RU2741264C1 - Method for two-level control of technical means (versions) - Google Patents

Abstract

FIELD: control of equipment.

SUBSTANCE: inventions relate to the field of technical means (TM) control and can be used for expansion of TM control functionality of various purposes, for example, cybersecurity, protection, communication. Group of invention includes execution of control functions at control point (CP) of second level, such as collection, processing, analysis, additional determination of data on impact objects, assessment of the capabilities of its TM and making a decision to implement an impact, and on the CP of the first level - functions of additional determination of data on impact objects, assessing the effectiveness of implementing the effect of all TM on all objects of impact and self-distribution of objects for effecting, and when controlling on the CP of the second and first levels performing the formation of databases, analysis and additional determination of data, identification and classification of objects of action, determining priorities and forming a list of exposure objects in accordance with their priorities.

EFFECT: technical result is broader functional capabilities of the control method.

2 cl, 2 dwg

Description

The inventions relate to the field of control of technical means (TS) and can be used to expand the functionality of two-level control of vehicles for various purposes, for example, cybersecurity, security, communications, reconnaissance, electronic warfare, radar, etc.

At present, there is a known method for controlling the parameters of an object (Russia, patent No. 2173870, G05В 11/00, 2001), which consists in setting an input signal proportional to the nominal value of the output parameter, isolating a signal proportional to the value of the output parameter, generating a signal errors proportional to the difference between the input and selected signals, set threshold signals that determine the values of the positive and negative deviations from the nominal value of the output parameter, compare the error signal with threshold signals proportional to the positive and negative values of the deviation from the nominal value of the output parameter, and with an error signal less than the threshold signal proportional to the negative value of the deviation from the nominal value of the output parameter, or more than the threshold signal proportional to the positive value of the deviation from the nominal value of the output parameter, control the change in the parameters of the object in in accordance with the input signal, and when the error signal is greater than the threshold signal proportional to the negative value of the deviation from the nominal value of the output parameter, and less than the threshold signal proportional to the positive value of the deviation from the nominal value of the output parameter, control the change in the object parameters in accordance with the difference between the input and the selected signals in such a way as to reduce the error signal.

However, this method does not allow for the management of technical means.

There is also known a method for remote control of equipment (Germany, application No. 4125839, G05В 15/00, 1993), which consists in generating commands in the form of control signals on a computerized control panel and transmitting them via communication lines to a device for receiving commands and issuing address control signals to the executive mechanisms of equipment.

The main disadvantage of this method is that it ensures the execution of only a part of the control functions, consisting in the formation of control commands and their transfer to the executive elements.

