RU56024U1 - MOBILE TERMINAL OF THE AUTOMATED BORDER CONTROL SYSTEM - Google Patents

Abstract

The invention relates to computing, in particular, to a mobile terminal of an automated border control system. The technical result is to increase the reliability of the terminal in the control of citizens by implementing procedures for automatic control of biometric parameters and verification of identity data. The technical result is achieved by the fact that the system contains a module for receiving electronic passport data, a module for selecting data from a database of risk citizens, a module for generating addresses of a database of risk citizens, a module for receiving records of a database of risk citizens, a module for identifying risk citizens, a module for receiving data from an integrated electronic integrated circuit passports and fingerprints, personality identification module, module for identifying biological personality parameters, module for selecting types of data records, document module keeping records of data of citizens. 9 ill.

Description

The invention relates to the field of computer technology, in particular, to a mobile terminal of an automated border control system.

Uncontrolled migration has now become a global problem that poses a real threat to public safety and stability, contributing to the growth of crime and the expansion of the underground labor market. The tension and inconsistency of the global processes and their development under the pressure of constantly aggravating political, economic, social and other problems, the intensification of terrorist activities, lead to destabilization of the situation in many developing countries, capture entire regions and continents.

In this regard, the task of creating an automation system for border control that would contribute to increasing its efficiency and reliability, 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.

As part of the new system, 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 of relevant documents at the same time as solving the problem of delivering 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 citizen control system by implementing procedures for automatic control of biometric parameters and verification of personality data.

This goal is achieved by the fact that in a known terminal containing an electronic passport data receiving module, the information and synchronizing inputs of which are the first information and synchronizing inputs of the terminal, and one output is the information output of the terminal, while the first information input of the terminal is designed to receive electronic passport data from the scanning device, the first synchronizing output of the terminal is designed to receive synchronizing pulses of the scanning device a, and the terminal’s information output is intended for data output to the database server’s information input, a module for receiving risk citizens database records, the information and synchronization inputs of which are the second information and synchronization inputs of the terminal, while the second information input of the terminal is designed to receive database records server, and the second synchronizing input of the terminal is designed to receive synchronizing pulses of the database server, the data receiving module is integrated th scheme of an electronic passport and fingerprint, the information and synchronizing inputs of which are the third information and synchronizing inputs of the terminal,

the third information input of the terminal is designed to receive data from the integrated integrated circuit of the electronic passport and fingerprint from the information output of the reader, and the third synchronizing input of the terminal is designed to receive synchronizing pulses from the synchronizing output of the reader, the module for generating addresses of the risk citizens database, information output which is the first address output of the terminal, intended for outputting data to the address input of the server ba data, and the installation output of the module for generating addresses of the database of risk citizens is connected to the installation input of the module for receiving data of the electronic passport, the module for documenting records of data of citizens, the information output of which is the second address output of the terminal, intended for issuing address data to the address input of the database server, and the first and second synchronizing outputs of the module for documenting citizen data records are the first and second synchronizing outputs of the terminal, respectively, when the first synchronizing output of the terminal is intended for issuing control signals to the input of the first channel of the server database interrupt, and the second synchronizing output is intended for issuing control signals to the input of the second channel of the database server interrupt, the module for specifying the type of data records, the information and synchronizing inputs of which are the fourth information and synchronizing inputs of the system, while the fourth information input of the terminal is designed to receive types of data records from the console terminal control, the fourth synchronizing input of the terminal is designed to receive synchronizing signals from the terminal control panel, and the outputs of the module for setting the type of data records are connected to the corresponding inputs of the reading control module for documenting citizens' data records, a selection module is introduced

