RU158715U1 - DEVICE FOR SOLVING THE PROBLEM OF FORECASTING THE STATE OF THE PARK OF RADIO ELECTRONIC TECHNIQUES OF GROUPING OF AIRPLANES - Google Patents

Abstract

A device for solving the problem of forecasting the state of the fleet of electronic equipment (RET) of an air defense force grouping containing a knowledge base, a logical inference machine, working memory, an explanation unit, a user interface, a knowledge acquisition unit, so that the knowledge base output and the first working memory output are connected with the first and second inputs of the inference machine, respectively, the third input of the inference machine is connected to the second output of the knowledge acquisition unit, the first and second outputs of the inference machine connected to the input of the knowledge base and input of working memory, the third output of the logical output machine is connected to the first input of the explanation unit, the output of the explanation unit and the first output of the knowledge acquisition unit 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 the explanation unit and the input of the knowledge acquisition unit, the third input and the third output of the user interface are the first input and output of the pair state simulation device A RET group of air defense forces, characterized in that it further comprises: a block for modeling changes in the state of the RET samples, a block for generating scenarios for changing restrictions on the control action, a block for ranking many RET samples in priority, the third input of the working memory being connected to the fourth output of the user interface, the third the working memory output is connected to the fourth input of the user interface, the first block for ranking many PET samples is connected with the fourth

Description

The utility model relates to computer technology and can be used to solve the problem of predicting the state of the fleet of electronic equipment (RET) grouping of air defense forces.

The purpose of the utility model is to increase the effectiveness of managing the development of the armament system of an air defense force grouping on the basis of expanding the functionality of the prototype and automating the processes for predicting the quantitative and qualitative state of the RET fleet of the air defense force grouping taking into account the different priority of the samples and scenarios of changing restrictions on control over a given period of time.

A known system [1], which includes a knowledge base, a logical inference machine, working memory, an explanation unit, a user interface, a knowledge acquisition unit, the outputs of the knowledge base and working memory being connected to the first and second inputs of the logical output machine, the third input of the machine the logical output is connected to the second output of the knowledge acquisition unit, the first and second outputs of the logical output machine are connected to the inputs of the knowledge base and working memory, the third output of the logical output machine is connected to the first input of the block the withdrawal, the output of the explanation unit and the first output of the knowledge acquisition unit 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 unit and the input of the knowledge acquisition unit, the third input and the third output of the user interface are connected with the external to the system by the user (they are the input and output of the system).

The specified system can be used to provide information on the processes of program-targeted planning for the development of weapons and military equipment of military groups, in particular, to formulate and evaluate the effectiveness of long-term programs and plans for the development of weapons systems.

A disadvantage of the known system is the low efficiency of the development of the armament system of the air defense forces group, due to the narrow functionality for predicting the quantitative and qualitative state of the RET fleet of the air defense forces group, taking into account the different priority of the samples and the restrictions on the control action for a given period of time, the complexity of the unattended processing of large the amount of information in the face of significant time constraints and the need Use of expert methods.

In [2], the main problems of the development of the theory and practice of program-targeted planning of weapons systems are indicated and possible ways to improve the effectiveness of managing the development of weapons systems, in particular, solving the problems of forecasting indicators of the state of the weapon system, are noted.

The objective of the utility model is to eliminate the shortcomings of the known device [1], namely, increasing the efficiency of managing the development of the weapons system of an air defense group of forces.

The technical result achieved by the claimed utility model is to automate the process of forecasting the state of the weapon system and expand the functionality of the prototype to predict the quantitative and qualitative state of the RET fleet of the air defense forces grouping, taking into account the different priority of the samples and the restrictions on the control action over a given period of time.

Achieving the claimed technical result and, as a result, solving the problem is provided by the fact that the device for solving the problem of forecasting the state of the RET fleet of the air defense forces grouping, containing the knowledge base, logical inference machine, working memory, explanation unit, user interface, knowledge acquisition unit, so that the output of the knowledge base and the first output of the working memory are connected to the first and second inputs of the logical output machine, respectively, the third input of the logical output machine is connected to by the output of the knowledge acquisition unit, the first and second outputs of the logical output machine are connected to the input of the knowledge base and the input of the working memory, the third output of the logical output machine is connected to the first input of the explanation unit, the output of the explanation unit and the first output of the knowledge acquisition unit are connected to the first and second inputs the user interface, the first and second outputs of the user interface are connected to the second input of the explanation unit and the input of the knowledge acquisition unit, the third input and the third output of the user interface The interfaces are the first input and output of the device for modeling the state of the RET fleet of the Air Defense Forces grouping, according to the utility model, it additionally contains a block for modeling changes in the state of RET samples, a block for generating scenarios of changing restrictions on the control action, a ranking block for many RET samples according to priority, the third input working memory is connected to the fourth output of the user interface, the third output of working memory is connected to the fourth input of the user interface of the interface, the first block of the ranking of the plurality of samples of RET is connected by priority to the fourth output of the logical output machine, the second input of the block of the ranking of many samples of RET is connected to the second output of the working memory block, the output of the ranking block of the set of samples of RET is connected to the second input of the block of simulation of priority the state of the RET samples, the first input of the scenario generation unit for changing the restrictions on the control action is connected to the second output of the working memory unit, the second input of the scenario generation block for modifying the restrictions on the control action is connected to the fifth output of the logical output machine block; the output of the scenario generation block for the variation of the controls on the control action is connected to the first input of the block for modeling the state change of the PET samples.