Currently, a group of four methods of two-level control is known (Russia, patent No. 2486565, G05В 15/00, 2013), the third of which consists in the fact that a database of vehicles, objects of influence and conditions of the situation is formed at the second level control unit , analyze data on their vehicles, objects of influence and conditions of the situation for completeness, if necessary, additional determination of the data, arbitrarily assign one of the control points of the first level to carry out additional determination of data and to assess the effectiveness of the impact of all vehicles on all objects of influence, all objects of influence are arbitrarily divided into two groups and are distributed to carry out additional data definition between the second-level control point and the designated first-level control point, at the second-level control point, additional data about the selected group of objects of influence is determined and additional data about the selected group of objects of influence and known characteristics of their vehicles are transmitted to the designated control unit of the first level I, simultaneously with the beginning of the additional determination of data on the selected part of the objects of influence on the second level control unit, they form a command in the form of control signals to determine the missing data on the objects of influence and to assess the effectiveness of the impact of all vehicles on all objects of influence and transmit it via communication lines to the designated control point of the first level, data is transmitted to the rest of the control units of the first level about which of the control units of the first level is assigned to collect additional data on all groups of objects of influence and to assess the effectiveness of the impact of all vehicles on all objects of influence, at control points of the first level after receiving this teams form a database of their technical means, objects of influence and conditions of the situation, at the designated control point of the first level, they redefine data on the selected group of objects of influence, transmit data about their technical means, objects of influence and conditions of the situation to the second level control unit, the remaining CPs of the first level transmit to the CP of the second level and to the assigned CP of the first level data about their technical means and conditions of the situation, at the designated control point of the first level they receive additional data from the CP of the second level about the group of objects of influence allocated to it, and from the rest of the CPs of the first level - data on their technical means and conditions of the situation, assess the effectiveness of the impact of all vehicles on all objects of influence, transmit to the second level control system the results of assessing the effectiveness of the impact of all vehicles on all objects of influence, on the second level control system they collect additional data on the state of their technical means , about the objects of influence and the conditions of the situation, the results of assessing the effectiveness of the impact of their vehicles on all objects of influence, clarify the database of the vehicle, objects of influence and conditions of the situation, identify the objects of influence, classify objects of influence, determine the priorities of the of influence objects, form a list of objects of influence in accordance with the obtained values of their priorities, assess the capabilities of their vehicles to influence the objects included in the priority list, form a randomly list of vehicles whose efficiency values were sufficient to influence objects from the generated list, distribute objects for impacting between the vehicle by sequential pairwise correlation of the objects of influence and the vehicle from the corresponding formed lists, form target designations for the standard vehicle to influence the selected objects, form commands on the computerized control panel and transmit them via communication lines to the device for receiving commands and issuing address controllers signals.

This method of two-level control is the closest to the claimed methods of two-level control of technical means.

The main disadvantage of this method is that it allows you to perform such control functions at the second-level control center as collection, processing, analysis, additional determination of data on the objects of influence, assessing the capabilities of your vehicles and making decisions on the implementation of the influence, and at the first-level control points - functions of additional determination of data on objects of influence and assessment of the effectiveness of the impact of all vehicles on all objects of influence, but at the same time it does not ensure the fulfillment of the function of independent distribution of objects for the implementation of the impact at the control points of the first level.

These disadvantages reduce the functionality of two-level control when using a known technical solution, as a method, two-level control of technical means for various purposes.

The task to be solved by the proposed inventions is to expand the functionality of the two-level control method by performing on the second level control functions such control functions as collecting, processing, analyzing, redefining data on objects of influence, assessing the capabilities of their vehicles, making decisions on the implementation and the distribution of objects of influence between the vehicles of the selected group, and at the first level of control - functions of additional determination of data on objects of influence, assessing the effectiveness of the impact of all vehicles on all objects of influence and independent distribution of objects for the implementation of the impact.

The solution to the problem is carried out by developing a group of technical solutions interconnected so much that they form a single inventive concept, which are two independent versions of the method of two-level control of technical means of the same purpose.

