RU2633169C1 - Device for estimating operational reliability of automation system of command post of operational level - Google Patents

Abstract

FIELD: education.

SUBSTANCE: invention can be used in educational process when students and cadets of military academies receive knowledge on troop command and control. The device for estimating the operational reliability of automation system of command post of operational level, comprising a knowledge base, an inference machine, a working memory, an explainer, a user interface, a knowledge acquisition unit, wherein the device additionally comprises a unit for calculating the state of the element and software base of automation system (AS) when performing the basic control tasks at the command post (CP) of the operational or tactical command level in real-time scale, a unit for calculating the indicator of the forces state and means of the operational command level, a unit for determining the reliability of the AS CP operation of the operational command level, a unit for determining the reliability of the AS CP operation of the tactical command level, a unit for determining the reliability of the AS CP operation of the operational level in general.

EFFECT: automation of the calculation process for estimating the operational reliability of the automation system.

1 dwg

Description

The invention relates to laboratory equipment and can be used in the educational process when students and cadets of military academies obtain knowledge on command and control, in particular operational and tactical command and control units.

A well-known research model for evaluating the effectiveness of informational electronic means (radars, radio communications) of air defense (air defense) in the conditions of the enemy’s use of anti-radar missiles homing on the electromagnetic radiation of electronic systems [RU 126168, IPC G06N 7/00, 2012], including connected digital interface between the interface of the modeling complex, the long-range guidance model of anti-radar missiles, the homing model Ioradar radar missiles, a model for assessing the degree of damage to a radio-electronic system by the damaging factors of a high-explosive fragmentation warhead of an anti-radar missile, and a memory block for initial data and simulation results.

A disadvantage of the known model is the difficulty in assessing the effectiveness of command and control of air defense troops at the operational level as a supersystem indicator for assessing the reliability of the functioning of a complex of automation equipment (KSA).

The invention is known for evaluating the effectiveness of the operational level air defense forces [Patent No. 2585724 "Device for assessing the effectiveness of the operational level air defense forces"], which includes a knowledge base, logical inference machine, working memory, explanation unit, user interface and knowledge acquisition unit , a unit for calculating indicators for assessing the correlation of forces when fulfilling the main control tasks at a command post (KP) of an operational or tactical command link at the milestone, a unit for calculating the indicator of assessing the correlation of forces for a complex of command and control tasks at a separate line, a unit for determining the effectiveness of command and control of air defense forces with a command post of a command line, a unit for determining effectiveness of command and control of an air defense unit with tactical command and control, a unit for determining command and control efficiency of an air defense command line whole.

A disadvantage of the known invention is the lack of reliability in assessing the effectiveness of command and control of air defense troops at the operational level due to the lack of an assessment of the associated reliability indicator of the operation of the KSA.

The prototype of the invention is a system [Jaratano 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, 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 with 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 explanation unit, the output is As explanations 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 third output of the user interface are connected to an external user to the system (are the input and output of the system).

A disadvantage of the known system is that it does not take into account the contribution to the reliability assessment of the operation of the KSA KP of the operational level as a whole, the assessment of the reliability of the operation of the KSA KP of the tactical level of control, and the assessment of the contribution to the reliability of the operation of the KSA of individual control tasks is not provided.

The objective of the invention is to eliminate the shortcomings of the known system and create a device that provides automation of the calculation process for assessing the reliability of the complex automation equipment to be solved at the CP, when performing the main control tasks at the CP, as well as determining the reliability of the KSA KP operational link as a whole.

The technical result of the invention is the provision of automation of the calculation process for assessing the reliability of the functioning of a complex of automation tools to be solved at the control tower, while performing the main control tasks at the control tower.

