RU77699U1 - AUTOMATED PLANNING AND ACCOUNTING SYSTEM FOR MATERIAL AND TECHNICAL RESOURCES OF THE FEDERAL COURTS OF GENERAL JURISDICTION AND THE JUDICIAL DEPARTMENT AT THE SUPREME COURT OF THE RUSSIAN FEDERATION - Google Patents

Abstract

The utility model relates to computer technology, in particular, to an automated planning and accounting system for material and technical resources of federal courts of general jurisdiction and the judicial department system under the Supreme Court of the Russian Federation. The technical result is to increase the speed of the system by localizing the addresses of reports-applications by material identifiers -technical resources of the judicial department. The technical result is achieved by the fact that the system contains a module for receiving reports appearances, a module for selecting the address of the file cabinet of objects in the server database, a module for identifying the address of the object number in the selected file cabinet, a module for modifying the address of records in the server database, a module for generating signals for writing and reading the server database, module for receiving records of the server database, module for addressing the materials of the object users, a module for receiving considered cases of objects, a module for selecting a reference address of a user database, a module for identifying a current address of a user database. 9 ill.

Description

The utility model relates to computer technology, in particular, to an automated planning and accounting system for material and technical resources of federal courts of general jurisdiction and the judicial department system under the Supreme Court of the Russian Federation.

An automated system for planning and accounting of material and technical resources is intended to automate planning and accounting for the provision of material and technical resources for the system of the Judicial Department and courts of general jurisdiction (including military courts), as well as creating an integrated database of data from regions that characterize objects -technical accounting.

The system should be deployed on complexes of automation equipment (KSA) in the following government bodies:

- The Supreme Court of the Russian Federation;

- supreme courts of the republics;

- regional courts;

- regional courts;

- courts of cities of federal significance;

- courts of autonomous regions;

- courts of autonomous okrugs;

- district courts;

- magistrates' courts;

- district (naval) military courts;

- garrison military courts;

- The Judicial Department at the Supreme Court of the Russian Federation;

- Office (s) of the Judicial Department under the Supreme Court of the Russian Federation in the constituent entities of the Russian Federation (including representative offices of the Judicial Department under the Supreme Court of the Russian Federation in federal districts).

An automated system for planning and accounting of material and technical resources provides automation of the following functions:

- Creation of report applications;

- editing report applications;

- printing of report applications;

- Creation of applications for additional logistics;

- Editing applications for additional logistics;

- printing of applications for additional material and technical support;

- export of an information package containing completed forms of documents.

When creating or editing documents, the correctness of filling in the document fields is carried out. If there are incorrectly filled fields, it is proposed to correct the input data. Erroneously completed documents are not entered into the system document storage.

The document status in the system changes depending on the operations performed with it:

“New” - is set when a document is created or when it is received on the system server;

“Revision” - is established if necessary by the applicant to amend the document;

“Sighting” - is established if the document has been submitted for sighting;

“Endorsed” - is established by a document that has successfully passed the stage of sighting;

“Rejected” - is established in case of refusal of sight;

“In operation” - is established in case of cancellation of the operation;

“Accepted” - established by the approved coordinated document.

The system provides work with structured and unstructured documents.

Structured documents - documents created on the basis of approved forms. When creating a structured document, some of the form fields are filled in automatically, part - using classifiers and directories, and part - manually. When entering data, the correctness of filling in the fields of the document form is controlled.

Unstructured documents - documents created using standard editors, or graphic images of documents obtained as a result of scanning. When registering unstructured documents, it is necessary to fill out the registration card of the document, which is also a standard form of the system.

At each level of the system, except for the first one (level of justices of the peace, district and city courts, garrison military courts), there is its own dedicated server, the remote clients of which are all users subordinate to this level (for example, justices of the peace, district and city courts, garrison military courts), and the local client is the owner of the server itself (for example, the management (department) of the Judicial Department under the Supreme Court of the Russian Federation in the subject of the Russian Federation (DCU).

At the same time, the DRC is also a remote client of a server of a higher level, namely, the SD server under the RF Armed Forces (the Main

Financial and Economic Department of the Judicial Department (HFES CD)).

The system architecture is shown in FIG.

Known technical solutions 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 query procedure is implemented through the search for records throughout the database and their

subsequent processing by the central processor, which with large amounts of database data inevitably leads to unjustified waste of time.

The purpose of the invention is to increase the speed of the system by localizing the addresses of reports of requests by identifiers of objects of material and technical resources.

