RU209909U1 - A device for evaluating the effectiveness of combat operations of an air defense unit, taking into account the parameters of the control system - Google Patents

Abstract

The utility model relates to digital devices for special purposes and can be used to quantify the effectiveness of combat operations of an air defense unit (AD) taking into account the parameters of the control system (CS). The device contains a knowledge base, an inference engine, a working memory, an explanation block, a user interface, a knowledge acquisition block, and the output of the knowledge base and the output of the working memory are connected to the first and second inputs of the inference engine, respectively, the third input of the inference engine is connected to the second output of the knowledge acquisition block, the first and second outputs of the inference engine are connected to the input of the knowledge base and the working memory input, respectively, the third output of the inference engine is connected to the first input of the explain block, the output of the explain block and the first output of the knowledge acquisition block are connected to the first and second inputs of the user interface, respectively, the first and second outputs of the user interface are connected to the second input of the explanation block and the input of the knowledge acquisition block, the third input and the third output of the user interface are the input and output of the device for evaluating the effectiveness of the combat operations of the air defense connection, taking into account m CS parameters. According to the utility model, the device additionally includes a unit for determining the probability of failure of command posts (CP), control posts (CP) and complexes of automation equipment (KSA), a unit for calculating the characteristics of CS links, a unit for calculating the total operating time of CS, a unit for detecting and tracking air targets (CC), a block for evaluating the results of combat operations, a block for calculating the boundaries of a combat mission, and the fourth output of the inference machine is connected to the first input of the block for determining the probability of failure of the CP (PU) and KSA, the first input of the block for calculating the characteristics of the CS links, the first the input of the block for calculating the total working time of the control system, the first input of the block for detecting and tracking the CC, the first input of the block for evaluating the results of combat operations, the first input for the block for calculating the boundaries of the combat mission, the fifth input of the inference machine is connected to the second output of the block for evaluating the results of combat operations, the first output CC detection and tracking unit connected to the second input of the block for determining the probability of failure of the CP (PU) and KSA, the second input of the block for calculating the characteristics of the CS links, the second input of the block for calculating the total working time of the CS, the fourth input of the inference machine, the second input of the block for calculating the boundaries of the combat mission, the second the input and the second output of the block for detecting and tracking the AT are connected to the first output and the second input of the block for evaluating the results of hostilities, respectively, the third input and output of the block for calculating the characteristics of the CS links are connected to the output of the block for determining the probability of failure of the CP (PU) and KSA and the third input of the block for calculating the total working time of the control system, respectively, the third input and output of the block for calculating the milestones of the combat mission are connected to the output of the block for calculating the total working time of the control system and the third input of the block for evaluating the results of combat operations, respectively. 1 ill.

Description

The utility model relates to digital devices for special purposes and can be used to quantify the effectiveness of combat operations of an air defense unit (AD) taking into account the parameters of the control system (CS).

Known devices [RU190098, publ. 06/18/2019; RU2633169, publ. 10/11/2017; 2585724, publ. 06/10/2016; 161982, publ. 05/20/2016; 126168, publ. 03/20/2013; 103412, publ. 04/10/2011; 2009141308, publ. 02/10/2010; 73092, publ. May 10, 2008; 2003112587, publ. 12/20/2004; 30205, publ. 06/20/2003; 29598, publ. May 20, 2003; 24886, publ. 08/27/2002; 99114299, publ. 04/10/2001], designed to evaluate the effectiveness of combat missions in various conditions.

A common disadvantage of the known devices is the inability to use them to quantify the effectiveness of the combat operations of the air defense unit, taking into account the parameters of the control system.

The prototype of the claimed utility model is the system [Giaratano D., Riley G. Expert systems. Principles of development and programming. - M.: Publishing house "William", 2007, fig. 1.6, p. 70], which includes a knowledge base, an inference engine, working memory, an explanation unit, a user interface, a knowledge acquisition unit, wherein the outputs of the knowledge base and working memory are connected to the first and second inputs of the inference engine, the third input of the inference engine is connected with the second output of the knowledge acquisition block, the first and second outputs of the inference engine are connected to the inputs of the knowledge base and working memory, the third output of the inference engine is connected to the first input of the explain block, the output of the explain block and the first output of the knowledge acquisition block are connected to the first and second inputs of the user interface, the first and second outputs of the user interface are connected to the second input of the explanation block and the input of the knowledge acquisition block, the third input and the third output of the user interface are connected to a user external to the system (they are the input and output of the system).

The disadvantage of the known system is that it does not take into account the parameters of the control system of the air defense formation, which directly affect the efficiency of its tasks.