The additional introduction of a interconnected ranking block of multiple RET samples by priority, a block for generating scenarios for changing control restrictions and a block for modeling changes in the state of RET samples allows us to automate the ranking processes of many RET samples by priority and create scenarios when predicting the state of the RET fleet of the air defense forces group changes in the restrictions on the control action and modeling changes in the state of the samples of RET .

This, in turn, allows us to solve the problem, namely, to increase the effectiveness of the development management of the armament system of the air defense forces group based on the automation of the armament system forecasting process and expand the functionality of the prototype to predict the quantitative and qualitative state of the RET fleet of the air defense forces group, taking into account the different priority of the samples and restrictions on the control action during a given period of time.

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

In FIG. Figure 1 shows a structural device for solving the problem of predicting the state of the park of the RET of an air defense force grouping.

In FIG. 1 adopted the following notation:

1 - knowledge base;

2 - inference machine;

3 - working memory;

4 - block explanation;

5 - user interface;

6 - block acquisition of knowledge;

7 - ranking block of many samples of RET according to priority;

8 - a block for generating scenarios of changing restrictions on the control action;

9 - block simulation of changes in the state of the samples of RET.

Knowledge Base 1 is a server file, for example, PowerEdge 2950 III (ru.wikipedia.org/wiki/Computer), which allows storing the rules for generating scenarios for changing control restrictions in RAM. The input of knowledge base 1 is connected to the output 2.5 of logical inference 2, and the output of knowledge base 1 is connected to the input 2.1 of logical inference 2.

Inference machine 2 is an application server, for example, the Intel Xeon four-core processor (en.wikipedia.org/wiki/Computer), capable of performing logical and arithmetic operations with data stored in working memory 3, the ranking block of many RET samples in priority 7 and in the block for generating scenarios of changing restrictions on the control action 8, in accordance with the rules stored in the knowledge base 1. Inputs 2.1 and 2.2 of the inference machine are connected to the output of knowledge base 1 and output 3.5 of working memory 3. Input 2.3 s it is connected to the output 6.2 of the knowledge acquisition block 6. The output 2.4 of the logical output machine is connected to the input 8.3 of the scripting unit for changing the control action restrictions 8. The output 2.5 of the logical output machine is connected to the input of the knowledge base 1. The output 2.6 of the logical output machine is connected to the input 3.1 of the working memory 3. Output 2.7 of the logical output machine is connected to input 4.1 of the explanation block 4. Output 2.8 of the logical output machine is connected to input 7.1 of the ranking block of the set of samples of RET according to priority 7. Output 2.9 of the logical machine A output coupled to the input of 8.1 unit forming constraints to change scenarios manipulated 8.

Working memory 3 is a server file, for example, PowerEdge 2950 III (ru.wikipedia.org/wiki/Computer), which allows storing the data necessary for modeling in main memory: initial data on the technical condition of each RET model of the considered group of air defense forces, tactical technical and economic characteristics of RET samples; data on the capabilities of industrial enterprises in terms of mass production and repair of electronic samples at the beginning of the planning period; data on the allocated volumes of financing for the activities of the procurement and repair of RET samples. The input 3.1 of the working memory is connected to the output 2.6 of the logical output device 2. The input 3.2 of the working memory is connected to the output of the simulation block of the state change of the samples of the PET 9. The input 3.4 of the working memory is connected to the output 5.8 of the user interface 5. The output 3.5 of the working memory is connected to the input 2.2 of the logical machine output 2. Output 3.3 of the working memory is connected to input 7.1 of the ranking block of the set of samples of RET according to priority 7, with input 8.1 of the block for generating scenarios for changing restrictions on the control action 8, with input 9.3 of modeling changes in the state of RET 9 samples. Output 3.6 of working memory is connected to input 5.4 of user interface 5.

Explanation block 4 is a server file, for example, a PowerEdge 2950 III (ru.wikipedia.org/wiki/Computer) type capable of remembering the list of rules that were used by the system in generating scenarios for changing the restrictions on the control action required for simulation. The input 4.1 of the explanation unit is connected to the output 2.7 of the inference machine 2. The input 4.2 of the explanation unit is connected to the output 5.5 of the user interface 5. The output of the explanation unit is connected to the input 5.1 of the user interface 5.