This goal is achieved by the fact that in a known system containing a module for receiving reports of requests, the first and second information inputs of which are the first and second information inputs of the system, the first and second synchronizing inputs of the module for receiving reports and requests are the first and second synchronizing inputs of the system, and the first information output of the module for receiving reports and requests is the first information output of the system, the module for generating signals for writing and reading the server database, the information output which is the address output of the system, and the first and second synchronizing outputs are the first and second synchronizing outputs of the system, the server database record receiving module, the information and synchronizing inputs of which are the third information and synchronizing system inputs, the user addressing module, whose first information input is connected with the corresponding output of the module for receiving reports-requests, another information input of the module for addressing cases to users is connected to the output of the mode I receive records database server, a sync input module addressing cases users connected to a third clock input

systems, and the outputs of the module for addressing cases to users are the information outputs of the group system, the module for receiving cases under consideration, the information and synchronizing inputs of which are the fourth information and synchronizing inputs of the system, and one information output for the module for receiving cases of objects is the second information output of the system, characterized in that the system contains a module for selecting the address of the card index of objects in the server database, the information input of which is connected to the information output of the module for receiving reports and requests, and the synchronizing input of the module for selecting the address of the file cabinet of objects in the server database is connected to the synchronizing output of the module for receiving requests and reports, the module for identifying the address of the case number in the selected file cabinet, the information input of which is connected to the third information output of the receiving module requests-reports, and the synchronizing input of the identification module of the address of the case number in the selected file cabinet is connected to the synchronizing output of the request-report receiving unit , a module for modifying the address of records in the database of the server, the information inputs of which are connected to the information outputs of the modules for selecting addresses of the card index of objects in the server database and identifying the address of the case number in the selected card file, the synchronizing input of the module for modifying the addresses of records of the database of the server is connected to the synchronizing output of the block for selecting the address file cabinets in the server database, and the output of the module for modifying the address of the server database records is connected to one

the information input of the module for generating signals for writing and reading the database of the server, one synchronizing input of which is connected to the synchronizing output for the module for identifying the address of the case number in the selected card file, and the control inputs of the module for generating signals for writing and reading the database of the server are connected to the corresponding control outputs of the module for receiving reports queries, a module for selecting the reference address of the user database, the information input of which is connected to another information output of the module receiving the objects under consideration, and the synchronizing input is connected to the fourth synchronizing input of the system, and the module, the information input of which is connected to the information output of the selection module of the reference address of the user database, and the synchronizing input of the identification module of the current address of the user database is connected to the synchronizing output of the reference selection block user database addresses, while the information output of the identification module of the current user database address is connected to one of the synchronizing outputs of the module for generating signals for writing and reading the server database, and the other synchronizing output of the modules for generating signals for the database of the user database is the other third synchronizing system output.

The invention is illustrated by drawings, where Fig. 1 is a structural diagram of a system, Fig. 2 is a structural diagram of a module for receiving reports and applications, Fig. 3 is a structural diagram of a module for selecting an address of a card file of objects in a server database, and Fig. 4 is a Fig. 5 is a structural diagram of a module for generating signals for writing and reading a database of a server, Fig. 6 is a structural diagram of a module for addressing cases to users, and Fig. 7 is a block diagram of a selection module reference database user address, in Figure 8 - schematic diagram of the current user identification module database address 9 - shows a system architecture.

The system (Fig. 1) comprises a module 1 for receiving reports and applications, a module 2 for selecting an address of an object file cabinet in a server database, a module 3 for identifying an object number address in a selected file cabinet, a server database record address modification module 4, a recording signal generation module 5, and readings of the server database, module 6 for receiving records of the server database, module 7 for addressing the materials of the object to users, module 8 for receiving the considered cases of objects, module 9 for selecting the reference address of the user database, module 10 for identification Live database user addresses.

Figure 1 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 the first 20 and second 21 information outputs of the system,

group 22-24 information outputs of the system, address output 25 of the system first 26, second 27 and third 28 synchronizing outputs of the system.

Module 1 (FIG. 2) contains register 40, trigger 41, groups 42-43 of AND elements, element 44 OR, group 45 of OR elements, delay elements 46-48. The drawing shows information 11, 12 and synchronizing 15, 16 inputs, as well as information 29-32 and synchronizing 33-35 outputs.

Module 2 (figure 3) contains a decoder 50, a memory unit 51, made in the form of a permanent storage device, a register 52, elements 53-55 And, elements 56-57 delay. The drawing shows information 58 and clock 59 inputs, as well as information 60 and clock 61 outputs.