The objective of the utility model is to provide the possibility of quantifying the performance indicators of combat operations of an air defense unit, taking into account the parameters of the control system.

The technical result of the utility model is the creation of a device for evaluating the effectiveness of combat operations of an air defense formation, taking into account the parameters of the control system: its structure, the stochasticity of changes in the states of combat readiness of command posts (CP), control posts (CP), automation equipment complexes (CSA) of control units of an air defense formation under the influence aerospace attack means (AAS) of the enemy, changing the degree of centralization of the procedure for transmitting information about AAS, processes for processing information about air targets (AT), processes for processing and transmitting information about AT, taking into account the degree of automation.

The achievement of the claimed technical result and the solution of the task is ensured by the fact that in the device for evaluating the effectiveness of combat operations of the air defense formation, taking into account the parameters of the control system, containing a knowledge base, an inference machine, working memory, an explanation unit, a user interface, a knowledge acquisition unit, and the base output knowledge and the output of the working memory are connected to the first and second inputs of the inference engine, respectively, the third input of the inference engine is connected to the second output of the knowledge acquisition unit, the first and second outputs of the inference engine are connected to the input of the knowledge base and the input of the working memory, respectively, the third output of the machine of the logic inference is connected to the first input of the explain block, the output of the explain block and the first output of the knowledge acquisition block are connected to the first and second inputs of the user interface, respectively, the first and second outputs of the user interface are connected to the second input of the explain block and the input m of the knowledge acquisition block, the third input and the third output of the user interface are the input and output of the device for evaluating the effectiveness of the combat operations of the air defense formation, taking into account the parameters of the control system, additionally included is a block for determining the probability of failure of the CP (PU) and KSA, a block for calculating the characteristics of the links of the control system, a block for calculating the total working time of the control system, a block for detecting and tracking an AT, a block for evaluating the results of hostilities, a block for calculating the boundaries of a combat mission, and the fourth output of the inference machine is connected to the first input of the block for determining the probability of failure of the CP (PU) and KSA, the first the input of the block for calculating the characteristics of the CS links, the first input of the block for calculating the total working time of the CS, the first input of the detection and tracking block of the AT, the first input of the block for evaluating the results of combat operations, the first input of the block for calculating the boundaries of the combat mission, the fifth input of the inference machine is connected to the second output result evaluation unit combat operations, the first output of the block for detecting and tracking the CC is connected to the second input of the block for determining the probability of failure of the CP (PU) and KSA, the second input of the block for calculating the characteristics of the CS links, the second input of the block for calculating the total working time of the CS, the fourth input of the inference machine , the second input of the block for calculating the boundaries of the combat mission, the second input and the second output of the detection and tracking block of the CC are connected to the first output and the second input of the block for evaluating the results of hostilities, respectively, the third input and output of the block for calculating the characteristics of the CS links are connected to the output of the block for determining the probability of exit failure of the CP (PU) and KSA and the third input of the block for calculating the total working time of the control system, respectively, the third input and output of the block for calculating the boundaries of the combat mission are connected to the output of the block for calculating the total working time of the control system and the third input of the block for evaluating the results of combat operations, respectively.

The proposed design of the device makes it possible to quantify the effectiveness of the combat operations of an air defense formation by taking into account the parameters of the CS: structure, stochasticity of changes in the states of combat readiness of the CP (PU), KSA of the units of the CS of the air defense formation under the influence of the enemy's air defense system, changing the degree of centralization of the order of transmitting information about the air defense system, information processing processes about the CC, processes for processing and transmitting information about the CC, taking into account the degree of automation. An additional result of using the device is to increase the accuracy of modeling the combat operations of an air defense formation and, as a result, the effectiveness of decisions made in preparation for combat operations.

The utility model is illustrated by a drawing, which shows a block diagram of a device for evaluating the effectiveness of combat operations of an air defense formation, taking into account the parameters of the control system (Fig. 1).

The following designations are adopted in the drawing:

1 - knowledge base;

2 - inference machine;

3 - working memory;

4 - explanation block;

5 - user interface;

6 - knowledge acquisition block

7 - block for determining the probability of failure of command posts, control posts and complexes of automation equipment;

8 - block for calculating the characteristics of the links of the control system;

9 - block for calculating the total working time of the control system;

10 - unit for detecting and tracking air targets;

11 - unit for evaluating the results of hostilities;

12 - block for calculating the boundaries of the combat mission.

