RU133634U1 - AUTOMATED SYSTEM OF ACCOUNTING, STORAGE OF TOPICS AND THE RESULTS OBTAINED IN THE PERFORMANCE OF SCIENTIFIC RESEARCH - Google Patents

Abstract

An automated system for recording, storing topics and obtained results when performing scientific research, consisting of a module of base addresses of research and development activities, the address input is the first address entrance to the system and is designed to provide an address for reading data on research and experimental design work, and the installation output of the base addresses module of the research and development works is connected to the installation input of the data selection module parameters, while the module for selecting data of specified parameters is designed to determine the data received from the database server of the system, with subsequent integration of data into the module for generating base addresses of research and development works, the module for selecting data for given parameters has information, timing, synchronizing, address inputs of the system, as well as information outputs designed to integrate data into the module for identifying base addresses of research and experience of design work, at the same time a request is made from the system server database to the system server database record receiving module for reading data from the database from the system database server, this module has information and synchronization inputs, as well as information and synchronization outputs intended for integrating data from the system database server and integrating data into the module for selecting base addresses of research and development from the system database server, data from the mod

Description

The utility model relates to computer technology, in particular, to a generalized system for collecting, recording, recording and storing data on research and development work.

The purpose of the utility model is to increase the speed of the system due to the formation of the base address by entering data on research and development activities, which are divided into two blocks: the general information block and the technical and economic information block.

The technical result is to increase the speed of the system by localizing the addresses of the database records of the server system by entering and scanning data on research and development work with the output of reporting information on the screen (scoreboard).

The technical result is achieved by the fact that the system contains a module of base addresses for research and development, a module for selecting data of given parameters, a module for generating base addresses for research and development, a module for identifying base addresses for research and development works, a module for receiving system server database records, a module for selecting base addresses for research and development from a database server s systems, analogue identification module, scientific research report generation module with reporting information on the screen (display).

Known systems that could be used to solve the problem [9].

The first of the known systems contains the first and second system units incorporating central processor modules, the first one includes unified workstations connected to data storage and display units, a local computer network, and communications and data communications equipment.

A significant drawback of this system is its structural complexity.

The second one contains: - a data input unit, a significance vector generation unit, a system configuration formalization unit, an input distribution matrix forming unit connected to the outputs of the data processing units, and outputs connected to the input of the output unit [9].

The processes of interaction and exchange of information between the modules and the synchronization of pulses during the interaction of the reading devices of the blocks allow to obtain the initial information, which is integrated into the module for receiving records of the system server database and displaying the processed information on the screen, sound device, automatic mechanism.

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 data selection procedure necessary to obtain an assessment of the effectiveness of the work is carried out by searching for data throughout the system server database and their subsequent processing by the central processor, which, with large amounts of data, will inevitably lead to a large investment of time, as well as the fact that in the specified technical solution the lack of accounting for the implementation of research and development works leads to low effective efficiency of using this system [1, 6, 7, 9, 11].

The following information is included in the general information block:

sales options for special products;

work code;

job title;

purpose of the work;

tasks of work;

classifier code;

job identification number;

the name of the classification group, class and subclass, which includes the work;

customer work;

Key Expected Results.

The following data are included in the technical and economic information block of research or development work:

cost of work;

relative deviation of the cost of work from the average value of the cost of work in a subclass, class and group;

duration of work;

the relative deviation of the duration of the work from the average time of all work in the subclass, class and group;

the relative deviation of 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 of the classifier of research and development work.

A distinctive feature from the analogue “Automated system for evaluating the effectiveness of research and development work” is that the system under consideration records, stores topics and the results obtained when performing research by entering or scanning technical, financial, economic information [9 ].