Module 3 (figure 4) contains a decoder 64, a memory unit 65, made in the form of a permanent storage device, a register 66, elements 67-69 And, elements 70-72 delay. The drawing shows information 73 and synchronizing 74 inputs, as well as information 75 and synchronizing 76 outputs.

Module 4 (figure 1) is made in the form of an adder having information and synchronizing inputs, as well as an information output.

Module 5 (FIG. 5) contains a register 80, AND elements 81, 82, an OR element group 83, an OR element 84, a delay element 85.

The drawing shows information 86, 87,

synchronizing 88, 89 and controlling 90, 91 inputs, as well as information 25 and synchronizing 26, 27 outputs.

Module 6 (figure 1) is made in the form of a register having information 13 and synchronizing 17 inputs, as well as information output.

Module 7 (FIG. 6) contains a decoder 95, groups 96-98 of AND elements, delay element 99. The drawing shows the information 100, 101 and synchronizing 102 inputs, as well as outputs 22-24.

Module 8 (figure 1) is made in the form of a register having information 14 and synchronizing 18 inputs, as well as outputs 36, 37.

Module 9 (Fig. 7) contains a decoder 105, a memory unit 106, made in the form of read-only memory, a register 107, elements 108-110 And, elements 111-113 delay. In the drawing, synchronizing 114 and information 115 inputs, as well as information 116 and synchronizing 117 outputs.

Module 10 (Fig. 8) contains a counter 120, an adder 121, delay elements 122-123. The drawing shows information 124 and synchronizing 125 inputs, as well as information 126 and synchronizing 127, 128 outputs.

All the workstations included in the system are integrated into a computer network and work with a common database (not shown in the drawing). For each user, the database administrator sets a password to enter the system, which determines the available information and functions.

The request report from the output of the user's workstation arrives at the system information input 11, and the synchronization signal for transmitting the request report arrives at the system input 16.

The structure of the generated movie will be as follows:

THE CODE THE CODE THE CODE CONTENTS OF REQUEST REPORT REQUEST REPORT NUMBER ADDRESS OF THE RECIPIENT

From the input 11 of the system, the codogram is fed to one input of the group of elements 42 AND module 1, the other inputs of which are connected to the direct output of the trigger 41. In parallel, the synchronizing pulse from the input 16 of the system goes to the single input of the trigger 41 and sets it to a single state, when which high potential from the direct output of the trigger 41 opens the elements And on one input.

The code of the report request from the input 11 of the system through the elements 42 AND groups and elements 45 OR is supplied to the information input of the register 40, and the synchronizing pulse from the input 16 of the system after the delay by the element 46 for the duration of the trigger 41 passes through the element 44 OR and goes to the synchronizing input of the register 40, entering into it the received code of the report-request.

As a result of this, the code of the entire codogram will be issued to the output 29 of module 1, which from the output of the system 20 will go to the information input of the database server, to the output 30 of the module 1 will be given the code of the selected card index of the objects, and the code of the case number will be issued to the output 31 to this object.

The code of the selected file of cases comes from the output 30 of module 1 and enters the information input 58 of module 2, to the synchronizing input 59 of which there is a synchronizing pulse from the output of element 44 AND of module 1, delayed by element 48 while the codogram is entered into register 40, and then fed to the output 33 modules 1.

From the input 58 of module 2, the code of the selected case file is fed to the input of the decoder 50, which decrypts the incoming code and opens one input of one of the elements 53-55 I.

At the same time, the synchronizing pulse from the input 59 of module 2, passing through the corresponding element 53-55 And, firstly, is fed to the read input of a fixed memory cell of the permanent storage device 51, which stores the reference address of the server memory area allocated to the selected file cabinet of cases.

The specified address is read from the ROM 51 to the information input of the register 52. At the same time, the pulse of reading data from the input 59 of the module 2 is delayed by the element 56 for the time of reading data from the ROM 51, and arrives at the synchronizing input of the register 52, fixing the corresponding address code in it.

In parallel with this process, the case number code from the output 31 of the module 1 is fed to the information input 73 of the module 3, to the synchronizing input 74 of which the same synchronizing pulse from the output of the module 33 is received !.

From the input 73 of module 3, the code of the selected case file is fed to the input of the decoder 73, which decrypts the incoming code and opens one input of one of the elements 67-69 I.

At the same time, the synchronizing pulse from the input 59 of module 3, passing through the corresponding element 67-69 And, firstly, is fed to the read input of a fixed memory cell of a permanent storage device 65, which stores the relative address of the case number in the database.