User interface 5 is a terminal server, for example, type 2xXeon 5405 / 4GB RAM / 2xSATA (ru.wikipedia.org/wiki/computer), equipped with a standard set of hardware and software designed to communicate with the user and technical systems (display, keyboard , modems, etc.). The input 5.1 of the user interface is connected to the output of the explanatory block 4. The input 5.2 of the user interface is connected to the output 6.1 of the knowledge acquisition block 6. The input 5.3 of the user interface is the input of the device for solving the problem of forecasting the state of the RET fleet of the air defense forces. Input 5.4 of the user interface is output 3.6 of the working memory 3. Output 5.5 of the user interface is input 4.2 of the explanatory block 4. Output 5.6 of the user interface is the input of the unit for acquiring knowledge 6. Output 5.7 of the user interface is the output of the device for solving the problem of predicting the state of the park of the RT group of air defense forces . Output 5.8 of the user interface is input 3.4 of working memory 3.

Knowledge acquisition block 6 is a server file, for example, of the PowerEdge 2950 III type (en.wikipedia.org/wiki/Computer), which provides the organization of a dialogue procedure, the purpose of which is to lay down (adjust) the rules for ranking many PET samples by priority and the rules for creating change scenarios restrictions on the control action. The input of the knowledge acquisition unit is connected to the output 5.6 of the user interface 5. The output 6.1 of the knowledge acquisition unit is connected to the input 5.2 of the user interface 5. The output 6.2 of the knowledge acquisition unit is connected to the input 2.3 of the inference 2 machine.

The ranking block for many RET samples by priority 7 is an application server, for example, the four-core Intel Xeon processor (en.wikipedia.org/wiki/Computer), which is capable of ordering the set of RET samples of the considered group based on the rules and criteria specified by logical inference 2 Air defense in accordance with the obtained ranking rules for many samples of RET according to priority. The input 7.1 of the ranking block of the plurality of samples of RET by priority is the output 3.3 of the working memory block 3. The input 7.2 of the ranking of the plurality of samples of RET by priority is the output 2.8 of the inference machine 2. The output of the ranking block of the plurality of samples of RET by priority is connected to the input 9.1 of the block for modeling the state of samples RET 9.

The block for generating scenarios of changing restrictions on the control action 8 is an application server, for example, the four-core Intel Xeon processor (ru.wikipedia.org/wiki/Computer), which allows, based on the rules and criteria set by inference machine 2, to generate scenarios for changing restrictions on control action during a given period, the parameters of which describe the predicted capabilities of industrial enterprises in terms of mass production and repair of samples of the RT group of troops P O. The input 8.1 of the script generation block for changing the control action restrictions is connected to the output 9.4 of the military simulation unit 9. The input 8.3 of the script control script for changing the control action restrictions is connected to output 3.3 of the working memory block 3. The output 8.2 of the script control script for changing the control action restriction is connected with the input 9.2 of the block modeling the state changes of samples RET 9.

The RET 9 model state change modeling block is an application server, for example, the Intel Xeon four-core processor (en.wikipedia.org/wiki/Computer), capable of performing simulation statistical modeling of the state change of the RET samples of the air defense forces grouping and generating statistical material on the basis of which a set of estimates of the predicted indicators of the quantitative and qualitative state of the RET fleet of the air defense forces groupings obtained from various implementations of simulation modeling. The input 9.1 of the block of modeling the state of change of the samples of the PET is connected to the output 7.3 of the ranking block of the set of samples of the PET by priority 3. The input 9.2 of the block of the simulation of the state of the samples of the PET is connected to the output 8.2 of the block for the formation of scenarios for changing control restrictions 8. The input 9.3 of the block for modeling the change of the state of the samples The RET is connected to the output 3.3 of the working memory 3. The output 9.4 of the block for modeling the state change of the samples of the RET is connected to the input 3.2 of the working memory 3.

Structurally, the device for solving the problem of forecasting the state of the RET fleet of the air defense group of forces is a set of equipment located in a stationary room or in a mobile cabin. The range of changes in external factors during the operation of the information-modeling environment to ensure the management of the development of the weapons system corresponds to group 1.3 UHL GOST V20.39.304-75.

A device is operating to solve the problem of predicting the state of the RET fleet of an air defense force grouping as follows.

At the preliminary stage of operation, through the user interface 5, the working data 3 is loaded with initial data on the length of the period of time, within the framework of which the simulation of the change in the state of the samples of the airborne defense group of the air defense forces is carried out; on the technical condition of each model of electronic warheads of the considered group of air defense forces; tactical, technical and economic characteristics of the samples of RET; data on the capabilities of industrial enterprises in terms of mass production and repair of electronic samples at the beginning of the planning period; data on the allocated volumes of financing for the activities of the procurement and repair of RET samples.

