RU74723U1 - AUTOMATED WORKPLACE FOR MAKING AN ELECTRONIC CARD FOR JUDICIAL AFFAIRS AT THE WORLD OF JUDGES - Google Patents

Abstract

An automated workstation for conducting an electronic file of legal cases in magistrates' sections containing a block for receiving user requests, the information input of which is the first information input of a workstation designed to receive codograms of user requests, the synchronizing input of a block for receiving user requests is the first synchronizing input of a workstation intended for receiving synchronization signals of entering codograms of requests users into the block for receiving user requests, and the clock input of the block for receiving user requests is a clock input of the workstation designed for receiving clock signals of synchronization, a block for generating signals for reading database records, the first and second control inputs of which are connected to the first and second control outputs of the block receiving user requests, respectively, the address output of the unit for generating signals for reading database records is the address you The workstation is designed to provide the read address to the database server address input, the first clock output of the database record read signal generation unit is the first workstation synchronization output to issue control signals to the input of the first channel interrupt channel of the database server, and the second synchronizing output of the block for generating signals for reading database records is the second synchronizing output

Description

The utility model relates to computer technology, in particular, to an automated workstation for conducting electronic files of court cases in sections of magistrates.

Given the excessive load on the judges and the absence of modern computer technologies in most courts of first instance, their practice is characterized by serious violations of the procedural deadlines for the consideration of cases, which also leads to such an extremely undesirable phenomenon as an increase in the length of time for accused in custody.

Informatization of legal proceedings can greatly facilitate the work of judges. Our main task is to free the judge from routine work. Rewriting the narrative from one document to another is just such a job.

The goal of informing the courts and the Judicial Department is to increase the effectiveness of the judiciary, which ensures the protection of human rights, social stability and the rule of law in the state. The implementation of the goals and objectives of informatization with an integrated approach is carried out through:

- systems for the formation and use of judicial information resources within the framework of the Unified Information Infrastructure of Courts and the Judicial Department (hereinafter - UIIS);

- the formation of the scientific, technical and production potential of the Judicial Department, necessary for the creation of UIIS;

- development of a legal framework for information relations in the judicial sphere;

- creating a system of training and retraining of personnel for work in the information society;

- the formation of market segments of computer and telecommunications facilities, information products and services for the courts and bodies of the Judicial Department;

- definition of objects of international cooperation of the judicial community;

- creating a system for ensuring information security of UISI.

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 device 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, comprising data receiving units whose outputs are connected to a memory unit and to a data processing unit, a time interval selection unit whose outputs are connected to a data receiving unit, to a user request receiving unit and to a memory unit and to a data processing unit, the outputs of which are connected to one of the inputs of the switching unit of the data output channels, the other inputs of which are connected to the selection of time intervals, and the outputs are the outputs of the system (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 search for the requested data is carried out throughout the database, which leads to unreasonable loss of time for issuing certificates, especially with large amounts of data stored in the system server.

The purpose of the invention is to increase the speed of the workstation by eliminating the search for the requested data throughout the database and localizing the search only by the characteristic features of identifiable persons.

This goal is achieved by the fact that in an automated workstation containing a block for receiving user requests, the information input of which is the first information input of a workstation designed to receive codograms of user requests, the synchronizing input of a block for receiving user requests is the first synchronizing input for a workstation for receiving synchronization signals of entering codograms of user requests into the receiving unit user queries, and the clock input of the block for receiving user requests is the clock input of the workstation designed to receive clock signals for synchronization, the block for generating signals for reading database records, the first and second control inputs of which are connected to the first and second control outputs of the block for receiving user requests, respectively , the address output of the block for generating signals for reading database records is the address output of an automated of a place intended for issuing a read address to the address input of the database server, the first synchronizing output of the unit for generating read signals of the database records is the first synchronizing output of the workstation, intended for issuing control signals to the input of the first channel of the database server interrupt, and the second read signal generation block output

database records is the second synchronizing output of the workstation designed to issue control signals to the input of the second interrupt channel of the database server, and the data output unit, the information output of which is the information output of the workstation designed to issue the requested data, the base selection block is introduced addresses of entries in the server database, the first and second address inputs of which are connected to the first and second information outputs of the block receiving user requests, respectively, the first and second synchronizing inputs of the selection block of the base address of the records in the server database are connected to the first and second synchronizing outputs of the block of receiving the request of the users, respectively, while one information output of the selection block of the base address of the records in the server database is connected to the information input block for generating signals for reading database records, and one synchronizing output of the block for selecting the base address of records in the server database connected to the first synchronizing input of the unit for generating signals for reading database records, the unit for identifying server database records, the first information input of which is the second information input of the system for receiving server database records, the second and third information inputs of the unit for identifying server database records with the third and fourth information outputs of the user request receiving unit, respectively, the first synchronizing input of the identification unit Apis server database is the second input of the synchronizing workstation for receiving synchronizing signals entering

