RU51246U1 - AUTOMATED SYSTEM OF COLLECTION AND PROCESSING OF DATA OF JUDICIAL CASE MANAGEMENT "JUSTICE" - Google Patents

Abstract

The invention relates to computer technology, in particular, to an automated system for collecting and processing data from court proceedings “Justice”. The technical result is to increase the speed of the system by localizing the addresses of the requested data of criminal cases either by identifiers of the court considering the criminal case and case numbers, or by identifiers of the surname, name, patronymic of the personality of convicted citizens. The technical result is achieved by the fact that the system contains a module for receiving data from geographically distributed vessels, a module for selecting a court reference address in a server database, a module for selecting a current case address in a server database, a module for receiving calls to a database, a module for selecting a data search direction, identification module of the case address in the server database, module for identifying the base address of the surname, name, patronymic of the convicted person, module for identifying data records, module for receiving database server records a, a module for switching data output channels, a module for issuing control signals.

Description

The utility model relates to the field of computer technology, in particular, to the automated system of collecting and processing data of judicial record-keeping “Justice”. The judicial reform in the country, considering the judiciary as the most important tool for democratizing society and protecting the rights and interests of citizens, sets the task of radically improving the quality of the work of courts at all levels.

Experience shows that the introduction of information technology in the procedural sphere of the judicial system of the Russian Federation is fraught with a number of difficulties:

- means of informatization in the courts are disparate complexes that provide solutions to individual institutional problems;

- there is no single legal framework governing the processes of informatization and emerging relations in the information sphere;

- low level of user qualifications (lack of special knowledge, experience and poor preparedness for the introduction of new technologies);

- the need to organize the implementation of complex software systems in several dozen vessels scattered throughout the region, ensuring their support, etc.

An analysis of the current situation in the field of informatization of court records shows that the solution of these problems on the approaches of decentralized formation and ensuring deployable information processes only through targeted financing of the referral will not be able to ensure the fulfillment of the whole complex of measures defined by the Judicial System Development Program for 2002-2006 and the Program for the Creation of State Automated System (GAS) of the Russian Federation "Justice".

The automated justice data collection and processing system “Justice” is a geographically distributed automated information system designed to create a single information space for courts of general jurisdiction and the Judicial Department system under the Supreme Court of the Russian Federation (SD), providing information and technological support for legal proceedings on the principles of maintaining the required balance between the need of citizens, society and the state for free exchange e information and the necessary restrictions on the dissemination of information.

The peculiarity of the system under consideration is that the creation of a single information space for all types of civil and military courts requires the creation of a single information database that would include all criminal cases that have been considered and are being considered in courts of various jurisdictions. At

This updating of such a database of criminal cases should be carried out in real time and access to it within the framework of the approved powers should be available not only to the Supreme Court of the Russian Federation, but also courts of general jurisdiction.

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

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

A significant drawback of this system is the impossibility of solving the problem of updating data stored in memory in the form of relevant documents at the same time as solving the problem of delivering the contents of these documents to users in real time.

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

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

Its disadvantage lies in the low speed of the system, due to the fact that the execution of the requests for the submission of criminal cases is carried out through their search in the entire database and their subsequent processing by the central processor, which with large amounts of data from the system’s database will inevitably lead to a large investment of time.

The purpose of the invention is to increase the speed of the system by localizing the addresses of the requested data of criminal cases, either by the identifiers of the court considering the criminal case and the case number, or by the identifiers of the surname, name, patronymic of the defendants.

This goal is achieved by the fact that in a known system containing a module for receiving data from geographically distributed vessels, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, and the first output is the information output of the system, the module for receiving calls to the server database, information and the synchronizing inputs of which are the second information and synchronizing inputs of the system, and the first output is connected to the address input of the channel switching module data output, the information outputs of the group of which are the information outputs of the system group, 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, and the output is connected to the information input of the switching module of the data output channels, the module for issuing control signals whose information output is the address output of the system, and the first and second clock outputs are the first and second clock outputs of the system, a module for selecting the reference address of the vessel in the server database was introduced, the information input of which is connected to the second output of the unit for receiving data from geographically distributed objects, and the synchronizing input is connected to the first synchronizing input of the system, the module for selecting the current address of the case number in the server database , one information input of which is connected to the third output of the unit for receiving data from geographically distributed vessels, another information input is connected to the output of the support selection module of court addresses in the database

