RU194513U1 - A device for choosing a rational option for improving the automated control system for air defense connections - Google Patents

Abstract

The device belongs to the class of regulatory and control systems for general use and can be used to select optimal solutions for the modernization of the existing automated control system for air defense connections and the introduction of advanced military automation systems. The technical task and the result of developing a utility model is to increase the level of automation when choosing the optimal solutions for the modernization of the existing automated control system air defense and the introduction of promising military automation systems. The achievement of the claimed technical result is ensured by the fact that the device for choosing the rational option for improving the automated control system of the air defense connection, containing a display and registration unit, an input data block, a control and control unit, a modeling unit, additionally contains a database of aerospace attack and anti-aircraft weapons ear defense, block for the formation of many options for building an automated air defense connection control system, a comparison block, a block for choosing a rational option for improving the air defense connection automated control system and the formation of a plan for re-equipment of the air defense connection control system with advanced automation systems, the input data block includes a database according to the list of control points of the air defense connection, ase data on the list of tasks complexes of automation control items defense compounds, a database of relationships between items automated control defense compounds simulation unit comprises a judging unit efficiency improving embodiment automated control compound defense system, simulation results judging unit. 5 cp f-ly, 1 ill.

Description

The device for choosing the rational option for improving the automated control system for air defense connections belongs to the class of regulatory and control systems for general use and can be used to select optimal solutions for modernizing the existing automated control system for connecting air defense systems and introducing promising military automation systems.

The known system [1], which includes an input data block (BVD), a simulation 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, the outputs of the BVD, BM and BOR blocks, the BVD outputs are connected to the BM inputs and the first input of the BOR, and the BM output is connected to the second BOR input, additionally contains a block for forming a priority list of control tasks (BFZ), a block for the formation of many informational situations (BFIS), a block development of methodologies command and control solutions (BRV), a unit for the formation of control tasks (BFM), BVD includes a database of aerospace attacks and aerospace defense, a database of the list of tasks of military automation systems, a database of source characteristics information about the means of aerospace attack, the base of the functional dependencies of the subject area, BM includes a unit for evaluating the effectiveness of options for solving control problems, a processing unit for ultatov modeling, the block selection of rational options for methods of solving control problems, and the output of the database on the means of aerospace attack and the means of aerospace defense is connected to the input of the unit for evaluating the effectiveness of options for solving control problems, the output of the database on the list of tasks of complexes of military automation destination is connected to the entrance of the BFZ, the output of the database on the characteristics of the sources of information about the means of aerospace attack is connected to the entrance of the BFIS, in the course of the functional dependency base of the subject area is connected to the first input of the BDF, the first output of the BFZ is connected to the fourth input of the BFB, the second output of the BFZ is connected to the second input of the BFW, the second output of the BFIS is connected to the 4th input of the BFW, the first output The BRV is connected to the second input of the unit for evaluating the effectiveness of options for solving control problems and with the first input of the BFM, the second output of the BRV is connected to the 4th input of the BOR, the output of the unit for evaluating the effectiveness of options for solving methods of control is connected to the input of the block processing of simulation results, the output of the block for processing simulation results is connected to the input of the block for choosing rational options for solving control problems, the output of the block for choosing rational options for solving methods of control is connected to the second input of the BFM, the output of the BFM is connected to the third input of the BOR, the control inputs and outputs of the BCH are additionally connected to the corresponding inputs and outputs of the BFZ, BFIS, BRV and BFM.

A disadvantage of the known system [1] is the impossibility of its use for the automated selection of a rational option for improving the automated control system for air defense connections and the formation of a plan for re-equipment of an automated control system for air defense connections with promising complexes of automation, due to expert assessments in the decision-making process.

The objective of the utility model is to eliminate the shortcomings of the known system [1], namely, increasing the level of automation when choosing a rational option for improving the automated control system for air defense connections.

The technical result providing solution of the set task is to automate the choice of optimum solutions for upgrading an existing automated compound management defense system and implementation perspective complexes automation equipment for military use, forming a plurality of options for improving automated compound management defense system, evaluating the chosen options for improving the automated control system connection defense, the formation of the plan re automated air defense control system connections.

