RU174643U1 - AUTOMATED SYSTEM OF MONITORING OF RATIONALIZATION WORK (ACTIVITY) - Google Patents

Abstract

The utility model relates to computing, in particular to the management of rationalization work (activity). The goal is to increase the management of rationalization work (activity). The technical result is to increase the management of rationalization work (activity) by entering and scanning rationalization work (proposals) with the conclusion of the reporting information on the screen (scoreboard). The technical result is achieved by the fact that the system contains a module for receiving information by scanning data, a critical module range of base addresses of data, a module for generating base addresses of at-risk groups, a module for selecting data of specified parameters, a module for identifying base addresses of at-risk groups, a module for receiving information from the server database of a system at risk, a module for identifying criteria for basic addresses, an identification module data of the system server, a module for selecting criteria for base addresses, a module for receiving data records from a system server, a module for modifying addresses for reading data from a system server, an identifier parameterization of duplication of texts, a module for selecting typical data records, a module for selecting addresses of data records, a module for integrating recording signals for reading data and for displaying processed information on the screen.

Description

The utility model relates to computer technology, in particular to the management of rationalization work (activity).

An automated system for monitoring rationalization work (activity) is one of the priority areas in the management and improvement of rationalization activity in organizations (enterprises).

In the process of improving and creating an automated system for monitoring rationalization work (activity) between customers and performers, favorable conditions will be created for carrying out work and strengthening both innovative and partnerships.

The task is to increase the control and quality of the expert assessment during the audit and the objectivity of the selection of rationalization works (proposals).

The objective of the utility model is to increase the efficiency of management of rationalization work (activity).

The technical result is to increase the management of rationalization work (activity) by entering and scanning rationalization works (proposals) with the output of reporting information on the screen (scoreboard).

The technical result is achieved by the fact that the system contains a module for receiving information by scanning data, a module for criteria for basic data addresses, a module for generating base addresses for members of a risk group, a module for selecting data for specified parameters, a module for identifying base addresses for people at risk, a module for receiving information from a database data of the system server included in the risk group, module for identifying the criteria for base addresses, module for identifying data for the system server, module for selecting criteria for base addresses, a module for receiving data records from a system server, a module for modifying data read addresses from a system server, a module for identifying duplicate text parameters, a module for selecting typical data records, a module for selecting addresses for data records, a module for integrating signal read data records and displaying processed information on the screen.

When working with the specified automated system, the user is guided by the following rules:

quick receipt of information;

minimum amount of information used for identification;

processing algorithms should minimize identification time and probability of error;

should provide the user with a certain amount of memory, a convenient interface for its maintenance.

Known systems that could be used to solve the problem [patent for utility model No. 133634 from 04/12/2013].

The first of the known systems contains the first and second system units, comprising central processor units, the first includes unified workplaces connected to data reception and storage units, a search and selection unit connected to data storage and display units, the synchronizing inputs of which are connected with outputs of the control module, local area network, communications equipment and data communications.

A significant drawback of this system is its structural complexity.

A second system comprising a data input unit, a significance vector generation unit, a system configuration formalization unit, a distribution matrix generation unit, the input of which is connected to the outputs of the data processing units, and the outputs are connected to the input of the output output unit.

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

Its disadvantage is its low reliability, high-quality fakes are possible, and the disadvantages that will appear during the implementation process.

Known systems that could be used to solve the problem [patent for utility model No. 133634 from 04/12/2013].

The first of the known systems comprises 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.

A significant drawback of this system is its structural complexity.

A second system comprising a data processing unit, the information inputs of which are connected to data receiving units, and the outputs are connected to the first group of memory units, a central processor, the inputs of which are connected to the inputs of the memory units of the first group and data processing unit, and the outputs are connected to the inputs of the memory units the second group of the block display results.

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

Its disadvantage is its low reliability, high-quality fakes are possible, and gaps that will appear in the implementation process.

An automated system for monitoring rationalization work (activity) consists of the following blocks: general information block, technical and economic (financial) information block, organizational and managerial information block, analytical information block, summarizing unit and dynamics (graphic images) of rationalization work of the organization (enterprise) Moreover, the formation of the database occurs at the stages of planning, control and debriefing.

