RU158700U1 - DEVICE FOR DEVELOPING METHODS FOR SOLVING MANAGEMENT PROBLEMS IN A PERSPECTIVE COMPLEX OF MILITARY AUTOMATION MEANS - Google Patents

Abstract

1. A device for the development of methods for solving control problems in a promising complex of military automation equipment, containing an input data block (BVD), a modeling block (BM), a control and monitoring unit (BUK) and a display and recording unit (BOR), and the control inputs are the outputs of the BUK are connected to the corresponding inputs-outputs of the BVD, BM and BOR units, the BVD outputs are connected to the BM input and the first BOR input, and the BM output is connected to the second BOR input, characterized in that it additionally contains a block for forming a priority list of control tasks (BFZ) , a block for forming a set of information situations (BFIS), a block for developing options for solving control problems (BRV), a block for forming methods for solving control problems (BFM), BVD includes a database on means of aerospace attack and means of aerospace defense (BD SVKN ), a database on the list of tasks for military automation systems (DB PZ), a database on characteristics and sources of information about the means of aerospace attack (DB KII), a database of functional dependencies of the subject area (DB ZPO), BM includes a block for evaluating the effectiveness of options for solving control problems (BOE), a block for processing simulation results (BORM), a block for choosing rational options methods for solving control problems (BVRV), and the output 5 of the BVD is connected to the input 3 of the BFZ, the output 4 of the BVD is connected to the input 3 of the BFIS, the output 3 of the BVD is connected to the input 4 of the BFZ, the output 1 of the BFZ is connected to the input 2 of the BFZ, the output 4 of the BFZ is connected to input 3 BOR, output 1 BFIS is connected to input 3 BRV, output 4 BFIS is connected to input 2 BOR, output 5 BRV is connected to the input�

Description

The device for developing methods for solving control problems in a promising complex of military automation equipment belongs to the class of regulating and controlling general-purpose systems and can be used in the design of software for a complex of military automation tools in the interest of developing methods for solving control problems in a promising complex of military automation equipment.

The known system [1], which includes an input data block (BVD), a modeling block (BM), a control and monitoring unit (BUC) and a display and registration unit (BOR), the control inputs and outputs of the BEC control and monitoring unit being connected to the corresponding inputs and outputs of the BVD, BM and BOR units, the BVD outputs are connected to the BM input and the first input of the BOR, and the BM output is connected to the second BOR input.

A disadvantage of the known system [1] is the impossibility of its use for the automated development of methods for solving control problems in a promising military automation system, due to the inability of this system to automatically generate a priority list of control tasks, the formation of many informational situations, the development of options for solving control problems, assessment the effectiveness of the developed options in various information situations, form vanie resulting aggregate of methods for solving management problems.

For these reasons, the known device [1] cannot be used for the automated development of methods for solving control problems in a promising range of military automation equipment.

The objective of the utility model is to eliminate the shortcomings of the known system [1], namely, increasing the level of automation in developing methods for solving control problems in a promising military automation system.

The technical result that provides the solution of the problem is automation in the development of methods for solving military tasks in a promising military-automation complex of processes for the formation of a priority list of military tasks, the formation of a multitude of information situations, the development of variants of methods for solving military problems, and the effectiveness of the developed options in various information situations , the formation of the resulting cumulative methods for solving management problems.