Achievement of the claimed technical result and, as a result, the solution of the problem is ensured by the fact that the device for choosing the rational option for improving the automated control system of the air defense connection, containing a display and registration unit (BOR), an input data block (BVD), a control and monitoring unit (BUC) ), a modeling unit (BM), moreover, the control inputs and outputs of the BUK are connected to the corresponding inputs and outputs of the BVD, BOR, BM, further comprises a block for the formation of many improving the automated control system for air defense connections (BFMV), a comparison unit (BS), a block for choosing a rational option for improving the automated control system for air defense connections and formulating a plan for re-equipping an automated control system for air defense connections with advanced automation systems (BVRVFPP), the input data block includes database on the list of control points of the air defense compound, base data on the list of tasks of complexes of automation equipment for control points of an air defense connection, a database on the relationship between automated control points of an air defense connection, BM additionally includes a database on means of aerospace attack and air defense equipment, a unit for assessing the effectiveness of the option to improve the automated control system of a connection air defense (BOEV), a block for processing simulation results (BORM), when than the control inputs and outputs of the ACU are connected to the inputs and outputs of the BS and BVRVFPP, the output of the air defense unit is connected to the 2 inputs of the BOR, the output of 1 BM is connected to the 3 inputs of the BOR, the database output from the list of control points for the connection of the air defense is connected to the 2 input of the BFMV, the output of the base data on the list of tasks of complexes of automation equipment for control points of an air defense connection is connected to 2 inputs of the BFMV, the output of the database for the relationship of automated control points of an air defense connection is connected to 2 inputs of the BFMV, output 3 BFMV is connected to 2 input of BM, output 2 of BFMV is connected to input 2 of BOR and input 2 of BS, output of BS is connected to 3 input of BM, output 1 of BM is connected to 3 input of BOR, output 2 of BM is connected to input 2 of BVRVFPP, output of BVRVFPP is connected to the 2nd entrance of the BOR.

This, in turn, allows us to solve the problem, namely, to increase the level of automation when choosing a rational option for improving the automated control system for air defense connections.

Graphic materials explaining the essence of the utility model are presented in FIG. 1.

In FIG. 1 shows a block diagram of a device for choosing a rational option for improving the automated control system for air defense connections.

In FIG. 1 adopted the following notation:

1 - display and registration unit (BOR);

2 - input data block (BVD);

3 - control and monitoring unit (BUK);

4 - modeling unit (BM);

5 is a block for the formation of many options for improving the automated control system for air defense connections (BFMV);

6 - comparison unit (BS);

7 - a database of the list of control points of the air defense units;

8 - a database of the list of tasks of complexes of means of automation of control points of the air defense connection;

9 - a database on the relationship between automated control points of an air defense connection;

10 - database of aerospace attack and air defense;

11 - unit for evaluating the effectiveness of the option to improve the automated control system of the air defense connections (BOEV);

12 - block processing simulation results (BORM);

13 - a block for choosing a rational option for improving the automated control system for air defense connections and the formation of a plan for re-equipment of the automated control system for air defense connections with advanced automation systems (BVRVFPP).

BOR (1) is intended 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. The input-output of the BVD (1) is connected to the first control input-output of the BUK (3). The second input is connected to the output of the BVD (2), the second output of the BFMV (5), the output of the BVRVFPP (13). The third input is connected to the first output of the BM (4), the output of the BS (6).

The BVD (2) is intended for storing information in the relevant databases on the list of control points of an air defense connection, the list of tasks of automation systems for control points of an air defense connection, the relationship between automated control points of an air defense connection. The input-output of the BVD (2) is connected to the control input-output of the BUK (3), the output of the BVD (2) is connected to the second input of the BOR (1).

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. The inputs-outputs of the BUK (3) are connected to the corresponding inputs and outputs of the BOR (1), BVD (2), BM (4), BFMV (5), BS (6), BVRVFPP (13).

BM (4) is designed to assess the effectiveness of options for improving the automated control system for air defense connections in various situations and to process simulation results. The first input-output of the BM (4) is connected to the fourth control input-output of the BUK (3). The second input of the BM (4) is connected to the third output of the BFMV (5). The third input of the BM (4) is connected to the output of the BS (6). The first output of the BM (4) is connected to the third input of the BOR (1). The second output is connected to the input BVRVFPP (13).