1. The following data is included in the general information block:

1.1 Thematic list of planned and ongoing work.

1.2 Planned forms of reporting documents.

1.3 Normative legal acts (information sources).

1.2 Code of work.

1.3 the name of the work.

1.4 purpose of the work.

1.5 the relevance of the work.

1.6 Characteristic and tasks of work.

1.7 Stages of implementation.

1.8 Author (co-authors) of the work.

1.9 Code (type, class, subclass ...) of classifiers.

1.10 work identification number;

1.11 Name of classification groups.

1.12 Analysis (evaluation, mathematical calculations) of rationalization work (activity).

1.13 Expected results (reported or used results).

2. The following data are included in the technical and economic information block of rationalization work to supplement block 1:

2.1 Analysis, evaluation and economic effect of rationalization work.

2.2 Deviations of estimates from indicators.

2.3 The similarity of the rationalization proposal with the thematic plan for duplication (plagiarism).

2.4 Deviation of the duration of the implementation of rationalization work from the average execution time of all work in a subclass, class and group.

2.5 Deviation from the complexity of the work from the average complexity of all work in a subclass, class and group.

The listed indicators should be determined for each group, class and subclass, the classifier of rationalization work (activity).

3. The block of organizational and managerial information of rationalization work in addition to blocks 1, 2 includes the following data:

3.1 Planning, monitoring and evaluating the effectiveness of rationalization proposals when summing up the results, inventories, audits, competitions, reviews.

3.2 Planning, control over the formation of a list of topics of rationalization proposals, the dynamics of their implementation and evaluation of the results.

3.3 Planning, monitoring the identification of similar and duplicate topics on rationalization proposals in order to identify plagiarism facts.

3.4 Evaluation and control over the design and support of the functioning of the reference and information system for registration, generalization, accounting, storage and analysis (evaluation) of rationalization works (proposals).

The listed indicators should be determined for each group, class and subclass, the classifier of rationalization work (activity).

4. The following data are included in the analytical unit of organizational and managerial information of rationalization work:

4.1 Initial data (codes) on the structure and forms of reporting information (forms, analytical reports, etc.) required when accounting and evaluating data of rationalization proposals;

4.2 Reporting documentation on rationalization work (activity).

4.3 Report on the relative deviations of the assessment and planning of the future economic effect in a subclass, class and group.

4.4 Report on topics of rationalization proposals with a thematic plan with a check for duplication (plagiarism).

4.5 Report on the duration of the implementation of rationalization work from the average time of completion of all work in a subclass, class and group.

4.6 Report on the complexity of the work from the average complexity of all work in a subclass, class and group.

4.7 Reports on the planning, control and evaluation of the effectiveness of rationalization proposals when summing up the results, competitions, reviews, inspections and other options.

4.8 Report on the formation of lists of topics on rationalization work (proposals).

4.9 Report on duplicate topics on rationalization proposals.

4.10 Report reference system of accounting, storage and analysis of rationalization proposals.

4.11 Reporting Protocols.

4.12 Reporting opinions of expert commissions (examinations).

The listed indicators should be determined for each group, class and subclass, the classifier of rationalization work (activity).

5. The following data is included in the unit for summarizing the dynamics of the rationalization work of the organization (enterprise):

5.1. Initial data on the structure and forms of reporting information (forms, analytical reports, etc.) required when accounting and evaluating these rationalization proposals:

5.2 Odds and indicators, economic (financial, mathematical).

5.3 Description of information processes (flows).

5.4 Analysis and evaluation of summarizing the best organization of rationalization work.

The goal is to improve the management of rationalization work (activity).