risk database data, the information input of which is connected to the other output of the electronic passport data receiving module, the synchronization input is connected to the first synchronizing input of the terminal, and the installation input is connected to the installation output of the risk database address generation module, while the information output of the database data selection module of risk is connected to the information input of the module for generating addresses of the risk database, the first and second control outputs of the module for selecting data from the risk database are connected s to the first and second control inputs of the risk database address generation module, respectively, one synchronizing output of the risk database data selection module is connected to the synchronizing input of the risk database address generation module, and the other output of the risk database data selection module is the clock output of the system, the module identification of risk citizens, one information input of which is connected to another output of the electronic passport data receiving module, another information input of the identification module and risk citizens is connected to the output of the risk database data receiving module, and the synchronizing input of the risk citizens identification module is connected to the second synchronizing input of the system, while one output of the risk citizens identification module is connected to the counting input of the risk citizens database data selection module, and the other output is the first signal output of the system and is connected to the second installation input of the module for generating risk database addresses, an identity module, one information input of which is connected nen with other output data receiving module of the electronic passport, the other information input identification module connected to a first output of data receiving module embedded integrated circuits of the electronic passport and the fingerprint, and a clock input identification module connected to a

the second control output of the risk database data selection module, while the first output of the personality identification module is the second signal output of the terminal and is connected to the first synchronizing input of the module for documenting citizens' data records, a module for identifying biometric personality data, the information inputs of which are connected to the second and third outputs of the module receiving data of the integrated integrated circuit of the electronic passport and fingerprint, and the synchronizing input of the identification module biometrically x identity data is connected to another output of the personality identification module, while the first and second outputs of the identification module of biometric personality parameters are the third and fourth signal outputs of the terminal and are connected to the second and third synchronizing inputs of the module for documenting citizens' data records, respectively.

The invention is illustrated by drawings, in which Fig. 1 shows a structural diagram of a system, Fig. 2 is a structural diagram of a module for selecting data from a risk citizens database, Fig. 3 is a structural diagram of a module for generating addresses of a risk citizens database, and Fig. 4 is a Fig. 5 is a block diagram of a module for documenting records of data of citizens, Fig. 6 is a block diagram of a module for documenting records of data of citizens, Fig. 7 is a block diagram of nodes for selecting reference addresses of types of data records, Fig. 8 is a block diagram of the modification nodes of write and read addresses, Fig. 9 is a block diagram of a control signal integration node.

The mobile terminal (Fig. 1) contains an electronic passport data receiving module 1, a risk citizen database data selection module 2, a risk citizen database address generating module 3, a risk citizen database recording module 4, a risk citizen identification module 5, module 6 data reception built-in

an integrated microcircuit of an electronic passport and fingerprint, module 7 for identifying a person, module 8 for identifying biological parameters of a person, module 9 for selecting types of data records, module 10 for documenting citizen data records.

1 also shows the first 11, second 12, third 13, and fourth 14 information inputs of the system, the first 15, second 16, third 17, and fourth 18 synchronizing inputs of the system, as well as information output 19, first 20 and second 21 address system outputs, clock output 22, first 23 and second 24 synchronizing system outputs, first 25, second 26, third 27 and fourth 28 signal outputs of the system.

Module 1 (Fig. 1) of receiving electronic passport data is made in the form of a register having information 11, synchronizing 15 and installation inputs, as well as first 29 and second 30 information outputs.

Module 2 (figure 2) data selection database of risk citizens contains a memory unit 40, made in the form of read-only memory, a decoder 41, elements 42-45 And, elements 46-49 delay, counter 51, register 52, comparator 53, element 54 OR. 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 clock outputs, information 62, the first 63 and second 64 synchronizing outputs.

Module 3 (FIG. 3) of generating addresses of the risk citizens database contains a counter 65 and an OR element 66. The drawing shows information 67, synchronizing 68, counting 69 and installation inputs 70, 71, as well as information 72 and synchronizing 73 outputs.

Module 4 (figure 1) of receiving records of the database of risk citizens is made in the form of a register having information 12 and synchronizing 16 inputs.

Module 5 (figure 4) identification of risk citizens contains a comparator 75 and a delay element 76. The drawing shows information 77, 78 and synchronizing 79 inputs, as well as the first 80 and second 81 outputs.

