RU76740U1 - AUTOMATED WORK PLACE FOR ISSUING NEW GENERATION PASSPORTS - Google Patents

Abstract

The utility model relates to the field of computer technology, in particular, to an automated workstation for issuing a new generation of passport and visa documents.

The technical result is to increase the reliability and speed of a workstation by identifying data of passport and visa documents in real time.

The technical result is achieved by the fact that the automated workstation contains a module for selecting the reference address of the profiles in the server database, a module for identifying verified profiles, a module for selecting the boundaries of the selection of verified profiles in the server database, a module for generating read addresses for verified profiles, a module for setting operating modes, an identification module passport data, chip data identification module. 15 ill.

Description

The utility model relates to the field of computer technology, in particular, to an automated workstation for issuing a new generation of passport and visa documents.

As you know, European countries are switching to electronic passport systems. By 2013, a unified system of electronic personal identification based on biometric methods should be deployed throughout Europe. In the Russian Federation in 2007, the introduction of new electronic passport and visa documents also began.

The main international trend in the development of a new generation of passport and visa documents is the creation of so-called confidence zones, in which citizens of the countries of the participants can enjoy the right of visa-free movement.

The reasons for the need to introduce a new generation of passport and visa documents are:

- the growth of illegal migration and the intensification of criminal business related to the illegal processing of migration documents.

- an increase in the flow of citizens across the border and the Russian Federation and, as a consequence, the need to increase the effectiveness of border control.

- the need to integrate state information resources used in the field of border and migration control, as well as in the fight against criminal and terrorist manifestations.

- preventing the possibility of falsification of passport and visa documents, which today is widespread.

- the need to consolidate efforts in the field of information exchange in the process of interstate cooperation of law enforcement agencies in the fight against illegal migration, criminal and terrorist manifestations.

- the need to reduce the corruption of the process of processing passport and visa documents.

The task of switching to a new generation of passport and visa documents is interconnected with the creation of an automated system for collecting, storing and processing information about persons, vehicles and goods that have passed through the State border (FMAS Border Control), and an information system for monitoring the migration situation in Russia (FMIS Migration "), including the creation of a central databank for the registration of foreign citizens and stateless persons, as well as with the implementation of the concept of" Personal population accounting system ", approved by the Law elstvom RF.

The introduction of a new generation of passport and visa documents in the Russian Federation is primarily aimed at solving social problems, namely, providing the possibility of simplifying the procedure when crossing the border of other countries with citizens of the Russian Federation, as well as solving problems of ensuring the country's national security and preventing people from entering Russia related to international terrorism and illegal migration. In this regard, the task of creating automated workplaces for issuing new generation passport and visa documents arises with particular urgency.

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

The first known automated workstation AWP) 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 workstation is the impossibility of solving the problem of updating data stored in the system’s memory at the same time as solving the problem of issuing the content of documentary data of citizens in real time.

Another automated workstation 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 to the inputs of the memory blocks of the second group and data display units (2).

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

The disadvantage of this technical solution is the low reliability of identification of citizens' data, 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 highly forged documents, false identification is possible, and, as a result, the passage of potential terrorists through a border checkpoint.

The purpose of the invention is to increase the reliability and speed of the workstation by identifying data of passport and visa documents in real time.

This goal is achieved by the fact that in an automated workstation containing 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 automated workstation, the information input of the module for selecting the reference address of profiles in the server database it is intended for receiving 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 synchronization signals of entering citizens identification codes into the selection module of the reference address of profiles in the server database, a 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, another information input of the identification module of verified questionnaires is the second information input of the system, designed to receive verified profiles from the server database, and the synchronizing mode input For identification of verified questionnaires, it is the second synchronizing input of a workstation designed to receive synchronizing signals for entering verified questionnaires into the module

