RU103412U1 - INFORMATION-MODELING ENVIRONMENT FOR ENSURING MANAGEMENT OF GROUPING OF TROOPS (FORCES) - Google Patents

Abstract

 1. The information-modeling environment for providing control of troops (forces) groupings contains a knowledge base, a logical inference machine, working memory, an explanation unit, a user interface, a knowledge acquisition unit, and the knowledge base output and working memory output connected to the first and second inputs of the machine logical output, the third input of the logical output machine 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 input of the knowledge base and the input of the working memory, respectively Actually, 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 of 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 the first output of the information-modeling environment to ensure the management of troops (forces), exc which, in order to increase the efficiency of solving the command and control tasks based on the obtained simulation results and operational tactical calculations, includes a block of information-calculation tasks, a modeling system, a database of the parameters of the conditions of the simulated situation, and the fourth, fifth and sixth vehicle exits logical inference are connected to the first inputs of the block of information-calculation problems, a modeling system and a database of parameters of the conditions of the simulated situation, respectively, the fourth,

Description

An information-modeling environment for providing control of troops (forces) groups belongs to the class of digital computing or data processing devices specially designed for specific functions.

The known system / 1 / / prototype /, which includes a knowledge base, a logical output 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 logical output machine 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 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 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 to the external relation to the system by the user (they are the input and output of the system).

System / 1 / can be used to provide information models of military operations and information-calculation tasks, designed to manage the grouping of troops (forces).

In this case, the system / 1 / operates as follows. At the preliminary stage of the system’s operation, data on the initial situation are loaded into working memory: a geo-information database, data on the tactical and technical characteristics of weapons systems, military and special equipment, data on the operational formation and battle formation of troops (forces). The knowledge base contains the rules for entering troops (forces) into battle, the rules and criteria for choosing rational flight routes. Based on the data on the situation and the rules for the entry of troops (forces) into battle, an array of input data is formed in the logical inference block, which is necessary and sufficient for carrying out mathematical modeling of military operations and operational-tactical calculations using information and calculation tasks designed to control the troop group ( forces). To inform the system user about the list of rules that were used by the system in preparing the array of source data, a solution trace is provided using the explanation block. Correction of the rules for introducing troops (forces) into battle is carried out through the unit for acquiring knowledge. In addition, the array of source data, necessary and sufficient for mathematical modeling of military operations and operational-tactical calculations, can be adjusted by the user through the user interface. Through the same interface, the user receives the results of modeling and operational-tactical calculations.

The disadvantage of the device / 1 / is that the solution to the task of command and control of troops on the basis of its use is not carried out quickly enough. This is due to the fact that after the completion of each cycle of command and control (troops), it is necessary to re-enter all the initial data on the conditions of the situation, which differ significantly from those that were introduced at the previous stages of the simulation and calculations. Repeated preparation of all initial data requires significant time costs, which reduces the efficiency of obtaining simulation results and operational-tactical calculations.

The inventive utility model is aimed at improving the efficiency of solving the command and control tasks based on the obtained simulation results and operational-tactical calculations.

The inventive information-modeling environment for providing control of troops (forces), as well as a prototype, contains a knowledge base, a logical inference machine, working memory, an explanation unit, a user interface, a knowledge acquisition unit, and the knowledge base output and working memory output connected to the first and the second inputs of the logical output machine, the third input of the logical output machine 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 input of the knowledge base and the input working memory, respectively, 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 of the explanation unit and the input of the acquisition unit knowledge, the third input and the third output of the user interface are the first input and the first output of the information-modeling environment to provide group management irovkami troops (forces).

In contrast to the prototype, the information-modeling environment for providing control of troops (forces) groupings contains a block of information-calculation tasks, a modeling system, a database of parameters of the conditions of the simulated situation, and the fourth, fifth and sixth outputs of the logical output machine are connected to the first inputs of the block - calculation tasks, a modeling system and a database of parameters of the conditions of the simulated situation, respectively, the fourth, fifth and sixth inputs of the inference machine are connected to the first and the outputs of the block of information-calculation tasks, the modeling system and the database about the parameters of the conditions of the simulated situation, respectively, the second output of the block of information-calculation tasks is connected to the second input of the modeling system, the second output of the modeling system is connected to the second input of the database about the parameters of the conditions of the simulated situation, the second output of the database on the parameters of the conditions of the simulated situation is connected to the second input of the block of information-calculation problems.

The following is an example of the claimed utility model. Figure 1 shows the structural diagram of the information-modeling environment to provide control of groupings of troops (forces).

The inventive information-modeling environment for providing control of groupings of troops (forces) (figure 1) contains:

1 - knowledge base;

2 - inference machine;

3 - working memory;

4 - block explanation;

5 - user interface;

6 - block acquisition of knowledge;

7 - block information-calculation tasks;

8 - modeling system;

9 - a database of the parameters of the conditions of the simulated environment.