server data, and the synchronizing input is connected to the first synchronizing input of the system, while the information output of the selection module of the current case number address in the server database is connected to the first information input of the control signal issuing module, and the synchronizing output of the selection module of the current case number address in the server database connected to the first synchronizing input of the module for issuing control signals, a module for selecting the direction of the data search, the information input of which is connected to the second output of the bl In order to receive calls to the server database, one synchronizing input is connected to the second synchronizing input of the system, and the other is connected to the third synchronizing input of the system, a case address identification module in the server database, the information inputs of which are connected to the third and fourth outputs of the database receiving block server data, respectively, and the synchronizing input is connected to the first output of the module for selecting the direction of data search, while the information output of the case address identification module in the database server data is connected to the second information input of the control signal issuing module, and the synchronizing output of the case address identification module in the server database is connected to the second synchronizing input of the control signal issuing module, the identification module of the base address of the last name, first name, middle name of the convicted person, whose information input is connected to the fourth output of the unit for receiving calls to the server database, and the synchronizing input is connected to the second output of the module for selecting the direction of data search, This identification information output module base address surname, first name, middle individual convict connected to a third data input module issuing control signals, and a module clock output identifying the base address of surname, name, middle name of the person connected to the third convict

the synchronizing input of the module for issuing control signals, and the database record identification module, the information inputs of which are connected to the fourth output of the server database call receiving unit and the server database record receiving unit output, respectively, and the synchronizing input is connected to the third output of the search direction selection module data, while one output of the database record identification module is connected to the counting input of the base address identification module of the surname, name, middle name of a person and with the fourth clock input of the control signal issuing module, the other output of the database record identification module is connected to the installation input of the control signal issuing module and to one clock input of the data channel switching module, the other clock input of which is connected to the fourth clock output of the search direction selection module data.

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 selecting a reference address of a court in a server database, Fig. 3 is a structural diagram of a module for selecting a current address of a case in a server database, Fig. 4 is a structural diagram of a module for selecting a direction for searching data; Fig. 5 is a structural diagram of a module for identifying a case address in a server database; Fig. 6 is a structural diagram of a module for identifying a base address of a surname, name, patronymic of a convicted person; 7 - a structural diagram of a module for switching channels for outputting data, Fig. 8 is a structural diagram of a module for issuing control signals.

The system (Fig. 1) contains a module 1 for receiving data from geographically distributed vessels, a module 2 for selecting a reference address of a vessel in a server database, a module 3 for selecting a current case address in a server database, a module 4 for receiving calls to a database, a selection module 5 data search directions, module 6

identification of the case address in the server database, module 7 for identifying the base address of the convict’s last name, first name, middle name, module 8 for identifying data records, module 9 for receiving server database records, module 10 for switching data output channels, module 11 for issuing control signals.

Figure 1 also shows the first 12, second 13 and third 14 information inputs of the system, the first 15, second 16 and third 17 synchronizing inputs of the system, as well as information 20 and address 21 outputs of the system, the first 22 and second 23 synchronizing outputs of the system, and also information 24-26 system group outputs.

Module 1 (figure 1) is made in the form of a register having information 12 and synchronizing 15 inputs. The drawing also shows the first 27, second 28 and third 29 outputs of the register.

Module 2 (figure 2) contains a memory unit 30 made in the form of read-only memory, a decoder 31, a register 32, elements 33-35 AND, elements 36-38 delay. The drawing shows information 38 and synchronizing 39 inputs, as well as information 40 output.

Module 3 (Fig. 3) contains a memory unit 42 made in the form of read-only memory, a decoder 43, a register 44, an adder 45, AND elements 46-48, delay elements 49-52. The drawing shows information 53, 54 and synchronizing 55 inputs, as well as information 56 and synchronizing 57 outputs.

Module 4 (figure 1) is made in the form of a register having information 13 and synchronizing 16 inputs. The drawing also shows 31-34 register outputs.

Module 5 (figure 4) contains a decoder 60, elements 61-64 AND, elements 65, 66 delay The drawing shows information 67 and synchronizing 68.69 inputs, as well as outputs 70-73.

Module 6 (Fig. 5) contains memory nodes 75 and 76, made in the form of read-only memory, decoders 77, 78, registers 79, 80, adder 81, elements 82-87, delay elements 88-90. The drawing also shows information 92, 93 and synchronizing 94 inputs, as well as information 95 and synchronizing 96 output.

Module 7 (Fig.6) contains a memory node 100, made in the form of read-only memory, a decoder 101, a counter 102, elements 103-105 And, elements 106-107 delay. The drawing also shows information 108, synchronizing 109 and counting 110 inputs, as well as information 111 and synchronizing 112 outputs.