identification of verified profiles, the 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 for the module for generating the addresses for reading the addresses of verified profiles in the server database while the address output of the module for generating addresses for reading verified questionnaires is the first address output of an automated work its place, intended for issuing read addresses of verified citizens' profiles to the address input of the database server, and the synchronizing output of the module for generating read addresses of verified profiles is the first synchronizing output of the automated workstation, intended for issuing control signals to the input of the first channel of the database server interrupt, module setting operating modes, the information input of which is connected to the information output of the module for identifying verified profiles, the first one the input of the module for setting the operating modes is the first clock input of the automated workstation designed to receive the clock signals of the issuing mode of the passport, the second clock input of the module for setting the operating modes is the second clock input of the computer of the workstation for receiving the clock signals of the reading mode of the chip, the third clock input the module for setting operating modes is the third clock input of an automated workstation intended for receiving timing signal data comparison mode passports and the chip, wherein the information output module installation modes is the first data output workstation intended for dispensing profiles verified data to the monitor operator, the first output clock setting module

operating modes is the second synchronizing output of the automated workstation, intended for issuing control signals to the input of the second channel interrupt channel of the database server, the second synchronizing output of the installation module of operating modes is the third synchronizing output of the automated workstation, intended for issuing control signals to the input of the third channel of the server interrupt database, the third synchronizing output of the module for setting operating modes is the fourth synchronizing the output of the automated workstation designed to issue control signals to the input of the fourth channel for interrupting the database server, 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 the profiles in the server database, a module for selecting the boundaries of the selection of checked profiles in the database is introduced server data, the information input of which is connected to the third information output of the module for selecting the reference address of profiles in the server database, synchronizing the input of the module the selection boundary for the selection of verified profiles in the server database is connected to the synchronizing output of the module for selecting the reference address of the profiles in the server database, and the counting input of the module for selecting the boundaries for the selection of verified profiles in the server database is connected to the first clock output of the module for identifying verified profiles a module for selecting the boundaries of a sample of checked questionnaires in the server database is connected to the installation output of the module for generating addresses for reading verified questionnaires, one output of the module the boundaries of the selection of verified profiles in the server database is connected to the counting input of the module for generating addresses for reading verified profiles, the second output of the module for selecting the boundaries of the selection of verified profiles in the server database is connected to the first installation input of the module

generating read addresses for verified questionnaires, the second installation input of which is connected to the second clock 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 passport data identification module is the third information input of a workstation designed for receiving passport data, and the synchronizing input of the passport data identification module is the third synchronizing input of the workstation designed to receive the synchronizing signals of 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 workstation intended for issuing passport data to the operator’s monitor, signal output of the data identification module pa the port is connected to the installation input of the module for setting operating modes and is the first signal output of the workstation designed to issue error signals in the passport data, and the chip data identification module, one information input of which is connected to the information output of the passport data identification module, another information input the chip data identification module is the fourth information input of the workstation designed to receive chip data, and the sync the onization input of the chip data identification module is the fourth synchronization input of the workstation designed to receive the synchronization signals of entering 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 workstation designed to send the chip data to the operator’s monitor, the first signal output of the chip data identification module is the second signal output of the workstation designed to issue signals about an error in the chip data, and the second signal output of the chip data identification module is connected to the installation input of the mode I passports and identification data is third signal output workstation designed to issue signals closure operations of a passport.

The invention is illustrated by drawings, where Fig. 1 is a structural diagram of a workstation, Fig. 2 is a structural diagram of a selection module of a reference address of questionnaire data in a server database, Fig. 3 is a structural diagram of a module for identifying verified questionnaires; 4 is a block diagram of a module for selecting the boundaries of a sample of checked questionnaires in a server database, FIG. 5 is a block diagram of a module for generating read addresses of verified questionnaires, FIG. 6 is a block diagram of a module for setting operating modes, in FIG. 7 - Fig. 8 is a structural diagram of a passport data identification module; Fig. 8 is a structural diagram of a chip data identification module; Figs. 9-15 show examples of data display forms on an operator monitor.

The automated workstation (Fig. 1) contains module 1 for selecting the reference address of the profiles in the server database, module 2 for identifying verified profiles, module 3 for selecting the boundaries of the sample of verified profiles in the server database, module 4 for generating read addresses for verified profiles, module 5 for setting modes

work, passport data identification module 6, chip data identification module 7.

