RU94012U1 - AUTOMATED INFORMATION AND REFERENCE SYSTEM OF THE FUNCTIONAL CIRCUIT "DAILY ACTIVITY" OF THE STATE AUTOMATED SYSTEM "ELECTIONS" - Google Patents

Abstract

 An automated information-reference system of the "Everyday Activities" functional circuit of the state-owned automated system "Elections" containing a user request receiving module, the information and synchronizing inputs of which are the first information and synchronizing system inputs, while the information input of the user request receiving module is designed to receive request codes from workstations of users of the system, and the synchronizing input of the receiving module is requested The user is intended for receiving synchronization signals for entering user request codes into a user request receiving module, a server database record receiving module, the information and synchronizing inputs of which are the second information and synchronizing system inputs, while the information input of the server database record receiving module is intended for receiving database records from the information output of the system server, synchronizing the input of the module for receiving database server records it is meant for receiving synchronization signals for entering server database records into the server database records receiving module, and the information output of the server database records receiving module is connected to the information input of the data and control signals issuing module, the user workstation identification module, the address input of which is connected to the address the output of the module for receiving user requests, and the outputs of the module for identifying user jobs are connected to the corresponding control inputs of the data output module and

Description

The invention relates to computer technology, in particular, to an automated information-reference system of the functional circuit "Everyday Activities" of the State Automated System "Elections".

A functional circuit is a collection of services (functions) oriented towards the performance of work for a specific group of users.

In GAS "Vybory" the following functional contours are distinguished:

- “Election campaigns”;

- “Everyday activity”;

- "Public Information";

- “Voter Register”.

The purpose of identifying four functional circuits operating in a single computing environment of GAS "Vybory" is to increase the efficiency of various user groups in the IR, and users, in accordance with their functional responsibilities, have the opportunity to work in one or more circuits.

The “Everyday Activities” functional circuit is distinguished as part of the automation facilities of the Central Election Commission of Russia and the election commissions of the constituent entities of the Russian Federation and provides access to functions that automate the processes of daily activities by election commissions that are not directly related to the conduct of the election campaign.

Users of this circuit are provided with access to the functions implemented:

- in the information and reference subsystem;

- in the document management subsystem;

- a subsystem for the automation of electoral processes (the office part of the “Personnel” software product);

- in the automation subsystem for monitoring the financing of political parties;

- in the subsystem of management and control of functioning

- in the subsystem to ensure operation and maintenance;

- in the training subsystem.

In addition, access to the GAS “Vybory” e-mail and to “systems” of legal information is provided.

Users of the “Everyday Activities” circuit are provided with access to both open and official information with established access regulations.

At the same time, an automated information and referral system should provide the opportunity to solve numerous problems related both to compiling voter lists, referendum participants in polling stations, referendum precincts sorted alphabetically or in a different order, and obtaining information about the progress of the election process and its results.

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 is the low speed of the system, due to the fact that the procedure for finding the requested data in the database is implemented by searching the data throughout the database and their subsequent processing by the central processor, which in case of large volumes of the database of the reference data inevitably leads to unreasonable loss of time.

The purpose of the invention is to improve system performance by localizing the addresses of database records by the identifiers of the addresses of election commissions.