In the first version of the method of two-level control of technical means, the task is solved due to the fact that in the known method of two-level control, which consists in the fact that a database of vehicles, objects of influence and conditions of the situation is formed at the CP of the second level, data about their vehicles, objects of influence are analyzed and the conditions of the situation for completeness, if it is necessary to redefine the data, one of the control points of the first level is arbitrarily assigned to carry out the additional determination of data and to assess the effectiveness of the impact of all vehicles on all objects of influence, all objects of influence are arbitrarily divided into two groups and distributed to carry out additional determination of data between the point control of the second level and the designated control point of the first level, at the control point of the second level, additional data on the selected group of objects of influence are determined and the additional data on the selected group of objects of influence and the known characteristics of their vehicles are transmitted to the the initial control unit of the first level, simultaneously with the beginning of the additional determination of data on the selected part of the objects of influence on the control unit of the second level, a command is formed in the form of control signals to determine the missing data on the objects of influence and to assess the effectiveness of the impact of all vehicles on all objects of influence and transmit it via communication lines to the designated control point of the first level, data is transmitted to the rest of the control units of the first level, which of the control units of the first level is assigned to collect additional data on all groups of objects of influence and to assess the effectiveness of the impact of all vehicles on all objects of influence, at control points of the first level after receiving this command, they form a database of their technical means, objects of influence and conditions of the situation, at the designated control point of the first level, additional data on the selected group of objects of influence are determined, data on their technical means, objects of influence are transmitted to the control unit of the second level and the conditions of the situation, the remaining CPs of the first level transmit to the CP of the second level and to the assigned CP of the first level data about their technical means and the conditions of the situation, at the designated control point of the first level receive additional data from the CP of the second level about the group of objects of influence allocated to it, and from the rest of the first level CPs - data on their technical means and conditions of the situation, assess the effectiveness of the impact of all vehicles on all objects of influence, transmit to the second level CPs the results of assessing the effectiveness of the impact of all vehicles on all objects of influence, on the second level CPs collect additional data on the state of their technical means, on objects of influence and conditions of the situation, the results of assessing the effectiveness of the impact of their vehicles on all objects of influence, clarify the database of the vehicle, objects of influence and conditions of the situation, identify objects of influence, classify objects of influence, determine the priorities of the objects of influence, form a list of objects of influence in accordance with the obtained values of their priorities, evaluate the capabilities of their vehicles to influence the objects included in the priority list, form a randomly list of vehicles whose efficiency values were sufficient to influence the objects from the generated the list, new is that in addition, after that, a centralized group of vehicles and the corresponding CPs of the first level are assigned, for which the distribution of objects of influence and the formation of target designations will be carried out centrally at the CP of the second level, a group of objects of influence corresponding to this centralized group of vehicles is assigned for centralized distribution, form a numbered list of objects of influence for centralized distribution, compare estimates of the effectiveness of the impact of each vehicle of the centralized group on all objects of influence from the numbered list ska for centralized distribution, select for each vehicle of the centralized group an object of influence from a numbered list for centralized distribution, the effectiveness of the impact on which this vehicle is the greatest, distribute objects for the implementation of impact between the vehicle of the centralized group by sequentially assigning for each vehicle of the