This goal is achieved by the fact that in a system containing a module for receiving information by scanning data, information and synchronizing inputs are information and synchronizing outputs from the system, information inputs of a module for receiving information by scanning data are designed to receive data from the output of an automated data reader, a synchronizing input the module for receiving information by scanning data is designed to receive synchronizing signals from the output automatically about data reading devices, information outputs of the system are information outputs of the system, the module for generating base addresses included in the risk group is designed to create objective information about rationalization work (activities) that are part of the risk group, information and synchronization inputs are information and synchronization outputs from the system, the information input of the module for generating base addresses of the risk group is intended for receiving data from the output of the module for receiving info by scanning data, the synchronizing input of the base address generation module of the risk group is designed to receive synchronizing signals from the output of the base data address criteria module, the data selection module of the specified parameters is intended for objective data on rationalization work (activity) when integrating data into the information receiving module by scanning data, information and synchronization inputs are information and synchronization inputs of the system, the identifier module of the base addresses of the risk group, information and synchronization inputs are information and synchronization outputs from the system, the information input is designed to receive data from the output of data reading from the server of the system included in the risk group according to the criteria, the synchronization input is designed to receive synchronization signals, the reception module information from the database of the server of the system included in the risk group is designed to evaluate the presented data, the input of the base address criteria identification module it is intended for the formation of information card index parameters of the knowledge base of fundamental and applied research, information and synchronization inputs are information and synchronization outputs from the system, the system server database identification module is designed to assess criticality and select, when integrating data into the selection module, typical data records, information and synchronization the inputs are informational and synchronizing outputs from the system, the informational input is intended for data collection from the output of the module for modifying data read addresses from the system server, the installation output is connected to the installation input of the data selection module of the specified parameters, when data is integrated into the information receiving module by scanning data, at the same time, a request is made from the system server database to the recording reception module database server system, information and synchronizing inputs of which are information and synchronizing outputs from the system, the information input is designed to receive and the data from the output of the system server database, the module for modifying the write and read addresses is intended for calculating and evaluating duplication of texts when they are identified with the database of the system server and the information card of the knowledge base of fundamental and applied research of the system with the integration of data and signals by displaying information on the screen , at the same time, information on plagiarism, coincidences, identity, similarity and duplication of texts, according to information is integrated, firstly, to the channel of the information receiving module by scanning data, and secondly, data is integrated onto the data recording address selection module with data integration to the information and to the synchronization input of the signal reading recording integration module of the data reading and reflection of the processed information to screen.

The invention is illustrated by drawings, where in FIG. 1 shows a general block diagram of a system; FIG. 2 is a structural diagram of a module for receiving information by scanning data; FIG. 3 is a block diagram of a module of criteria for base data addresses; FIG. 4 is a structural diagram of a module for generating base addresses of a risk group; FIG. 5 is a structural diagram of a data selection module of predetermined parameters; FIG. 6 is a structural diagram of a module for identifying base addresses of a risk group; FIG. 7 is a structural diagram of a module for receiving information from a server database of a system at risk; FIG. 8 is a structural diagram of a base address criteria identification module; FIG. 9 is a structural diagram of a system server data identification module; FIG. 10 is a block diagram of a base address criteria selection module; FIG. 11 is a block diagram of a system server database record receiving module; FIG. 12 is a structural diagram of a module for modifying data read addresses from a system server; FIG. 13 is a structural diagram of a module for identifying duplicate text parameters, FIG. 14 is a structural diagram of a module for selecting typical data records and a module for selecting addresses of data records, FIG. 15 is a structural diagram of a module for integrating signals for writing data reading and for displaying processed information on a screen.

The general block diagram consists of a module 1 for receiving information by scanning data, a module 2 for criteria for basic data addresses, a module 3 for generating basic addresses included in a risk group, a module 4 for selecting data of specified parameters, a module 5 for identifying base addresses included in a risk group, and a receiving module 6 information from the database of the server of the system included in the risk group, module 7 for identifying criteria for base addresses, module 8 for identifying data of the system server, module 9 for selecting criteria for base addresses, module 10 for receiving data records from the system server, module 11 for modifying data read addresses from the system server, module 12 for identifying duplicate text parameters, module 13 for selecting typical data records, module 14 for selecting addresses for data records, module 15 for integrating signal read data records and displaying processed information on the screen .

The drawing of page 1 also shows: 1, 3, 6, 8, 10 - information inputs of the system, 2, 4, 5, 7, 11 - synchronizing inputs of the system, as well as 14, 16, 17, 18, 19, 21 - information and 13, 15 and 20 synchronizing outputs of the system.