Module 6 (Fig. 1) of receiving data from the integrated integrated circuit (chip) of the electronic passport and fingerprint is made in the form of a register having information 13 and synchronizing 17 inputs and outputs 31-33.

Module 7 (figure 1) identification of personality data is made in the form of a comparator having information 82, 83 and synchronizing 84 inputs, as well as the first 82 and second 83 outputs.

Module 8 (Fig. 1) of identifying the biological parameters of the personality is made in the form of a comparator having information 82, 83 and synchronizing 84 inputs, as well as the first 85 and second 86 outputs.

Module 9 (figure 5) selection of types of data records contains a register 92, a decoder 93, elements 95-97 And ,. delay element 98. The drawing shows information 14 and synchronizing 18 inputs, as well as outputs 100-102.

The module 10 (Fig. 6) for documenting citizen data records contains nodes 103-105 of selecting reference addresses of data record types, nodes 106-108 of modifying data write and read addresses, and control signal integration section 109. The drawing shows the inputs 110-115, as well as the outputs 21, 22 and 24.

The nodes 103-105 (Fig.7) selection of reference addresses of the types of data records contain memory blocks 116 made in the form of read-only memory, registers 117, flip-flops 118, elements 119-120 AND, element 121 OR, elements 122, 123 delay. In the drawing

shows the synchronizing 110 input, as well as information 124 and synchronizing 125 outputs.

The nodes 106-108 (Fig. 8) of the modification of the write and read addresses of the data comprise a reversing counter 130, a comparator 131, an adder 132, a trigger 133, a group of AND elements 134, OR elements 135-139, delay elements 140-145. The drawing shows information 146, first 147 and second 148 clock inputs, as well as information 149, first 150 and second 151 clock outputs.

The node 109 (Fig.9) integration of control signals contains a group of 155 elements OR, and elements 156-157 OR. The drawing shows information 158-160 and synchronizing 161-166 inputs, as well as address 21, first 23 and second 24 synchronizing outputs.

All nodes and elements of the mobile terminal are made on standard potential-pulse elements.

The mobile terminal of the automated border control system operates as follows.

When passing the border checkpoint, each citizen presents a document proving his identity.

As such a document, a foreign generation passport of a new generation is presented, in which a microchip is mounted - a crystal in which the biometric data of the owner is recorded. 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.

In addition to the built-in memory, the electronic passport has a convenient exchange interface with a reader. The most advanced technology for automated workflow is Inlay technology. The transponder manufactured using Inlay technology is a thin dacron tape (0.03 mm) with an antenna applied on it and an integrated chip.

The transponder does not require power, it has a fixed 64-bit, recorded at the factory, non-repeating ID number (264 = 18446744073709551616), which allows you to uniquely identify the transponder itself and 32 pages of 64-bit user memory (256 bytes).

If 160 bytes of memory are used to store biometric information, the remaining 96 bytes are used to store additional information.

The transponder allows radio communication with the reader according to the ISO / IEC 15693 protocol. The cost of such a transponder does not exceed $ 0.5. Chips supporting the specified protocol have been developed for recording and reading information. The cost of a chip that implements a radio channel is about $ 5.

To implement an electronic passport, it is enough to paste the transponder into the Russian passport of the established sample, enter the owner code and passport data into the appropriate database. When making changes to the database, information from the database should be duplicated in the chip memory.

Usually, gluing is carried out using a sticker having specially selected adhesion characteristics. When trying to re-stick, the transponder chip is damaged.

Thus, each electronic passport contains biometric information about its owner, a unique number of the transponder glued in, which uniquely corresponds to the number of the passport (which excludes gluing another transponder), as well as the necessary additional information about the owner, including his digital photo.

An electronic passport proving the identity of its owner is scanned by both the visual scanning unit and the microchip interrogation unit. At the same time, the checked citizen passes

the procedure for taking an electronic fingerprint using a reader (not shown in the drawing).