Figure 1 shows the first 8, second 9, third 10 and fourth 11 information inputs, the first 12, second 13, third 14 and fourth 15 clock inputs, the first 16, second 17 and third 18 clock inputs, as well as address 19 output, the first 20, second 21 and third 22 information outputs, the first 23, second 24, third 25 and fourth 26 synchronizing outputs, the first 27, second 28 and third 29 signal outputs of the workstation.

Module 1 (figure 2) selection of the reference address of the questionnaires in the server database contains a register 39, a memory unit 40, made in the form of read-only memory, a decoder 41, elements 42-45 And, elements 46-47 delay. The drawing shows information 8, synchronizing 12 inputs and controlling 36 inputs, as well as the first 48, second 49 and third 50 information and synchronizing 51 outputs.

Module 2 (figure 3) identification of verified questionnaires contains a register 71, a comparator 72, a delay element 73. The drawing shows the first 76 and second 77 information and synchronizing 78 inputs of the module, as well as information 79, the first 89 and second 81 clock outputs.

Module 3 (Fig. 4) of selecting the boundaries of the sample of checked questionnaires contains a register 52, a counter 53, a comparator 54, and a delay element 55. The drawing shows information 56, synchronizing 57, counting 58 and installation 59 inputs, as well as the first 30 and second 31 outputs.

Module 4 (FIG. 5) of generating read addresses of verified questionnaires comprises a counter 60, OR elements 61, 62, and a delay element 63. The drawing shows the information input 64, synchronizing 65, counting 66, first 67 and second 68 clock inputs, as well as address 19, synchronizing 23 and installation 69 outputs.

Module 5 (FIG. 6) for setting operation modes comprises a counter 100, a decoder 101, a trigger 102, AND elements 103-106, an OR element 107, a delay element 108, and AND elements 109. The drawing shows informational 99, first 110, second 111, third 112 clock, control 113 and installation 114 inputs, as well as information 20, first 24, second 25 and third 26 clock, and control 117 outputs.

The passport data identification module 6 (Fig. 7) comprises a register 120, a comparator 121, a trigger 122, an OR element 123, delay elements 124, 125. The drawing shows the first 127 and second 128 information, synchronizing 129 and installation 130 inputs of the module, as well as information 131, signal 132 and control 133 outputs.

The chip data identification module 7 (Fig. 8) comprises a register 140, a comparator 141, an AND element 142, a delay element 143. The drawing shows the first 144 and second 145 information, synchronizing 146 and controlling 147 module inputs, as well as information 148, and signal outputs 149, 150.

Workstation for issuing new generation passports is a functional component of an automated system for processing, manufacturing and issuing foreign passports of a new generation. Workstation for issuing passports automates activities related to the decision on the possibility of activating and issuing a new generation passport to the applicant as an authorized employee of the passport and visa department of the Federal Migration Service of Russia.

AWP automates the following functions:

- viewing information on profiles;

- viewing registered in the system checks;

- viewing the decision registered in the system about the possibility of manufacturing a foreign passport;

- sending messages to the Federal data processing center of the FMS of Russia.

The operator of the passport issuing workstation performs the following actions:

- scans the passport received from the Gosznak factory and reads the passport chip;

- checks the coincidence of data from the applicant’s questionnaire, data from the scanned passport and data from the read chip of the passport;

- makes a positive or negative decision on the issue of a foreign passport.

The main AWP window shown in Fig. 9 is loaded automatically when the AWP starts.

This window consists of four areas:

- in the upper part there are function buttons;

- in the left part of the window is a list of available profile states for filtering the list of profiles;

- on the right side of the window is a list of profiles;

- at the bottom of the window is a filter for the list of profiles.

Passport issuing workstation works with the server database, which stores all the received application forms for new passports.

To issue a passport for a specific profile, you need to select the desired profile in the list of profiles. In the questionnaires, in all three statuses - “Ready to issue,” “Issued” and “Not issued”, you can view the parts of the questionnaire, the passport page and the contents of the chip, as well as previously entered checks, commentary on the decision made on the questionnaire and the history of the questionnaires.