At the same time, the information inputs of the system 1, 3, 6, 8, 10 are designed to receive information requests from scientific texts, the input 3 of the system is designed to receive information from the database of the server of the system included in the risk group, the synchronizing input 5 of the system is designed to receive synchronizing signals requests for rationalization works (proposals) with data identification with the information file of the knowledge base of fundamental and applied research, and the synchronizing inputs of systems 2, 4, 7, 11 are designed to receive syn signals of the system database server, information outputs 16, 17, 18, 19 of the system are designed to provide data on the similarity of texts when checking the results of their execution on plagiarism when reading data from the system database server, information output 21 of the system is designed to issue a cipher (code ) reading the identified data of text files, the output 14 of the system is designed to provide the deviation parameters presented for data processing, and the synchronizing outputs of the system 13, 15 and 20 are designed to issue the control input to the channel interrupt channel of the system database server.

Module 1 (Fig. 2) contains a counter 70, elements 10, 20, 30, 40, controller 74, register 50, delay elements 25, 26. The drawing shows information input 1, synchronizing 2 and 41 address, as well as outputs 29 address , informational 23, 27 and 26 synchronizing.

Module 2 (Fig. 3) contains a permanent storage device (memory unit) 70, a decoder 60, a counter 80, elements 41, 42, 43, 44, a delay element 27 and 28. The figure shows 30 address, 24 information, 25 clock inputs systems, as well as 33, 32, 32.2, 61 information and 31 and 32.1 synchronizing system outputs.

Module 3 (Fig. 4) contains a register 90, a counter 81, a comparator 100, a read element 45, a delay element 29. The drawing shows the inputs of the system 50 and 28 information, 31 and 51 synchronizing and 54 address, as well as outputs 53, 14 and 16 informational, synchronizing 52.

Module 4 (Fig. 5) contains a counter 82, a read element 46, a comparator 46.1. The drawing shows the inputs of the system 34 and 36 information and 35, 38, 39 synchronizing, as well as information 40 and 13 synchronizing outputs of the system.

Module 5 (Fig. 6) contains a controller 75, a delay element 30. The drawing shows the inputs to the system 42 synchronizing and 46 address, as well as 48.1 information, 49 address and 48 synchronizing outputs.

Module 6 (Fig. 7) contains a counter 83, calculation elements 47, 48, 49, identifier 3, delay element 31. The drawing shows 3 and 6 information, 4 and 5 synchronizing system inputs, as well as 43 information, 57 address 44 and 55 clock outputs.

Module 7 (Fig. 8) contains a register 50.3, a decoder 50.2, elements 10.2, 20.2, 40.2. The drawing shows the information inputs 61 and 60, clock 58, as well as 62, 63 information and 64 clock outputs.

Module 8 (Fig. 9) contains a decoder 50.1, elements 10.1, 20.1, 30.1, 40.1, register 50.2. The drawing shows 8 information and 7 clock inputs, as well as 75 and 76 information and 74 clock outputs.

Module 9 (Fig. 10) contains a decoder 50.6, register 50.7, elements 10.4, 20.4, 30.5, 40.5, delay elements 36 and 37. The drawing shows 10 information and 11 clock inputs, as well as 100 and 105 information inputs and 104, 1.1 clock exits.

Module 10 (Fig. 11) contains a controller 70.1, a delay element 35. The drawing shows 77 and 101 information, 1.1 clock inputs, as well as 94 information and 95 clock outputs.

Module 11 (Fig. 12) contains a comparator 50.4, elements 10.3, 20.3, 30.3, 40.3, 51.3, delay element 32. The drawing shows 78 and 96 information and 79 clock inputs, as well as 81 and 91 information and 80, 65, 38 , 15 synchronizing system outputs.

Module 12 (Fig. 13) contains register 1, trigger “1”, read elements 1, 10.6, 11.6, 12.6, delay element 38 and 39. The figure shows 99 information, 97 and 98 synchronization inputs, as well as 93, 83 information and 92 sync outputs.

Module 13, 14 (Fig. 14) contains a decoder, counter, read elements 5.1, comparator 45.7, elements, delay elements 40, 41, 42, 42.1, an adder, 1.2 register, and a permanently stored device. The drawing shows 91, 66, information, 83 address, 65 and 90 clock inputs, as well as 67, 69, 70, 87, 88, 89 information, 17 address and 71, 71.1 clock outputs.

Module 15 (Fig. 15) contains a reading element 6.1, elements 120, 5.2, 5.3, 5.4, 5.5, 5.6, a comparator 50.5, delay elements 43 and 44. The drawing shows 88, 89, 70, 72, 73, 87 information and 71, 71.1 synchronizing inputs, as well as 19 and 18 information, address 21 and 20 synchronizing outputs.