Knowledge Base 1 is a workstation, for example, of the type Avelion DW200 111, which allows you to store in memory the rules for entering troops (forces) into battle, the rules and criteria for choosing rational flight routes for aviation. The input of the knowledge base is connected to the output 2.7 of the inference machine. The output of the knowledge base is connected to input 2.1 of the inference machine.

Inference machine 2 is a workstation, for example, of the type Avelion DW200 / 2 /, capable of performing logical and arithmetic operations with data stored in working memory 3, in the database of the conditions of the simulated environment 9 and the block of information-calculation tasks 7, in in accordance with the rules stored in the knowledge base 1. Inputs 2.1 and 2.2 of the logical inference machine are connected to the output of the knowledge base 1 and the output of working memory 3. Input 2.3 is connected to the output 6.2 of the knowledge acquisition unit 6. Input 2.4 of the logical inference machine is connected output 7.3 of the block of information-calculation problems 7. Input 2.5 of the logical output machine is connected to output 8.3 of the modeling system 8. Input 2.6 of the logical output machine is connected to output 9.3 of the database on the conditions of the simulated environment 9. Output 2.7 of the logical output machine is connected to the input of knowledge base 1 The output 2.8 of the logical output machine is connected to the input of the working memory 3. The output 2.9 of the logical output machine is connected to the input 4.1 of the explanatory block 4. The output 2.10 of the logical output machine is connected to the input 7.1 of the block of information-calculation problems 7. The output 2.11 of the logical output machine is connected to the input 8.1 of the modeling system 8. The output 2.12 of the logical output machine is connected to the input 9.1 of the database on the parameters of the conditions of the simulated situation 9.

Working memory 3 is a workstation, for example, of the type Avelion DW200 / 2 /, which allows storing in operational memory data on the initial situation: a geo-information database, data on the tactical and technical characteristics of weapons systems, military and special equipment, initial data on operational construction and battle order of troops (forces). The input of the working memory is connected to the output 2.8 of the logic output 2. The output of the working memory is connected to the input 2.2 of the logical output 2.

Block explanation 4 is a workstation, for example, type Avelion DW200 / 2 /, capable of remembering the list of rules that were used by the system in preparing the array of source data. The input 4.1 of the explanation unit is connected to the output 2.9 of the inference machine 2. The input 4.2 of the explanation unit is connected to the output 5.4 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 workstation, for example, of the type Avelion DW200 111, 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 unit 6. The input 5.3 of the user interface is the first input of the information-modeling environment for providing control of troop (force) groupings. The output of the user interface 5.4 is connected to the input 4.2 of the explanatory block 4. The output 5.5 of the user interface is connected to the input of the knowledge acquisition unit 6. The output 5.6 of the user interface is the output of the information-modeling environment for providing control of troop (force) groupings.

The knowledge acquisition unit 6 is a workstation, for example, of the type Avelion DW200 111, which provides for the organization of a dialogue procedure, the purpose of which is to lay down (adjust) the rules for introducing troops (forces) into battle. The input of the knowledge acquisition unit is connected to the output 5.5 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 block of informational and computational tasks 7 is a workstation, for example, of the Avelion DW200 111 type, which provides an assessment of the situation, development of options (methods) for the enemy and their troops (forces), automated development of control issues, all types of support and interaction, and operational-tactical calculations and forms an array of source data necessary and sufficient for mathematical modeling of military operations. The input 7.1 of the block of information-calculation problems is connected to the output 2.10 of the logical inference machine 2. The input 7.2 of the block of information-calculation tasks is connected to the output 9.4 of the database on the parameters of the conditions of the simulated situation 9. The output 7.3 of the block of information-calculation problems is connected to the input 2.4 of the logic inference 2 .. Output 7.4 of the block of information-calculation problems is connected to input 8.2 of the modeling system 8.

Simulation system 8 is a workstation, for example, of the type Avelion DW200 / 2 /, which provides modeling of objects and subjects of warfare in a given model environment, evaluates the effectiveness of military operations, displays the progress and results of modeling. The input 8.1 of the modeling system is connected to the output 2.11 of the logical output machine 2. The input 8.2 of the modeling system is connected to the output 7.4 of the block of information-calculation problems 7. The output 8.3 of the modeling system is connected to the input 2.5 of the logic output 2. The output 8.4 of the modeling system is connected to the input 9.2 of the base data on the parameters of the conditions of the simulated environment 9.

The database of the parameters of the conditions of the simulated environment 9 is a workstation, for example of the type Avelion DW200 / 2 /, which ensures the storage of data on the environmental conditions at certain time intervals. The input 9.1 of the database on the parameters of the conditions of the simulated situation is connected to the output 2.12 of the logical output machine 2. The input 9.2 of the database on the parameters of the conditions of the simulated situation is connected to the output 8.4 of the modeling system 8. The output 9.3 of the database on the parameters of the conditions of the simulated situation is connected to the input 2.6 of the logical machine output 2. Output 9.4 of the database on the parameters of the conditions of the simulated situation is connected to input 7.2 of the block of information-calculation problems 7.