Knowledge base 1 is designed to store in RAM the rules for calculating the effectiveness of combat operations of an air defense formation, taking into account the parameters of the CS: structure, stochasticity of changes in the combat readiness states of the CP (PU), KSA of the units of the CS of the air defense formation under the influence of the enemy’s air defense system, changes in the degree of centralization of the order of transmission of information about SVKN, processes of processing information about the CC, processes of processing and transferring information about the CC, taking into account the degree of automation. The input and output of the knowledge base 1 is connected to the output 2.6 and the input 2.1 of the inference machine 2.

The inference machine 2 is designed to perform logical and arithmetic operations with the data stored in the working memory 3, in accordance with the rules stored in the knowledge base 1. The inputs 2.1 and 2.2 of the inference machine 2 are connected to the output of the knowledge base 1 and the output of the working memory 3 , the input 2.3 is connected to the output 6.2 of the knowledge acquisition block 6, the input 2.5 of the inference machine 2 is connected to the output 10.1 of the detection and tracking unit of the CC, the input 2.9 is connected to the output of the block 11 for evaluating the results of hostilities. The output 2.4 of the inference machine 2 is connected to the inputs 7.1 of the block 7 for determining the probability of failure of the CP (PU) and the KSA, 8.1 of the block 8 for calculating the characteristics of the CS links, 9.1 of the block 9 for calculating the total working time of the CS, 10.3 of the block 10 for detecting and tracking the CC, 11.1 block 11 for evaluating the results of hostilities, 12.1 block 12 for calculating the boundaries of the combat mission.

Working memory 3 is designed to store in the RAM digital maps of the area, data on the tactical and technical characteristics of the SVKN, means of reconnaissance and destruction (suppression) of the AT, means of automation and communications, characteristics of the command post (PU). The input and output of the working memory 3 is connected to the output 2.7 and the input 2.2 of the machine 2 inference.

The explanation block 4 is intended for storing and transmitting in transit information on quantitative estimates of the effectiveness of the combat operations of the air defense formation, taking into account the parameters of the control system. Input 4.1 block 4 explanation is connected to the output 2.8 of the machine 2 inference. The input 4.2 and the output of the explanation block 4 are connected to the output 5.4 of the user interface 5 and the input 5.1 of the user interface 5.

The user interface 5 is designed to communicate with the user through the use of a standard set of hardware and software (display, keyboard, etc.). The input 5.1 of the user interface 5 is connected to the output of the explanation block 4, the input 5.2 is connected to the output 6.1 of the knowledge acquisition block 6, the input 5.3 is the input of the device for evaluating the effectiveness of the combat operations of the air defense formation taking into account the parameters of the control system and is connected to the system user. The output 5.4 of the user interface 5 is connected to the input 4.2 of the explanation block 4. The output 5.5 of the user interface is connected to the input of the block 6 of the acquisition of knowledge. The output 5.6 of the user interface 5 is the output of the device for evaluating the effectiveness of the combat operations of the air defense formation, taking into account the parameters of the control system, and is connected to the system user.

Block 6 of knowledge acquisition is designed to organize a dialogue procedure, the purpose of which is the approval of control actions to determine the characteristics of the control system of the air defense connection. The input of the knowledge acquisition block 6 is connected to the output 5.5 of the user interface 5. The output 6.1 of the knowledge acquisition block 6 is connected to the input 5.2 of the user interface 5, the output 6.2 of the knowledge acquisition block 6 is connected to the input 2.3 of the inference machine 2.

Block 7 for determining the probability of failure of the CP (PU) and KSA is designed to simulate the functioning of the CP (PU) and KSA of the air defense formation and their failure under the influence of the enemy's ACS. Input 7.1 block 7 determine the probability of failure KP (PU) and KSA is connected to the output 2.4 of the machine 2 inference, the input 7.2 is connected to the output 10.3 of the block 10 detection and tracking CC. The output of the block 7 for detection and tracking of the CC is connected to the input 8.3 of the block 8 for calculating the characteristics of the CS links.

Block 8 for calculating the characteristics of the control system links is designed to simulate the functioning of the control system link and determine its temporal, quantitative and probabilistic characteristics for processing information on the computer center. The input 8.1 of the block 8 for calculating the characteristics of the CS links is connected to the output 2.4 of the inference machine 2, the input 8.2 is connected to the output 10.3 of the block 10 for detecting and tracking the CC, the input 8.3 is connected to the output of block 7 for determining the probability of failure of the CP (PU) and KSA. The output of the block 8 for calculating the characteristics of the CS links is connected to the input 9.3 of the block 9 for calculating the total working time of the CS.