This goal is achieved by the fact that in a known system containing a module for receiving user requests, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, while the information input of the module for receiving user requests is designed to receive request codes from workstations of users of the system, and the synchronizing input of the user request receiving module is intended for receiving the synchronizing signals of entering user request codes users in the module for receiving user requests, the module for receiving records of the server database, the information and synchronizing inputs of which are the second information and synchronizing inputs of the system, while the information input of the module for receiving records of the server database is designed to receive database records from the information output of the system server the input of the server database records receiving module is intended for receiving synchronizing signals of entering the server database records into the recording module this server database, and the information output of the server database records receiving module is connected to the information input of the data and control signals issuing module, user workstation identification module, the address input of which is connected to the address output of the user request receiving module, and the outputs of the user workstation identification module connected to the corresponding control inputs of the module for issuing data and control signals, the information outputs of which are information outputs of the system, the module modification of the database addresses, the address output of which is the address output of the system, designed to provide data addresses to the address input of the database server, characterized in that it contains a module for identifying base addresses of election commissions in the server database, the information input of which is connected to the first information output of the module receiving user requests, the synchronizing input of the module for identifying base addresses of election commissions in the server database is connected to the synchronizing output the module for receiving user requests, and the information and synchronizing outputs of the module for identifying base addresses of the election commissions in the server database are connected to the corresponding information and synchronizing inputs of the module for modifying the database addresses, while the synchronizing output of the module for identifying the base addresses of election commissions in the server database is connected to the first the synchronizing input of the module for issuing data and control signals, a module for discriminating signals from query execution, inform the input of which is connected to the information output of the identification module of the base addresses of the election commissions in the server database, and the first synchronizing input of the module for discriminating the signals of the fulfillment of requests is connected to the synchronizing output of the module of identification of the base addresses of election commissions in the server database, while the signal output of the module of discrimination of the execution signals of requests is connected to the counting input of the database address modification module and to the second synchronizing input of the issuing module data and control signals, and the installation output of the query discrimination signal discrimination module is connected to the installation input of the database address modification module, the user request type identification module, the information input of which is connected to the second information output of the user request reception module, the synchronizing input of the user request type identification module is connected to the second synchronizing system input, the first synchronizing output of the user request type identification module the relay is connected to the third synchronizing input of the module for issuing data and control signals, the second synchronizing output of the user request type identification module is connected to the counting input of the request signal discrimination module, the third synchronizing output of the user request type identification module is connected to the second synchronizing input of the request signal discrimination module, and a module for selecting data from user requests, the first, second and third information inputs of which are connected data to the third, fourth and fifth information outputs of the user request receiving module, respectively, the fourth information input of the user request data selection module is connected to the output of the server database records receiving module, the first synchronizing input of the user request data selection module is connected to the third synchronizing output of the request type identification module users, the second synchronizing input of the user request data selection module is connected to the fourth synchronizing the output of the user request type identification module, the first control input of the user request data selection module is connected to the first control output of the user request type identification module, the second control input of the user request data selection module is connected to the second control output of the user request type identification module, and the installation input is connected to the installation output of the query discrimination signal discrimination module, while the first output of the data selection module user request is connected to the fourth synchronizing input of the module for issuing data and control signals, the second output of the module for selecting data of user requests is connected to the fifth synchronizing input of the module for issuing data and control signals, and the third output of the module for selecting data for user requests is connected to the installation output of the database data receiving module server.

The invention is illustrated by drawings, in which Fig. 1 is a structural diagram of a system, Fig. 2 is a structural diagram of a module for receiving user requests, Fig. 3 is a structural diagram of a module for identifying a base address of election commissions in a server database, and Fig. 4 is a Fig. 5 is a block diagram of a module for identifying user request types, Fig. 6 is a block diagram of a user request data selection module, Fig. 7 is a block diagram of a issuing module, yes data and control signals.

The system (Fig. 1) contains a module 1 for receiving user requests, a module 2 for identifying base addresses of election commissions in the server database, a module 3 for discriminating request signals, a module 4 for identifying types of user requests, a module 5 for modifying database addresses, a module 6 for identifying workers user places, made in the form of a decoder, a module 7 for selecting user request data, a module 8 for receiving server database records made in the form of a register, and a module 9 for outputting data and signals and I.

1 also shows the first 10 and second 11 information inputs of the system, the first 12 and second 13 synchronizing inputs of the system, address 14 system output, the first 15 and second 16 synchronizing outputs of the system, information 17-19 system outputs.

Module 1 (figure 2) receiving user requests contains registers 21-26 and the delay element 27. The drawing also shows information 30-35 and synchronizing 36 outputs.

Module 2 (Fig. 3) for identifying base addresses of election commissions in the server database contains read-only memory 40, a decoder 41, 42-45 I elements, a delay element 45. The drawing also shows information 46 and synchronizing 47 inputs, information 48 and synchronizing 49 outputs.

Module 3 (FIG. 4) of query execution signal discrimination comprises a register 51, a counter 52, a comparator 53, and delay elements 54, 55. The drawing also shows information 56, first 57 and second 58 synchronization inputs, signal 60 and installation 61 outputs.

Module 4 (figure 5) identifying types of user requests contains a decoder 70, a trigger 71, elements 72-75 AND, elements 76, 77 OR, elements 78, 79 delay. The drawing also shows the information 80 and synchronizing 81 inputs of the block, synchronizing 82-85 and controlling 86, 87 outputs of the block.

Module 5 (figure 1) modification of the database addresses is made in the form of a counter having an information 139, synchronizing 140, counting 141 and installation 142 inputs, as well as address 14 output.

Module 6 (Fig. 1) identifies user workstations in the form of a decoder having an information input connected to the information output 36 of module 1 and group outputs 143-145.