Structurally, the information-modeling environment for providing control of troops (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 troops (forces) corresponds to group 1.3 of the UHL GOST V20.39.304-75.

An information-modeling environment is working to provide control of troops (forces) as follows.

At the preliminary stage of work, data on the initial situation are loaded into working memory 3: a geoinformation database, data on the tactical and technical characteristics of weapons systems, military and special equipment, data on the operational formation and battle formation of troops (forces). The knowledge base 1 is loaded with the rules for entering troops (forces) into battle, the rules and criteria for choosing rational flight routes. Based on the data on the situation and the system of rules for the entry of troops (forces) into the battle, corresponding to the initial situation formed by the logical inference machine 2, an array of initial data is generated in the block of information-calculation tasks 7, which is necessary and sufficient for mathematical modeling of military operations and operational tactical calculations using information and calculation tasks designed to control the grouping of troops (forces). Operational tactical calculations are carried out in the block of information-calculation tasks 7. The array of source data formed in the same block, which is necessary and sufficient for carrying out mathematical modeling of military operations, is transferred to a modeling system 8, which provides modeling of military operations in accordance with the initial data. The parameters of the conditions of the simulated situation are stored in the database of the parameters of the conditions of the simulated situation 9 at certain time intervals, significantly shorter than the control cycle. The user through the user interface 5 can at any time (usually at the time of completion of the control cycle) stop the simulation process and restart the environment, indicating the moment of model time from which the restart is made. Restarting the information-modeling environment to ensure the management of troops (forces) is carried out on the basis of data on the parameters of the conditions for modeling the situation at a specified point in time. In addition, these data can be adjusted by the user through the user interface 5, which allows, in particular, to increase the simulated environment, for example, by entering reserves. Taking into account the changes that have occurred in the grouping, the conditions for the entry of troops (forces) into battle are changing, and the conditions for the safe flight of air targets to targets are changing. The rules for the entry of troops (forces) into battle, which are stored in the knowledge base 1, remain unchanged. After restarting the information-modeling environment to ensure the management of troops (forces), military operations are modeled according to the previously considered scheme. The re-preparation of the initial data is limited to the introduction of additional information on building the situation, for example, through the introduction of reserves. For the introduction of additional source data related to building up the situation, a substantially shorter time is required than for conducting a complete cycle of input of source data. To inform the user of the system about the list of rules that the system used to prepare the source data array, it is possible to trace the solution using the explanation block 4. The rules for introducing troops (forces) into battle are adjusted through the knowledge acquisition unit 6. In addition, the source data array, necessary and sufficient for mathematical modeling of military operations and operational-tactical calculations, can be adjusted by the user through the user interface 5. Through this w The user interface receives the results of modeling and operational-tactical calculations.

By conducting repeated experiments, it was found that the use of the claimed model reduces the time to obtain the results of modeling and operational tactical calculations by 1.23-1.4 times.

The presented option of constructing an information-modeling environment to ensure the management of troops (forces) does not exhaust the possible ways of its practical implementation.

Sources taken into account:

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

2. Pyatibratov A.P., Gudyno L.P., Kirichenko A.A. Computing systems, networks and telecommunications. - M .: Finance and statistics; INFRA-M, 2008.

Claims (1)

1. The information-modeling environment for providing control of troops (forces) groupings contains a knowledge base, a logical inference machine, working memory, an explanation unit, a user interface, a knowledge acquisition unit, and the knowledge base output and working memory output connected to the first and second inputs of the machine logical output, the third input of the logical output machine 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 input of the knowledge base and the input of the working memory, respectively Actually, 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 of 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 the first output of the information-modeling environment to ensure the management of troops (forces), exc which, in order to increase the efficiency of solving the command and control tasks based on the obtained simulation results and operational-tactical calculations, includes a block of information-calculation tasks, a modeling system, a database of the parameters of the conditions of the simulated situation, and the fourth, fifth and sixth vehicle exits logical inference are connected to the first inputs of the block of information-calculation problems, the modeling system and the database about the parameters of the conditions of the simulated situation, respectively, the fourth, p the fourth and sixth inputs of the logical output machine are connected to the first outputs of the block of information-calculation problems, the modeling system and the database of the parameters of the conditions of the simulated situation, respectively, the second output of the block of information-calculation problems is connected to the second input of the modeling system, the second output of the modeling system is connected to the second database input on the parameters of the conditions of the simulated environment, the second output of the database on the parameters of the conditions of the simulated situation is connected to the second input of the information block no-settlement problems.