The read microchip data and the fingerprint code are sent to the information input 13 of module 6, where it is recorded by the synchronizing pulse from the reader to the input 17 of the mobile terminal.

After visual scanning and recognition of the visual data of the electronic passport, a codeogram is received at the input 11 of the mobile terminal, having the following structure:

THE CODE THE CODE THE CODE THE CODE Code combination formed Surname, Name, Patronymic of a citizen Attributes of records contained in electronic Image of a citizen initial letters of the Surname, Name, Patronymic of a citizen passport as a result of scanning his digital photograph

As a result of the interrogation of the microchip and the reading of the fingerprint by a reader (not shown in the drawing), a codeogram having the following structure is received at the input 13 of the mobile terminal:

THE CODE THE CODE THE CODE THE CODE THE CODE Full Name Attributes of records contained in an electronic passport Digital photograph of personality Fingerprint. The code is written in the CHIP Fingerprint. The code is obtained by reading the fingerprint on the reader

This codogram from the input 13 of the mobile terminal enters the information input of module 6, where it is entered by the synchronizing pulse from the input 17 of the terminal.

From the output 29 of module 1, the code combination formed by the initial letters of the surname, name and patronymic of the citizen enters the information input 56 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 57, revealing one of the elements 42-45 I. For definiteness, we assume that a high potential is received at one input of the element 45 I.

In parallel with this, the synchronizing pulse from the input 15 of the system enters the input 57 of block 2, where it is delayed by element 46 for the duration of entering the codogram into module 1 and the operation of decoder 41, and then polls the states of elements 42-45 I.

Given the fact that only element And will be open at one input, then passing through this element And, the clock pulse is fed to the read input of a fixed memory cell of a permanent storage device 40, where the code of the reference address of the database of risk citizens and the number of records of such citizens having the same code combination of the initial letters of the surname, name, patronymic.

The database of citizens at risk of a mobile terminal includes documentary data on citizens posing a threat to public safety, including potential criminals, terrorists, etc. citizens.

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 surname, Name, Patronymic as the citizen who presented the passport The number of records with the specified code combination of the initial letters of the surname, Name, Patronymic.

The code of the reference address of the database of “travel abroad” citizens from the block 40 of the memory is read to the output 62 and then through the input 67 of the module 3 is fed to the information input of the counter 65, and the code of the number of records is read to the information input of the 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 the output 63 it goes to the clock input 68 of the counter 65 and to the clock input of the register 52, fixing the corresponding read codes.

The address code from the output of the counter 65 is issued to the output 70 of the module 3, and then goes to the first address output 31 of the terminal.

Simultaneously with entering the code of the reference address of the database of “travel abroad” citizens into the counter 65, the synchronizing pulse from the output of the delay element 47 passes the element 54 OR, is delayed by the element 49 for the time the address code is entered into the counter 65, and then the first channel is output through the output 22 of the terminal database server interruptions.

Based on 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 20, issuing the first record of the database of travel abroad citizens to the information input 12 of the system and entering it into block 4 with a synchronizing pulse from the server to input 16.

The codogram of the first record of the database of “travel abroad” citizens at the input 12 of the system 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 module 4 all attributes of the citizen’s record assigned to the risk group will be located, and in module 1 by this point in time all attributes of the citizen’s record undergoing control will already be located.

The code of the surname, name and patronymic of the citizen passing the control, from the output 30 of module 1 goes to the information input 77 of module 5, and the code of the surname, name and patronymic of the citizen assigned to the risk group comes from the output of module 4 to another information input 78 of module 5 .

In parallel with this process, the synchronizing pulse from input 16 enters the synchronizing 79 input of block 5, where it is delayed by element 76 while the code is entered into module 4, and then it goes to the synchronizing input of the comparator 75.