We will consider the operation of this system using an example: it is filled in the system server database on various topics, categories, and criteria with the creation of a knowledge base information card.

The creation of this system will allow the processing of identical data and, when used, become one of the components for monitoring and identifying them, including compliance with and protection of copyright at the state level.

The automated system has a convenient interface that allows, in the shortest possible time, to freely check rationalization works (proposals).

When receiving information by scanning at the input 2 of module 1 of the system, a codogram is integrated having the following structure:

As a result of the interrogation of module 8, a codeogram is integrated at the system input 78, having the following structure:

This codogram from module 8 to the input 79 of the system is integrated into the information input of module 11, where it is entered by the synchronizing pulse from the output 74 of the system.

From the output 81 of the module 11, the code combination is integrated on the information input 83 of the module 13, 14 is fed to the input of the DH decoder.

The decoder DH module 13,14 decrypts the code combination and prepares the signal path from the input 66 of the module 13, opening one of the elements of the module 13,14 system. To determine, suppose that a high potential was received at one input of element 5.1 of module 13.14. In parallel with this, the synchronizing pulse from the input 65 of the system is integrated to the input 71 of the module 15, it is delayed by the element 42 while the codogram is entered into the module 15 and the DH decoder is activated, and then it polls the state of the elements 5.1, “0”, “1”.

Considering the fact that only one element will be open at one input, the clock pulse is integrated into the read input of a fixed memory cell through a register into a read-only memory (ROM), where the reference address code of the database of the “risk group” of registries with the same database is stored a combination.

The structure of the codogram stored in a fixed memory cell of the ROM has the following form:

The code of the reference address of the database of the “risk group” of the number of records with identification numbers for the database from the memory block is read to the output of module 69 of 13.14 and then through the input 72 of module 15 it is integrated to the information input of the counter, and the code of the number of records is read to the output of 93 module 12 and further through the input 91 of the module 13.14 is integrated into the information input of the register of the module 14.

In parallel with this process, the same pulse is read from the output of element 5.1 of module 14, is delayed by the delay element 40 for the duration of reading the contents of a fixed ROM cell, and then it is integrated from output 87 to the clock input 87 of the counter of module 15 and the clock input 90 of the register of module 13.14, fixing in them the corresponding read codes.

The address code from the output of the counter of the module 13.14 is issued to the input 88 of the module 15 and then issued to the first address output 21 of the system.

Simultaneously with entering the code of the reference address of the database “risk group” of the number of records with identification numbers on the database, the synchronizing pulse from the water 79 of module 11 is integrated to the input 65 of module 13, it is delayed by the Z41 element for the time the address code is entered into the counter, through the register and then through the output 70 of the system is issued to the input of the first channel of the interruption of the database server.

By this signal, the server goes to the subroutine for reading the contents of the database cell “risk group” of the number of records with identification numbers by DB at the address indicated on the output, issuing the first record of the database “risk group” of the number of records with indication of identification numbers in the database for information input 88 of module 15 with a synchronizing pulse coming from the server to input 90 of module 13.14.

The codogram of the first record of the “risk group” database of the number of records with identification numbers for the database at the input 73 of module 15 of the system has the following structure:

Thus, in module 15 there will be all the attributes of similarity of the texts included in the risk group of the criteria, and in module 1 by this point in time all attributes of the text undergoing identification will already be located.

The identification data from the output 1 of module 1 is integrated into the information input 30 of module 2, and the identification number code is integrated from the output 57 of module 6 to another information input of module 7.

In parallel with this process, the synchronizing pulse from the output 44 is integrated into the synchronizing input 42 of the module 5 through the comparator 75.

According to this clock pulse, the comparator compares the input codes and, if the attributes do not match, the signal 49 of module 5 appears, which is integrated into the input 50 of module 3, to the counting input of the counter 81 of module 3, which counts the number of records in the system database.

The same clock pulse is delayed by element Z29 of module 3 for the time counter 81 is activated and then integrated into the synchronizing input of comparator 46.1, where the code for the number of entries in the database of the “risk group” of military personnel is supplied from the output of register 90, and the code for the number of records viewed from output counter 81 module 3.