Achievement of the claimed technical result and, as a result, the solution of the problem is ensured by the fact that the device for developing methods for solving control problems in a promising military automation complex containing an input data block (BVD), a modeling block (BM), a control and monitoring unit (BUK ) and a display and registration unit (BOR), moreover, the control inputs and outputs of the BUK are connected to the corresponding inputs and outputs of the BVD, BM, and BOR blocks, the outputs of the BVD are connected to the BM input and the first input of the BOR, and the BM output is it is connected to the second input of the BOR, according to the utility model, it additionally contains a block for forming a priority list of control tasks (BFZ), a block for generating a set of information situations (BFIS), a block for developing variants of methods for solving control problems (BRV), a block for generating methods for solving control problems (BFM) ), The BVD includes a database of aerospace attack and aerospace defense (DBKN) databases, a database of the list of tasks of military automation systems (DB PZ), ba for data on the characteristics of sources of information on means of aerospace attack (DB HII), a database of functional dependencies of a subject domain (DB ZPO), BM includes a unit for evaluating the effectiveness of options for solving control problems (BOE), a block for processing simulation results (BORM), a block for the selection of rational options for solving control problems (BVRV), with the output 5 of the BVD connected to the input 3 of the BFZ, the output of 4 BVD connected to the input of 3 BFIS, the output of 3 BVD connected to the input of 4 BFV, the output of 1 BFZ connected to the input of 2 BFV, the output 4 bf 3 is connected to input 3 of the BOR, output 1 of the BFIS is connected to the input of 3 BRV, output 4 of the BFIS is connected to input 2 of the BOR, output 5 of BRV is connected to input 3 of the BM and to input 3 of the BFM, output 6 of BRV is connected to input 1 of BOR, output 2 BM is connected to input 4 of the BFM, output 2 of the BFM is connected to the input of 5 BOR, the control inputs and outputs of the BUK are additionally connected to the corresponding inputs and outputs of the BFZ, BFIS, BRV and BFM.

This, in turn, allows us to solve the problem, namely, to increase the level of automation when developing methods for solving control problems in a promising range of military automation equipment.

Graphic materials explaining the essence of the utility model are presented in FIG. one.

In FIG. 1 is a structural diagram of a device for developing methods for solving control problems in a promising range of military automation equipment.

In FIG. 1 adopted the following notation:

1 - input data block (BVD);

2 - modeling unit (BM);

3 - control and monitoring unit (BUK);

4 - display and registration unit (BOR);

5 - a database of aerospace attack and aerospace defense (DB SVKN);

6 - a database of the list of tasks of complexes of military automation equipment (DB PZ);

7 - a database on the characteristics of sources of information on means of aerospace attack (DB HII);

8 - database of functional dependencies of the subject area (DB ZPO);

9 - block forming a priority list of management tasks (BFZ);

10 - block the formation of many informational situations (BFIS);

11 - block development of options for methods for solving management problems (BRV);

12 is a unit for evaluating the effectiveness of options for solving management problems (BOE);

13 - block processing simulation results (BORM);

14 - block selection of rational options for solving management problems (BVRV);

15 - block forming methods for solving management problems (BFM). BVD (1) is intended for storage in relevant databases

information on aerospace attack means and aerospace defense means, on the list of tasks of military automation complexes, on the characteristics of information sources on aerospace attacks, on the functional dependencies of the subject area. BVD (1) includes:

a database of aerospace attack equipment and aerospace defense equipment (5), designed to store information about flight technical and trajectory characteristics of aerospace attack equipment and tactical and technical characteristics and combat capabilities of aerospace defense means;

a database of the list of tasks of complexes of military automation equipment (6), designed to store information about the composition of the tasks of controlling subordinate forces and means solved in complexes of military automation equipment, their operational and tactical essence and degree of importance, as well as new factors affecting on the management process, which should be taken into account in the methods of solving these problems;

a database on the characteristics of sources of information on aerospace attack equipment (7), designed to store information about the capabilities of sources to issue information on aerospace attack means. Such information includes data on the composition and characteristics of information issued by specific sources at the input of military automation systems;

a database of functional dependencies of the subject area (8), designed to store the calculated ratios and dependencies used in standard procedures for solving control problems in military automation systems.

Input-output 6 BVD (1) is connected to the control input-output 2 BUK (3). The outputs 1, 2, 3, 4, 5 BVD (1) are connected to the input 4 BM (2), input 4 BOR (4), input 4 BRV (11), input 3 BFIS (10), input 3 BRV (9) respectively.