Module 7 (Fig.6) selection of user request data contains comparators 91-93, elements 94, 95 AND, elements 96, 97 OR. The drawing also shows information 100-103 inputs, synchronizing 104-105, control 106-107 and installation 108 inputs, as well as outputs 109-111.

Module 8 (Fig. 1) of receiving server database records is made in the form of a register having information 11 and synchronizing 13 inputs, as well as an information output connected to information 138 of module 9 input.

The module 9 (Fig.7) for the issuance of data and control signals contains elements 120, 121 OR, groups of elements 122-124 AND, element 125 delays. The drawing also shows the synchronizing 130-134, controlling 135-137 and 138 information inputs, as well as the synchronizing 139, 140 and information outputs 141-143.

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

The system operates as follows.

To obtain reference data from the GAS “Vybory” database at the workstations of users of the system, various types of queries are generated, the generalized structure of which has the following form:

THE CODE THE CODE THE CODE THE CODE THE CODE THE CODE Election Commission Identifier Request type 1st sign of request 2nd sign of request 3rd sign of request User workstation address

The request codogram from the input 10 of the system goes to the information input of the module 1 for receiving user requests further to the inputs of the corresponding registers 21-26, where the above codes are entered by the synchronizing pulse from input 12.

From the output 30 of the register 21, the code of the election commission identifier goes to the information input 46 of module 2, from where it goes to the inputs of the decoder 41.

The decoder 41 decodes the code and prepares the signal path from input 47, opening one of the elements 42-44 I. For definiteness, we assume that a high potential is received at one input of the element 42 I.

In parallel with this, the synchronizing pulse from the input 12 of the system is delayed by the element 27 for the time the codogram is entered into the registers of module 1 and from the output 36 of the module 1 it goes to the input 47 of the module 2, and then to the polling of the state of the elements 42-44 I.

Considering the fact that only AND element 42 will be open at one input, passing through this AND element, the clock pulse arrives, firstly, at the read input of a fixed memory cell of the permanent storage device 40, where the base address of the requested election commission and the total number code are stored records of voter data in a database related to the conduct of this election commission.

The code of the base address of the election commission is read from the ROM 40 memory and from output 48 it goes to the information input 139 of module 5, and the code of the total number of voter data records registered in this section of this election commission goes from the same output 48 to the information input of module 3.

Secondly, the same read pulse from the input of element 42 AND of module 2 is delayed by the delay element 45 for the duration of reading the contents of a fixed ROM cell and then from output 49 it is supplied to both the synchronizing input 140 of module 5 and the synchronizing input 57 of module 3.

The code from input 139 of module 5 is fed to the information input of the counter and a clock pulse from input 140 is entered into the counter, from the outputs of which this code is sent to the address output 14 of the system.

At the same time, from the input 140 of module 5, the same clock pulse enters the input 130 of module 9, passes through the OR element 120, and is delayed by the entry of the base address code into the counter of module 9 by the element 125. Then, this pulse is output to the system output 15 as a signal control read the contents of the memory cell of the server database at the address specified on the output 14 of the system.

The code of the total number of voter data records in the database registered at the site of this election commission, from the output of 48 module 2 is entered into the register 51 of module 3 with the same clock pulse from the output of 49 module 2. From the output of register 51, this code is fed to the input 150 of the comparator 53.

The request type code recorded in the register 22 of module 1 determines the corresponding data sampling mode, which include:

- the mode of viewing the basic data characterizing the polling station of a given election commission (for example, the total number of voters, the number of members of the election commission, the working hours of the commission, etc.)

- view mode of all records of the election commission database;

- mode of selection of voter data records by gender (men and women),

- the mode of selection of voter data records for the age category of interest (youth, middle age, older generation, etc.),

- the mode of selection of voter data records by gender, taking into account the corresponding age category.

Consider the system when working in each of the listed modes.

A request type code from the output 31 of the register 22 of the module 1 through the information input 80 of the module 4 is fed to the input of the decoder 70.

Decoder 70 decodes the request type code, giving out one of its outputs high potential. For definiteness, we assume that the first mode sample code is received in register 22 and, therefore, the high potential is received at one input of element 72 I.

As a result, the And element 72 will be open at one input and, thereby, a signal transmission circuit will be prepared from the input 81 of the module 4 through the delay element 78 to the inputs of the 72-75 I.