This goal is achieved in that the system contains a module of base addresses for research and development, the address input is the first address input to the system and is designed to provide an address for reading data on research and development, and the installation output of the base module addresses of research and development work is connected to the installation input of the data selection module of the given parameters, while the data selection module of the given parameters is pre Designed to determine the data received from the system database server, with subsequent integration of data into the module for generating base addresses of research and development, the data selection module for the specified parameters has information, timing, synchronization, address system inputs, as well as information outputs, designed to integrate data on the base address identification module of research and development work, a request from the database simultaneously occurs the system server to the module for receiving database server database records for reading data from the database from the system database server, this module has information and synchronization inputs, as well as information and synchronization outputs designed to integrate data from the system database server and integrate data onto the module selection of base addresses of research and development work from the database server of the system, data from the module for generating addresses of research and development their works are integrated into the input of the analogue identification module, this module has informational and synchronizing inputs, as well as informational, synchronizing outputs designed to integrate data from the system database server and integrate data to the system output, base address module for research and development works, in the module for receiving records of the system server database, when integrating data on the synchronizing input of the divider and on one information input of the module for generating a report of scientific research studies with the output of reporting information on the screen (scoreboard), the processes of interaction and exchange of information between modules and the synchronization of pulses during the interaction of reading devices, blocks allows the end result to receive initial information that is integrated into the module for receiving records of the database server system with the output of reporting information to screen (scoreboard).

The essence of the utility model is illustrated by the drawings, where on page 17 (Figure 1) the general structural diagram of the system is presented, on page 18 (Figure 2) is a structural diagram of the base address module of research and development, on page 19 (Figure 3) is a structural diagram of a module for selecting data of given parameters, on page 20 (Figure 4) is a structural diagram of a module for generating base addresses of research and development works, on page 21 (Figure 5) is a structural scheme of the module for identification of base addresses of research and experimental design work, on page 22 (Fig. 6) is a structural diagram of a module for receiving records of a system server database, on page 23 (Fig. 7) is a structural diagram of a module for selecting base addresses of research and development from a base server system data, on page 24 (Fig. 8) is a structural diagram of an analog identification module, a research report generation module with reporting information displayed on the screen (display), on page 25 is a structural diagram of the accounting of research and developmental works .

The general block diagram (p. 17) contains module 1 of the base addresses of research and development activities, module 2 of selection of data of given parameters, module 3 of the formation of base addresses of research and development, module 4 of identification of base addresses of research and development research and development work, module 5 for receiving records of a system server database, module 6 for selecting base addresses of research and development work from a system database server, module 7 identifying an analogue, module 8 for generating a report of a scientific research with the output of reporting information on the screen (scoreboard).

On page 17 information inputs are shown - 1, 2, 4, 4.1 systems, and three - 3, 5, 1.1 synchronizing system inputs, as well as system address outputs: - 10, 11, 12, 14, 25; informational - 50, synchronizing - 51, 13.

At the same time, 1 and 4.1 information 1 system inputs are designed to receive requests for incoming information on the types of work, economic, financial, technical indicators, time and date, as well as the planned cost, input 2 of the system is designed to receive records of read addresses of the system server’s database, synchronizing input 3 of the system is designed to receive synchronization signals of making requests for assessment by type of planned work with reflection of deviations from the fixed amount, and the synchronizing inputs of system 5 and 1.1 are intended For receiving synchronizing signals from the database server of the system, the address output of the system 10 is intended for issuing the addresses for reading data to the address input of the database server, the address output of the system 11 is designed for issuing a cipher (code) for reading data at the address input of the database server, address output of the system 12 is intended for outputting deviation parameters to the input of the database server, the address output of the system 14 is designed to read the transcripts to the calculation items of expenses for the address input of the database server, the address output of the system 25 is intended for issuing a cipher (code) for reading data to the address input of the database server, the information output of the system 50 is intended for issuing reporting information to the screen (display), and the synchronizing outputs of the system 51 and 13 are intended for issuing control signals to the input of the first channel interrupt system database server.