database records to the server database records identification block, the control input of the server database records identification block is connected to the first control output of the user requests reception block, while the information output of the server database records identification block is connected to the first information input of the data output block, the first synchronizing the output of the server database record identification block is connected to the counting input of the database record read signal generation block, and the second synchronization the output output of the server database record identification unit is connected to the first synchronizing input of the data output unit, the third synchronization output of the server database record identification unit is connected to the first installation input of the user request receiving unit and the second installation input of the database record read signal generation unit, identification unit the number of read cycles of database records whose information input is connected to the second information output of the base address selection block records in the server database, the first synchronizing input of the identification block of the number of read cycles of database records is connected to the second synchronizing output of the selection block of the base address of the records in the server database, the second synchronizing input of the identification block of the number of read cycles of database records is connected to the fourth synchronizing output of the identification block server database records, and the third synchronizing input of the identification unit of the number of read cycles of database records is connected to the fifth the synchronizing output of the database record identification unit

server data, while the first output of the identification unit of the number of read cycles of database records is connected to a subtracting input of the generating unit of the read signals of the database records and to the second installation input of the identification block of the database records of the server, the selection block of temporary boundaries of the selection of data records, the input of which is connected to the second output of the unit for identifying the number of read cycles of database records, the first output of the block for selecting the time boundaries of the sample of data records is connected to the subtracting input of the block at user requests and to the third installation input of the server database record identification block, the second output of the time boundary selection block of the data record selection is connected to the third synchronizing input of the data output block, and the third output of the time boundary selection block of the data record selection is connected to the first installation input of the formation block read signals of database records, to the second installation input of the user request receiving unit, to the third subtracting input of the qi number identification unit the key for reading the database records and to the first installation input of the server database record identification block, the block for determining the depth of data sampling, the first and second control inputs of which are the first and second control inputs of the workstation, designed to receive data sampling control signals, the third control input connected to the second control output of the block for receiving user requests, the first clock input of the block for determining the depth of data sampling is connected to the second the second synchronizing input of the workstation, the second synchronizing input of the depth determination unit

the data sample is connected to the second output of the identification unit for the number of read cycles of database records, and the installation input of the data sampling depth determination unit is connected to the third output of the time limits selection block of the data recording samples, while the first output of the data sampling depth determination unit is connected to the second synchronizing input of the block identification of server database records and with a second subtracting input of the identification block of the number of read cycles of database records, and the second output of the block determining the glo data sampling bins is connected to the first subtracting input of the identification unit of the number of read cycles of database records, the installation input of which is connected to the installation output of the data output unit, and the accumulating accumulation of analytical data, the first synchronizing input of which is connected to the second output of the data sampling depth determination unit, the second the synchronizing input of the accumulating analytical data summing unit is connected to the fourth synchronizing output of the database record identification unit d server, the third synchronizing input of the accumulating analytic data summing unit is connected to the third output of the block of selection of time boundaries of the sample of data records, and the fourth synchronizing input of the accumulating analytical data summing unit is connected to the second output of the identification unit of the number of read cycles of database records, with one information output block accumulating summation of analytical data is connected to the second information input of the data output unit, other information nny output accumulator summation block

analytical data is connected to the third information input of the data output unit, and the synchronizing output of the accumulating summing unit of analytical data is connected to the second synchronizing input of the data output unit.

The invention is illustrated by drawings, where Fig. 1 shows a structural diagram of a system, Fig. 2 shows an example of a specific structural embodiment of a block for receiving user requests, Fig. 3 is an example of a specific structural embodiment of a block for selecting a base address of records in a server database, in Fig. .4 - an example of a specific constructive implementation of the unit for identifying the number of read cycles of database records, Fig. 5 is an example of a specific constructive implementation of the block for selecting the time boundaries of the sample this data, Fig.6 is an example of a specific structural embodiment of a block for generating signals for reading database records, Fig.7 is an example of a specific structural embodiment of a block for identifying database records, Fig.8 is an example of a specific structural embodiment of a block for determining the depth of data sampling, figure 9 is an example of a specific structural embodiment of the block accumulating summation of analytical data, figure 10 is an example of a specific structural embodiment of the block data output.

The automated workstation (Fig. 1) contains a block 1 for receiving user requests, a block 2 for selecting the addresses of records in the server database, a block 3 for identifying the number of cycles for reading database records, a block 4 for selecting time boundaries for selecting data records, a block 5 for generating signals for reading records database, block 6 identification of database records, block 7

determine the depth of the data sample, block 8 accumulating summation of analytical data, block 9 data output.