If the number of scanned records recorded by the counter 81 of module 3 is less than the number of records of the database of the “risk group” of texts, then an impulse appears at the output 52 of module 3. This pulse through the input 38 of module 4 is supplied to the counting input of the counter 70 of module 1, increasing by one the reference address of the server database, which from the output 26 of module 1 is integrated into the address input of the counter 80 of module 2.

In addition, the same pulse is integrated into the input 90 of the module 14, the element is delayed by the element Z 41 through the register, and then through the output 71 of the system is issued to the input of the first channel of the database server interrupt.

The described process of reading the attributes of records with the parameters included in the “risk group” of texts will continue until all records on the registries of the database of the “risk group” of the number of records with identification numbers by database are reviewed. This fact will be recorded by the comparator 75 of module 5 with a signal output 48.1.

From the output 48.1 of module 5, the signal is integrated to the input 54 of module 3, to element 45 and then integrated to the installation input of the counter 82 of module 4, is reset, and through output 32 of module 3 is integrated to input 34 of module 4 with subsequent transmission to modules 1 , 2.7 and 15.

If the fact of equality of input codes is recorded in module 3, this will indicate that the provided data belong to the “risk group” with identification numbers by DB, output 14 will display a signal and a panel at the automated workstation for controlling the similarity (duplication) of texts when checking the results of their performance on plagiarism, “IDENTIFIED: INTEREST, DIGITAL, QUANTITATIVE RELATIONSHIP OF SIMILARITY OR MATTERS IS NOT DETECTED / OR”.

In addition, the signal from the output 53 of module 3 is integrated to the input 36 of module 4 and to element 46, then through the output 40 of module 4 it is integrated into the installation modules 1,2 and 3.

If the signal as a result of checking the database of the “risk group” of the number of records indicating the identification numbers for the database is not related to the registry, then it is automatically included in the register of users of the electronic card index of the database of basic and applied research, and the signal is integrated into the addresses of the codograms. The documentation procedure is implemented as described in the early case.

After designation and selection, this system is ready to output the final data to the central database of the system.

For this purpose, the input of module 11 of the system 9 consistently serves codes of the following data attributes:

We consider the operation of the system using the example of documenting data with the first sign code 01.

The code of the first feature from the output 11 of the system is entered into the register 50.7 of the module 9 with a synchronizing pulse supplied to the input 98 of the module 12 of the system. From the output 90 of the module 12, the code is supplied with a pulse from the input 11 of the system, delayed by the element Z36, while the attribute code is entered into the register 50.7 and the decoder 50.6 is activated.

The synchronizing pulse from element 30.5 and from the output 104 of module 9 is integrated to input 98 of module 12, through element 10.6 it is integrated to the trigger input, setting to a single state in which high potential from the first output opens group elements 11.6 on the other input, thereby connecting the output adder 12.6 to exit 93.

As a result, the identification number of the last record stored in the adder 12.6 from the output 93 of the module 12 is integrated to the input 91 of the module 14 through the decoder and then to the address input 72 of the module 15 and the system output 19.

The clock pulse from the input 104 of the module 9 is delayed by the element Z37 and is integrated to the input 98 of the module 12 for the duration of the trigger 1 of the module 12 and through the element 10.6 is output to the output 92 of the module 12, then it goes to the input 90 of the module 14, the element 5.1 and is output to 71.1 module 14 as a data read control signal. From the output 71.1 of the module 14 of the system, the signal is integrated into the input of the third channel of the interruption of the database server.

By this signal, the server switches to the subroutine for reading the contents of the database cell at the address specified at input 88 of module 14 and issuing the first database record.

In addition, the synchronizing pulse from the output of element 90 through the register is delayed by element Z42 for the duration of reading data from the database and is held by the delay element Z41, is integrated into the stable input of the adder, resetting it to its original state, the pulse is integrated into the subtracting input of the reverse counter, reducing its readings per unit.

The pulse is delayed by the Z42 element for the response time of the reversible counter and is integrated into the synchronizing input of the comparator 45.7.

The comparator 45.7 compares the readings of the reverse counter with a zero code supplied to its other input, and while the readings of the counter are greater than the zero code, the comparator 45.7 generates a signal at the output, which sums the reference address code with the readings of the reverse counter by one and gives the final address through storage device to address 18 system output.