Based on the signal from the output 15 of the system, the database server (not shown) goes to the subroutine for reading the contents of the database cell at the address indicated on output 14, issuing the database record to the information input 11 of the system and entering its attributes into module 8 with a synchronizing pulse received from server to input 13.

Thus, module 8 will contain all the attributes of a record read from the database.

In parallel with this, the synchronizing pulse from input 13 through the input 81 of module 4 passes to the input of element 78, where it is delayed by the time the recording attributes were entered into register 8, and then it goes to the inputs of elements 72-75 I.

Given that in this mode only one element 72 And will be opened at one input, the synchronizing pulse passes through the specified AND element to the output 82 of module 4 and then goes to the input 132 of module 9, where it passes through the element 121 OR to the output 16 of the system as a signal for issuing the first read data record from the output of the register 8 to the input 138 of the module 9. In parallel with the described process, the address code of the workstation of the user from which the request was sent, the output 35 of the register 26 of the module 1 is fed to the input of the module 6.

Module 6 decrypts the address code of the user's workstation and provides one of the outputs 143-145 with a high potential supplied to the corresponding input 135-137 of module 9, where the corresponding group of elements 122-124 I will be opened one input. Through the open AND elements of the corresponding group 122 -124 the code of the read record from the database from the output of module 8 through input 138 is issued through one of the information outputs of the system to the workstation of the user who sent the request.

If, however, another type of request is fixed in register 22 of module 1, in which the And element 73 is opened by the high potential of the decoder 70, then the synchronizing pulse from the output of the Delay element 78 passes through the And element 73, and then, firstly, it passes immediately through element 77 OR to the output 83 of module 4 and enters the counting input 59 of module 3 and then to the counting input of the counter 52, which captures the number of read records from the database.

The output of the counter 52 is connected to the input 151 of the comparator 53, comparing the total number of database entries recorded in the register 51 with the number of entries in the counter 52.

The comparator 53 compares the readings of the register 51 and the counter 52 by the synchronizing pulse passed by the element 76 OR module 4 and delayed by the element 79 during the operation of the counter 52, which from the output 84 of the module 4 goes to the input 58 of the module 3.

Since the readings of the counter 52 are currently less than the readings of the register 51, a pulse appears at the output of the comparator 53, which, through the input 141 of the module 5, enters the counting input of the counter, increasing the base address of the read cell by one.

In addition, the same pulse passes to the input 131 of module 9, passes the OR element 120 and the delay element 125, where it is delayed by the end of the summation of the data in the counter 80, and then again issued to the output 15 of the system as a control signal for reading the next database record at the address formed at the output 14 of the system.

Based on the signal from the output 15 of the system, the database server again switches to the subroutine for reading the contents of the database cell at the address indicated on output 14, issuing the database record to the information input 11 of the system and entering its attributes into module 8 with a synchronizing pulse from the server to input 13 .

This process of reading the database records of the selected election commission will continue until the readings of the counter 52 and the register 51 are equal to each other. In this case, the pulse will appear on the other output 154 of the comparator 53.

The specified pulse is supplied to the installation inputs of the respective modules, returning them to their original state.

As part of the request in the third mode, the selection parameters are additionally indicated by the type of sex (male or female), which is fixed in register 23 of module 1.

After reading all the attributes of the record from the server database and entering into module 8, the pulse from input 13 enters through the input 81 of module 4 and element 78, which delays the pulse while the recording code is entered into module 8, to the inputs of elements 72-75 I. It is open on the second input, the high potential of the decoder 70 in this case will be only element 73 I.

From the output of the And element 73, the impulse arrives, first, as in the previous mode, through the OR element 76 and the delay element 79 to the output 84 and then to the synchronizing input 104 of the comparator 91 of block 7, which compares the sign of the gender specified in the request and located in register 23 of block 1, with a sign of sex in the record located in register 8.

If the sex sign code in the register 23 of module 1 coincides with the sex sign code in module 8, then at the output 160 of the comparator 91 a pulse appears that goes to one of the inputs of elements 94 and 95 I. Only the 94 And element will be open at the other input, t. to. high potential is applied to the input of this element from the inverse output of the trigger 71 of module 4, which is in the initial state.

The pulse from the output 160 of the comparator 91 passes the element 94 AND, and the output 109 of the module 7 enters the input 133 of the module 9, where the element 121 passes OR, and the output 16 of the system is issued as a control signal for issuing data to the user's workstation.

If the floor codes did not match, then a signal appears at the output 161 of the comparator 91, which is received through the OR element 97 and the output 111 of the module 7 is supplied to the installation input of the module 8, resetting it to its original state and thereby preparing to receive the next record from Database.