Figure 1 shows the first 11 and second 12 information inputs of the system, the first 13 and second 14 clock inputs of the system, clocking 15, the first 16 and second 17 control inputs of the system, as well as address 18 and information 19 outputs of the system, the first 20 and second 21 system synchronization outputs.

Block 1 receiving user requests (figure 2) contains a register 40, subtracting the counter 41, triggers 42, 43, elements 44, 45 AND, elements 46, 47 And the first and second groups, elements 48, 49 OR, elements 50, 51 delay . The drawing shows the information input 11, the synchronizing input 13, the control input 15, subtracting the input 52, the installation inputs 53, 54, as well as the information outputs 55-58, the synchronizing outputs 59, 61, and the control outputs 60, 62.

Block 2 selection of addresses of records in the server database (Fig. 3) contains decoders 63, 64 memory blocks 65, 66. made in the form of read-only memory devices, elements 67-72 AND, element 73 OR, group of elements 74 OR, elements 75- 77 delays. The drawing shows information 78, 79 and synchronizing 80-81 inputs, as well as information 82, 83 and synchronizing 84, 85 outputs.

Unit 3 for identifying the number of read cycles of database records (Fig. 4) contains an OR element 110, a register 111, a counter 112, a comparator 113, and an OR element 114. The drawing shows the information input 115, the first 116, the second 117, the third 118 clock inputs, the first 119, the second 120 and the third 121

subtracting inputs, and installation 122 input, as well as the first 123 and second 124 outputs.

Block 4 selection of time boundaries of the selection of data records (figure 5) contains a counter 130, a register 131, a comparator 132, elements 133, 134 delay. The drawing shows the input 135, as well as the outputs 136-138.

Block 5 generating signals for reading database records (Fig. 6) contains a reverse counter 22, elements 23, 24 OR, elements 25, 26 AND, element 27 delays. The drawing shows the information input 28, the first 29 clock input, counting 30 input, subtracting 31 inputs, the first 32 and second 33 installation inputs, second 34 and third 35 clock inputs, as well as address 18, first 20 and second 21 outputs.

The database record identification unit 6 (Fig. 7) contains a register 36, a first 37 and a second 38 comparators, an AND element 39, an OR element 86, delay elements 87-89. The drawing shows the first information 12 input, the first synchronizing 14 input, the second 90 and third 91 information inputs, the control 92 input, the second 93 synchronizing input, the first 94, the second 95 and the third 96 installation inputs, as well as the information 97 output, the first 99, second 100, third 101, fourth 107 and fifth 108 synchronizing outputs.

Block 7 for determining the depth of data sampling (Fig) contains a counter 140, triggers 141, 142, 143, elements 144-149 AND, element 150 OR, element 151 delay. The drawing shows the first 152 and second 153 clock inputs, the first 154, second 155 and third 156 control inputs, and installation 157 input, as well as the first 158 and second 159 outputs.

Block 8 of the accumulating summation of analytical data (Fig.9) contains the adder 160, the counter 161 and the element 162 OR. The drawing shows the first 163, second 164, third 165 and fourth 166 clock inputs, as well as the first 167 and second 168 information and clock 169 outputs.

The data output unit 9 (FIG. 10) comprises a buffer memory unit 170, an AND group 171, 172, a group of OR elements 182, delay elements 173, 174. The drawing shows the first 175, second 177 and third 178 information inputs, the first 176, second 179 and third 180 synchronization inputs, as well as information 19 and installation 181 outputs.

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

The workstation can work in two modes:

- in the mode of issuing certificates in court cases, the registration data of which in the form of records are stored in the relational database of the server,

- in the mode of issuing samples of records by groups of convicts, in the form of problem-oriented lists compiled according to specified criteria.

To realize the possibility of working in these modes, each of them has its own copy of the database on the database server.

The structure of records in the database of the first mode is as follows:

Surname Name middle name Date of Birth Floor Attributes of the record, including both the registration data of the court case and its content

All entries in the database of the first mode are sorted alphabetically.

The structure of records in the database of the second mode is as follows

Date of Birth Surname Name middle name Floor Attributes of the record, including both the registration data of the court case and its content

All records in the database of the second mode are sorted by date of birth, which makes it possible to clearly record for each calendar year the total number of records for the defendants and convicts born in the specified year.

We consider the operation of the system, starting with the first mode, in which the system is in the initial state, fixed by the trigger 42 of block 1 (to simplify the drawing, the circuit for setting the system to its initial state is not shown in the drawing).