In the history of profiles, the statuses in which the profile was located, the date of the change of status and the number of messages that were

formed. An example of displaying the history data of a questionnaire is shown in FIG. 10.

To issue a passport on the questionnaire, you need to find the required citizen questionnaire in the "List of Verified Questionnaires" data base of the server database. To this end, the operator using the control keyboard enters the identification data of a citizen from the input 8 of the automated workplace of module 1 into register 39, into which the code is entered by the synchronizing pulse supplied to the input of 12 automated workplace.

Along with the identification data of the citizen, the code of the sign of the questionnaire formed by the initial letters of the surname, name and patronymic of the citizen is entered in the corresponding digits of register 39.

From the first output of register 39, the code combination formed by the initial letters of the surname, name and patronymic of the citizen enters the input of the decoder 41. The latter decrypts this code combination and prepares the synchronization signal from the input 38 of module 1, opening one of the elements 42-44 I. For definiteness, we assume that the high potential of the decoder entered one input of element 42 I.

In parallel with this, the synchronizing pulse from the input 12 of module 1 passes through the 45 And element, which is open in the initial state of the automated workstation with high potential from the inverse output 117 of the trigger 102 of module 5, is delayed by the element 46 for the time the questionnaire data is entered into register 39 and the decoder 41 is activated, and then interrogates the states of elements 42-44 I.

Considering the fact that only AND element 42 will be open at one input, then passing through this AND element, the clock pulse is fed to the read input of a fixed memory cell of the permanent storage device 40, where the reference address code of the List of Verified Questionnaires data array is stored in the server database and

the number of entries of similar profiles having the same code combination of the initial letters of the surname, name, patronymic of 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 data file of the “List of Verified Questionnaires”, which stores the profiles of citizens having the same code combination of the initial letters of the surname, name, patronymic of citizens The number of profiles with the specified code combination of the initial letters of the surname, name, patronymic.

The code of the reference address of the data array of the "list of verified profiles" from the ROM 40 is read to the output 49 of the module 1 and then through the input 64 of the module 4 it is fed to the information input of the counter 60, and the code of the number of profiles in the list is read from the ROM 40 of the module 1 to the output 50 and further through the input 56 of the module 3 is fed to the information input of the register 52.

In parallel with the described process, the same read pulse from the output of the delay element 46 of module 1 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 51 of the module 1 it goes to the clock input 65 of the counter 60 of the module 4 and to the clock input 57 of the register 52 of module 3, fixing in them the corresponding read codes.

The address code from the output of the counter 60 of module 4 is issued to the address 19 output of the workstation.

Simultaneously with entering the code of the reference address of the database of the “list of verified questionnaires” data array into the counter 60 of module 4, the synchronizing pulse from the input 65 of module 4 passes the OR element 62, is delayed by the delay element 63 for the time the address code is entered into the counter 60, and then through the output 23 AWP is issued to the input of the first channel for interrupting the database server.

By this signal, the server goes to the subroutine for reading the contents of the data array cell of the “list of verified profiles” at the address indicated on output 19, issuing the first read out questionnaire to information input 9 of the AWP and entering it into module 2 with a synchronizing pulse from the server to input 13.

The codogram of the questionnaire read from the list of verified questionnaires through the input 77 of module 2 by a synchronizing pulse from input 13 of module 2 is entered into register 71, from output 32 of which the code of the surname, name and patronymic of the citizen is issued to one input 35 of comparator 72, to the other input 34 of which the code surname, name, patronymic from the output of 48 module 1.

In parallel with this process, the synchronizing pulse from input 13 enters the synchronizing 78 input of module 2, where it is delayed by element 73 for the time the code is entered in 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 in the register 71 do not match the personality attributes in the register 39 of module 1, then the output 80 of module 2 receives a signal that goes to the input 58 of module 3, where, firstly, it passes to the counting input of the counter 53, which counts the number of scanned profiles from the “list of checked profiles”.

Secondly, the same pulse is delayed by the element 55 of module 3 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 register 52 a code of the number of profiles contained in the list of checked profiles is submitted, and on the other the information input of the comparator 54 receives the code of the number of scanned profiles from the output of the counter 53.