BM (2) is intended for evaluating the effectiveness of options for solving management problems in various information situations, processing modeling results and choosing rational options for solving management problems. BM (2) includes:

a unit for evaluating the effectiveness of options for methods for solving control problems (12), designed to obtain estimates of the effectiveness of the developed options for methods in various information situations. The block is an imitation model of bilateral combat operations, the initial data for which is information from the database on aerospace attack and aerospace defense means (5), developed variants of methods for solving control problems for various information situations, and the result is the values of the efficiency indicator management;

a unit for processing simulation results (13), intended for automated accumulation and statistical processing of simulation results carried out in the unit for evaluating the effectiveness of options for solving management problems (12), and for obtaining the final values of the indicator of management efficiency;

a block for the selection of rational options for methods for solving management problems (14), designed to evaluate the obtained values of the indicator of management efficiency and for various information situations, options for solving methods of management problems corresponding to the largest value of the indicator of management efficiency.

The input-output 5 BM (2) is connected to the control input-output 2 of the ACU (3), the input 4 of the BM (2) is connected to the output 1 of the air supply unit (1), the input 3 of the BM (2) is connected to the output 5 of the air supply unit (11). The outputs 1, 2 BM (2) are connected to input 6 of the BOR (4) and input 4 of the BFM (15), respectively.

BUK (3) is intended for the automated generation of control actions at the operator’s command to turn the device on, input the necessary input data, adjust intermediate results, followed by the automatic generation of control actions on the corresponding blocks in the interest of initiating their work, as well as displaying and monitoring the results obtained according to the results of the device. Inputs-outputs 1 and 2 of the ACU (3) are connected to the input / output 6 of the air supply unit (1), the input-output of 5 BM (2), the input-output 7 of the BOR (4), the input-output 2 of the BFZ (9), the input- output 2 BFIS (10), input-output 1 BRV (11) and input-output 1 BFM (15).

BOR (4) is designed to display and record the results obtained during the operation of the device and during the adjustment of intermediate results, in accordance with the input data. Input-output 7 BOR (4) is connected to the control input-output 1 BUK (3). Inputs 6, 5, 4, 3, 2, 1 of BOR (4) are connected to output 1 BM (2), output 2 BFM (15), output 2 BVD (1), output 4 BFZ (9), output 4 BFIS ( 10) and exit 6 of the airborne propulsion system (11), respectively.

BFZ (9) is intended to form a list of management tasks whose solution methods require development (improvement) in priority order. The essence of the unit’s work lies in the automated ordering of the list of tasks of a complex of military automation equipment by the degree to which, in existing methods for solving them, new factors affecting the management process carried out using information on the operational-tactical essence and the degree of importance of these tasks coming from the database the list of tasks of complexes of military automation equipment (6). Input 3 of the BFZ (9) is connected to the output of 5 BVD (1), output 1 of the BFZ (9) is connected to the input of 2 BRV (11), output 4 of the BFZ (9) is connected to input 3 of the BOR (4), input-output 2 of the BFZ (9) is connected to the control input-output 2 of the ACU (3).

BFIS (10) is intended for the formation of many informational situations, which are a set of data on the composition and characteristics of information on aerospace attack facilities, which can be received at the input of a set of military automation equipment from various sources in the current control cycle. The essence of the unit is to automatically generate possible sets of information elements from the information of various sources in accordance with the logic of information exchange between a complex of military automation equipment and these sources. The input 3 of the BFIS (10) is connected to the output 4 of the BVI (1), the output 1 of the BFIS (10) is connected to the input 3 of the BFV (11), the output 4 of the BFIS (10) is connected to the input 2 of the BFIS (4), the input-output 2 of the BFIS (10), connected to the control input-output 2 of the ACU (3).