BFMV (5) is intended for the formation of many options for improving the automated air defense connection control system, which is a set of data on the composition, characteristics, and tasks that are solved by the complex of automation tools for air defense connection control points, as well as the importance of the automated air defense connection control points. The essence of the unit’s work lies in the automated ordering of the list of tasks of complexes of automation equipment for control points of an air defense connection, taking into account the importance of automated control points of an air defense connection, affecting the control process carried out using information about the operational and tactical essence and the degree of importance of these tasks coming from the database data on the list of control points of the air defense compound (7), a database on the list of tasks to complexes of automation means control posts defense compounds (8), and a database of points of interconnection between automated control defense compounds (9). The first input-output of the BFMV (5) is connected to the second control input-output of the BUK (3). The second input of the BFMV (5) is connected to the corresponding outputs of the database for the list of control points of the air defense connection (7), the database for the list of tasks of automation systems of control points of the air defense connection (8), the database for the relationship between the automated control points of the air defense connection defense (9). The second output of the BFMV (5) is connected to the input of the BS (6) and the second input of the BOR (1). The third output of the BFMV (5) is connected to the second input of the BM (4).

BS (6) is intended for automated military-economic analysis of many options for improving the automated control system for air defense connections and the transfer of analysis data with information on the belonging of options for improving the automated control system for air defense connections to the interval of established cost restrictions on the implementation of the option for improving the automated control system for air defense connections in BM (4) and BOR (1). The first input-output of the BS (6) is connected to the sixth control input-output of the BUK (3), the second input of the BS (6) is connected to the second output of the BFMV (5). The output of the BS (6) is connected to the third input of the BM (4).

The database of the list of control points of the air defense connection (7) is intended for storing information about the structure of the air defense connection included in the considered air defense connection of control points (command posts), operating complexes of automation equipment for control points (command posts) of the air defense connection. The output of the database on the list of control points of the air defense connection (7) is connected to the second input of the BFMV (5).

The database on the list of tasks of complexes of automation equipment for control points of an air defense connection (8) is designed to store information about the composition of control tasks solved by complexes of automation of automated control points (command posts) of an air defense connection, the importance of control points (command points) of an air defense connection . The output of the database on the list of tasks of complexes of automation means for control points of the air defense connection (8) is connected to the second input of the BFMV (5).

The database on the relationship between automated control points of an air defense connection (9) is designed to store information about the organizational and staff structure of an air defense connection, the principles of building an automated control system of an air defense connection, the calculated ratios and dependencies used in standard procedures for solving control problems in complexes of automation equipment operated at automated control centers (command posts x) air defense connections, as well as new factors affecting the control process, which should be taken into account when improving the automated control system for air defense connections. The output of the database on the relationship between the automated control points of the air defense connection (9) is connected to the second input of the BFMV (5).

The database on airspace attack and air defense equipment (10) is designed to store information about the flight technical and trajectory characteristics of airspace attack, tactical and technical characteristics and combat capabilities of air defense systems, as well as information about the capabilities of sources for the issuance of information on means of aerospace attack - data on the composition and characteristics of information issued by specific sources at the entrance of the complexes automation systems for automated control centers (command posts) of an air defense connection. The output of the database on aerospace attack and air defense (10) is connected to the input of the BOEV (11).

BOEV (11) is designed to obtain estimates of the effectiveness of options for improving the automated control system for air defense connections. The block is a simulation model of bilateral combat operations, the initial data for which is information from a database on aerospace attack and air defense systems (10), the options for improving the automated control system for air defense connections formed, and the result is the values of the management effectiveness indicator. The entrance of the BOEV (11) is connected to the output of the database on aerospace attack and air defense (10). The output of the BOEV (11) is connected to the input of the BORM (12).

BORM (12) is intended for the automated accumulation and statistical processing of the results of simulation carried out in the BOEV (11), and for obtaining the final values of the management efficiency indicator. The BORM input (12) is connected to the BOEV output (11).

BVRVFPP (13) is designed to evaluate the obtained values of the management effectiveness indicator and the choice under various restrictions on the implementation of the option to improve the automated air defense control system, corresponding to the highest value of the air defense management score, to develop and implement an algorithm for the automated formation of a plan for the re-equipment of air defense connection control points with advanced complexes automation tools. The first input-output BVRVFPP (13) is connected to the fifth control input-output BUK (3), the second input BVRVFPP (13) is connected to the second output BM (4). The output of the BVRVFPP (13) is connected to the second input of the BOR (1).

Blocks BOR (1), BVD (2), BUK (3), BM (4), BFMV (5), BS (6), BVRVFPP (13) are made in the form of software and hardware modules on a PC expansion card with type architecture X86 installed in the hardware-software complex of the aerospace forces control center.

The operation of the device for choosing the rational option for improving the automated control system for air defense connections is as follows.