According to this clock pulse, the comparator 75 compares the input codes and, if the personality attributes located in module 4 do not coincide with the personality attributes of module 1, then the output 80 of module 5 receives a signal that goes to the input 58 of block 2, where, firstly, passes to the counting input of the counter 51, which counts the number of scanned records in the risk database.

Secondly, the same pulse is delayed by element 48 for the duration of the counter 51 operation, and then it goes to the synchronizing input of the comparator 53, on one information input of which from the output of 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 51.

If the number of scanned records recorded by the counter 51 is less than the number of records of the database of “travel abroad” citizens, then an impulse appears at the output 60 of block 2. This pulse through the input 69 of module 3 passes to the counting input of the counter 65, increasing by one the reference address of the server database, which from the output 72 of module 3 is supplied to the address 20 output of the terminal.

In addition, the same pulse passes through the OR element 54, is delayed by the element 49 for the duration of the counter 65 operation, and is again issued through the terminal output 22 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 12 of the system and recording the contents of the next database cell in block 44 with a synchronizing pulse from the server to input 17.

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 recorded by the comparator 53 of module 2 by issuing a signal to output 61.

From the output 61 of block 2, the signal, firstly, enters the input 70 of module 3, where the OR element 66 passes, and then it goes both to the installation input of the counter 65, resetting it to its original state, and through the output 73 of module 3 to the installation inputs modules 1 and 3.

If module 5 fixes the fact that the input codes are equal, which will indicate that the citizen under test belongs to the group of “travel abroad” citizens, then a signal appears at the output of 81 module 5, which, firstly, is fed to the signal output 25 of the system and ignites scoreboard on the ARM control "ATTENTION! RISK GROUP PASSENGER. ”

In addition, the signal from the output 81 of module 5 is fed to the input 71 of module 3, where the OR element 66 passes, and then it goes both to the installation input of the counter 65, resetting it to its original state, and through output 73 it goes to the installation inputs of modules 1 and 3.

Secondly, if as a result of a check on 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 2 goes to the synchronizing input 84 of block 7, to one information input 82 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 30 of module 1, and a code of documentary data and a digital photograph of the person being verified, read from swarm in the microcircuit passport.

By the synchronizing signal from the input 84, the module 7 compares the input codes, and if they match, the output 86 of the module 8 generates a signal arriving at the synchronizing input 89 of the module 8.

At this point in time, a fingerprint code received as a result of interrogation of the built-in microchip (chip) of an electronic passport was sent to one information input 87 of block 9 from output 32 of block 7, and a fingerprint code from output 33 of module 6 was received to another information input 88 from the reader.

If the fingerprint codes match, then according to the synchronizing pulse received at the input 89 of module 8, the latter at the output 91 generates an identity signal of the citizen passing the border control. This signal, firstly, through the signal output 28 of the terminal is immediately issued on the panel "PASS ALLOWED".

Secondly, the same signal is fed to input 112 of module 10 to start the procedure for documenting the fact that a given citizen went abroad, from where it is fed to one of the inputs of elements 119, 120, and node 105.

However, only one element And will be open at one input, since one of its inputs is supplied with a high potential from the inverse output of trigger 118, which is in the initial state.

As a result, a synchronizing pulse from input 110 passes element 119 AND, and enters the input of a fixed memory cell in ROM 116, where the reference address of the buffer zone of the server’s memory is reserved for storing records of documentary data of citizens traveling outside the state border of the Russian Federation.

The same synchronizing pulse from the output of element 119 AND is delayed by element 122 for the duration of reading the code from ROM 116, and, firstly, it is supplied to the synchronizing input of register 117, entering the reference address of the record into it.

Secondly, the same pulse is applied to the single input of trigger 118 and sets it to a single state, in which element 119 And will be closed, and element 120 And will be open. Thereby, a circuit for passing the next clock pulse from input 110 will be prepared.

And finally, thirdly, the pulse from the output of the delay element 122 passes through the OR element 121, is again delayed by the element 123 while the address code is entered into the register 117, and from the output 125 of the node 105 it enters the input 147 of the node 108.