BRV (11) is intended for the automated development of variants of methods for solving control problems, which are ordered sets of calculation procedures that provide the required solution to the problem based on the initial data on possible information situations using the functional dependencies of the subject area. The essence of the work of the block lies in the sequential, for each task under consideration, automated search and decomposition of analog tasks into standard procedures, the search or development of the required procedures and the formation of a variant of the method by organizing these procedures in the required sequence. Input 4 BRV (11) is connected to the output 3 BVD (1), input 3 BRV (11) is connected to the output 1 BFIS (10), input 2 BRV (11) is connected to the output 1 BFZ (9), output 5 BRV (11) ) is connected to the input 3 BM (12) and the input 3 BFM (15), the output 6 BRV (11) is connected to the input 1 BOR (4), the input-output BRV 1 (11) is connected to the control input-output 2 BUK (3 )

BFM (15) is intended for the automated formation of the resulting methods for solving control problems, which are a structural combination of rational methods for various information situations and the procedure for selecting such options depending on the composition and characteristics of the input information. Input 3 of the BFM (15) is connected to the output of the 5 BRV (11), input 4 of the BFM (15) is connected to the output of 2 BM (14), output 2 of the BFM (15) is connected to input 5 of the BOR (4), input-output 1 of the BFM (15) is connected to the control input-output of the BUK (3).

Blocks BVD (1), BM (2), BUK (3), BOR (4), BFZ (9), BFIS (10), BRV (11) and BFM (15) are made in the form of software and hardware modules on the expansion board A personal computer with x86-type architecture installed on the design bench for military automation systems.

The device’s development of methods for solving control problems in a promising military automation system is as follows.

At the preliminary stage of the device’s operation, input / output 6 of the air defense unit (1) through the input / output 2 of the ACU (3), information is entered to fill in the relevant databases, namely, the database on aerospace attack equipment and aerospace defense equipment (5 ), a database on the list of tasks for military automation systems (6), a database on the characteristics of sources of information about aerospace attack equipment (7), a database of functional dependencies of the subject area (8). After that, in the BUK (3), the operator automatically generates a command to turn the device on and from the inputs and outputs 1 and 2 of the BUK (3) to the input-output 6 of the air supply unit (1), input-output of 5 BM (2), input - output 7 BOR (4), input-output 2 BFZ (9), input-output 2 BFIS (10), input-output 1 BRV (11) and input-output 1 BFM (15) control signal is transmitted to initiate their work . According to this signal, from output 5 of the BVD (1) to input 3 of the BFZ (9), information is provided on the composition of the tasks of controlling subordinate forces and means solved in military automation complexes, their operational and tactical essence and degree of importance, as well as on new factors affecting the management process, which should be taken into account in the methods of solving these problems. Based on this information, the block automatically organizes the list of tasks of the complex of military automation equipment by the degree of accounting (the degree of content of the required information) in existing methods for solving these factors. The result of the unit’s work is a list of control tasks for a complex of military automation equipment, the methods of solution of which require development (improvement) in priority order. The resulting list from output 1 of the BFZ (9) is fed to input 2 of the airborne propulsion system (11). The current results of the BFZ operation (9) from output 4 go to input 3 of BOR (4) for display, registration, and, if necessary, then from output 7 of BOR (4) go to input 1 of BUK (1) for adjustment.

At the same time, the signal from the output of the 4 BVD (1) to the input 3 of the BFIS (10) gives information on the possibilities of sources for transmitting data on aerospace attack equipment. This information is presented in the form of sets of information elements and their characteristics established by protocols of the functional interaction of information sources and military automation systems. In BFIS (10), these aggregates are automatically combined into a single set, its dimension is reduced by eliminating duplicate elements and the formation of new possible sets of information elements from the information of various sources in accordance with the logic of information exchange between a set of military automation equipment and these sources. The resulting sets of information elements and their characteristics constitute a multitude of information situations that can be formed at the input of a set of military automation equipment in the current control cycle. The generated set of informational situations from the output 1 of the BFIS (10) is fed to the input of 3 BRVs (11). The current results of the BFIS operation (10) from output 4 go to input 2 of the BOR (4) for display, registration, and, if necessary, then from output 7 of the BOR (4) go to input 1 of the BEC (1) for adjustment.