At the preliminary stage of the operation of the device, the BVD input / output (2) and the BM first input / output (4) through the BUK input / output (3) enter information to fill in the relevant databases, namely, the database for the list of control points of the air defense connection (7), a database on the list of tasks of complexes of automation equipment for control points of an air defense connection (8), a database on the relationship between automated control points of air defense connection units (9), a database on aerospace facilities physical assault and air defense systems (10). After that, in BUK (3), the operator automatically generates a command to turn the device on and from the BUK input (output) (3) to the BOR input (output) (1), BVD (2), BM (4), BFMV (5) , BS (6), BVRVFPP (13) a control signal is transmitted to initiate their work. According to this signal from the air defense unit (2), namely from the outputs of the database for the list of control points for air defense connections (7), the database for the list of tasks for automation complexes of control points for air defense connections (8), the database for the relationship between automated points the air defense connection control unit (9) to the second input of the BFMV (5) information is provided on the structure of the air defense connection included in the air defense connection of the control points ( mandated points), operating complexes of automation equipment for control points (command posts) of an air defense connection, the composition of control tasks solved by complexes of automation means of automated control points (command posts) of an air defense connection tasks, the importance of control points (command points) of an air defense connection, organizational - the standard structure of the air defense connection, the principles of building an automated control system with air defense unity, design relationships and dependencies used in standard procedures for solving control problems in automation systems operated at automated control centers (command posts) of air defense connections, as well as new factors affecting the control process that should be taken into account when improvement of the automated control system for air defense connections. Based on this information, the block automatically organizes the list of tasks to be solved for complexes of automation equipment for control points (command posts) of an air defense connection, the importance of control points (command posts) of an air defense connection, assesses possible options for the interaction of automation systems of automated systems for controlling an air defense connection. The result of the unit’s work is a multitude of options for improving the automated control system for air defense connections ordered in priority order, depending on the importance of control points (command posts) of the air defense connection and the tasks they solve. The resulting set from the second output of the BFMV (5) goes to the input of the BS (6) and from the third output to the second input of the BM (4). The current results of the operation of the BFMW (5) from the second output go to the second input of the BOR (1) for display, registration and necessary adjustments.

The results of the BFMV operation (5) through the second output go to the BS (6) through the second input, where in an automated mode comparisons are made of the options for improving the automated control system of the anti-aircraft defense connection, the elimination of duplicate options, the military-economic analysis of the options and the determination of whether the options belong to the set cost interval restrictions. The result of the unit’s work is a multitude of options for improving the automated control system for air defense connections, supplemented by information on duplication and the cost of possible options. The current results of the functioning of the BS (6) from the output goes to the third input of the BM (4).

Simultaneously with the release of the database on airspace attack and air defense equipment (10), information on the possibilities of sources for transmitting data on airspace attack equipment in the form of sets of information elements and their characteristics established by protocols is issued to the BOEV (10) input functional interaction of information sources and complexes of automation equipment for air defense connections, data on the calculated ratios and dependencies used in solving and management tasks in complexes of automation connection defense, information on aircraft performance characteristics and trajectory of air and space attack and tactical-technical characteristics and combat capabilities of air defense systems. Boev (11) imitates two-sided military operations, the result of which is the value of the management effectiveness indicator for each pair “an option to improve the automated control system for air defense connections - an option to repel an attack by an aerospace enemy”. The required number of implementations of the simulation model is set by the operator. The obtained values of the management efficiency indicator from the output of the BOEV (11) go to the input of the BORM (12).

In BORM (12), automated accumulation and statistical processing of the results of simulation carried out in the BOEV (11) is carried out, and the final values of the management efficiency indicator for each pair are obtained “option for improving the automated control system of an air defense connection - an option to repel an attack from an aerospace enemy” . The current results of the operation of the BM (4) through the first output go to the third input of the BOR (1) for display, registration and the necessary adjustments.

At the same time, the obtained values from the second output of the BM (4) go to the input of the BVRVFPP (13). In the BFM (15), the automated formation of the procedure for choosing the rational option for improving the automated control system for air defense connections depending on the selected management effectiveness indicator is carried out, the automated development of a plan for the re-equipment of the automated control system for air defense connections with advanced automation systems based on restrictions imposed by the operator on the implementation of the option and cost promising sets ksov automation equipment. The result of the BVRVFPP (13) is a rational option for improving the automated control system for air defense connections and a plan for re-equipping the automated control system for air defense connections with promising complexes of automation equipment. The obtained results of the BVRVFPP (13) operation are transmitted through the output to the second input of the BOR (1).