At the same time, module 3 will receive a next read address on the signal from output 60 of comparator 53 and a control signal for reading the next record of the election commission database data will be issued to system output 15.

The fourth mode of operation of the system - the mode of selecting voters' data records for the age category of interest (youth, middle age, older generation, etc.) is different in that the age range is additionally indicated in the request for data sampling, the upper and lower boundaries of which are recorded in the registers 24 and 25 of module 1, respectively.

The code of the lower boundary of the age range from the output 33 of the register 24 of the module 1 is input to 101 of the module 7, the code of the upper boundary of the age range from the output 34 of the register 25 of the module 1 is fed to the input 102 of the module 7, and the code of the voter’s birth year from database records received in module 8.

After reading the record from the server database and entering all its attributes into module 8, the pulse from input 13 enters through input 81 of module 4 and element 78, which delays the pulse while the recording code is entered in module 8 to the inputs of elements 72-75 I. It is open on the second input, the high potential of the decoder 70 in this case will be only element 74 I.

From the output of the element 74 And the pulse comes, first, as in previous modes, through the element 77 OR to the output 83 and then to the counting input 59 of the module 3.

Secondly, the same pulse from the output 85 of module 4 goes to the input 105 of module 7, passes through the OR element 96, and goes to the synchronizing input of the comparator 92, which compares the code for the lower boundary of the age range with the birth code in the record located in module 8.

If the year of birth code in module 8 is less than the code for the lower boundary of the age range, then an impulse appears at the output 162 of the comparator 92, which passes through the OR element 97 to the installation output 111 of the module 7 and then goes to the installation input of the module 8 and resets it to its original state.

If the code of the year of birth in module 8 is equal to or more than the code of the lower boundary of the age range, then an output appears at the output 163 of the comparator 92, which is fed to the synchronizing input of the comparator 93, which compares the year of birth of the voter in the record of module 8 with the code of the upper boundary of the age range.

If the year of birth code in the record of module 8 is greater than the code for the upper boundary of the age range, then an output appears on the output 165 of the comparator 93, which passes through the OR element 97 and the output 111 of the module 7 to the installation input of the module 8 and resets it to its original state.

If the year code in the record of module 8 is less than or equal to the code of the upper boundary of the age range, then an output appears at the output 164 of the module 7, which passes through the output 110 of the module 7 to the input 134 of the module 9, then the OR element 121 passes and is issued to the output 16 system as a control signal for issuing the contents of module 8 to the workstation of the user who sent the request.

And finally, the fifth sampling mode is the mode of viewing voters' records by gender, taking into account the corresponding age category.

In this case, all the sample parameters are set in the request — gender code, lower code and upper age code of the age range, which from outputs 32, 33 and 34 of module 1 are sent to the corresponding inputs of module 7, and by the arrival of a pulse from input 13, it passes through input 81 module 4 and element 78, which holds the pulse for the time the recording code is entered in module 8, at the inputs of elements 72-75 I. Opened at the second input, the high potential of the decoder 70 is open in this case only element 75 I.

From the output of element 75 AND, the pulse arrives, firstly, as in previous modes, through element 77 OR to output 83 and then to the counting input of module 3.

Secondly, the same pulse is supplied to the direct input of the trigger 71 of module 6 and sets it to a single state, in which the output 87 of module 4 will have a low potential, and the output 86 will be high. Low potential from the output 87 of module 4 is fed to the input 106 of module 7, as a result of which the element 94 AND of module 7 is closed, and the element 95 And is opened by high potential coming through the input 107 of module 7.

Thirdly, the same pulse through the OR element 76 and the element 79, which holds the pulse for the duration of the trigger 71, from the output 84 of the module 4 is supplied to the synchronizing input 104 of the module 7, where the comparator 91 compares the sign of the gender specified in the request and located in the register 23, with the gender sign in the entry located in module 8.

If the sex sign code in the register 23 of module 1 coincides with the sex sign code in module 8, then at the output 160 of the comparator 91 an impulse appears that goes to one of the inputs of elements 94 and 95 I. But in this case, only element 15 will be open at the other input. And, because high potential is applied to the input of this element from the direct output of trigger 71 of module 4, which is in a single state.

The pulse from the output 160 of the comparator 91 passes the element 95 AND, then the element 96 OR, and is fed to the clock input of the comparator 92, comparing the code of the lower boundary of the age range with the code of the year of birth in the record located in module 8.