At the same time as a multitude of informational situations arriving at input 3 of airborne detachment (11) from output 1 of BFIS (10), a priority list of control tasks arriving at input 2 of airborne detachment (11) from output 1 of BFZ (8), and from output 3 of airframe (1) input 4 BRV (11) receives data on the calculated ratios and dependencies used in standard procedures for solving control problems in complexes of military automation equipment. In BRV (11), a sequential, for each considered problem and information situation, automated search and decomposition of analog tasks into standard procedures, search or development of the required procedures, and the formation of a method variant by organizing these procedures in the required sequence are carried out. The current results of the operation of the DBD (11) from the output 6 go to the input 1 of the BOR (4) for display, registration, and, if necessary, then from the output 7 of the BOR (4) go to the input 1 of the BUK (1) for adjustment.

The developed variants of methods for solving control problems for various information situations from the output of 5 radar detectors (11) go to the input of 3 BMs (2). At the entrance of 4 BM (2) from the output of 1 BVD (1), information is received about the flight technical and trajectory characteristics of airspace attack equipment and the tactical and technical characteristics and combat capabilities of airspace defense equipment. In the unit for evaluating the effectiveness of options for methods of solving control problems (12), simulation of bilateral combat operations is carried out, the result of which is the value of the indicator of management effectiveness for each pair "variant of the method of solving the control problem - information situation". The required number of implementations of the simulation model is set by the operator. The obtained values of the management efficiency indicator are used as initial data for the operation of the processing unit for processing simulation results (13).

In the block for processing simulation results (13), automated accumulation and statistical processing of the results of simulation modeling is carried out in the block for evaluating the effectiveness of options for solving management problems (12), and obtaining the final values of the indicator of management efficiency for each pair is “an option for solving a control problem - information situation". The obtained values are used as initial data for the operation of the block for choosing rational options for methods for solving control problems (14).

In the block for choosing rational options for methods of solving control problems (14), the obtained values of the indicator of management efficiency are evaluated, a choice is made for various information situations of variants of methods for solving management problems that correspond to the highest value of the indicator of management efficiency and the formation of pairs “information situation is a rational version of the method for solving the management problem ". The results obtained from the output of 2 BM (2) are transmitted to the input of 4 BFM (15).

Current operating results of BM (2) from output 1 go to input 6 of BOR (4) for display, registration, and, if necessary, then from output 7 of BOR (4) go to input 1 of BUK (1) for adjustment.

At the same time, formed variants of methods for solving control problems are transmitted to input 3 of the BFM (15) from the output of 5 BRV (11). In the BFM (15), the automated formation of the procedure for choosing rational options for solving management problems depending on the information situation that has arisen and the formation of the resulting methods for solving management problems, which are a structural combination of this procedure and rational variants of methods for various information situations, are carried out. Information on the formed methods for solving control problems from output 2 of the BFM (15) goes to input 5 of the BOR (4) for display, registration, and, if necessary, then from output 7 of the BFM (4) goes to input 1 of the BFM (1) for adjustment .

Information about the end of the formation of methods for solving the problems of control and registration of this fact from the output 7 of the BOR (4) is transmitted to the input-output 1 of the BUK (3). A control signal is generated in the BUK (3) to stop the operation of the BVD (1), BM (2), BOR (4), BFZ (9), BFIS (10), BRV (11) and BFM (15). This completes the operation of the device.

The utility model is made in the form of an operator's automated workstation, BVD (1), BM (2), BUK (3), BOR (4), BFZ (9), BFIS (10), BRV (11) and BFM (15) blocks made in the form of software and hardware modules on a PC expansion card with x86 type architecture.

The test results of the model showed an increase in the level of automation in the development of methods for solving control problems in a promising range of military automation equipment by 75-80%.

Sources taken into account in the preparation of the description and claims:

1. RU 134681, IPC: G06F 17/50, 2013.

2. Kuznetsov N.A., Kulba V.V., Kovalevsky S.S., Kosyachenko S.A. Methods of analysis and synthesis of modular information management systems. - M .: Fizmatlit, 2002.