Module 8 (Fig. 1) is made in the form of a comparator having information inputs 113 and 114 and synchronizing inputs 115, as well as outputs 116 and 117.

Module 9 (Fig. 1) is made in the form of a register having information 14 and synchronizing 17 inputs, and an output connected to input 114 of module 8 and to input 126 of module 10.

Module 10 (Fig.7) contains a decoder 120, a group of elements 121-123 AND, element 124 OR. The drawing shows information 125 and 126, and synchronizing 127, 128 inputs, as well as information 24-26 outputs of the system group.

Module 11 (Fig. 8) contains triggers 130-132, elements 133-135 AND groups, elements 136 OR groups, elements 137, 138 OR, elements 139-143 delays. The drawing also shows information 145-147, synchronizing 148-151 and installation 152 inputs, as well as information 21 and synchronizing 22, 23 outputs.

All nodes and elements of the system are made on standard potential-impulse elements. To simplify the drawing, the chains of the initial installation of nodes and blocks are not shown.

The system operates as follows.

The list of information sources of the automated information system "Justice" is given in table 1.

Table 1

NAME OF VESSELS NUMBER OF OBJECTS Supreme Court of the Russian Federation one Supreme Courts of the Republics 21 Regional Courts b Regional Courts 49 Courts of cities of federal significance 2 Autonomous Region Court one Autonomous Okrug Courts 10 District Courts 2476 district (naval) military courts 13 garrison military courts 138 Judicial Department at the Supreme Court of the Russian Federation one General Directorate for the Support of Military Courts one Departments 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) 80 Departments of the Judicial Department under the Supreme Court of the Russian Federation in the constituent entities of the Russian Federation 9

Upon receipt of a criminal case by the appropriate court, each of the objects of the automated information system "Justice" generates and sends to the unified information base of the system a codogram having the following structure:

the code THE CODE THE CODE THE CODE Court ID Identifier (number) of the case Full Name Case summary   and other attributes documentary data defendant's including article criminal Code of which is classified the crime

The codogram of the recording file from the input 12 of the system enters the information input of module 1, where it is entered by the synchronizing pulse from the input 15 of the system.

From the output 27 of module 1, the entire codogram of the input file is sent to the output 20 of the system. In this case, the code combination corresponding to the identifier of the court considering the case, from the output 28 of module 1 goes to the information input 38 of module 2, and the code combination of the case number from the output 29 of block 1 goes to the information input 53 of module 3.

From the input 38 of module 2, the code of the vessel identifier is fed to the input of the decoder 31, which decodes the code combination and prepares the signal path from input 39, opening one of the elements 33-35 I. For definiteness, we assume that the high potential is received at one input of the element 33 AND.

In parallel with this process, the synchronizing pulse from the input 15 of the system enters the input 39 of module 2, where it is delayed by element 36 for the duration of entering the codogram into module 1 and the operation of the decoder 31, and then goes to the polling state of elements 33-35 I.

Considering the fact that only the And element 33 will be open at one input, then passing through this And element, the clock pulse arrives at the read input of a fixed memory cell of the permanent storage device 30, where the code of the reference address of the database that sent the court code is stored.

The code of the reference address of the court database from the memory device 30 is read to the input of the register 32, where it is entered by the synchronizing pulse supplied to the synchronizing input of the register 32 from the output of the element 37, which delays the synchronizing pulse while reading data from the ROM 30.

Simultaneously with the described process, the synchronizing pulse from the input 15 of the system enters the input 55 of module 3, where it is delayed by element 49 for the duration of entering the codogram into module 1 and the operation of the decoder 43 and then goes to the polling state of elements 46-48 I.

Suppose that in this case only one element And will be open at one input, then after passing through this element And, the clock pulse goes to the read input of a fixed memory cell of the permanent storage device 70, where the code of the current address of the case number is stored.

The code of the current address of the case number from the memory unit 42 is read into the input of the register 44, where it is entered by the synchronizing pulse received at the synchronizing input of the register 44 from the output of the element 50, which delays the synchronizing pulse by the time data is read from the ROM 42. After entering the code in the register 44, it is issued one input of the adder 45, the other input of which through the input 54 of module 3 receives the code from the output of the register 32 of module 2.