The achievement of the claimed technical result and, as a result, the solution of the problem is ensured by the fact that the device for assessing the reliability of the KSA KP operational level containing a knowledge base, an inference machine, working memory, explanation unit, user interface, knowledge acquisition unit, thus 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, the third input of the logical output machine is connected to the second output of the acquisition block knowledge, the first and second outputs of the logical output machine are connected to the input of the knowledge base and the 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 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 by the output and output of a device for assessing the operational reliability of a KSA KP at an operational level, according to the invention it further comprises a unit for calculating indicators for assessing the state of an element and software base of a KSA when performing basic control tasks on a KP of an operational or tactical control link in real time, a unit for calculating an indicator for assessing the state of forces and means of the operational control link, the unit for determining the reliability of the KSA KP operational link, the unit for determining the reliability of the operation of the KSA KP tactical command link, the unit for determining the reliability of the KSA KP operational link as a whole, and the second output of the working memory is connected to the second inputs of the unit for calculating indicators for assessing the state of the elemental and software base of the KSA when performing basic control tasks on the KP of the operational or tactical command link in real time, a unit of an indicator for assessing the state of forces and means of an operational management link, a unit for determining the reliability of the operation of a KSA KP operati the main control link, the unit for determining the reliability of the KSA KP control tactical control link, the second input of the device for assessing the reliability of the KSA KP operational level is connected to the first input of the unit for calculating the indicators for assessing the state of the element and software base of the KSA when performing basic control tasks on the KP of the operational or tactical control link in real time, the output of the unit for calculating indicators for assessing the state of the elemental and software base of the KSA when performing the main tasks of the control real-time control of the operational or tactical control unit at the control unit is connected to the first input of the unit for calculating the status of forces and means of the operational control unit, the output of the unit for calculating the status of forces and means of the operational control unit is connected to the first input of the unit for determining the operational reliability of the KSA KP operational control link, the output of which is connected to the first input of the unit for determining the reliability of the KSA KP tactical control link, the output unit determining the reliability of operation of manual KSA tactical control unit connected to the input reliability determination unit KSA operation manual operative unit as a whole, whose output is connected to fourth input inference engine.

Additional introduction of interconnected unit for calculating indicators for assessing the state of the KSA element and software base when performing basic control tasks at the control unit of the operational or tactical control link in real time, the second input of which is connected to the second output of the working memory, the first input is connected to the second input of the evaluation device the reliability of the KSA KP operational level; a unit for calculating an indicator for assessing the state of forces and means of an operational control link, the second input of which is connected to the second output of the working memory; the unit for determining the reliability of the KSA KP operational control link, the second input of which is connected to the second output of the working memory; a unit for determining the reliability of the KSA KP tactical control link, the second input of which is connected to the second output of the working memory; the unit for determining the reliability of the operation of the KSA KP of the operational link as a whole, the output of which is connected to the fourth input of the logical inference machine, allows you to automate the process of calculating the reliability of the KSA, solved by the KP, when performing basic control tasks, calculating the indicator of assessing the state of forces and means of the operational control , determine the reliability of the operation of the KSA KP operational control link, determine the reliability of the operation of the KSA KP tactical control link, Lenia operational reliability KSA CP operational level as a whole. This, in turn, allows us to solve the problem, namely, to automate the process of calculating the reliability assessment of the KSA KP operational link as a whole.

The invention is illustrated by the drawing, which shows a structural diagram of a device for assessing the reliability of the operation of the KSA KP operational level.

In the drawing, the following notation:

1 - knowledge base;

2 - inference machine;

3 - working memory;

4 - block explanation;

5 - user interface;

6 - block acquisition of knowledge;

7 - a block for calculating indicators for assessing the state of the KSA elemental and software base when performing the main control tasks at the control center of the operational or tactical control link in real time;

8 - a unit for calculating an indicator for assessing the state of forces and means of an operational command link;

9 is a block for determining the reliability of the KSA KP operational control link;

10 is a block for determining the reliability of the operation of the KSA KP tactical control link;

11 is a block for determining the reliability of the operation of the KSA KP operational link as a whole.

Knowledge base 1 is intended for storing in RAM memory the rules for calculating indicators for assessing the state of the elemental and software base of KSA depending on the conditions of the situation. The input of the knowledge base 1 is connected to the output 2.5 of the logical output machine 2, and the output of the knowledge base 1 is connected to the input 2.1 of the logical output machine 2.

Logic inference machine 2 is designed to perform logical and arithmetic operations with data stored in working memory 3, in accordance with the rules stored in knowledge base 1. Inputs 2.1 and 2.2 of logic inference machine 2 are connected to the output of knowledge base 1 and output 3.1 of working memory 3. The input 2.3 of the logical inference machine 2 is connected to the output 6.2 of the knowledge acquisition unit 6. The input 2.4 of the logical inference machine 2 is connected to the output of the block 11 for determining the reliability of the KSA KP operational link as a whole. The output 2.5 of the logical output machine 2 is connected to the input of the knowledge base 1, the output 2.6 is connected to the input of the working memory 3, and the output 2.7 is connected to the input 4.1 of the explanation unit 4.