Claims (7)

1. A device for developing methods for solving control problems in a promising military automation system, comprising an input data block (BVD), a modeling block (BM), a control and monitoring unit (BUK), and a display and registration unit (BOR), the control inputs being the outputs of the beech are connected to the corresponding inputs and outputs of the BVD, BM and BOR units, the outputs of the BVD are connected to the input of the BM and the first input of the BOR, and the output of the BM is connected to the second input of the BOR, characterized in that it further comprises a priority list forming unit control tasks (BFZ), a unit for the formation of many informational situations (BFIS), a block for the development of variants of methods for solving control problems (BRV), a block for the formation of methods for solving control problems (BFM), the BVD includes a database of aerospace attack means and airborne of space defense (DB SVKN), a database on the list of tasks of complexes of military automation equipment (DB PZ), a database on the characteristics of sources of information on means of aerospace attack (DB KhII), a database of functions national dependencies of the subject domain (DB ZPO), BM includes a unit for evaluating the effectiveness of options for methods for solving control problems (BOE), a unit for processing simulation results (BORM), a unit for choosing rational options for methods for solving control problems (BVRV), and output 5 of the BVD is connected to the input 3 BFZ, output 4 BFD is connected to input 3 of BFIS, output 3 of BVD is connected to input 4 of BFB, output 1 of BFZ is connected to input 2 of BFB, output 4 of BFZ is connected to input 3 of BOR, output 1 of BFIS is connected to input 3 of BFV, output 4 BFIS connected to input 2 of the BOR, output 5 BRV connected to the input 3 BM and input 3 BFM, output 6 BRV is connected to input 1 of BOR, output 2 BM is connected to input 4 of BFM, output 2 of BFM is connected to input 5 of BOR, the control inputs-outputs of the BUK are additionally connected to the corresponding inputs and outputs of BFZ, BFIS , BRV and BFM. 2. A device for developing methods for solving control problems in a promising military automation system complex according to claim 1, characterized in that the block for forming a priority list of control tasks is made in the form of a computing device that implements an algorithm according to the list of tasks of military automation systems complexes forming a priority list of management tasks with the ability to display and adjust the results of its work. 3. A device for developing methods for solving control problems in a promising military automation system complex according to claim 1, characterized in that the unit for generating a plurality of information situations is made in the form of a computing device that implements, according to the database, information on the characteristics of sources of information about aerospace attack equipment an algorithm for the formation of many informational situations with the ability to display and adjust the results of its work. 4. The device for developing methods for solving control problems in a promising military automation system complex according to claim 1, characterized in that the block for developing variants of methods for solving military tasks is made in the form of a computing device that implements, according to the information base of the functional dependencies of the subject area and the functioning results of the formation units priority list of management tasks and the formation of a multitude of information situations, the algorithm for developing options for solving methods of managing phenomenon capable of displaying and adjusting the results of its work. 5. A device for developing methods for solving control problems in a promising military automation equipment complex according to claim 1, characterized in that the modeling unit is made in the form of a computing device that implements, according to information from the database, aerospace attack and aerospace defense means, the results of the functioning of the development block of variants of methods for solving control problems; algorithms for evaluating the effectiveness of variants of methods for solving control problems and processing mod results elirovaniya and selection of rational options for solving management problems with the ability to display and adjust the results of their work. 6. A device for developing methods for solving control problems in a promising military automation equipment complex according to claim 1, characterized in that the block for generating methods for solving control problems is made in the form of a computing device that implements, based on the results of the modeling block and the block for developing variants of methods for solving control problems an algorithm for the formation of methods for solving control problems with the ability to display and adjust the results of its work. 7. A device for developing methods for solving control problems in a promising military automation system according to claim 1, characterized in that it is designed as an operator's automated workstation, BVD, BM, BUK, BOR, BFZ, BFIS, BRV and BFM blocks are made in the form of software and hardware modules on a PC expansion card with x86-type architecture.

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