The write address code from the output 124 of the node 105 is issued to the input 146 of the node 108 and then to one input of the adder 132, to the other input of which is connected the output of the counter 130, also connected to one input of the comparator 131, the “zero code” is constantly applied to the other input.

The clock pulse from input 147, firstly, immediately through the OR element 135, is fed to the clock input of the adder 132, which sums the reference address code from input 146 with the zero code of the counter 130, which is in its original state by this time and gives out code address entry entry elements 134 And groups.

Secondly, the same pulse passes through the OR element 138 and enters the direct input of the trigger 133, setting the latter to a single state, in which the high potential from the direct output opens the And elements of the 134 group on the other input, thereby connecting the output of the adder 132 to the output 149 .

As a result, the reference address of the record from the input 160 of the node 109 through the elements 155 OR group is issued to the address 21 output of the terminal.

Thirdly, the synchronizing pulse from input 147 is delayed by element 140 while generating the final code on the address 21 of the terminal output and through the output 150 of node 108 it enters the input 163 of node 109, the OR element 156 passes, and is output to the terminal 23 as a write control signal .

This signal is fed to the input of the second channel of the database server interrupt, through which the server goes to the routine for recording the contents of block 1 from the terminal 19 to the database at the address generated at the terminal 21.

In addition, the pulse from the output of the delay element 140 of the node 108 is supplied to the counting input of the counter 130, fixing the first record, and also after the delay by the element 145 for the time of writing data to the system database, this pulse passes the input of the OR element 139, setting the trigger 139 to the original state. Returning to the initial state, the trigger 139 closes the elements 134 AND groups on one input and, thereby, disconnects the output of the adder 132 from the address 21 of the terminal output.

If, in the process of identifying a citizen, module 7 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 output 85 generates a signal, which, firstly, through the signal output 26 of the system is immediately displayed on the board "ATTENTION! Error in documentary data. "

Secondly, the same signal is fed to input 110 of module 10 and starts the procedure for documenting the data of the verified citizen in the memory zone of the server database, reserved for documenting all cases associated with errors in documentary data. The documentation procedure is implemented exactly as it was described in the previous case.

If, in the process of fingerprint verification, module 8 detects a mismatch of the fingerprint codes at its inputs 87 and 88, then this fact will be detected by the generation of a signal at output 90.

The signal of mismatch of codes from the specified output, firstly, through the signal output of the terminal 27 is immediately displayed on the board "WARNING! Error in the biometric parameters of personality. "

Secondly, the same signal is fed to input 111 of module 10 and starts the procedure of documenting the data of the verified citizen in the memory zone of the server database, reserved for documenting all cases associated with errors in the biometric parameters of the person.

The documentation procedure is implemented exactly as it was described in the previous case.

After the work of the checkpoints, the terminal is ready for the mode of issuing the final data to the central database of the system.

For this purpose, the following signs of the issued data are sequentially supplied to the input 14 of the terminal:

THE CODE CHARACTERISTIC OF A SIGN eleven DATA OF CITIZENS LEAVING ABROAD 10 DATA OF CITIZENS DETAINED AT THE BORDER DUE TO DIFFERENCE OF DOCUMENTARY DATA. 01 DATA OF CITIZENS DETAINED AT THE BORDER DUE TO DIFFERENCE OF BIOMETRIC PARAMETERS

We will consider the operation of the system by the example of documenting data with a sign that has code 11.

The code of the first feature from the input 14 of the terminal is entered into the register 92 of the module 9 with a synchronizing pulse supplied to the input 18 of the terminal. From the output of the register 92, the code sign of the data is fed to the input of the decoder 93.

The decoder 93 decrypts the code of the input sign and opens one input of one of the elements 95-97 I. In this case, this element is the element 97 AND, to the other input of which is supplied from the input 18 a pulse is delayed by the element 98 for the time the code of the sign is entered into the register 92 and operation of the decoder 93.