Block 9 for calculating the total operating time of the CS is designed to determine the total operating time of the CS of the air defense connection, depending on the degree of centralization and automation of the processes of collecting, processing and issuing information about the CC. The input 9.1 of the block 9 for calculating the total working time of the control system is connected to the output 2.4 of the inference machine 2, the input 9.2 is connected to the output 10.3 of the block 10 for detecting and tracking the CC, the input 9.3 is connected to the output of the block 8 for calculating the characteristics of the links of the control system. The output of the block 9 for calculating the total working time of the control system is connected to the input 12.3 of the block 12 for calculating the milestones of the combat mission.

Block 10 of detection and tracking of the CC is designed to simulate the operation of reconnaissance and warning equipment in service with units and subunits of an air defense formation, to survey the space, detect a target, set up a route and issue information to consumers. Input 10.1 block 10 detection and tracking CC is connected to the output 2.4 machine 2 inference input 10.2 is connected to the output 11.4 block 11 evaluation of the results of hostilities. The output 10.3 of the block 10 of detection and tracking of the computer center is connected to the inputs 7.2 of the block 7 for determining the probability of failure of the CP (PU) and the KSA, 8.2 of the block 8 for calculating the characteristics of the CS links, 9.2 of the block 9 for calculating the total working time of the CS, 12.2 of the block 12 for calculating the milestones of performing combat tasks, output 10.4 with input 11.2 of block 11 for evaluating the results of hostilities.

Block 11 for evaluating the results of combat operations is designed to simulate the performance by an air defense unit of combat missions to defeat (suppress) an AT and calculate the effectiveness of combat operations, taking into account the parameters of the control system. The input 11.1 of the block 11 for evaluating the results of hostilities is connected to the output 2.4 of the inference machine 2, the input 11.2 is connected to the output 10.4 of the block 10 for detecting and tracking the CC, the input 11.3 is connected to the output of the block 12 for calculating the boundaries of the combat mission. The output 11.4 of the block 11 for evaluating the results of hostilities is connected to the input 10.2 of the block 10 for detecting and tracking the CC, the output 11.5 is connected to the input 2.9 of the machine 2 of the inference.

Block 12 for calculating the milestones for performing a combat mission is designed to calculate the milestones for performing combat missions by units and subunits of an air defense formation, depending on the current parameters of the control system and the position of the computer center. The input 12.1 of the block 12 for calculating the milestones of the combat mission is connected to the output 2.4 of the machine 2 of the inference, the input 12.2 is connected to the output 10.3 of the block 10 for detecting and tracking the CC, the input 12.3 is connected to the output of the block 9 for calculating the total working time of the control system. The output of block 12 for calculating the boundaries of the combat mission is connected to the input 11.3 of block 11 for evaluating the results of hostilities.

Blocks 1-12 can be made in the form of software and hardware modules on a PC expansion board with an X86 type architecture installed at a workplace (bench) to assess the effectiveness of combat operations of an air defense formation, taking into account the parameters of the control system.

A device for evaluating the effectiveness of combat operations of an air defense formation, taking into account the parameters of the control system, functions as follows.

At the preliminary stage, data on the tactical and technical characteristics of the SVKN, means of reconnaissance and destruction (suppression) of the CC, means of automation and communication, characteristics of the CP (PU), digital maps of the terrain, templates of objects are loaded into the working memory 3. Knowledge base 1 is loaded with the rules for calculating the probability of failure of the CP (PU) and the KSA, the characteristics of the CS links of the air defense formation, determining the total working time of the CS and calculating the effectiveness of combat operations.

After the completion of the preliminary stage, the user, using the user interface 5, selects the enemy's SVKN participating in the strike, and forms a variant of his actions; carries out the selection and placement of units and divisions of the air defense formation on a digital map of the area, sets the parameters of the control system, launches calculations. During the simulation, the user can monitor the simulated processes, and upon completion, evaluate the calculation results.

After starting the simulation, the input 10.1 of the block 10 for detecting and tracking the CC through the inference machine 2 receives the initial data on the position of the CC, as well as the tactical and technical characteristics of the reconnaissance means of the air defense formation, the detection probability and the probability of tying the target route are calculated, after which the target coordinates are transmitted to the input 7.2 of block 7 for determining the probability of failure of the gearbox (PU) and KSA. If there is no CC at this simulation step, the CC search cycle is repeated again.

In block 7 for determining the probability of failure of the CP (PU) and KSA, the probability of failure of the CP (PU) and KSA of each link of the control system of the air defense formation under the influence of the enemy's ACS is determined. Depending on the state of their combat readiness, the input 8.3 of the block 8 for calculating the characteristics of the CS links receives information about the number of service channels of the CC and the method of processing and transmitting information through it.