Module 1 (Figure 2) contains a register 10, a decoder 20, a memory unit 30 made in the form of an automatic memory device, elements 22 - 22.3 and delay elements 31 - 32, as well as a counter 21. The figure shows information 1, 4.1, 18 address 2, synchronizing 3 inputs, as well as the first 8, second 7, third 6, fourth 4.2 information and synchronizing 9 and 28 outputs.

Module 2 (Figure 3) contains a counter 21.1, elements 23.1, 23.2, 1 (square), 2 (f) and a delay element 33. The drawing shows information 17, 4.2, synchronizing 9, first 8, second 24 clocking, address 20, inputs, as well as address 10, 11, 12, 14, 25, information 25.1 synchronizing 13 outputs.

Module 3 (Figure 4) contains elements E-10 to E-14, a comparator 40 and a delay element 34. The first 7, second 18 information and synchronization inputs 19 and 28, as well as the first 16, the second 17 address, are shown in the drawing, third 15 informational and synchronizing 29 outputs.

Module 4 (Figure 5) contains the register RG2, counter 24.3, elements 24.1, 24.2, delay element 35. The drawing shows information 6, 19 synchronizing 29, timing 16 inputs, as well as information 20, address 21 and 22, synchronizing 30 outputs .

Module 5 (Fig.6) is made in the form of a register having information 4 and synchronizing 5 inputs, as well as the first 2, second 26, third 18 information and synchronizing 27 outputs.

Module 6 (FIG. 7) contains an adder 70.3, an information element 70.1, an indexing element 70.6, a counter 70.4, and a comparator 70.2. The drawing shows 15 and 21 information, and synchronizing 30 inputs, as well as information 24, 23 and synchronizing 31 outputs.

Module 7 (Fig. 8) contains an adder 80, information elements 80.1, 80.2, 89.1, an indexing element 80.3, a counter 80.4 and a controller 80.5, a calculation element first 80.6, second 80.7, a decoder 80.8. The drawing shows the first 26, second 15, third 22, fourth 23, fifth 4.1 information, address 25 and synchronizing 27 and 31 inputs, as well as information 50 and synchronizing 51 outputs.

Before the system starts, the source information database is entered into the system server database: the planned price of work, the price of stages, production costs, the price of the product, financial ratios and time indicators, and also the technical characteristics of the planned product for development are taken into account.

To evaluate the information received from the contractor, a codogram is formed in the automated workplace of the system administrator, having the following form:

The code The code The code The code Type of work Research topic Dates The analogue of the study Output 8 register 10 Output 8 register 10 Output 7 register 10 Output 7 register 10

This codogram of requests goes to the input 1 of the system and then to the information input of the register 10 of module 1, into which the specified codogram is entered by a synchronizing pulse from the input 3 of the system.

The codogram 1 comes from the output 8 of the module 1 of the register 10 to the input of the module 2 of the selection of data of the given parameters.

The codogram 2 comes from the output 7 of module 1 of register 10 to the input of module 3.

The codogram 3 comes from the output 6 of module 1 of register 10 to the input of module 4 and to the input of module 6.

This codogram of requests from the output of the register 10 of module 1 is fed to the input of the decoder 20 of module 1 and the counter 21. In parallel with this, the synchronizing pulse from module 1 of the system of the output of register 10 is delayed by the elements 31 and 32 for the duration of the operation of the decoder 20, and then polls the states of the elements 22 - 22.3, only element 22 will be open at one input OR, after passing through this element, the clock pulse is integrated into the read input of a fixed memory cell of a read-only memory device 30, where the base address of the server memory zone is recorded , which stores all the records of research and development work.

The clock pulse from the output of the delay element 31 is delayed by the delay element 32 for the duration of reading the contents of the fixed ROM cell and then is integrated to the output 6 of module 1, from where to the input 17 of module 2, input 19 of module 3, input 16 of module 4.