High potential from the inverted output of trigger 42 of block 1, firstly, is outputted to output 60 of block 1 and then to the corresponding control inputs of blocks 5, 6 and, secondly, it opens elements 46 and 44 And on one input, thereby connecting Information 11 and synchronizing 13 system inputs to the information and synchronizing inputs of the register 40.

To obtain an entry from a server’s database about a specific convicted or defendant operator at his workplace dials his last name, first name, middle name and date of birth. In addition, at the same workplace, a sign of search for the record of the convict (defendant) is automatically generated in the form of a code for the first three initial letters of his last name.

As a result, at the exit of the user's workplace, a codogram of the following form will be formed

Code of the first three letters of the surname, name and patronymic of the convicted (defendant) Surname Name middle name Date of Birth

The codogram of the request from the operator’s workstation from the input 11 of the automated workstation (ARM) through the elements 46 AND of the group is entered into the register 40 of block 1 by a synchronizing pulse from input 13, which passes to the synchronizing input of the register 40 through the element 44 And, open at the second input with a high potential from the inverse output of the trigger 42, which is in the initial state.

From the output 55 of block 1, the code of the feature part of the codogram, consisting of the first three letters of the surname, through the input 78 of block 2 is fed to the information input of the decoder 63.

The decoder 63 of block 2 decrypts the code of the first three letters of the surname, giving out one of its outputs high potential. For definiteness, we assume that a high potential is received at one input of element 67 I.

In parallel with this, the synchronizing pulse from the output of element 44 AND of block 1 is delayed by element 50 for the time the code is entered into register 40 and the decoder 63 is activated, and then, firstly, through element 48, OR is transmitted to the single input of the trigger 43 of the lock, which, passing in a single state, it closes the element 44 And with a low potential from the inverse output, thereby blocking the ability to write the next request to register 40.

Secondly, the same pulse from the output 59 of block 1 through the input 80 of block 2 interrogates the states of elements 67-69 I.

Considering the fact that only element And will be open at one input, then passing through this element And, the clock pulse arrives, firstly, at the read input of a fixed memory cell of read-only memory 65, where the base address of the server’s memory cell with the first record is stored, in which the last name begins with the indicated three letters, and reads its contents through the elements 74 OR and output 82 to the information input 28 of the reverse counter 22 of block 5.

Secondly, the same read pulse is delayed by the delay element 75 for the time of reading the contents of the fixed ROM cell, and then through the OR element 73 and the output 84 of the block 2 it is supplied to the synchronizing 29 input of the reverse counter 22 of the block 5, fixing the base address of the first memory cells in which the last name begins with the specified three letters.

Thirdly, the same impulse, having passed the OR element 24, is delayed by the element 27 for the time the base address is entered in the counter 22 and then goes to the same inputs of the elements 25 and 26 I.

Considering that a high resolution potential from input 34 is supplied to the input of element 25 AND, the synchronizing pulse passes through element 25 AND to the output 20 of block 5.

From output 20 of the AWP, this pulse is fed to the server interrupt input (not shown in the drawing), to the address input of which the code of the base read address from output 18 of block 5 is issued.

By this signal, the server switches to the subroutine for polling the contents of the cell record at the specified database address of the server of the first mode.

The contents of the base address of the selected memory cell is issued by the database server through the system input 12 to the information input of the register 36 of block 6, where it is entered by the server synchronizing pulse coming from the system input 14.

The contents of register 36, which is the first record in which the surname begins with the three letters indicated, goes to one input 102 of the comparator 38, to the other inputs of which, through input 90, output 56 of block 1 receives the code of the name, first name and patronymic of the requested convict (defendant) .

The comparator 38 compares the codes by the clock coming from input 14, which is then delayed by element 87 while the code is entered into register 36 and then passes through element 39 AND, which is open by high potential from the inverse output 60 of trigger 42 of block 1.

If the codes do not match, then the output 99 of the comparator 38 receives a pulse, which through the input 30 of block 5 is fed to the counting input of the reverse counter 22 of block 5, increasing the contents of the base address by one. Then the same impulse, passing element 24 OR, and delayed by element 27 for the duration of the operation of the reverse counter, again through element 25 AND is fed to the server interrupt input.

At this signal, the server goes to the subroutine for polling the contents of the cell record at the following address.

The contents of the address of the next memory cell is again issued by the database server through the system input 12 to the information input of the register 36 of block 6, where it is entered by the server synchronizing pulse coming from the system input 14.

The contents of register 36, which is the second record in which the name of the convicted person begins with the three letters, goes to one input of the comparator 38, the other inputs of which through the input 90 of block 6 from the output 56 of block 1 receives the code of the name, first name and patronymic of the requested convict.