Information about the end of the selection of a rational option for improving the automated control system for air defense connections and the formation of a plan for re-equipping the automated control system for air defense connections with advanced complexes of automation equipment and the registration of this fact from the first input-output of the BOR (1) is transmitted to the first input-output of the BUK (3) . In BUK (3) a control signal is generated to stop the operation of the BOR (1), BVD (2), BM (4), BFMV (5), BS (6), BVRVFPP (13) units. This completes the operation of the device.

The utility model is made in the form of an operator's automated workstation, BOR (1), BVD (2), BUK (3), BM (4), BFMV (5), BS (6), BVRVFPP (13) blocks are made in the form of software -technical modules on a PC expansion board with an architecture such as X86.

The test results of the model showed an increase in the level of automation when choosing a rational option for improving the automated control system for air defense connections by 75-80%.

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

1. RU 158700, IPC G06F 17/50, 2015

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 (6)

1. The device for choosing the rational option for improving the automated control system of the air defense connection, containing a display and registration unit (BOR), an input data unit (BVD), a control and control unit (BUK) and a simulation unit (BM), moreover, the control inputs and outputs of the BUK connected to the corresponding inputs and outputs of the BOR, BVD and BM units, the BVD output is connected to the second BOR input, and the first BM output is connected to the third BOR input, characterized in that it further comprises a unit for generating a plurality of var nt of improvement of the automated air defense connection control system (BFMV), a comparison unit (BS), a block for choosing a rational option for improving the automated air defense connection control system and the formation of a plan for re-equipping the automated air defense connection control system with advanced automation systems (BVRVFPP), the airborne defense system includes a base information data on the list of control points of the air defense compound, base data on the list of tasks of complexes of automation equipment for control points of an air defense connection, a database on the relationship between automated control points of an air defense connection, BM includes a unit for evaluating the effectiveness of the option to improve an automated control system for air defense connections (BOEV), a block for processing simulation results (BORM), block for choosing a rational option for improving the automated control system for combining counter air defense and the formation of a plan for the re-equipment of an automated control system for connecting air defense advanced complexes of automation equipment (BVRVFPP), with the control inputs and outputs of the BUK connected to the inputs and outputs of the BS and BVRVFPP, the output of the BVD connected to the second input of the BOR, the first output of the BM connected to the third input BOR, database output for the list of control points of the air defense connection is connected to the second input of the BFMV, database output for the list of tasks of automation equipment complexes the air defense connection control points are connected to the second input of the BFMV, the database output for the relationship of the automated air defense connection control points is connected to the second input of the BFMV, the third output of the BFMV is connected to the second input of the BM, the second output of the BFMV is connected to the second input of the BOR and the second input of the BS , the BS output is connected to the third input of the BM, the first output of the BM is connected to the third input of the BOR, the second output of the BM is connected to the second input of the BVRVFPP, the output of the BVRVFPP is connected to the second input of the BOR. 2. The device according to p. 1, characterized in that the unit for generating many options for improving the automated control system for air defense connections is made in the form of a computing device that implements, according to database information, a list of air defense connection control points, a task list of automation complexes of connection control points air defense, the relationship between the automated control points of the air defense connection is numerous in options for improving the automated control system with the ability to display and adjust the results of its work. 3. The device according to claim 1, characterized in that the block for choosing a rational option for improving the automated control system for air defense connections and the formation of a plan for re-equipping the automated control system for air defense connections with advanced complexes of automation means is made in the form of a computing device that implements information received from the block modeling, the choice of a rational option for improving the automated control system air defense and the formation of an algorithm for the re-equipment of control points (command posts) connecting air defense advanced complexes of automation with the ability to display and adjust the results of its work. 4. The device according to claim 1, characterized in that the comparison unit is made in the form of a computing device that implements, according to information from the formation unit, a set of options for improving the automated control system for air defense connections, an algorithm for comparing the options for improving the automated control system for air defense connections and their cost interval on the implementation of each option with the ability to display and adjust the results of its work s. 5. The device according to claim 1, characterized in that the modeling unit is made in the form of a computing device that implements, according to the database, information on airspace attack and air defense means, the results of the operation of the comparison unit and the formation unit of many options for improving the automated connection control system air defense, evaluating the effectiveness of the option to improve the automated control system of the air defense connection processing performance evaluation simulation results for this algorithm improve automated control compound defense system in various situations capable of displaying and adjusting the results of their work. 6. The device according to p. 1, characterized in that it is made in the form of an automated workplace for the operator, the BOR, BVD, BUK, BM, BFMV, BS and BVRVFPP blocks are made in the form of software and hardware modules on a PC expansion card with architecture like X86 .

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