Through working memory, data on the capabilities of industrial enterprises in terms of serial production and repair of PET samples at the beginning of the planning period are loaded into the block for generating scenarios of changes in restrictions on the control effect, which generates predicted parameters of the dynamics of changes in the capabilities of industrial enterprises over a given period of time in terms of serial production of samples RET and regarding repair of RET samples.

Through working memory, scenarios of changes in the restrictions on the control effect, data on the length of the planning period, on the allocated funding for events for the purchase and repair of samples of radio electronic equipment, on the technical condition of the samples and the tactical, technical and economic characteristics of the electronic samples are loaded into the block for modeling the state changes of RET samples capable of imitating discrete-event simulation of the dynamics of changes in the state of RET samples taking into account restrictions on controlling its impact over a given period of time and the formation of statistical material that allows you to calculate a set of estimates of the predicted indicators of the predicted quantitative and qualitative state of the RET fleet of the considered group of troops obtained from various implementations of simulation modeling.

In addition, at the preliminary stage, through the user interface 5 and the knowledge acquisition unit 6, rules are laid down (corrected) for ranking many RET samples by priority and rules for creating scenarios for changing restrictions on the control action necessary for simulation.

In the same block, these rules are checked for syntactic correctness.

From the knowledge acquisition unit, the rules for ranking many RET samples by priority and the rules for creating scenarios for changing restrictions on the control action go to inference 2, where they are compared with the rules stored in knowledge base 1 for consistency. After checking for consistency, the rules from the inference engine are loaded into knowledge base 1.

After that, the device for solving the problem of predicting the state of the RET fleet of the air defense forces group is ready to function in accordance with its intended purpose, that is, it will solve the problems of predicting the quantitative and qualitative state of the RET fleet of the air defense forces group on the basis of modeling the dynamics of changes in the state of each RET model of the considered air defense forces group, taking into account different priority samples and restrictions on the control effect.

For this, the process of modeling a quantitative and qualitative change in the state of the air defense forces group is initiated by a block of modeling the state changes of the RET 9 samples, which implements a discrete-event statistical simulation of the process of changing the technical condition of each RET of the air defense forces group and generates statistical material that allows you to determine a set of estimates of the predicted quantitative indicators and qualitative condition of the park of the RET of the group of air defense forces obtained by r zlichnym implementations simulation.

The utility model is developed at the level of a modeling algorithm and a computer program. The results of validation and verification, as well as tests of the developed model, showed its adequacy to the simulated processes and increased the effectiveness of managing the development of the armament system of the air defense forces grouping by 12-14%.

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

1. Jaratano D., Riley G. Expert systems. Principles of development and programming. - M: Publishing House "William", 2007, Fig. 1.6., P. 70.

2. Lavrinov G.A. Problems of the development of the theory and practice of target-oriented planning in the context of the transition to a three-year public defense policy, prospective financial planning and budgeting, focused on results. - M: Electronic scientific journal “Arms and Economics”, No. 1 (1), 2008, p. 5-14.

Claims (1)

A device for solving the problem of forecasting the state of the fleet of electronic equipment (RET) of an air defense force grouping containing a knowledge base, a logical inference machine, working memory, an explanation unit, a user interface, a knowledge acquisition unit, so that the knowledge base output and the first working memory output are connected with the first and second inputs of the inference machine, respectively, the third input of the inference machine is connected to the second output of the knowledge acquisition unit, the first and second outputs of the inference machine connected to the input of the knowledge base and input of working memory, the third output of the logical output machine is connected to the first input of the explanation unit, the output of the explanation unit and the first output of the knowledge acquisition unit 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 the explanation unit and the input of the knowledge acquisition unit, the third input and the third output of the user interface are the first input and output of the pair state simulation device A RET group of air defense forces, characterized in that it further comprises: a block for modeling changes in the state of the RET samples, a block for generating scenarios for changing restrictions on the control action, a block for ranking many RET samples in priority, the third input of the working memory being connected to the fourth output of the user interface, the third the working memory output is connected to the fourth input of the user interface, the first block for ranking many PET samples is connected with the fourth by the logic output machine, the second input of the ranking block of the plurality of samples of RET is connected by priority to the second output of the working memory block, the output of the ranking block of the set of samples of RET by priority is connected to the second input of the simulation block of the state change of the samples of RET, the first input of the block for generating scenarios for changing control restrictions the action is connected to the second output of the working memory block, the second input of the scripting unit of changing the restrictions on the control action is connected with the fifth output of the logical inference engine block, the output of the block for generating scenarios of changing restrictions on the control action is connected to the first input of the block for modeling the state change of samples of the RT.

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