According to the synchronizing signal received at the synchronizing input of the adder 45 from the output of the delay element 51, the latter generates the address of the memory cell in the server database into which the input message should be written. At the same time, the synchronizing pulse from the output 57 of the module 3 through the input 148 of the module 11 is fed to a single input of the trigger 130 and sets it to a single state, in which the elements And groups 133 will be open at one input.

The code of the recording address from the output 56 of the module 3 through the input 145 of the module 11 passes through the open elements 133 of the group and then passes the elements 136 of the group to the address output 21 of the system.

In parallel, the synchronizing pulse from the input 148 of the module 11 is delayed by the element 139 for the duration of the trigger 130 and then from the output 22 of the system is issued to the input of the first channel of the interruption of the database server.

By this signal, the server (not shown in the drawing) goes to the subroutine for recording the contents of the entire codogram from the output 20 of the system at the address specified on the output 21.

In addition, the pulse from the output of element 139 is additionally delayed by element 140 for the duration of entering the codogram into the system database and then arrives at the installation input of trigger 130, returning it to its original state.

From this moment, the system is ready to receive the next input message and enter it into the database as described above.

If it is necessary to obtain data on cases conducted by various courts for the preparation of analytical reports on the status of legal proceedings in the Russian Federation, the system provides two modes for searching and selecting required cases:

- the mode of finding a case in the database for a given court identifier and case number;

- by last name, first name, patronymic and date of birth of the personality of the convicted person.

The first mode is implemented if the user knows the case number and the identifier of the court that is considering or considering the case.

To implement the first mode, the user generates a query codogram having the following structure:

THE CODE THE CODE THE CODE THE CODE Request type Court ID Case number User address who sent the request

The specified codogram of the request from the input 13 of the system enters the information input of the register of module 4, where it is entered by the synchronizing pulse coming from input 16.

A request type code from the output 31 of the module 4 through the input 67 of the module 5 is fed to the input of the decoder 60, which decrypts the received code and opens elements 61 and 63 I with the high potential from the first output.

At the same time, the pulse from the input 16 of the system through the input 68 enters the input of the element 65, which delays the synchronization pulse for the duration of recording the request codogram to the module 4. From the output of the delay element 65, the synchronizing pulse passes the element 61 And to the output 70 of the module 5 and then through the input 94 enters the synchronizing input of module b, the information input 92 of which receives the code of the court identifier, and the information input 93 the code of the case number.

From the input 93 of module 6, the code of the case number identifier goes to the input of the decoder 78, which decrypts the code combination and opens one of the elements 85-87 I. For definiteness, we assume that the high potential is received at one input of the element 85 I.

From the input 92 of module 6, the code of the vessel identifier is fed to the input of the decoder 77, which decrypts the code combination and opens one of the elements 82-84 I. For definiteness, we assume that the high potential entered one input of the element 84 I.

In parallel with this process, the synchronizing pulse from the input 94 is delayed by the element 88 for the duration of the operation of the decoders 77, 78 and then goes to the interrogation of the state of the elements 82-87 I.

Considering the fact that the elements 84 I, 85 I will be open at one input, then after passing through these elements, the clock pulse goes to the read-out inputs of the fixed memory cells of the permanent memory devices 75, 76, where the codes of the reference address of the database of the requested court and the case number are stored.

The code of the reference address of the court database from the memory node 75 is read to the input of the register 79, and the code of the case number is read from the memory node 76 to the input of the register 80. The read codes are entered into the indicated registers by the synchronizing pulse received at the synchronizing inputs of the registers 79 and 80 from the output of the element 89, delaying the read clock pulse while reading data from ROMs 75 and 76.

Codes from the outputs of the respective registers 79, 80 are fed to the information inputs of the adder 81, to the synchronizing input of which a pulse is supplied from the output of the delay element 90. According to this synchronizing pulse, adder 81 modifies the read address code of the requested case number, which from the output 95 of module 6 through the input 146 of module 11 is fed to the inputs of the And elements of the group 134.

At the same time, the synchronizing pulse from the output 96 of the module 6 through the input 149 of the module 11 is supplied to the single input of the trigger 131 and sets it to a single state, in which the elements 134 And groups will be open at one input.

The code of the read address from the input 146 of the module 11 passes through the open elements 134 AND groups and then passes the elements 136 OR groups to the address output 21 of the system.

In parallel, the synchronizing pulse from the input 149 is delayed by the element 141 for the duration of the trigger 131, the OR element 138 passes, and then from the output 23 it is issued to the input of the second channel of the database server interrupt.