The comparator 38 again compares the codes according to the clock received from the input 14 of block 6. This pulse is delayed by element 87 while the code is entered into register 36 and then passes through element 39 AND, which is open by high potential from the inverse output 60 of trigger 42 of block 1.

If the codes do not match, then the output 99 of the comparator 38 reappears a pulse, which through the input 30 of block 5 again goes to the counting input of the reverse counter 22 of block 5, increasing the contents of the base address by one.

Then the same impulse, having passed through the OR element 24, and delayed by the element 27 for the duration of the operation of the reverse counter, is again fed to the server interrupt input.

This procedure for viewing records continues until the comparator 38 records the fact that the codes of the requested last name, first name, middle name, and last name, first name, and middle name are in the record stored in the database.

The fact of the coincidence of the codes will be recorded at the time of the appearance of the pulse at the output 100 of block 6, which from the specified output goes to the input 176 of block 9 and then to one inputs of the elements 171 And groups, to the other inputs of which from the input 175 of block 9 the outputs of the register 36 are connected through the output 97 blocks 6.

The received impulse rewrites the contents of the register entry 36 through the elements 171 AND and the elements 182 OR groups to the output 19 of the workstation, from where it arrives at the user's workstation.

At this point, the procedure for issuing data about the requested individual ends, which is fixed by the pulse of the comparator 38, delayed by the delay element 89, which delays the pulse from output 100 during the polling and the issuance of the contents of register 36 to the output 19 of the system.

In addition, the same pulse from the output 101 of block 6, firstly, goes to the installation input 33 of block 5, where the OR element 23 passes and returns the counter 22 to its original state, preparing it for the next cycle of operation.

Secondly, the same pulse through the OR element 86 is supplied to the installation input of the register 36 and to the installation input 53 of the blocking trigger 43 of block 1, also returning them to their original state.

To obtain analytical information about convicts and defendants in a given section, a clock signal is supplied to the ARM 15 clock input, which sets the mode 42 trigger of unit 1 to a single state, in which high potential is outputted to output 62 and low, blocking element 39 is outputted to output 60 And, and, thereby, the work of comparator 38 of block 6.

To obtain a sample from the server database in the form of a list of individuals according to one of the possible criteria, for example, the age of the convicted, the operator at his workplace collects a sign of the sample, for example, pensioners.

In this case, the reporting year of the sample is set, for example, 2006 and, thus, the list of women pensioners will begin with women pensioners born in 1951, and the list of male pensioners will start from 1946.

Given the fact that the total number of records of convicted and defendant data in the database for each year is clearly defined, as a result, a codogram of the following form will be generated at the output of AWP

Sample reference year Gender sign 1951 Female

The choice of the "Pensioners" mode leads to the fact that from the input 16 of the system to the input 154 of block 7 a control signal is issued that sets the trigger 142 to a single state, in which a high potential from a single output opens the elements 144 I, 147 And one input.

According to the signal supplied to the synchronizing input 13, the codegram code from the input 11 through elements 47 And groups opened by high potential from the direct output of the mode trigger 42 is entered into the subtracting counter 41 of the block 1 by the synchronizing pulse from input 13, which passes to the synchronizing input of the counter 41 through the element 45 And, open at the second input with high potential from the direct output of the trigger 42 mode.

From the output 57 of block 1, the code of the reference year of the sample through the input 79 of block 2 is fed to the information input of the decoder 64, which in our example decrypts 1951, giving out one of its outputs with high potential.

For definiteness, we assume that a high potential is received at one input of element 72 I.

In parallel with this, the synchronizing pulse from the output of element 45 AND of block 1 is delayed by element 51 for the time the code is entered into counter 41 and the decoder 64 is triggered, and then, firstly, through element 48, OR passes to the single input of the trigger 43 of the lock, which, passing in a single state, it closes the element 45 And with a low potential from the inverse output, thereby blocking the possibility of the next request coming to the counter 41.

Secondly, the same pulse from the output 61 of block 1 through the input 81 of block 2 interrogates the states of elements 72-74 I.

Given the fact that only one element And will be open at one input, then passing through this element And, the clock pulse arrives, firstly, at the read input of a fixed memory cell of read-only memory 66, where the base address of the server memory cell with the first record 1951 is stored years and the total number of records in 1951, and reads the contents of the base address of the server’s memory cell with the first record of 1951 through elements 74 of the OR group and output 82 to the information input 28 of the reverse counter 22 of block 5, and the total number of The year of birth of 1951 from the output 83 of block 2 is read to the input 115 of block 3.