The synchronizing pulse passes through the element 97 And, and from the output 102 of the module 9 is fed to the input 115 of the module 10, whence, it goes to the input 148 of the node 108.

From the input 148 of the node 108, the synchronizing pulse, firstly, through the element 138 OR enters the single input of the trigger 133, setting it to a single state, in which the high potential from the direct output opens the elements 134 And the group on the other input, thereby connecting the output of the adder 132 to exit 149.

As a result of this, the address of the last record stored in the adder 132 from the output 149 of the node 108 goes to the input 160 of the node 109 and then through the elements 155 OR groups issued to the address 21 output of the terminal.

Secondly, the synchronizing pulse from the input 148 is delayed by the element 143 for the duration of the trigger 133 and through the OR element 137 it is output 151 of the node 108, from where it passes to the input 166 of the node 109, the OR element 157 passes and issued to the output 24 as a control signal reading data. From the output 24 of the terminal, the signal is fed to the input of the third channel of the database server interrupt.

By this signal, the server goes to the subroutine for reading the contents of the database cell at the address indicated on output 21, and issuing the first database record of citizens who have gone abroad.

In addition, the synchronizing pulse from the output of the OR element 137 is delayed by the 144 element for the duration of reading data from the database, and, firstly, through the OR element 136 it is supplied to the installation input of the adder 132, resetting it to its original state.

Secondly, this pulse is fed to the subtracting input of the reverse counter 130, reducing its readings by one.

Thirdly, this pulse is delayed by the element 141 for the response time of the reversible counter 130 and is supplied to the synchronizing input of the comparator 131.

The comparator 131 compares the readings of the reverse counter 130 with a zero code supplied to its other input, and while the readings of the counter 130 are greater than the zero code, a signal is generated at the output A of the comparator 131, which, firstly, passes through the OR element 135 to the synchronizing input of the adder 132, which, by this signal, sums the code of the reference address from input 146 with the readings of the reverse counter 130 reduced by one and gives the final address to the address 21 of the system output.

Secondly, the same pulse is delayed by the delay element 142 for the operation time of the adder 132, the OR element 137 passes, and from the output 151 of the node 8 passes to the input 166 of the node 109, where the OR element 157 passes and is output 24 as the next read control signal data.

By this signal, the server again switches to the subroutine for reading the contents of the database cell at the address indicated on output 21, and issuing the next record of the citizens database to display and print media (not shown in the drawing).

In addition, the synchronizing pulse from the output of the OR element 137 is again delayed by the 144 element for the duration of reading data from the database, and, firstly, again through the OR element 136 it is supplied to the installation input of the adder 132, resetting it to its original state. Secondly, it again enters the subtracting input of the reverse counter 130, reducing its readings by one.

Thirdly, it is delayed by element 141 for the duration of the operation of the reversible counter 130 and enters the synchronizing input of the comparator 131.

The comparator 131 again compares the readings of the reversing counter 130 with a zero code supplied to its other input, and while the readings of the counter 130 are greater than the zero code, a signal is generated at the output A of the comparator 121, which, firstly, passes through the OR element 135 to the clock input an adder 132, which, by this signal, sums the code of the reference address from input 146 with a unit of readings of the reverse counter 130 and gives the final address to the address 21 of the terminal output.

The described process of reading the data of the database of citizens continues until the comparator 131 fixes the fact that the readings of the reverse counter 130 are equal to zero, indicating that all the lines of the data record of the database of citizens who have gone abroad have been issued to display and print media.

This fact will be confirmed by the issuance of a pulse to the output of the comparator 131, which is fed to the installation inputs of the reversible counter 130, the adder 132 and trigger 133.

In a similar way, the system works when issuing for documentation of citizens' data with other classification features.