The structure of the record in the memory cell is as follows:

The code The code The code The code 1 population for groups 2 set for groups 3 set for groups 4 population for groups

The contents of a fixed memory cell ROM 30 is read to the outputs 7, 8 and 9 of module 1, respectively. The number of entries in the ROM must correspond to the amount of data entered and is recorded in the register RG2 of module 4 with a synchronizing pulse from output 9 of module 1. The synchronizing pulse from output 9 of module 1 during reading the contents of a fixed cell of the ROM goes to output 13 of module 2, from where it comes as the input 19 of module 3, and to the synchronizing input 29 of module 4, input 6 of module 6, input 27 of module 7.

Input 16 of module 4 from output 16 of module 3 receives a code for the number of records of the tactical and technical assignment (research and development work), which is entered into RG2 by a synchronizing pulse from input 29.

From the output of the register 24.1, 24.2 of module 4, the code for the number of entries corresponds to the amount of information entered, it is issued both at outputs 21 and 20 of module 4, and at one information input 24.3. In parallel with this, the code of a given number for each basic information from the output 23 of the module 6 is issued to the input 23 of the module 7.

The code of the base address of the data memory zone from the input 23 of the module 7 is integrated into the information elements 80.1, 80.2, 89.1 and is entered by the synchronizing pulse supplied to the synchronizing input of the module 7.

From the output of counter 21 of module 1, the base address code is sent to the address input of the database server through the address output 6 of module 1, the synchronizing pulse from input 9 of module 2 passes OR element 23.1, 23.2, is delayed by delay element 33 for the duration of counter 21.1 operation, and then through the output 13 of module 2 is issued to the input of the first channel of the database server interrupt.

By this signal, the server switches to a subroutine for reading the contents of the memory cell, whose address is issued to the address output 2 of the system and writing its contents to module 1 from the information input of the system 18 using a clock pulse 1.1, which is input to the input 9 of module 2 of the system.

The first value, passing through the controller 60 of module 5, at the output 26 of module 5 will be equal to “A1; B2” or “B2, G4”, the number series is ranked by increasing number and identified with the system server database records.

This value of the code of the number of indicators from the output 27 of module 5 is integrated to the input of 27 modules 3, 4, 6 and then to one information input 4 of the comparator 60, to another information output 15 of module 3, 22 of module 4, 23 of module 6, in parallel with this at the input 17, 20, 24 of module 2.

The structure of the codogram is as follows:

The code The code The code general information block block of technical and economic information Actual Deviations

Comparator 60 compares the input values of the received information.

If the values of the indicators at the inputs of the comparator 60 of module 5 do not match, then it generates a signal at the output 26, which passes through the input 26 of module 7 through the counter 80.4 to element 70.3, increasing the base read address by one and forming the read address of the next database record. By this signal, the server again switches to the subroutine for reading the contents of the next memory cell, the address of which is issued to the address output 13 of module 2 of the system and writing its contents to module 5 from the information input of system 4 by the synchronizing pulse supplied to the output 27 of module 5 of the system. The process of data sampling and comparison by module 4.6 will continue until the comparator 60 fixes the equality of the input codes by generating a pulse at the output 27 of module 5, which is integrated into the synchronizing input 27 of module 7 to one information input 27 of module 3, the value of integrates to the information input 29 of module 4 and then integrates to the input 21 of module 6 and the clock pulse from the output 31 of module 6 to the input 31 of module 7, the clock pulse from the counter 70.4 of module 6, counts the number of scanned records in b se system server database 31 and output module 6 integrates to the count input 31 of the module 7 and further to decoder 7 of the module 80.8.

If the input codes differ, then the comparator 60 of module 5 generates a signal that from the output 20 of module 4 is fed to the input 24 of module 2, to the counting input of the counter 70.4 of module 6, increasing the base read address by one and forming the read address of the next database record .

In addition, the same synchronizing pulse from the output of element 23.2, 23.1 of module 2 passes through element 1 (square), 2 (f), is delayed by element 33 for the duration of counter 21.1 operation, and from the output of system 10 it is fed back to the input of the second channel database server interruptions. By this signal, the server again switches to the subroutine for reading the contents of the next memory cell, the address of which is issued to the address output 10 of the system and writing its contents to module 5 from the information input of the system 4 by the synchronizing pulse received at the input 5 of the system.