The working memory 3 is intended for storing in random access memory data on the multiplicative coefficients of readiness and operational readiness of the KSA depending on the state of the forces and means of the operational command link, the time of building the strike variant and the distribution of air attack means (STS) by area of operation, the time of building the options for grouping troops operational control link, the depth of the observed airspace, the parameters characterizing the relative amount of air defense forces and means in the group, operating at the front line, which is in the least degree of combat readiness, the possible degree of concentration of strategic missiles in the main direction of impact (the parameter is estimated by the difference between the number of strategic missiles in the main and secondary directions, related to the total number of strategic missiles expected at a given boundary), the possible degree of concentration of strategic missiles for a breakthrough at the junctions of the zones of responsibility of the troops (the parameter is estimated by the relative number of tactical air forces groups, according to which it is necessary to solve the problem of coordinating efforts).

The input of the working memory 3 is connected to the output 2.6 of the machine 2 logical output. The output 3.2 of the working memory 3 is connected to the input 7.2 of the unit 7 for calculating the indicators for assessing the state of the KSA element and software base when performing the main control tasks on the control unit of the operational or tactical control unit in real time, input 8.2 of the unit 8 for calculating the indicator for assessing the status of forces and means of the operational unit control, input 9.2 of block 9 for determining the reliability of the KSA KP operational control link, input 10.2 - block 10 for determining the reliability of the KSA KP tactical control link.

Block 4 of the explanation is intended for storing and transmitting information in transit to determine the reliability of the KSA KP tactical command link. The input 4.1 of the explanation block 4 is connected to the output 2.7 of the logic output machine 2. The input 4.2 of the explanation block 4 is connected to the output 5.4 of the user interface 5. The output of the explanation block 4 is connected to the input 5.1 of the user interface 5.

The user interface 5 is intended for communication 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 unit 4.

The input 5.2 of the user interface 5 is connected to the output 6.1 of the block 6 knowledge acquisition. Input 5.3 of the user interface 5 is the first input of the device for assessing the reliability of the operation of the KSA KP operational level and is connected to the user of the system. The output 5.4 of the user interface 5 is connected to the input 4.2 of the explanation unit 4. The output 5.5 of the user interface is connected to the input of the block 6 knowledge acquisition. The output 5.6 of the user interface 5 is the output of the device for assessing the reliability of the operation of the KSA KP operational level and is connected to the user of the system.

Block 6 of the acquisition of knowledge is intended for the organization of a dialogue procedure, the purpose of which is to approve the control actions to determine the reliability of the operation of the KSA KP tactical management link. The input of knowledge acquisition unit 6 is connected to output 5.5 of user interface 5. Output 6.1 of knowledge acquisition unit 6 is connected to input 5.2 of user interface 5. Output 6.2 of knowledge acquisition unit 6 is connected to input 2.3 of inference machine 2.

Block 7 of the calculation of indicators for assessing the state of the KSA element and software base when performing the main control tasks at the control unit of the operational or tactical control link in real time is designed to assess the reliability of the KSA control unit during the execution of the main control tasks. The input 7.1 of the unit 7 for calculating the indicators for assessing the state of the KSA elementary and software base when performing the main control tasks at the control unit of the operational or tactical control link in real time is the second input of the operational level reliability assessment device of the KSA KP through which the KSA KP operation reliability assessment device the operational level receives information about the parameters of the control system (the time lag information of commands and signals of combat control, about the air environment new, combat readiness of troops, military operations, technical parameters of the system). The input 7.2 of the block 7 for calculating the indicators for assessing the state of the KSA element and software base when performing the main control tasks on the control unit of the operational or tactical control link in real time is connected to the output 3.2 of the working memory 3. The output 7.3 of the block 7 for calculating the indicators for assessing the state of the element and the KSA software base when performing the main control tasks at the control unit of the operational or tactical control link in real time, it is connected to the input 8.1 of block 8 for calculating the indicator for assessing the state of the forces and means of the opera ivnogo management level.

Block 8 of the calculation indicator for assessing the state of the forces and means of the operational control unit is intended for the multiplicative calculation of the coefficients of readiness and operational readiness of the KSA depending on the state of the forces and means of the operational control unit. The input 8.1 of the unit 8 for calculating the indicator for assessing the state of forces and means of the operational command link is connected to the output 7.3 of the block 7 for calculating the indicators for assessing the state of the KSA element and software base when performing the main control tasks on the control unit of the operational or tactical command link in real time. The input 8.2 of the unit 8 for calculating the indicator for assessing the state of the forces and means of the operational control link is connected to the output 3.2 of the working memory 3. The output for calculating the indicator for assessing the state of the forces and means for the operational link of the control is connected to the input 9.1 of the block 9 for determining the reliability of the KSA KP of the operational control link.