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

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

1. US Patent No. 5136708 M.C. G 06 F 15/16, 1992

2. RF patent No. 50327 M.cl. G 08 C 17/02 (prototype).

Claims (1)

A mobile terminal of an automated border control system containing an electronic passport data receiving module, the information and synchronizing inputs of which are the first information and synchronizing inputs of the terminal, and one output is the information output of the terminal, while the first information input of the terminal is designed to receive electronic passport data from a scanning device , the first synchronizing output of the terminal is designed to receive synchronizing pulses of the scanning devices, and the information output of the terminal is designed to send data to the information input of the database server, the module for receiving records of the risk citizens database, the information and synchronizing inputs of which are the second information and synchronizing inputs of the terminal, while the second information input of the terminal is designed to receive database records server, and the second synchronizing input of the terminal is designed to receive synchronizing pulses of the database server, the data receiving module is built-in and the tag scheme of the electronic passport and fingerprint, the information and synchronizing inputs of which are the third information and synchronizing inputs of the terminal, while the third information input of the terminal is designed to receive data from the integrated integrated circuit of the electronic passport and fingerprint from the information output of the reader, and the third synchronizing input of the terminal is intended for receiving synchronizing pulses from the synchronizing output of the reader, module f of setting the addresses of the database of risk citizens, the information output of which is the first address output of the terminal, intended for outputting data to the address input of the database server, and the installation output of the module for generating addresses of the database of risk citizens is connected to the installation input of the electronic passport data receiving module, the recording documentation module data of citizens, the information output of which is the second address output of the terminal, intended for issuing address data to the address input of the server ba data calls, and the first and second synchronizing outputs of the module for documenting citizen data records are the first and second synchronizing outputs of the terminal, respectively, while the first synchronizing output of the terminal is designed to provide control signals to the input of the first channel of the server database interrupt, and the second synchronizing output is intended for issuing control signals to the input of the second channel of the database server interrupt, a module for specifying the type of data records, information and synchronizing inputs to of which are the fourth information and synchronization inputs of the system, while the fourth information input of the terminal is designed to receive types of data records from the terminal control panel, the fourth synchronization input of the terminal is designed to receive synchronization signals from the terminal control panel, and the outputs of the module for setting the type of data records are connected to the corresponding reading control inputs of the module for documenting citizens' data records, characterized in that the terminal contains a selection module and risk database data, the information input of which is connected to the other output of the electronic passport data receiving module, the synchronizing input is connected to the first synchronizing input of the terminal, and the installation input is connected to the installation output of the risk database address generation module, while the information output of the database data selection module risk data is connected to the information input of the risk database address generation module, the first and second control outputs of the risk database data selection module are connected are connected to the first and second control inputs of the risk database address generation module, respectively, one synchronizing output of the risk database data selection module is connected to the synchronizing input of the risk database address generation module, and the other output of the risk database data selection module is the clock output of the system, module identification of risk citizens, one information input of which is connected to another output of the electronic passport data receiving module, another information input of the identification module citizens at risk is connected to the output of the risk database data receiving module, and the synchronizing input of the risk citizens identification module is connected to the second synchronizing input of the system, while one output of the risk citizens identification module is connected to the counting input of the risk citizens database data selection module, and the other output is the first signal output of the system and is connected to the second installation input of the module for generating addresses of the risk database, an identity module, one information input of which is is dined with the other output of the electronic passport data receiving module, the other information input of the identity identification module is connected to the first output of the data receiving module of the integrated electronic passport and fingerprint integrated circuit, and the synchronizing input of the identity identification module is connected to the second control output of the risk database data selection module, the first output of the identity module is the second signal output of the terminal and is connected to the first synchronizing input of the docum module the creation of citizen data records, a biometric identity data identification module, the information inputs of which are connected to the second and third outputs of the data receiving module of the integrated electronic circuit of the electronic passport and fingerprint, and the synchronizing input of the biometric identity data identification module is connected to another output of the personality identification module, the first and second outputs of the module for identifying biometric personality parameters are the third and fourth signal outputs of the terminal and connected to the second and third synchronizing inputs of the module for documenting citizen data records, respectively.