The specified address is read from the ROM 65 to the information input of the register 66. At the same time, the pulse of reading data from the input 74 of the module 3 is delayed by the element 70 for the time of reading data from the ROM 65, and arrives at the synchronizing input of the register 66, fixing the address code in it.

As a result, the code of the reference address of the selected file cabinet from the output 60 of module 2 is supplied to one information input of the module 4, and the code of the relative address of the case number from the output 75 of module 3 is fed to another information input of the module 4, in which it is generated by the synchronizing signal from the output 61 of module 2 a modified case address in the selected database file cabinet, which is received at input 86 of module 5.

At the same time, the synchronizing pulse from the output of the element 70 of module 3 is first delayed by the element 71 for the time the code is entered in the register 66 of the module 3, then it is delayed by the element 72 for the time the module 4 operates and from the output 76 of the module 3 it goes to the synchronizing input 88 of the module 5.

The modified case address from the input 86 of module 5 passes the elements 83 of the OR group and enters the information input of the register 80, and the synchronizing pulse from the input 88 of the module 5 passes the element 84 OR and arrives at the synchronization input of the register 80, entering the address of the case code record in the register 80, from the output of which the generated case address is sent to the address input 25 of the system.

In parallel with this, the same clock pulse from the input 88 of module 5 is delayed by the element 85 for the duration of the operation of the register 80, and is supplied to the inputs of the elements 81, 82 I. However, it will only be open with high potential coming from the output 34 of the module 1 through the input 90 of the module 5 element 81 AND, therefore, the synchronizing pulse from the output of element 81 AND through the output 26 of the system is fed to the input of the first channel for interrupting the database server.

By this signal, the server switches to the routine for recording the case codogram from the system output 20 at the specified address. This completes the procedure for receiving and registering query reports.

In the same way, all incoming request-reports are entered into the system database.

In accordance with the rules of work of the material and technical resources department of the judicial department, the received request reports should be distributed among the relevant departments of the material and technical resources department.

To this end, at the appropriate workstation, the person in charge of the management of material and technical resources calls the affairs from the database of the system, appoints responsible executives and sends them the corresponding report requests.

To call the corresponding request report from the database on the workstation of the responsible person, a request codogram of the following form is formed:

THE CODE THE CODE THE CODE TYPE OF THE SELECTED CARD OF MATTERS of the database of material and technical resources Case number of the inventory database object Recipient Address

The code of this codogram is fed to the information input 12 of the system, and the synchronizing pulse to the input 16 of the system.

From the input 12 of the system, the request code arrives at one input of the group of elements 43 AND of module 1, the other inputs of which are connected to the inverse output of the trigger 41, which is in the initial state, in which the high potential from the inverse output of the trigger 41 opens the elements 43 AND on the other input.

The request code from the input 12 of the system through the elements 43 AND groups and elements 45 OR is supplied to the information input of the register 40, and the synchronizing pulse from the input 15 of the system passes through the element 44 OR and goes to the synchronizing input of the register 40, entering the request code into it.

As a result of this, the code 30 of the selected file of cases will be issued to the output 30 of module 1, the code of the case number will be issued to output 31, and the address code of the workstation ARM of the executor to whom the case is transferred will be output 32.

The code of the selected file of cases comes from the output 30 of module 1 and goes to the information input 58 of module 2, to the synchronizing input 59 of which there is a synchronizing pulse from the output of element 44 AND of module 1, delayed by element 48 for the time the codogram is entered in register 40, and then fed to the output 33 modules 1.

From the input 58 of module 2, the code of the selected case file is fed to the input of the decoder 50, which decrypts the incoming code and opens one input of one of the elements 53-55 I.

At the same time, the synchronizing pulse from the input 59 of module 2, passing through the corresponding element 53-55 And, firstly, is fed to the read input of a fixed memory cell of the permanent storage device 51, which stores the reference address of the server memory area allocated to the selected file cabinet of cases.

The specified address is read from the ROM 51 to the information input of the register 52. At the same time, the pulse of reading data from the input 59 of the module 2 is delayed by the element 56 for the time of reading data from the ROM 51, and arrives at the synchronizing input of the register 52, fixing the corresponding address code in it. In parallel with this process, the case number code from the output 31 of module 1 is fed to the information input 73 of module 3, to the synchronizing input 74 of which the same synchronizing pulse is received from the output 33 of module 1.

From the input 73 of module 3, the code of the selected case file is fed to the input of the decoder 73, which decrypts the incoming code and opens one input of one of the elements 67-69 I.