Secondly, the same read pulse is delayed by the delay element 76 for the duration of reading the contents of the fixed ROM cell, and then through the OR element 73, the output 84 goes to the synchronizing 29 input of the reverse counter 22 of block 5, fixing the base address of the first memory cell in the counter 22 with data born in 1955.

Thirdly, the same impulse, having passed the OR element 24, is delayed by the 27 element while the base address is entered into the counter 22, and then through another element 26 AND then it passes through the output 21 of block 5 to the input of another server interrupt channel.

By this signal, the server goes to the subroutine for polling the contents of the second mode database cell, the address of which is issued from the output 18 of block 5.

By this signal, the server switches to the subroutine for polling the contents of the cell record at the specified address.

The contents of the base address of the selected memory cell is issued by the database server through the input 12 of the workstation to the information input of the register 36 of block 6, where it is entered by the synchronizing pulse of the server coming from the input 14 of the workstation.

The contents of the register 36, which is the first entry in 1951, is fed to one of the inputs of the comparator 37, to the other inputs of which through the input 91 of the block 6 from the output 58 of the block 1 the female sign code is received.

In parallel, the pulse of writing the code to the register 36 from the input 14 of the system enters the input 152 of block 7, is delayed by the element 151 for the time the data are entered into the register 36, and enters one input of the element 146 AND, to the other 156 the input of which has a high trigger potential 42 block mode 1. The delayed pulse of writing data to the register 36 from the output of the element 146 passes through the high potential of the trigger 142 element 147 And, and then goes to one of the inputs of the elements 145 and 148 And, the other inputs of which are potentials from the direct and inverse outputs of the trigger a 141.

Considering that at the given moment the trigger 141 is in the initial state, then the element 148 And will be opened from the inverse output with a high potential and the data recording pulse from the output of the element 147 passes through the element 148 And and then it is output to the output 158 of block 7. From the output 158 block 7, this pulse passes to the input 120 of block 3 and then through the element 110 OR enters the counting input of the counter 112 of the number of records.

In addition, the same pulse from the output 158 of block 7, passing through the input 93 of block 6, is delayed by element 88 while recording data in the counter 112 of the number of records. Then it goes to the synchronizing input 105 of the comparator 37, which compares the code of the specified female code with the gender code received as part of the record from the output of the register 36.

The comparator 37 compares the codes on the clock pulse coming from the input 93 of block 6.

If the codes do not match, i.e. If the read-out record belongs to a male individual, then an impulse appears at the output 107 of the comparator 37, which passes through the input 117 of block 3 and then through the element 114 OR to the synchronizing input of the comparator 113. The comparator 113 compares the codes of the number of records in register 111 to be read with the code of the already read the number of counter entries is 112.

If the comparison of the codes did not happen, then a signal is generated at the output 123, which, firstly, enters through the input 95 of block 6 and then the OR element 86 to the installation input of the register 36, returning it to its original state, and, secondly, it enters to the subtracting input 31 of the counter 22 of block 5, forming the next address for reading the next record from the database.

In addition, the same impulse, having passed the OR element 24, and delayed by the element 27 at the time of the operation of the reversible counter, is again supplied through the And element 26, and the output 21 to the server interrupt input.

At this signal, the server goes to the subroutine for polling the contents of the cell record at the following address.

The contents of the address of the next memory cell is again issued by the database server through the input 12 of the AWP to the information input of the register 36 of block 6, where it is entered by the synchronizing pulse of the server coming from the input of the 14th workstation.

The contents of the register 36, which is the second entry in 1951, is fed to one input 103 of the comparator 37, the other inputs of which through the input 91 of block 6 from the output 58 of block 1 receive a female character code.

The comparator 37 again compares the codes for the clock pulse coming from the input 93 of block 6, and the process of polling the contents of the server database continues as described above.

This procedure for viewing records continues until the comparator 37 of block 6 records the coincidence of the female sign codes.

The fact of the coincidence of the codes will be recorded at the time of the appearance of the pulse at the output 108 of block 6, which immediately goes to the input 164 of block 8, where the OR element 162 passes, and, firstly, goes to the counting input of the counter 161, forming the address for recording the contents of the register 39 in block 170 of the buffer memory, whose code from the output 168 of block 8 is fed to the input 178 of block 9.

Secondly, the same pulse, having passed through the OR element 162, from the output 169 of the block 8 is supplied to the synchronizing input 179 of the block 9, where it is delayed by the element 173 for the duration of the operation of the counter 161, and then it enters the data recording control input from the output of the register 36 of the block 6 through the input 175 of block 9 to the buffer memory 170.

In parallel with this, the same pulse from the output 108 of block 6 goes to the input 118 of block 3, where the OR element 114 passes and again goes to the synchronizing input of the comparator 113, starting the next cycle of reading data records and checking them as described above.