If the number of viewed profiles registered by counter 53 is less than the number of profiles from the list of checked profiles, then an impulse appears at the output 30 of module 3. This pulse through the input 66 of module 4 passes to the counting input of the counter 60, increasing by one the reference address of the server database, which from the output 22 of module 4 goes to the address 19 of the workstation.

In addition, the same pulse passes through the OR element 62, is delayed by the element 63 for the duration of the counter 60 operation, and is again issued through the output 23 of the AWP to the input of the first channel of the database server interrupt.

By this signal, the server again goes to the subroutine for reading the contents of the array of the list of verified profiles at the newly formed address, issuing it to the information input 15 of the system and recording the contents of the next database cell in module 2 with a synchronizing pulse from the server to input 13.

The described process of sequentially reading citizens' profiles from the list of verified profiles and comparing their contents with the attributes of the requested profile will continue until all records in the data array of the list of verified profiles are reviewed.

If the personality attributes in the register 71 coincide with the personality attributes in the register 39 of module 1, a signal appears at the output 81 of module 2, which is fed to the input 113 of module 5, from where it is fed to the direct input of the trigger 102 and sets it to a single state.

As a result of this, a high potential from the direct output of trigger 102 opens up a group of 109 AND elements, through which the information output 79 of module 2 is connected to the information output 20 of the AWP and the requested citizen questionnaire is issued to the operator’s monitor for issuing a passport.

An example of the content of the citizens questionnaire issued to the information output of the system 20 for viewing and monitoring by the operator, from the output 20 of the system is presented in Fig. 11.

This window consists of four areas:

- in the upper part there are function buttons;

- in the left part of the window there are elements responsible for displaying various parts of the questionnaire;

- in the right part of the window there are subwindows containing the data of the questionnaire;

- Also, at the bottom of the window there is information about which account is currently open, and how many total profiles are in the filtered list.

The operator issuing the passport, using all the controls on the left side of the screen, sequentially checks all the data on the questionnaire and decides on the issuance of a passport on this questionnaire.

After that, the AWP operator sets the passport issuance mode by pressing the “Passport Issue” graphic button, the signal from which is applied to the clock input 16 of the AWP, and then the OR element 107 passes through the input 110 of the module 5, then the AND element 103 passes, also open according to the second high potential input from the direct output of the trigger 102 and enters the counting input of the counter 100, bringing in the first unit, and thereby establishing the first mode of operation of the workstation.

The code from the output of the counter 100 is decrypted by the decoder 101, which with a high potential opens the element 104 AND on one input.

In addition, the synchronizing pulse from the output of the 103 And element is delayed by the delay element 108 for the response time of the counter 100, and through the element 104 And is issued to the output 24 of the workstation and then goes to the input of the second channel of the database server interrupt.

By this signal, the server switches to the passport reading subroutine, as a result of which the “Reading Passport” window appears on the operator’s monitor screen. A window view is shown in FIG.

After that, the operator on the APma keyboard presses the Scan button.

When you click on the “Scan” button, the passport will be scanned using the reader of passport and visa documents, the fields in the “Chip Connection Key” area will be filled with data from the passport.

The data of the scanned passport is fed to the third informational input 10 of the automated workplace, and then through the input 128 of module 6 it is fed to the informational input of the register 120, where it is recorded with a synchronizing pulse coming from input 14 of the automated workstation.

From the output of the register 120, the passport data is fed to one of the inputs of the comparator 121, the other inputs of which from the output 79 of module 2 are issued the questionnaire data for which the passport is issued.

The synchronizing pulse from the input 129 of module 6 is delayed by the element 124 for the time the passport data is entered into the register 120 and fed to the synchronizing input of the comparator 121. By this signal, the comparator compares the input codes, and if they are the same, an equal code signal is generated at the second output of the comparator, which arrives at the single input of trigger 122 and sets it to a single state, fixing, thereby, the fact of complete coincidence of the data of the questionnaire and passport.