At the same time, the synchronizing pulse from the input 59 of module 3, passing through the corresponding element 67-69 And, firstly, is fed to the read input of a fixed memory cell of a permanent storage device 65, which stores the relative address of the case number in the database.

The specified address is read from the ROM 65 to the information input of the register 66. At the same time, the pulse of reading data from the input 74 of the module 3 is delayed by the element 70 for the time of reading data from the ROM 65, and arrives at the synchronizing input of the register 66, fixing the address code in it.

As a result, the code of the reference address of the selected file of objects from the output 60 of module 2 is supplied to one information input of module 4, and the code of the relative address of the case number of the object from output 75 of module 3 is sent to another information input of module 4, in which, according to the synchronization signal from the output of module 61 2, a modified case address is formed in the selected database file cabinet, which is fed to input 86 of module 5.

At the same time, the synchronizing pulse from the output of the element 70 of module 3 is first delayed by the element 71 for the time the code is entered in the register 66 of the module 3, then it is delayed by the element 72 for the time the module 4 operates and from the output 76 of the module 3 it goes to the synchronizing input 88 of the module 5.

The modified case address of the object from the input 86 of module 5 passes the elements 83 of the OR group and enters the information input of the register 80, and the synchronizing pulse from the input 88 of the module 5 passes the element 84 OR and arrives at the synchronization input of the register 80, entering the address of the case code record in the register 80 , from the output of which the generated business address of the object goes to the address input 25 of the system.

In parallel with this, the same clock pulse from the input 88 of module 5 is delayed by the element 85 for the duration of the operation of the register 80, and is fed to the inputs of the elements 81, 82 I. However, it will be open with high potential coming from the output 35 of the module 1 through the input 91 of the module 5 only element 82 AND, therefore, the synchronizing pulse from the output of element 82 AND through the output 27 of the system is fed to the input of the second channel of the database server interrupt.

By this signal, the database server goes to the subroutine for reading the codogram of the case file at the specified address and issuing its contents to the information input 13 of the system and entering it into module 6 with a synchronizing pulse from the server to input 17.

From the output of module 6, the code of the codogram of the case of the object read from the database, through the input 101 of module 7, goes to one information inputs of elements 96-98 AND groups, the other inputs of which are controlled by the output potentials of the decoder 95, which decrypts the address code of the workstation ARM and opens the corresponding group elements I.

At the same time, the synchronizing pulse from the input 17 of the system through the input 102 of module 7 is delayed by element 99 while the read code of the case code is entered into module 6, and then it goes to the inputs of groups of elements 96-98 I. As a result, the case codogram through the corresponding group of elements 96-98 And, and the corresponding output 22-24 will be issued to the workstation of the contractor who received the case management for this report-request.

In the process of carrying out the relevant procedures for the specified object, the codogram of the object’s case with the work results from the output of the executor’s workstation through the information input 14 of the system is fed to the input of block 8, where it is entered the synchronizing pulse of the transmission of the codogram of the case from the input 18 of the system.

The contents of the entire codogram from the output 37 of module 8 is output to the information output 21 of the system, and the code of the case number from the output 36 of module 8 is fed to the input 115 of the module 9, to the synchronizing input 114 of which the same synchronizing pulse is received from the input 18 of the system.

From the input 115 of block 9, the code of the case code goes to the input of the decoder 105, which decrypts the incoming code and opens one input of one of the elements 108-110 I.

At the same time, the synchronizing pulse from the input 114 of module 9 is delayed by element 111 for the duration of entering the case code into module 8 and, passing through the corresponding element 108-110 And, is fed to the read input of a fixed memory cell of permanent storage device 106, in which the address of the zone is stored memory in the database allocated for the affairs of objects in the records management of this artist.

This address is read from the ROM 106 to the information input of the register 107. At the same time, the pulse of reading data from the output of the element 111 is delayed by the element 112 for the time of reading data from the ROM 106, and arrives at the synchronizing input of the register 107, fixing the address code in it, which the output 116 of block 9 is fed to the input 124 of the module 10 and then to the input of the adder 121, the other input of which receives the readings of the counter 120, which is in the initial state.

Therefore, with the arrival of a pulse from the output of element 112, delayed by element 113 for the time the address code was entered in register 107, and coming from output 117 of module 9 to input 125 of module 10 and passing to the synchronizing input of adder 121, adder 121 adds a zero code to the received address code the counter and the generated address code from the output 126 of the module 10 is fed to the input 87 of the module 5.