Block 9 for determining the reliability of the operation of the KSA KP operational link provides an assessment of the reliability of the operation based on the obtained estimates of the coefficients of availability and operational readiness of the KSA KP. The input 9.1 of block 9 for determining the reliability of the KSA KP operational control link is connected to the output of block 8 for calculating an indicator for assessing the state of forces and means of the operational control link. Entrance 9.2. unit 9 for determining the reliability of the operation of the KSA KP of the operational control link is connected to the output 3.2 of the working memory 3. Output 9.3 of the block 9 for determining the reliability of the operation of the KSA KP of the operational control link is connected to the input 10.3 of the block 10 for determining the reliability of the operation of the KSA KP of the tactical control link.

Block 10 determining the reliability of the operation of the KSA KP tactical management link provides an assessment of the reliability of the operation based on the estimates of the availability and operational readiness of the KSA KP based on two-valued probabilistic models, based on the assumption that the distribution density belongs to the class of beta distributions. Input 10.3 of block 10 for determining the reliability of the KSA KP tactical control unit is connected to output 9.3 of block 9. Input 10.2 of block 10 for determining the reliability of the KSA KP tactical control link is connected to output 3.2 of working memory 3. Output 10.1 of block 10 for determining the reliability of functioning KSA KP for a tactical link control is connected to the input of block 11 determining the reliability of the KSA KP operational link as a whole.

Block 11 determining the reliability of the operation of the KSA KP operational link as a whole provides a multiplicative convolution of the reliability of the operation of the KSA KP operational link and the reliability of the operation of the KSA KP tactical control link. The input of block 11 is connected to the output 10.1 of block 10 for determining the reliability of the KSA KP tactical control link, and the output of block 10 is connected to the input 2.4 of the logical output machine 2.

Blocks 1-11 are made in the form of software and hardware modules on a PC expansion card with an architecture of type X86 installed on the corresponding control gears.

The operation of the device for assessing the reliability of the KSA KP operational level is as follows.

At the preliminary stage of the device’s operation, the data on the multiplicative readiness and operational readiness coefficients of the KSA are loaded into working memory 3 depending on the state of the forces and means of the operational command and control unit, the time for constructing the strike variant and the distribution of the strategic missile forces by area of operations, the time for constructing the options for grouping the troops of the operational command unit, the depth of the observed airspace, the parameters characterizing the relative amount of air defense forces and means in the group operating at the front line e, which is in the least degree of combat readiness, the possible degree of concentration of strategic missiles in the main direction of impact (the parameter is estimated by the difference between the number of strategic missiles in the main and secondary directions, related to the total number of strategic missiles expected at a given boundary), the possible degree of concentration of strategic missiles for a breakthrough at the junctions areas of responsibility of the troops (the parameter is estimated by the relative number of tactical groups of the IOS, according to which it is necessary to solve the problem of coordinating efforts).

In the knowledge base 1 lay the rules for calculating indicators for assessing the state of the elemental and software base of the KSA depending on the conditions of the situation.

After completing the preliminary stage of the device’s operation, the user enters into the device for assessing the operational reliability of the KSA KP operational level through the user interface 5 parameters characterizing the control system (time lag of information of commands and signals of combat control, air situation, combat readiness of troops, military operations), parameters, characterizing the reliability of the operation of the KSA KP (the time for constructing the strike option and the distribution of IOS among the areas of action, the time for building the options troop groupings of the operational command link, the depth of the observed airspace, the parameters characterizing the relative amount of air defense forces and means in the group operating at the front line, which is in the least degree of combat readiness, the possible degree of concentration of air attack on the main direction of impact, the possible degree of concentration of air defense for breaking at the junctions of the zones of responsibility of the troops), received through the input 5.3 of the user interface 5, then go to the input of the unit 6 of knowledge acquisition, and through transiting to the input of the machine 2 2.3 inference. The logical inference machine 2 provides, on the basis of logical rules stored in the knowledge base 1, loading into the working memory 3 of a particular variant of the rules for calculating the indicators for assessing the state of the KSA element and software base, depending on the conditions of the situation. The numerical code characterizing the time lag of information of commands and signals of combat control about the air situation, combat readiness of troops, combat operations, technical parameters of the system are received through the appropriate links to block 7 for calculating indicators for assessing the state of the KSA element and software base when performing basic control tasks at the control center operational or tactical control link in real time, in block 8 of the calculation indicator for assessing the state of the forces and means of the operational control link, in block 9 the reliability of the operation of the KSA KP operational control link, in block 10 determining the reliability of the operation of the KSA KP tactical control link.

