62 and an OR element 63. The drawing shows information 64, synchronizing 65, counting 66 and installation inputs 67, 68, as well as information 70 and installation 69 outputs.

Block 5 (figure 5) identification of risk citizens contains a register 71, a comparator 72 and a delay element 73. The drawing shows information 18, 74 and synchronizing 23 inputs, as well as the first 77 and second 78 outputs.

Block 6 (Fig.6) identification of visual reading data contains a register 11 and a comparator 12. The drawing shows information 19, 79 and synchronizing 24 and 81 inputs, as well as information 81 and first 82 and second 83 outputs.

Block 7 (Fig.7) identification of the biological parameters of the person contains a register 13 and a comparator 14. The drawing shows information 20, 85 and synchronizing 25 and 84 inputs, as well as the first 32 and second 33 outputs.

All nodes and elements of the system are made on standard potential-impulse elements.

We will consider the operation of the system as an example of its use at the border checkpoint.

When passing the border checkpoint, each citizen presents a document proving his identity. As such a document, the system uses a new generation foreign passport in which a microchip is mounted - a crystal in which

recorded biometric data of the owner. Such passports are reliably protected from falsification, the procedure for identifying a person is greatly simplified and the process of passing through border control is accelerated.

An electronic passport proving the identity of its owner is scanned by both a visual scanning device and a microchip interrogation device. At the same time, the inspected citizen goes through the process of taking an electronic fingerprint using a reader (not shown in the drawing).

The read fingerprint code enters the information input 20 of the register 13 of block 7, where it is recorded by the synchronizing pulse from the reader to the input 25 of the system.

After visual scanning and recognition of the visual data of the electronic passport, a codeogram is received at the input 17 of the system, having the following structure:

THE CODE THE CODE THE CODE THE CODE Code combination formed by the initial letters of the Last Name, First Name, Patronymic of Citizen Surname, Name, Patronymic of a citizen Attributes of records contained in an electronic passport Image of a citizen’s personality as a result of scanning his digital photograph

As a result of interrogation of the microchip, a codogram is received at the input of the system 19, having the following structure:

THE CODE THE CODE THE CODE THE CODE Full Name Attributes of records contained in an electronic passport Digital photograph of personality Digitized fingerprint

This codogram through the input 19 of the system enters the information input of the register 11 of block 6, where it is entered by a synchronizing pulse from the input 24 of the system.

From the output 16 of block 1, the code combination formed by the initial letters of the surname, name and patronymic of the citizen enters the information input 48 of block 2, from where it is issued to the input of the decoder 41.

The decoder 41 decodes the code combination and prepares the signal path from input 49, revealing one of the elements 42-45 I. For definiteness, we assume that a high potential is received at one input of the element 42 I.

In parallel, the synchronizing pulse from the input 22 of the system enters the input 49 of block 2, where it is delayed by element 46 for the duration of entering the codogram into block 1 and the operation of decoder 41, and then polls the states of elements 42-45 I.

Considering the fact that only AND element 42 will be open at one input, then passing through AND element, the clock pulse is fed to the read input of a fixed memory cell of the permanent storage device 40, where the code of the reference address of the database of “travel abroad” citizens and the number of records of such citizens are stored having the same code combination of the initial letters of the surname, name, patronymic.

The structure of the codogram stored in a fixed memory cell of the ROM has the following form:

THE CODE THE CODE The reference address of the database of “travel abroad” citizens, in which records of data of citizens representing social danger are stored, having the same code combination of the initial letters of the Last Name, First Name, and Patronymic as the citizen who presented the passport The number of entries with the specified code combination of the initial letters of the Last Name, First Name, Patronymic.

The code of the reference address of the database of “travel abroad” citizens from block 40 of the memory is read to output 50 and then through input 64 of block 4 it goes to the information input of counter 62, and the code of the number of records is read to output 51 and then through input 56 of block 3 it goes to information input register 52.

In parallel with the described process, the same read pulse from the output of element 46 of block 2 is delayed by the delay element 47 for the duration of reading the contents of the fixed cell ROM 40 and then from output 52 it goes to the clock input 65 of the counter 62 of block 4 and to the clock input 57 of the register 52, fixing they have the corresponding read codes.

The address code from the output of the counter 62 of block 4 is issued to the output 28 of block 4, which is the address output of the system.

Simultaneously with entering the code of the reference address of the database of “travel abroad” citizens into the counter 62 of block 4, the clock pulse from the input 65 of block 4 passes the OR element 69, is delayed by the element 70 while the address code is being entered into the counter 62, and then issued through the system output 29 to input of the first channel of the database server interrupt.

According to this signal, the server goes to the subroutine for reading the contents of the cell of the database of “travel abroad” citizens at the address indicated on output 28, issuing the first record of the database of “travel abroad” citizens through the information input 18 of the system and entering it into the register 71 of block 5 with a synchronizing pulse from input server 23.