The input address of the case from the input 87 of module 5 passes the elements 83 of the OR group and enters the information input of the register 80, and the synchronizing pulse from the input 89 of the module 5 passes the element 84 OR and arrives at the synchronization input of the register 80, entering the address of the codogram record of the case into the register 80, from the output of which the generated case address is sent to the address input 25 of the system.

At the same time, the synchronizing pulse from the input 125 of the module 10 is delayed by the element 122 for the duration of the operation of the adder 121, and is fed both to the input of the counter 120, increasing its readings and preparing an increase in the next recording address, and through the output 127 of the module 10 is fed to the input 89 of the module 5, from where this clock pulse passes through the OR element 84 and enters the clock input of the register 80, entering the address code into it.

In addition, the same clock pulse from the output of element 122 is delayed by element 123 while the code is entered in the register 80 of module 5, and then from the output 128 of module 10, through the output 28 of the system, it enters the input of the third channel of the database server interrupt.

By this signal, the database server switches to the routine for recording the case codogram at the specified address at address 25 of the system output.

After completing work with the request report, the object’s case codogram with the results of work completion from the workstation’s workstation output is sent to the system information input 11, and the codogram transmission clock signal is fed to the system input 15 and starts the process of documenting the object’s case materials according to the corresponding request report in the manner described above .

Thus, the introduction of new nodes and blocks made it possible to significantly increase the speed of the system by localizing the addresses of the file cabinets of cases of database objects of material and technical resources by the user identifier allowed to work with the specified file cabinet as the object of material and technical resources of the judicial department ..

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 planning and accounting system for material and technical resources of federal courts of general jurisdiction and the judicial department system under the Supreme Court of the Russian Federation, containing a module for receiving reports and requests, the first and second information inputs of which are the first and second information inputs of the system, the first and second synchronizing inputs of the module receiving reports-queries are the first and second synchronizing inputs of the system, and the first information output of the module for receiving reports-queries is the first information output of the system, a module for generating signals to write and read the database of the server, the information output of which is the address output of the system, and the first and second synchronizing outputs are the first and second synchronizing outputs of the system, the module for receiving records of the server database, the information and synchronizing inputs of which are the third information and synchronizing inputs of the system, the module for addressing cases to users, the first information input of which is connected to the corresponding the output of the module for receiving reports and requests, another information input of the module for addressing cases to users is connected to the output of the module for receiving records of the server database, the synchronizing input of the module for addressing users is connected to the third synchronizing input of the system, and the outputs of the module for addressing cases to users are information outputs of the group system, a module for receiving considered cases of objects, the information and synchronizing inputs of which are the fourth information and synchronizing inputs of the system we, and one information output of the module for receiving the considered cases of objects, is the second information output of the system, characterized in that the system contains a module for selecting the address of the file of objects in the server database, the information input of which is connected to the second information output of the module for receiving reports and requests, and the synchronizing input the module for selecting the address of the card index of objects in the server database is connected to the synchronizing output of the module for receiving requests-reports, the module for identifying the address of the case number in the selected the first file cabinet, the information input of which is connected to the third information output of the report-request receiving module, and the synchronizing input of the case number address identification module in the selected file cabinet is connected to the synchronizing output of the request-report receiving block, the server database record address modification module, the information inputs of which are connected with information outputs of the modules for selecting the address of the file cabinet of objects in the server database and identifying the address of the case number in the selected file cabinet, synchronizing input q the module for modifying the address of the records of the server database database is connected to the synchronizing output of the selection block of the card file address in the server database, and the output of the module for modifying the address of the records of the server database is connected to one information input of the module for generating the signals for writing and reading the server database, one synchronizing input of which is connected to the synchronizing output of the identification module of the address of the case number in the selected file cabinet, and the control inputs of the module for generating signals for writing and reading the database the server is connected to the corresponding control outputs of the module for receiving reports-queries, a module for selecting a reference address of the user database, the information input of which is connected to another information output of the module for receiving the considered cases of objects, and the synchronizing input is connected to the fourth synchronizing input of the system, and the module, the information input of which connected to the information output of the selection module of the reference address of the user database, and the synchronizing input of the identification module of the current address the user database is connected to the synchronizing output of the selection block of the reference address of the user database, while the information output of the identification module of the current address of the user database is connected to another information input of the module for generating signals for writing and reading the server database, one synchronizing output of the identification module of the current database address the user is connected to the second clock input of the module for generating signals for writing and reading the server database, and another synchronizing the output of the current user identification module address database is the third timing output system.