Through the second input of the device for assessing the reliability of the KSA operation at the operational level, the input 7.1 of the unit 7 for calculating the indicators for assessing the state of the elemental and software base of the KSA when performing basic control tasks at the operational or tactical control unit in real time receives the initial data for calculating the availability and operational coefficients KSA KP readiness (parameters characterizing the likelihood that the object will be in working condition at an arbitrary point in time, except for periods during which the intended use of the object is not provided, and starting from this moment, it will work faultlessly for a given time interval). When this possibility is established, the initial data comes from the output 7.3 of the block 7 for calculating the indicators for assessing the state of the KSA element and software base when performing the main control tasks at the control unit of the operational or tactical control link in real time to input 8.1 of the block 8 for calculating the indicator for assessing the state of forces and means of the operational management link. In block 8, the calculation of the coefficients of readiness and operational readiness of the KSA is calculated depending on the state of the forces and means of the operational control link. From the output of block 8, the readiness and operational readiness indicators of the KSA are fed to input 9.1 of block 9 for determining the reliability of the KSA KP operational control link. In block 9, the reliability of operation is assessed based on the obtained estimates of the availability and operational readiness coefficients of the KSA KP 9.3 at input 10.3 of block 10 for determining the reliability of the KSA KP tactical control unit. In block 10, an assessment of the reliability of operation is provided on the basis of the obtained estimates of the availability and operational readiness coefficients of the KS KP based on two-valued probabilistic models, based on the assumption that the distribution density belongs to the class of beta distributions, from the output 10.1 of block 10 it enters the input of block 11. B block 11 provides a multiplicative convolution of the reliability of the KSA KP operational control link and the reliability of the KSA KP tactical control link. The output of block 11 is used to determine the reliability of the KSA KP operational link as a whole. The input 2.4 of the logical output machine 2, through which it follows in transit to the input 4.1 of the explanation block 4. From the output of block 4, explanations for assessing the reliability of functioning of the KSA KP of the operational level go to input 5.1 of the user interface 5, and from its output 5.6 to the output of the device for assessing the reliability of functioning of the KSA KP of the operational level.

A device for assessing the reliability of the operation of the KSA KP operational level is developed at the level of the laboratory model and software for it. The test results of the model showed an increase in the accuracy of assessing the reliability of the KSA KP operational level by 17-21%.

Claims (1)

A device for evaluating the reliability of the functioning of a complex of automation equipment at a command post of an operational level, containing a knowledge base, a logical inference machine, working memory, an explanation unit for storing and transmitting information in transit to determine the reliability of the KSA KP tactical control unit, user interface, knowledge acquisition unit , designed to organize a dialogue procedure, the purpose of which is the approval of control actions by definition the reliability of the operation of the KSA KP tactical control link, and 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, 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 knowledge base and working memory input, 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 third output of the user interface are the first input and output of the device for evaluating the reliability of the operation of the automation complex of the command point of the operational level, different the fact that it additionally contains a unit for calculating indicators for assessing the state of the elemental and software base of a complex of auto tools matization (KSA) when performing the main control tasks at a command post (KP) of an operational or tactical control link in real time, a unit for calculating an indicator for assessing the state of forces and means of an operational control unit, a unit for determining the reliability of the KSA KP control unit for an operational control unit, a reliability determination unit the operation of the KSA KP tactical control link, the unit for determining the reliability of the operation of the KSA KP operational link as a whole, and the second output of the working memory is connected to the inputs of the unit for calculating the indicators for assessing the state of the KSA element and software base when performing the main control tasks at the control unit of the operational or tactical control unit in real time, the unit for evaluating the state of forces and means of the operational control unit, the unit for determining the reliability of the operation of the KSA KP for the operational control unit, the unit for determining the reliability of the operation of the KSA KP tactical control link, the second input of the device for assessing the reliability of the operation of the KSA KP operator level is connected to the first input of the unit for calculating the indicators for assessing the state of the KSA element and software base when performing the main control tasks at the control unit of the operational or tactical control link in real time, the output of the block for calculating the indicators for assessing the state of the KSA element and program base for performing the main control tasks at KP operational or tactical control link in real time is connected to the first input of the unit for calculating the indicator for assessing the state of forces and means of operational control link, the output of the unit for calculating the indicator of assessing the state of the forces and means of the operational control link is connected to the first input of the KA KP KP operational reliability control unit, the output of which is connected to the first input of the unit for determining the operational reliability of KSA KP tactical control link, the output of the operation reliability determining unit KSA KP tactical control link is connected to the input of the unit for determining the reliability of the KSA KP operational link as a whole, you od is connected to the fourth input inference engine.

Images