The described process continues until all records of the database for 1951 are reviewed, which will be fixed by the comparator 113 of block 7, by issuing a pulse of the end of the annual records to the output 124 of block 3.

This pulse, firstly, through the input 165 of block 8 is fed to the synchronizing input of the accumulating adder 160, overwriting the readings of the counter 161 into it. As a result, the total number of reads is recorded at the output 167 of the adder 160.

Secondly, the same pulse is fed to input 157 of block 7 as a signal to end viewing records of the next year, resetting the trigger 142 and 143 to its original state.

And, finally, the same pulse goes to the input 135 of block 4, and then to the counting input of the counter 130 of the scanned years, the outputs of which are connected to one of the inputs of the comparator 132, the other inputs of which are connected to the outputs of the register 131. Any constants are pre-entered into the register 131, determining the limit value of the age range for individuals. For example, a range of 100 years may serve as such a constant.

The comparator 132 of block 4 compares the codes according to the clock received from the input 135. This pulse is delayed by the element 133 for the duration of the counter 130 operation and then passes to the synchronizing input of the comparator 132.

If the codes do not match, then the output 136 of the comparator 132 of the block 4 appears a pulse, which through the input 52 of the block 1 is fed to the subtracting input of the counter 41 of the block 1, reducing the specified year by one. Then, the same impulse, having passed the OR element 49, and delayed by the element 51 for the time of the counter 41 operation, is output 61, again starting the process of reading the server database records described above now already in 1950.

Similarly, the process of polling the contents of the server database will proceed for individuals born in 1949, 1948 and 1947.

This fact will be recorded by the counter 140 of block 7, to the counting input of which, after viewing the database records of the previous year, pulses of the end of the year from the output of 124 block 3 are received.

A feature of connecting the counter 140 of block 7 is the fact that it works in the reverse code. In other words, when the counter 140 is set to its initial state, a predetermined number of years is recorded in it, for example, five in the reverse code.

This circumstance leads to the fact that when the fifth pulse arrives at the input of the counter 140 of block 7, which indicates the viewing of five annual records (from 1951 to 1947), a pulse appears at the transfer output of the counter 140, which sets the trigger 141 of block 7 to a single state, in which the element 148 And will be closed by low potential from the inverse output of the trigger 141, and the element 145 And will be opened by high potential from the direct output of the same trigger.

As a result of this, the path of the subsequent passage of the data entry pulse into the register 36 from the system input 12 through the input 152 of block 7 will now pass not through the AND element 148, but through the 145 I, 150 OR elements and further through the output 159, which will ensure reading and viewing database records for all senior citizens and men and women.

The end of the sampling procedure for all pensioners will be fixed at that time when the comparator 132 of block 4 will record the fact of comparing the codes of the counter 130 and register 131 by generating a pulse at the output 137 of the comparator 132 of block 4, which from the specified output goes to the input 180 of block 9 and further to one of the inputs of the elements 172 And, to the other inputs of which from the input 177 of block 9 the outputs 167 of the adder 160 of block 8 are connected.

The received impulse rewrites the contents of the adder 160 through the elements 172 AND and the elements 182 OR groups to the output 19 of the system, from where this data arrives at the user's workstation.

If it is necessary to sample data according to any of the specified criteria and indicate the corresponding annual range, the control signal from the workplace does not arrive at the input 154 of block 7, as was the case with the selection of pensioners, but at the input 155 of block 7, where it goes to the input of trigger 143, thanks why the synchronizing signal from the input 152 of block 7 will be issued to the output of block 7 through the elements 149 AND, 150 OR and then to the output 159 of block 7, ensuring the operation of the clock circuit to control the selection of records from the database of the court case management server.

Thus, the introduction of new nodes and blocks and new constructive relationships has significantly improved the speed of the workstation by localizing the range of data search addresses in the database of the court case management server.

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

1. US Patent No. 5455947A, 03/10/95

2. US patent No. 5713014A, 01/27/98 (prototype).

Claims (1)