If the year of birth code in module 8 is equal to or greater than the lower boundary code in the register 24 of module 1, then an impulse appears at the output 163 of comparator 92, which is fed to the synchronizing input of comparator 93, which compares the year of birth in the record of module 8 with the upper age code of the age range.

If the year of birth code in the record of module 8 is less than or equal to the code of the upper boundary of the age range, then an output appears at the output 164 of the comparator 93, which passes through the output 110 of the module 7 to the input 134 of the module 9, passes through the element 121 OR to the output 16 of the system as a control signal for issuing the contents of module 8 to the input of the workstation of the user who sent the request.

If the code of the year of birth of the voter of the corresponding gender in the record of module 8 is outside the age range, then there will be no data output control signal at the system output 16, and signals from the outputs 162 or 165 of the comparators 92, 93 through the OR element 97 and the output 111 of the module 7 module 8 will be reset before receiving a new record from the database.

Thus, the introduction of new modules has significantly improved system performance by localizing the addresses of database records by the identifiers of the addresses of election commissions.

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)

An automated information-reference system of the "Everyday Activities" functional circuit of the state-owned automated system "Elections" containing a user request receiving module, the information and synchronizing inputs of which are the first information and synchronizing system inputs, while the information input of the user request receiving module is designed to receive request codes from workstations of users of the system, and the synchronizing input of the receiving module is requested The user is intended for receiving synchronization signals for entering user request codes into a user request receiving module, a server database record receiving module, the information and synchronizing inputs of which are the second information and synchronizing system inputs, while the information input of the server database record receiving module is intended for receiving database records from the information output of the system server, synchronizing the input of the module for receiving database server records means for receiving synchronizing signals for entering server database records into the server database records receiving module, and the information output of the server database records receiving module is connected to the information input of the data and control signals issuing module, a user identification module for the workstations, the address input of which is connected to the address the output of the module for receiving user requests, and the outputs of the module for identifying user jobs are connected to the corresponding control inputs of the data output module and control signals, the information outputs of which are the information outputs of the system, the database address modification module, the address output of which is the address output of the system, designed to provide data addresses to the address input of the database server, characterized in that it contains a base station identification module for election commissions in the database server data, the information input of which is connected to the first information output of the module for receiving user requests, synchronizing the input of the identifier module The base addresses of the election commissions in the server database are connected to the synchronizing output of the module for receiving user requests, and the information and synchronizing outputs of the identification module of the base addresses of the election commissions in the server database are connected to the corresponding information and synchronizing inputs of the database address modification module, while the synchronizing output the module for identifying base addresses of election commissions in the server database is connected to the first synchronizing input a module for issuing data and control signals, a module for discriminating request execution signals, the information input of which is connected to the information output of the module for identifying base addresses of election commissions in the server database, and the first synchronizing input for the module for discriminating signals for fulfilling requests is connected to the synchronizing output of the module for identifying base addresses of election commissions in the server database, while the signal output of the module for discriminating request execution signals is connected to the input of the database address modification module and to the second synchronizing input of the data and control signal output module, and the installation output of the query discrimination discrimination module is connected to the installation input of the database address modification module, the user request type identification module, the information input of which is connected to the second information the output of the module for receiving user requests, the synchronizing input of the module for identifying types of user requests is connected to the second synchronization system input, the first synchronizing output of the user request type identification module is connected to the third synchronizing input of the data and control signal output module, the second synchronizing output of the user request type identification module is connected to the counting input of the request execution signal discrimination module, the third synchronizing output of the user request type identification module connected to the second clock input of the module for discriminating query execution signals, and the mode For the selection of user request data, the first, second and third information inputs of which are connected to the third, fourth and fifth information outputs of the user request receiving module, respectively, the fourth information input of the user request data selection module is connected to the output of the server database record receiving module, the first synchronizing input the user request data selection module is connected to the third synchronizing output of the user request type identification module, the second the synchronization input of the user request data selection module is connected to the fourth synchronizing output of the user request type identification module, the first control input of the user request data selection module is connected to the first control output of the user request type identification module, the second control input of the user request data selection module is connected to the second control output module for identifying types of user requests, and the installation input is connected to the installation the output of the discrimination module for query execution signals, while the first output of the user query data selection module is connected to the fourth synchronizing input of the data and control signal output module, the second output of the user query data selection module is connected to the fifth synchronizing input of the data and control signal output module, and the third output the user query data selection module is connected to the installation output of the server database data receiving module.