centralized group of the selected object of influence from a numbered list for centralized distribution, the effectiveness of the impact on which the given vehicle is the greatest, the target designation of the vehicle of the centralized group is formed to influence the selected objects, commands are generated on the computerized control panel and transmitted via communication lines to devices for receiving commands and addressing control signals of points management of the first level of the centralized group, simultaneously with the distribution of objects for the implementation of influence between the vehicles of the centralized group n from the rest of the vehicles and the corresponding first-level control systems form a decentralized group of vehicles for the independent distribution of objects of influence, form a numbered list of vehicles of the decentralized group, assign a group of objects of influence corresponding to this decentralized group of vehicles for decentralized distribution, form a numbered list of objects of influence for decentralized distribution, for Each TS of a decentralized group forms a list of evaluations of the effectiveness of its impact on all objects of influence from a numbered list for decentralized distribution, randomly assigns one of the CPs of the first level of the decentralized group to distribute objects of influence between the TS of a decentralized group, form a task for the assigned CP of the first level of the decentralized group on independent distribution of objects for the implementation of influence between all vehicles of the decentralized group, including They collect data on all objects of influence for decentralized distribution in accordance with the generated numbered list, as well as data on the numbers assigned to all technical means of the decentralized group and data on evaluations of the effectiveness of the impact of each vehicle of the decentralized group on all objects of influence for decentralized distribution, then after the formation on the computerized control panel of commands and transmitting them via communication lines to the device for receiving commands and addressing the issuance of control signals at the designated control point of the first level of the decentralized group, they receive commands for the independent distribution of objects to influence between all vehicles of the decentralized group, including data on all objects of influence for the decentralized distributions in accordance with the generated numbered list, as well as data on the numbers assigned to all technical means of the decentralized group and data f on evaluations of the effectiveness of the impact of each vehicle of the decentralized group on all objects of influence for decentralized distribution, form a database of the vehicle, objects of influence and conditions of the situation, compare estimates of the effectiveness of the impact of each vehicle of the decentralized group on all objects of influence from the numbered list for decentralized distribution, choose for each vehicle of the decentralized group, the object of influence from the numbered list for decentralized distribution, the effectiveness of the impact on which the given vehicle is the greatest, distribute the objects for effecting between the vehicles of the decentralized group by sequentially assigning for each vehicle of the decentralized group of the selected object of influence from the numbered list for decentralized distribution , the effectiveness of the impact on which this vehicle is the greatest, form the target designation of the vehicle of the decentral group to influence the selected objects from the numbered list for decentralized distribution, form on the computerized control panel of the assigned CP of the first level of the decentralized group commands and transmit them via communication lines to devices for receiving commands and addressing control signals of all other CPs of the first level of the decentralized group, simultaneously with the formation of these commands, control signals are generated to control their vehicle, the generated control signals are transmitted to the device for receiving commands and address issuing of control signals of their own CP of the first level, address delivery of control signals to the control device of the technical means is carried out, a message is generated at the assigned CP of the first level of the decentralized group at the second level CP on the distribution of objects for the implementation of influence between all vehicles of the decentralized group, from the assigned CP of the first level of the decentralized group transmit a message to the CP of the second level about the distribution of objects for the implementation of the impact between all TS of the decentralized group.