The codogram of the first record of the database of “travel abroad” citizens at the entrance of the system 18 has the following structure

THE CODE THE CODE THE CODE Surname, Name, Patronymic of a citizen assigned to a group of potentially dangerous to society Record Attributes Describing Citizen Documentary Data Digital photo of a citizen

Thus, in block 5 there will be all the attributes of the record of a citizen assigned to the risk group, and in block 1 by this point in time there will already be all the attributes of the record of a citizen undergoing control.

The code of the surname, name and patronymic of the citizen passing the control from the output of block 15 1 goes to the information input 74 of block 5, and the code of the surname, name and patronymic of the citizen assigned to the risk group comes from the output of register 71 to another information input of the comparator 72 of the block 5.

In parallel with this process, the synchronizing pulse from the input 23 enters the synchronizing input of the register 71 of block 5, where it is delayed by the element 73 for the time the code is entered in the register 71, and then it goes to the synchronizing input of the comparator 72.

According to this clock pulse, the comparator 72 compares the input codes and if the personality attributes located in the register 71 do not coincide with the personality attributes from the output 15 of block 1, then the output 77 of block 5 appears a signal that goes to the input 58 of block 3, where First, it goes to the counting input of the counter 53, which counts the number of scanned records in the risk database.

Secondly, the same impulse is delayed by the element 55 for the duration of the counter 53 operation, and then it goes to the synchronizing input of the comparator 54, on one information input of which from the output of the register 52 a code of the number of entries in the database of “travel abroad” citizens is given, and on the other input code of the number of scanned records from the output of the counter 53.

If the number of scanned records recorded by the counter 53 is less than the number of records of the database of “travel abroad” citizens, then an impulse appears at the output 60 of block 3. This pulse through the input 66 of block 4 passes to the counting input of the counter 62, increasing by one the reference address of the server database, which from the output 70 of block 4 goes to the address output 28 of the system.

In addition, the same pulse passes through the OR element 69, is delayed by the element 70 for the response time of the counter 62, and is again issued through the output 29 of the system to the input of the first interrupt channel of the database server.

By this signal, the server again goes to the subroutine for reading the contents of the database cell of “travel abroad” citizens at the newly formed address, issuing it to the information input 22 of the system and recording the contents of the next database cell in block 5 with a synchronizing pulse from the server to input 23.

The described process of reading the attributes of citizens of the risk group from the cells of the database and comparing their contents with the attributes of the checked citizen will continue until all records in the database of “travel abroad” citizens are reviewed. This fact will be fixed by the comparator 54 of block 3 by issuing a signal to output 61.

From the output 61 of block 3, the signal, firstly, enters the input 67 of block 4, where the OR element 63 passes, and then it goes both to the installation input of the counter 62, resetting it to its original state, and through the output 75 of block 4 to the installation inputs blocks 1 and 3.

If block 5 fixes the fact that the input codes are equal, which will indicate that the citizen being tested belongs to the group of “travel abroad” citizens, then at the output 78 of block 5 a signal appears, which, firstly, goes to the signal output 33 of the system and ignites scoreboard on the ARM control "ATTENTION! RISK GROUP PASSENGER. ”

In addition, the signal from the output 78 of block 5 goes to the input 68 of block 4, where the OR element 63 passes, and then it goes both to the installation input of the counter 62, resetting it to its original state, and through output 75 it goes to the installation inputs of blocks 1 and 3.

Secondly, if as a result of checking the database of “travel abroad” citizens, it is established that the citizen being checked is not related to a group of potentially dangerous citizens, then the signal from the output of block 61 3 goes to the synchronizing input 80 of block 6, to one information input 79 of which at this point in time a code of documentary data and a digital photograph of the person being verified is issued from the output 15 of block 1, and a code of documentary data and a digital photograph is verified to another informational input from the corresponding output of register 11 th identity, read from the integrated microcircuit in the passport.

By the synchronizing signal from input 80, block 6 compares the input codes, and if they match, the output 83 of block 6 generates a signal that goes to the synchronizing input 84 of block 9. At this point in time, one information input of the comparator 14 of block 7 from the output of register 13 of the block 7, a fingerprint code is received, obtained as a result of a survey of the built-in microchip (chip) of the electronic passport, and a fingerprint code from the output of block 6 received from the reader is fed to another information input 85.

If the fingerprint codes match, then according to the synchronizing pulse received at the input 84 of block 7, the latter at the output 32 generates a signal for identifying the identity of the citizen passing the border control. This signal from system output 32 goes to the input of the fourth channel for interrupting the database server, through which the database server switches to the subroutine for issuing the enable signal to the controller's workstation, lighting up the “PASSED PERMIT” panel, and starting the procedure for documenting the fact of leaving a given citizen abroad to the database of its data from the output of 27 system.

If, in the process of identifying a citizen, block 6 fixes the inequality of the input codes, which will indicate a mismatch between the document data of the chip and the visual data of the passport, then the output 82 of block 6 forms a signal that passes through the output 30 of the system to the input of the second channel of the database server interrupt.