By this signal, the server (not shown in the drawing) goes to the subroutine for reading the contents of the record of the memory cell of the system database at the address specified on output 21.

In addition, the pulse from the output of element 141 is additionally delayed by element 142 for the duration of reading data from the database of the system and then arrives at the installation input of trigger 131, returning it to its original state.

The read record from the server database goes to the information input 14 of module 9, where it is entered by the server's synchronizing pulse coming from input 17.

At this point in time, the address code of the user who sent the request from the output 30 of the module 4 through the input 125 of the module 10 is supplied to the input of the decoder 120, which decrypts the specified code and generates a high potential at one of its outputs, which goes to the input of the corresponding elements And one of groups 121-123 and opens them at one entrance. To the other inputs of the And elements of the selected group, from the output of module 9, through the input 126 of module 10, a codogram record is read from the database with case data.

The server clock pulse from the input 17 of the system also enters the input 69 of module 5, where it is delayed by element 66 for the duration of recording the database record in module 9, and then passes through element 63 AND to output 73 of module 5 and then to input 128 of module 10.

From the input 128, a synchronizing pulse passes through the OR element 124 and then goes to the inputs of all groups of 172-174 AND elements, overwriting the contents of the read database record to the address of the user who sent the request through the corresponding output 24-26 of the system.

The second mode is implemented if the user does not know the case number and the identifier of the court that is considering or considering the case.

To implement this mode, the user generates a query codogram having the following structure:

THE CODE THE CODE THE CODE THE CODE Request type Initial letters of the last name, first name, middle name of the defendant SURNAME OF THE DEFENDANT Address of the user who sent the request

The specified codogram of the request from the input 13 of the system is fed to the information input of the module 4, where it is entered by the synchronizing pulse coming from the input 16.

A request type code from the output 31 of module 4 through the input 67 of module 5, as in the first case, is fed to the input of the decoder 60, which decrypts the incoming code and with a high potential from the first output now opens another pair of elements - 62 I, 64 I.

At the same time, the pulse from the input 16 of the system through the input 68 enters the input of the element 65, which delays the synchronization pulse for the duration of recording the request codogram to the module 4. From the output of the delay element 65, the synchronization pulse passes the element 62 AND to the output 71 of the module 5 and then through the input arrives at the synchronizing input 109 of module 7, the information input 108 of which receives the code of the initial letters of the surname, name, patronymic (full name) of the personality of the convicted person.

From input 108, the initial letter code of the convicted person’s identity goes to the input of the decoder 101, which decrypts the code combination and opens one of the elements 103-105 I. For definiteness, we assume that the high potential was received at one input of the 105 I.

In parallel with this process, the synchronizing pulse from the input 109 is delayed by the element 106 for the duration of the operation of the decoder 101 and then goes to the interrogation of the state of the elements 103-105 I.

Considering the fact that element 105 will be open at one input, then, after passing through this element, the clock pulse is fed to the read input of a fixed memory cell of the permanent storage device 100, where the reference address code of the names of convicts with the same initial letters is stored FULL NAME.

The code of the reference address of the full name from the memory unit 100 is read through the input of the counter 102 and entered into it by a synchronizing pulse supplied to the synchronizing input of the counter from the output of element 107, where it was delayed while reading data from the ROM 100.

The address code from the output of the counter 102 through the output 111 of the module 7 is fed to the information input 147 of the module 11, to the synchronizing input 150 of which a pulse is supplied from the output 112 of the module 7.

The synchronizing pulse from the input 150 of the module 11 is supplied to the single input of the trigger 132 and sets it to a single state, in which the elements 135 And groups will be open at one input.

The code of the read address from the input 147 of the module 11 passes through the open elements 135 AND groups and then passes the elements 136 OR groups to the address output 21 of the system.

In parallel with this, the synchronizing pulse from input 150 passes element 137 OR is delayed by element 147 for the duration of trigger 132, passes element 138 OR and then output 23 is issued to the input of the second channel of the database server interrupt.

By this signal, the server (not shown in the drawing) goes to the subroutine for reading the contents of the record of the memory cell of the system database at the address specified on output 21.

The read record goes to the information input 14 of module 9, where it is entered by the server synchronizing pulse coming from input 17.

The server clock pulse from the input 17 of the system is fed to the input 69 of module 5, where it is delayed by element 66 for the duration of recording the database record in module 9, and then passes through element 64 AND to output 72 and then to synchronization input 115 of module 8.