The same pulse is delayed by the delay element Z42 for the operation time of the adder, element 5.1, through the comparator, is output to the output 71 of the module 14, to the input of the module 15 and the element 120 and is issued to the input 19 as the next control signal for reading data.

By this signal, the server again switches to a program for reading the contents of the database cell at the address indicated on the output and issuing the next database record to the display and printing facilities.

In addition, the synchronizing pulse from the output of element 90 is again delayed by element Z41 for the duration of reading data from the database and, firstly, again through the element it is integrated into the stable input of the adder, resetting it to its original state.

Secondly, it is again integrated into the subtracting input of the reversible counter, reducing its readings by one.

And thirdly, it is delayed by the Z42 element for the duration of the operation of the reversible counter and is integrated into the synchronizing input of the comparator 45.7.

The comparator again compares the readings of the reverse counter with the zero code supplied to the other input, and while the readings of the counter are greater than the zero code, a signal is generated at the output of the comparator 45.7, which is integrated into the synchronizing input of the adder, which sums the reference address code with the readings of the reverse counter and gives the final address to the address 20 system output.

The described process of reading information from the database of participants continues until the comparator 45.7 records the fact that the readings of the reversible counter are equal to zero, indicating that all the lines of the database data record about the military personnel have been sent to the display and printing facilities.

This fact will be confirmed by issuing a pulse to the comparator 45.7, which is integrated into the stable inputs of the reversing counter, adder and trigger 1.

The system works in a similar way when issuing documented data with other qualifications.

Thus, the introduction of an automated system in the practice of work will significantly increase control over rationalization work (activity).

Claims (1)

An automated system for monitoring rationalization work-activity, containing a module for receiving information by scanning data, information and synchronizing inputs are information and synchronizing outputs from the system, information inputs of a module for receiving information by scanning data are designed to receive data from the output of an automated data reader, synchronizing the input of a module receiving information by scanning data is designed to receive synchronizing signals All the information from the output of the automated data reader, the information outputs of the system are the information outputs of the system, the module for generating base addresses included in the risk group is designed to create objective information about rationalization work-activities that are part of the risk group, the information and synchronization inputs are information and synchronization outputs from systems, the information input of the base address formation module of the risk group is designed to receive data from the output of the module for receiving information by scanning data, the synchronizing input of the module for generating base addresses of the risk group is designed to receive synchronizing signals from the output of the module for criteria of basic data addresses, the module for selecting data of specified parameters is intended for objective data on rationalization work-activity during data integration to the information receiving module by scanning data, information and synchronization inputs are information and synchronization inputs systems, the identification module of base addresses of the risk group, information and synchronization inputs are information and synchronization outputs from the system, the information input is designed to receive data from the output of data reading from the server of the system included in the risk group according to the criteria, the synchronization input is designed to receive synchronization signals, the module for receiving information from the database of the server system included in the risk group is designed to evaluate the presented data, the input of the identifier module of criteria for base addresses is intended for the formation of parameters of the information card index of the knowledge base of fundamental and applied research, information and synchronization inputs are information and synchronization outputs from the system, the system server database identification module is used to assess the criticality and select, when integrating data into the selection module, typical data records , information and synchronization inputs are information and synchronization outputs from the system, information This input is intended for receiving data from the output of the module for modifying data read addresses from the system server, the installation output is connected to the installation input of the data selection module of the specified parameters, when integrating data into the information receiving module by scanning data, at the same time, a request is made from the system server database to the module for receiving records of the database of the server of the system, the information and synchronizing inputs of which are information and synchronizing outputs from the system, information the input is intended for receiving data from the output of the system server database, the data recording and reading address modification module is used to calculate and evaluate duplication of texts when they are identified with the system server database and information card index of the knowledge base of fundamental and applied research of the system with the integration of data and signals information is displayed on the screen, at the same time, information on plagiarism, coincidence, identity, similarity and duplication is received modulo selection of typical data records texts, according to a synchronizing pulse, information is integrated, firstly, on the channel of the information receiving module by scanning data, and secondly, the data is integrated on the data recording address selection module with data integration on the information and on the synchronization input of the data read recording write signal integration module and reflection of the processed information on the screen.

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