An automated workstation for conducting an electronic file of legal cases in magistrates' sections containing a block for receiving user requests, the information input of which is the first information input of a workstation designed to receive codograms of user requests, the synchronizing input of a block for receiving user requests is the first synchronizing input of a workstation intended for receiving synchronization signals of entering codograms of requests users into the block for receiving user requests, and the clock input of the block for receiving user requests is a clock input of the workstation designed for receiving clock signals of synchronization, a block for generating signals for reading database records, the first and second control inputs of which are connected to the first and second control outputs of the block receiving user requests, respectively, the address output of the block for generating signals for reading database records is the address you The workstation is designed to provide the read address to the database server address input, the first clock output of the database record read signal generation unit is the first workstation synchronization output to issue control signals to the input of the first channel interrupt channel of the database server, and the second synchronizing output of the block for generating signals for reading database records is the second synchronizing output a workstation designed to issue control signals to the input of the second channel of the database server interruption, and a data output unit, the information output of which is the information output of an automated workstation designed to issue the requested data, characterized in that it contains a selection block for the base address of the records in the server database, the first and second address inputs of which are connected to the first and second information outputs of the block for receiving user requests but, the first and second synchronizing inputs of the selection block of the base address of records in the server database are connected to the first and second synchronizing outputs of the block of receiving user requests, respectively, while one information output of the selection block of the base address of records in the server database is connected to the information input of the signal generation block reading database records, and one synchronizing output of the selection block of the base address of the records in the server database is connected to the first synchronizing input a unit for generating signals for reading database records, a unit for identifying server database records, the first information input of which is the second information input of the workstation for receiving server database records, the second and third information inputs of the server database record identification unit are connected to the third and the fourth information outputs of the block for receiving user requests, respectively, the first clock input of the database record identification block is given server is the second synchronizing input of the workstation designed to receive synchronizing signals for entering database records into the identification block of the server database records, the control input of the server database record identification block is connected to the first control output of the user request receiving block, while the information output of the block identifying server database records connected to the first information input of the data output unit, the first synchronizing output b The server database record identification window is connected to the counting input of the database record reading signal generation block, and the second clock output of the server database record identification block is connected to the first clock input of the data output block, the third clock output of the server database record identification block is connected to the first installation the input of the block for receiving user requests and with the second installation input of the block for generating signals for reading database records, the identifier block the number of cycles for reading the records of the database, the information input of which is connected to the second information output of the selection block of the base address of the records in the server database, the first synchronizing input of the identification unit for the number of cycles of reading the records of the database is connected to the second synchronizing output of the selection block of the base address of records in the database server, the second synchronizing input of the identification unit of the number of read cycles of database records is connected to the fourth synchronizing output of the ide block the server database records, and the third synchronizing input of the unit for identifying the number of read cycles of the database records is connected to the fifth synchronizing output of the unit for identifying the database records of the server, while the first output of the unit for identifying the number of read cycles of database records is connected to the subtracting input of the read signal generating unit database records and with the second installation input of the server database record identification block, the selection block of the time boundaries of the selection of data records the input of which is connected to the second output of the identification block for the number of read cycles of database records, the first output of the selection block for the time limits of the selection of data records is connected to the subtracting input of the block for receiving user requests and to the third installation input of the identification block for server database records, the second output of the temporary selection block the boundaries of the selection of data records is connected to the third clock input of the data output unit, and the third output of the selection block of the time boundaries of the selection of data records the first installation input of the unit for generating read signals of database records, the second installation input of the unit for receiving user requests, the third subtracting input of the unit for identifying the number of cycles for reading database records and the first installation input of the unit for identifying server database records, unit for determining the depth of data sampling, the first and second control inputs of which are the first and second control inputs of the workstation, designed to receive signals data sampling, the third control input is connected to the second control output of the user request receiving unit, the first synchronizing input of the data sampling depth determining unit is connected to the second synchronizing input of the workstation, the second synchronizing input of the data sampling depth determining unit is connected to the second output of the number of cycles identification block reading database records, and the installation input of the block for determining the depth of data sampling is connected to the third output of the block selection of time boundaries of the selection of data records, while the first output of the unit for determining the depth of the data sample is connected to the second synchronizing input of the unit for identifying the database records of the server and with the second subtracting input of the unit for identifying the number of read cycles of database records, and the second output of the unit for determining the depth of data sampling is connected to the first subtracting input of the identification unit of the number of read cycles of database records, the installation input of which is connected to the installation output of the data output unit and the accumulating analytic data summing unit, the first synchronizing input of which is connected to the second output of the data sampling depth determination unit, the second synchronizing input of the accumulating analytical data summing unit is connected to the fourth synchronizing output of the server database record identification unit, the third synchronizing input of the accumulating analytical data summing unit connected to the third output of the selection block of the time boundaries of the selection of data records, and the fourth sync the analyzing input of the accumulating analytic data accumulation unit is connected to the second output of the identification unit of the number of read cycles of the database records, while one information output of the accumulating analytical data accumulating unit is connected to the second information input of the data output unit, the other information output of the accumulating analytical data accumulating unit is connected to the third the information input of the data output unit, and the synchronizing output of the accumulating accumulation unit is analytically FIR Data is coupled to a second input timing data output unit.