By this signal, the database server goes to the subroutine issuing a prohibitory signal to the controller's workstation, lighting the “ATTENTION! Error in documentary data ”, and starting the procedure for documenting citizen data in the manner described above.

If, in the process of fingerprint verification, block 7 detects a mismatch of fingerprint codes at its inputs 20 and 85, then this fact will be fixed by generating a signal at output 31, from which the signal is output to the input of the third channel of the database server interrupt.

By this signal, the database server goes to the subroutine issuing a prohibitory signal to the controller's workstation, lighting the “ATTENTION! Error in the biometric parameters of the person ”, and the launch of the procedure for documenting citizen data in the manner described above.

Thus, the introduction of new nodes and blocks has significantly improved the reliability of the system by implementing procedures for automatic control of biometric parameters and verification of personality data.

The introduction of the system into the practice of the work of checkpoints will significantly increase the efficiency and reliability of the work of checkpoints throughout the Russian Federation.

Sources of information taken into account when drawing up the description of the application:

1. US patent No. 5136708 M. cl. G 06 F 15/16, 1992

2. US Patent No. 5129083 M. cl. G 06 F 12/00, 15/40, 1992 (prototype).

Claims (1)

An automated passport and visa control system containing a passport scan data receiving unit, the information and synchronizing inputs of which are the first information and synchronizing system inputs, while the information input of the passport scanning data receiving unit is designed to receive data from the output of an automated electronic passport data reader, and the synchronizing input of the passport scan data receiving unit is intended for receiving synchronizing signals from the output ode to an automated device for reading electronic passport data, the first output of the passport scan data receiving unit is the information output of the system, intended for issuing passport data of citizens to the information input of the database server, the risk database address generation unit, the address output of which is the first address output of the system for issuing data read addresses to the address input of the database server, synchronizing the output of the database address generation unit p ska is the first synchronizing output of the system intended for issuing data reading control signals to the input of the first interrupt channel of the database server, and the installation output of the risk database address generation unit is connected to the installation input of the passport scan data receiving unit, characterized in that the system contains an identification unit reference addresses of the risk database, the information input of which is connected to the second output of the passport scan data receiving unit, synchronizing the input of the block identification of reference addresses of the risk database is connected to the first synchronizing input of the system, one information output of the identification block of reference addresses of the risk database is connected to the information input of the unit for generating addresses of the risk database, and the synchronizing output of the identification block of reference addresses of the risk database is connected to the synchronizing input of the forming unit address of the risk database, block for determining the interval of data retrieval, the information input of which is connected to another information output b the identification database reference address identification block, the synchronizing input of the data search interval determination unit is connected to the synchronizing output of the risk database reference address identification unit, and the installation input of the data search interval determination unit is connected to the installation output of the risk database address generation unit, with one output the unit for determining the interval of the search for data is connected to the counting input of the unit for generating the addresses of the risk database, and the other output of the unit for determining the interval for the search for the data is connected to one installation input of the risk database address generation unit, a risk citizen data identification unit, one information input of which is the second information input of the system designed to receive risk database data from the information output of the database server, another information input of the citizen data identification unit risk, and the synchronizing input of the data receiving unit of the risk citizens database is designed to receive the synchronizing signals of the database server, connected to the first at the output of the passport scan data reception unit, another information input of the risk citizen data identification unit is connected to the first output of the passport scan data reception unit, the synchronization input of the risk citizens data identification unit is the second synchronization input of the system designed to receive synchronization signals of the database server for recording database to the identification block of data of risk citizens, while one output of the identification block of data of risk citizens is connected to a counting input ohm of the unit for determining the interval of the search for data, and the other output of the unit for determining the interval of the search for data is the signal output of the system intended for issuing alerts to the automated workplace of the controller, and is connected to the second installation input of the unit for generating addresses of the risk database, the unit for identifying visual read data, one information input of which is the third information input of the system, intended for receiving data of visual scanning of a passport, another the formation input of the visual reading data identification block is connected to the first output of the passport scan data receiving unit, one synchronizing input of the visual reading data identification block is the third synchronizing input of the system designed to store the visual scanning data of the passport in the visual reading data identification block and the other synchronizing input of the block identification of visual reading data is connected to the second output of the search interval determination unit data, while the first synchronizing output of the visual readout data identification unit is the second synchronizing output of the system, intended for issuing control signals to the input of the second channel of the database server interrupt, an identification unit for biometric personality data, one information input of which is the fourth information input of the system, intended for receiving fingerprint data, another information input of the identification unit of the biometric personality data is connected to the information ion output of the visual readout data identification block, one synchronization input of the biometric identity data identification block is the fourth synchronization input of the system designed to store fingerprint data in the biometric identity data identification block, another synchronization input of the biometric identity data identification block is connected to one synchronization output of the identification block visual reading data, with one synchronizing output of the identifier block biometric identity data is the third synchronizing output of the system, intended for issuing control signals to the input of the third channel interruption channel of the database server, and the other synchronizing output of the biometric identification data identification unit is the fourth synchronizing input of the system, intended for issuing control signals to the input of the fourth channel of the server interrupt Database.