If the codes do not match, then the comparator 121 generates a pulse at the first output, which, firstly, is output to the output 132 of module 6 and then to output 27 of the AWP, signaling an error in the data of the passport and application, and, secondly, it goes to the input 114 of module 5 and then to the installation input of the trigger 102, returning it to its original state.

The contents of the scanned passport from the output of the register 120 of the module through the output 21 is issued for display on the monitor operator AWP. A view of a window with a scanned passport is shown in Fig. 13.

In the "Scan Result" area, the scanned page of the passport is displayed.

Bookmarks in this area are used to view the visible, infrared and ultraviolet scanned images of the passport.

After scanning the passport, it is necessary to carry out a procedure for reading the contents of the passport chip, for which the operator presses the “Read chip” button, the signal from which is fed to clock input 17 of the workstation, and then element 107 OR passes through input 111 of module 5, then element 103 AND passes it is also open at the second input with high potential from the direct output of the trigger 102 and enters the counting input of the counter 100, bringing the second unit into it, and thereby establishing the second work mode of the AWP.

The code from the output of the counter 100 is decrypted by the decoder 101, which with a high potential opens the element 105 AND on one input.

In addition, the synchronizing pulse from the output of the 103 And element is delayed by the delay element 108 for the response time of the counter 100, and through the 105 element And the output is 25 AWP and then goes to the input of the third channel of the database server interrupt.

By this signal, the server switches to the chip reading routine. If all the fields of the “Connection Key with Chip” area coincide with the data in the chip, then the passport chip will be read and the fields of the “Data from Chip” area will be filled with the read data. The “Photo from the chip” field will also be filled.

Data from the chip goes to the fourth informational input 11 of the automated workstation, and then through the input 145 of module 7, it enters the informational input of the register 140, where it is recorded with a synchronizing pulse from input 15 of the automated workplace.

From the output of the register 140, the data from the chip goes to one of the inputs of the comparator 141, to the other inputs of which the passport data is issued from the output of the 131 module 6.

The clock pulse from the input 146 of the module 7 passes through the And element 142, which is open at the second input with a high potential from the input 147, is delayed by the element 143 for the time the data are entered from the chip into the register 140 and is fed to the synchronization input of the comparator 141.

Based on this signal, the comparator compares the input codes, and if they are the same, an equal code signal is generated at the second output of the comparator 141, which, from the output 150 of the module 7, is fed to the input 130 of the module 6, and then through the delay element 125 and the OR element 123 to trigger input 122, returning it to its original state.

If the coincidence of the data from the chip and the data of the passport does not occur, then the comparator 141 generates a pulse at the first output, which is output to the output 149 of module 7, signaling an error in the chip data.

A view of a window with a scanned passport and a read chip is shown in Fig. 14.

After successfully completing the scanning and reading of the chip, the operator sets the “Data Comparison” mode by clicking the “Next” button on the “Data Comparison” step. The signal from pressing the button goes to the clock input 18 of the AWP, and then the element 107 OR passes through the input 112 of the module 5, then the element 103 AND passes, also open at the second input with high potential from the direct output of the trigger 102 and goes to the counting input of the counter 100, bringing into it the third unit, and thereby establishing the third operating mode of the AWP.

The code from the output of the counter 100 is decrypted by the decoder 101, which with high potential opens the element 106 AND on one input.

In addition, the synchronizing pulse from the output of the 103 And element is delayed by the delay element 108 for the response time of the counter 100, and through the 106 And element is issued to the AWP output 26 and then goes to the input of the fourth channel of the database server interrupt.

By this signal, the server switches to the subroutine for displaying data from the questionnaire, read data from the chip and recognized data from the scanned passport. If the field values do not match in all three areas, the corresponding fields will be highlighted in red. The view of the step “Data Comparison” is shown in FIG.

If the data are the same for all three regions, then the authorized air defense officer of the FMS of Russia may decide to issue a foreign passport to the applicant.

Thus, the introduction of new modules and new design relationships has significantly improved the reliability and speed of the system by identifying real-time passport and visa documents.