In block 8 for calculating the characteristics of the CS links, based on the data obtained from the block 7 for determining the probability of failure of the CP (PU) and the KSA, on the current state of combat readiness of the forces of the information processing facilities and information about the current position of the CC coming from the detection and tracking unit 10 of the CC, on Based on the data on the level of coherence of combat crews and the training of officials coming through the inference machine 2 from the working memory 3, the calculation of the temporal, quantitative and probabilistic characteristics of the link of the control system of the air defense formation is carried out. The received data is transmitted to the input 9.3 of block 9 for calculating the total working time of the control system.

In block 9 for calculating the total working time of the CS, the total working time of the CS for the CC is calculated depending on the data on the degree of centralization of the processes of transmitting information on the CC and the decision made by the commander of the air defense formation, coming through the inference machine 2 from working memory 3. The obtained values of working time arrive at the input 12.3 of the block 12 for calculating the boundaries of the combat mission, in which, based on the data on the current position of the CC coming from the output 10.3 of the block 10 for detecting and tracking the CC, the calculation of the boundaries for performing combat missions for the CC by units and subunits of the air defense formation is carried out. The calculation results are input 11.3 block 11 evaluation of the results of hostilities.

In block 11 for evaluating the results of hostilities, based on the data obtained from block 12 for calculating the boundaries of the combat mission, and data on the current position of the AT coming from the output 10.3 of the block 10 for detecting and tracking the AT, the processes of target distribution and target designation are simulated for units and subunits of the air defense formation in in accordance with the criteria obtained by the inference machine 2 from the knowledge base 1. After that, the calculation of the effectiveness of the combat operations of the air defense formation is carried out, taking into account the parameters of the control system of the air defense formation.

To inform the user about the list of rules that were used in the device when calculating the characteristics of the control system and the effectiveness of the combat operations of the air defense formation, the explanation block 4 is used. The calculation rules are corrected through the knowledge acquisition block 6.

Claims (1)

A device for evaluating the effectiveness of combat operations of an air defense (AD) formation, taking into account the parameters of the control system (CS), containing a knowledge base, an inference engine, working memory, an explanation unit, a user interface, a knowledge acquisition unit, moreover, a knowledge base output and a working memory output are connected to the first and second inputs of the inference engine, respectively, the third input of the inference engine is connected to the second output of the knowledge acquisition unit, the first and second outputs of the inference engine are connected to the knowledge base input and the working memory input, respectively, the third output of the inference engine is connected to the first by the input of the explain block, the output of the explain block and the first output of the knowledge acquisition block are connected to the first and second inputs of the user interface, respectively, the first and second outputs of the user interface are connected to the second input of the explain block and the input of the knowledge acquisition block, the third input and the third output of the user interface are the input and output of the device for evaluating the effectiveness of the combat operations of the air defense formation, taking into account the parameters of the control system, characterized in that, in order to provide the possibility of quantifying the effectiveness of the combat operations of the air defense formation, taking into account the parameters of the control system, it additionally contains a block for determining the probability of failure command posts (CP), control posts (CP) and complexes of automation equipment (CSA), block for calculating the characteristics of CS links, block for calculating the total working time of CS, block for detecting and tracking air targets (AC), block for evaluating the results of hostilities, block for calculating milestones of the combat mission, and the fourth output of the inference machine is connected to the first input of the block for determining the probability of failure of the CP (PU) and KSA, the first input of the block for calculating the characteristics of the CS links, the first input of the block for calculating the total operating time of the CS, the first input of the detection block and accompaniment of the VC, lane the first input of the block for evaluating the results of hostilities, the first input of the block for calculating the boundaries of the combat mission, the fifth input of the inference machine is connected to the second output of the block for evaluating the results of hostilities, the first output of the block for detecting and tracking the CC is connected to the second input of the block for determining the probability of failure of the CP (PU) and KSA, the second input of the block for calculating the characteristics of the CS links, the second input of the block for calculating the total working time of the CS, the fourth input of the inference machine, the second input of the block for calculating the boundaries of the combat mission, the second input and second output of the detection and tracking block of the CC are connected to the first output and the second input of the block for evaluating the results of combat operations, respectively, the third input and output of the block for calculating the characteristics of the CS links are connected to the output of the block for determining the probability of failure of the CP (PU) and KSA and the third input of the block for calculating the total operating time of the CS, respectively, the third input and output of the boundary calculation unit her combat missions are connected to the output of the block for calculating the total working time of the control system and the third input of the block for evaluating the results of combat operations, respectively.

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