At the input 113 of module 8, from the output of 34 module 4, the code of the last name, first name, patronymic of the defendant, indicated in the request, and the input 114 receives the code of the last name, first name, middle name, read from the server database.

By a synchronizing pulse from input 115, module 8 compares the input codes, and if the input codes do not match, then an output is generated at the output 116 of module 8, which, firstly, enters the counting input 110 of module 7, from where it enters the counting input of counter 102 and increases its readings by one, thereby forming the next read address.

Secondly, the same pulse through the input 151 of the module 11 enters the input of the OR element 137, is delayed by the element 143 for the duration of the counter 102 operation, and then through the OR element 138 and the system output 23 it again enters the input of the second channel of the database server interrupt.

By this signal, the server (not shown in the drawing) again switches to the subroutine for reading the contents of the record of the memory cell of the system database at the address specified on output 21.

The read record again goes to the information input 14 of module 9, where it is entered by the synchronizing pulse of the server, which goes to input 17.

The described process continues until module 8 fixes the equality of the input codes by issuing a synchronizing pulse at the output 117. This pulse goes to the input 127 of the module 10, where the OR element passes 124 and then goes to the inputs of all groups of 121-123 AND elements, rewriting the contents of the read database record to the address of the user who sent the request through the corresponding output 24-26 of the system.

In addition, the clock pulse from the output 117 of the module 8 through the input 152 of the module 11 is supplied to the installation input of the trigger 132 and returns to its original state.

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 requested criminal case data either by identifiers of the court considering the criminal case and case numbers, or by identifiers of the surname, name, patronymic of the personality of convicted citizens.

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

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

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

Claims (1)

An automated system for collecting and processing data of judicial records management, containing a module for receiving data from geographically distributed courts, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, and the first output is the information output of the system, the module for receiving calls to the server database, information and whose synchronizing inputs are the second information and synchronizing inputs of the system, and the first output is connected to the address input a module for switching data output channels, the group information outputs of which are information outputs of a system group, a server database record receiving module, the information and synchronizing inputs of which are the third information and synchronizing system inputs, and the output is connected to the information input of a data transmission channel switching module, output module control signals, the information output of which is the address output of the system, and the first and second synchronizing outputs are the first and W system synchronizing outputs, characterized in that the system contains a module for selecting the reference address of the vessel in the server database, the information input of which is connected to the second output of the unit for receiving data from geographically distributed objects, and the synchronizing input is connected to the first synchronizing input of the system, the current selection module addresses of the case number in the server database, one information input of which is connected to the third output of the unit for receiving data from geographically distributed vessels, other information The input is connected to the output of the selection module of the reference address of the vessel in the server database, and the synchronizing input is connected to the first synchronizing input of the system, while the information output of the selection module of the current address of the case number in the server database is connected to the first information input of the module for issuing control signals, and the synchronizing output of the selection module of the current address of the case number in the server database is connected to the first synchronizing input of the module for issuing control signals, the direction selection module p a data claim, the information input of which is connected to the second output of the unit for receiving calls to the server database, one synchronizing input is connected to the second synchronizing input of the system, and the other is connected to the third synchronizing input of the system, the case address identification module in the server database, the information inputs of which are connected to the third and fourth outputs of the unit for receiving calls to the server database, respectively, and the synchronizing input is connected to the first output of the module for selecting the direction of the search for data s, the information output of the case address identification module in the server database is connected to the second information input of the control signal issuing module, and the synchronizing output of the case address identification module in the server database is connected to the second synchronizing input of the control signal issuing module, the base name address identification module , name, patronymic of the personality of the convict, the information input of which is connected to the fourth output of the unit for receiving calls to the server database, and the synchronizing input It is connected to the second output of the module for selecting the direction of searching for data, while the information output of the module identifying the base address of the surname, name, middle name of the convicted person is connected to the third information input of the module for issuing control signals, and the synchronizing output of the module for identifying the base address of the surname, name, middle name of the convicted person is connected with the third synchronizing input of the module for issuing control signals, and a module for identifying database records, the information inputs of which are connected to the fourth output of the reception block of calls to the server database and to the output of the reception block of server database records, respectively, and the clock input is connected to the third output of the data search direction selection module, while one output of the database record identification module is connected to the counting input of the base address identification module surname, name, patronymic of the convicted person and with the fourth synchronizing input of the module for issuing control signals, another output of the database record identification module is connected to the new input of the module for issuing control signals and to one clock input of the module for switching channels for data output, the other clock input of which is connected to the fourth clock output of the module for selecting the direction of data search.