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

1. US patent No. 5136708 M. cl. G06F 15/16, 1992

2. US Patent No. 5129083 M. cl. G06F 12/00, 15/40, 1992 (prototype).

Claims (1)

The automated workstation for issuing new generation passports containing 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 automated workstation, 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 reception of synchronization signals for entering citizen identification codes into the selection module for the reference address of profiles in the server database, a 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, another information input for the module for identifying verified profiles It is the second information input of the system intended for receiving verified profiles from the server database, and the synchronizing input of the module is ide ntification of verified questionnaires is the second synchronizing input of the automated workstation, intended for receiving synchronizing signals of entering verified questionnaires into the identification module of verified questionnaires, the module for generating addresses for reading verified questionnaires, the address input of which is connected to the second information output of the reference questionnaire selection module in the server database, the synchronizing input of the module for generating the addresses for reading verified questionnaires is connected to the synchronizing output of the mod To select the reference questionnaire address in the server database, the address output of the module for generating read addresses of verified questionnaires is the first address output of a workstation designed to provide the read addresses of verified citizens' profiles for the address input of the database server, and the synchronizing output of the module for generating read addresses of verified questionnaires is the first synchronizing output of an automated workstation designed to issue control signals to input p the first channel of interruption of the database server, the module for setting operating modes, the information input of which is connected to the information output of the module for identifying verified questionnaires, the first clock input of the module for setting modes of operation is the first clock input of the workstation, designed to receive clock signals of the passport issuing mode, the second clock the input of the module for setting the operating modes is the second clock input of the workstation, designed to receive and the 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 workstation, designed to receive the clock signals of the comparison mode of passport and chip data, while the information output of the module for setting the operating modes is the first information output of the workstation, intended for the issuance of the data of the verified questionnaire to the operator’s monitor, the first synchronizing output of the module for setting operating modes is the second synchronizing output of the automated workstation intended for issuing control signals to the input of the second channel interruption of the database server, the second synchronizing output of the module for setting the operating modes is the third synchronizing output of the automated workstation intended for issuing control signals to the input of the third channel of the database server interrupt , the third synchronizing output of the module for setting the operating modes is the fourth synchronizing output av a computerized workstation designed to issue control signals to the input of the fourth channel for interrupting the database server, and the control output of the module for setting operating modes is connected to the control input of the selection module of the reference address of the profiles in the server database, characterized in that it contains a module for selecting the boundaries of the sample of verified questionnaires 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, synchronizing the 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 address of the profiles in the server database, and the counting input of the module for selecting the boundaries of the selection of verified profiles in the server database is connected to the first clock output of the module for identifying verified profiles 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 addresses for reading verified profiles, one output the module for selecting the boundaries of the selection of verified questionnaires in the server database is connected to the counting input of the module for generating the addresses of the reading of verified profiles, the second output of the module for selecting the boundaries of the selection of verified profiles in the database of the server is connected to the first installation input of the module for generating the addresses for reading the verified profiles, the second installation input of which is connected with the second clock output of the module for identifying verified questionnaires, connected to the control input of the module for setting operating modes, identifier passport data identification, one information input of which is connected to the information output of the verified questionnaire identification module, another information input of the passport data identification module is the third information input of the workstation intended for receiving passport data, and the synchronizing input of the passport data identification module is the third synchronizing input of the automated workstation designed to receive synchronizing signals for entering passport data passport data identification module, the information output of the passport data identification module is the second information output of the workstation intended for issuing passport data to the operator monitor, the signal output of the passport data identification module is connected to the installation input of the operating mode setting module and is the first signal output of the workstation designed to issue error signals in the passport data, and the chip data identification module, one the 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 workstation designed to receive chip data, and the synchronization input of the chip data identification module is the fourth synchronization input of the workstation receiving synchronization signals for entering chip data into the chip data identification module, the input 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 workstation designed to send chip data to the operator’s monitor, the first signal output of the chip data identification module is the second signal output of the automated a workstation designed to issue error signals in the chip data, and the second signal output of the identifier module The data path of the chip is connected to the installation input of the passport data identification module and is the third signal output of the workstation, intended for issuing signals to complete the execution of passport issuing operations.