As soon as the comparator 60 of module 5 fixes the equality of the input codes, a signal is immediately generated at the output 26.

This signal is fed to the input 27 of module 7 and then to the synchronizing input of the divider 26 and 22, the final indicators from output 15 of module 3 are received at one information input 15 of module 7, identification information is received at another information input 23 of module 7 from output 22 of module 4 system server database records.

By the synchronizing pulse from the input 27 of module 7, the calculated element forms the cost of the initial price of the contract during research and development, as well as the minimum and maximum acceptable price value of the product or all work, which from the output 50 of module 7 reproduces information on screen (scoreboard).

Thus, the use of this system will increase the conduct of a comprehensive comprehensive economic assessment of the creation of scientific and technical products with a view to their feasibility, the effectiveness of implementation in industrial production.

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

1. Savitskaya G.V. Economic analysis. M .: New Knowledge LLC, 2007, pp. 88, 102-130, 130-178, 231-273.

2. Proceedings of young scientists 46 Central Research Institute, Ministry of Defense of the Russian Federation (publication date 06/29/2012, inv. No. 64993, pp. 132-149), ed. Sdobnov V.E. “Pricing and price audit of contracts for military products: problems and solutions”.

3. “Research on the methodological and technological foundations of building AISS on the use of price indices (deflator indices) by type of economic activity in forecasting and pricing products supplied under the state armament and state defense order program” Section No. 2, “Information Technologies” Report collection II All-Russian Scientific and Practical Conference of Young Scientists and Specialists February 2012, ed. V.E. Renewed.

4. “Methodological recommendations on the formation of the initial price of a state contract when placing a state defense order by holding tenders”, enforced by the Directive of the Minister of Defense of the Russian Federation dated January 28, 2008 No. 205/2/26 and an indication of the deputy chief of armaments of the Armed Forces of the Russian Federation Minister of Defense of the Russian Federation dated February 9, 2008 No. 331/1/206.

5. The decision to grant a patent for a utility model (under publication) by application No. 2012113121 of 04/05/2012 (prototype).

6. “Issues of contractual (contractual) relations and pricing for the supply of products (works, services) by state order” Collection of regulatory and methodological documents. Review of judicial practice. Issue 1, part 1-4, second edition. Ministry of Defense of the Russian Federation p. 11, 185, 333, 447, 454.

Claims (1)

An automated system for recording, storing topics and obtained results when performing scientific research, consisting of a module of base addresses of research and development activities, the address input is the first address entrance to the system and is designed to provide an address for reading data on research and experimental design work, and the installation output of the base addresses module of the research and development works is connected to the installation input of the data selection module parameters, while the module for selecting data of specified parameters is designed to determine the data received from the database server of the system, with subsequent integration of data into the module for generating base addresses of research and development works, the module for selecting data for given parameters has information, timing, synchronizing, address inputs of the system, as well as information outputs designed to integrate data into the module for identifying base addresses of research and experience of design work, at the same time a request is made from the system server database to the system server database record receiving module for reading data from the database from the system database server, this module has information and synchronization inputs, as well as information and synchronization outputs intended for integrating data from the system database server and integrating data into the module for selecting base addresses of research and development from the system database server, data from the mod For the formation of the addresses of research and development work, they are integrated into the input of the analog identification module, this module has information and synchronization inputs, as well as information and synchronization outputs, designed to integrate data from the system database server and integrate data to exit the module system divide the base addresses of research and development work in the module for receiving records of the system server database when integrating data into the synchronization input I and one information input of the research report generation module with the output of reporting information on the screen (scoreboard), the processes of interaction and exchange of information between the modules and the pulse synchronization during the interaction of reading devices, blocks allow you to get the initial information that is integrated into the receiving module system server database records with reporting information on the screen (scoreboard).

Images