In the second version of the method of two-level control of technical means, the task is solved due to the fact that in the known method of two-level control, which consists in the fact that a database of vehicles, objects of influence and conditions of the situation is formed at the CP of the second level, data on their vehicles, objects of influence are analyzed and the conditions of the situation for completeness, if it is necessary to redefine the data, one of the control points of the first level is arbitrarily assigned to carry out the additional determination of data and to assess the effectiveness of the impact of all vehicles on all objects of influence, all objects of influence are arbitrarily divided into two groups and distributed to carry out additional determination of data between the point control of the second level and the designated control point of the first level, at the control point of the second level, additional data on the selected group of objects of influence are determined and the additional data on the selected group of objects of influence and the known characteristics of their vehicles are transmitted to the the assigned CP of the first level, simultaneously with the beginning of the additional determination of data on the selected part of the objects of influence on the CP of the second level, a command is formed in the form of control signals to determine the missing data on the objects of influence and to assess the effectiveness of the impact of all vehicles on all objects of influence and transmit it through communication lines to the designated control point of the first level, data is transmitted to the rest of the control units of the first level, which of the control units of the first level is assigned to collect additional data on all groups of objects of influence and to assess the effectiveness of the impact of all vehicles on all objects of influence, at control points of the first level after receiving this command, they form a database of their technical means, objects of influence and conditions of the situation, at the designated control point of the first level, they redefine data on the selected group of objects of influence, transfer data about their technical means, objects of influence to the control unit of the second level conditions and conditions, the rest of the first level launchers transmit to the second level launcher and to the assigned first level launcher data about their hardware and the conditions of the situation, at the designated control point of the first level receive additional data from the second level launcher on the group of objects of influence allocated to it, and from the rest of the first level CPs - data on their technical means and conditions of the situation, assess the effectiveness of the impact of all vehicles on all objects of influence, transmit to the second level CPs the results of assessing the effectiveness of the impact of all vehicles on all objects of influence, on the second level CPs collect additional data on the state of their technical means, on objects of influence and conditions of the situation, the results of assessing the effectiveness of the impact of their vehicles on all objects of influence, clarify the database of the vehicle, objects of influence and conditions of the situation, identify objects of influence, classify objects of influence, determine the priorities of the objects of influence, form a list of objects of influence in accordance with the obtained values of their priorities, evaluate the capabilities of their vehicles to influence the objects included in the priority list, form a randomly list of vehicles whose efficiency values were sufficient to influence the objects from the generated the list, new is that in addition, after that, a centralized group of vehicles and the corresponding CPs of the first level are assigned, for which the distribution of objects of influence and the formation of target designations will be carried out centrally at the CP of the second level, a group of objects of influence corresponding to this centralized group of vehicles is assigned for centralized distribution, form a numbered list of objects of influence for centralized distribution, compare estimates of the effectiveness of the impact of each vehicle of the centralized group on all objects of influence from the numbered joint venture claim for centralized distribution, select for each vehicle of the centralized group an object of influence from a numbered list for centralized distribution, the effectiveness of the impact on which this vehicle is the greatest, distribute objects for impacting between vehicles of the centralized group by sequentially assigning for each vehicle of the centralized group of the selected object of influence from a numbered list for centralized distribution, the effectiveness of the impact on which the given vehicle is the greatest, the target designation of the vehicle of the centralized group is formed to influence the selected objects, commands are generated on the computerized control panel and transmitted via communication lines to devices for receiving commands and addressing control signals of points control of the first level of the centralized group, simultaneously with the distribution of objects for the implementation of influence between the vehicle of the centralized group PPs from the rest of the vehicles and the corresponding control systems of the first level randomly form several decentralized groups of vehicles for the independent distribution of objects of influence, including in each group from 2 to (K-2) funds, where K is the total number of vehicles, the control points of which will independently distribute objects of influence, form a numbered list of vehicles of decentralized groups, assign the target groups corresponding to these decentralized groups of vehicles for decentralized distribution, form a numbered list of objects of influence of each group for decentralized distribution, for each vehicle of each decentralized group form a list of assessments of the effectiveness of its impact on all objects influence of their group from a numbered list for decentralized distribution, randomly assign in each decentralized group one of the first level PUs of this decentralized group for the distribution of objects in the influence between the vehicles of this decentralized group, form a task for the assigned CP of the first level of each decentralized group for the independent distribution of objects for the implementation of influence between all vehicles of their decentralized group, the task includes data on all groups of objects of influence for the decentralized distribution assigned to each decentralized group in accordance with the formed numbered list, as well as data on the numbers assigned to all technical means of each decentralized group and data on the assessments of the effectiveness of the impact of each vehicle of each decentralized group on all objects of influence of its group for decentralized distribution, then after the formation of commands on the computerized control panel and transmitting them through communication lines to the device for receiving commands and addressing the issuance of control signals at the designated control point of the first level of each decentralized group accept commands for the independent distribution of objects for the implementation of influence between all vehicles of their decentralized group, including data on all groups of objects of influence assigned to each decentralized group in accordance with the formed numbered list, as well as data on the numbers assigned to all technical means of each decentralized group, and data on assessments of the effectiveness of the impact of each vehicle of a decentralized group on all objects of influence of its group for decentralized distribution, form a database of the vehicle of its decentralized group, objects of influence and conditions of the situation, compare estimates of the effectiveness of the impact of each vehicle of its decentralized group on all objects of influence from the numbered list of their group for decentralized distribution, select for each vehicle of their decentralized group an object of influence from the numbered list of their group for decen centralized distribution, the effectiveness of the impact on which this vehicle is the greatest, distribute objects for impacting between the vehicles of their decentralized group by sequentially assigning for each vehicle its decentralized group of the selected object of influence from the numbered list of its group for decentralized distribution, the effectiveness of the impact on which this The TS is the largest, they form the target designation of the TS of their group to influence the selected objects from the numbered list of their group for decentralized distribution, form on the computerized control panel of the assigned CP of the first level of each decentralized group of commands and transmit them via communication lines to devices for receiving commands and address issuing controllers signals of all other CPs of the first level of their decentralized group, simultaneously with the formation of these commands, they form control signals To control their vehicle, they transmit the generated control signals to the device for receiving commands and address issuing control signals of their CP of the first level, carry out address delivery of control signals to the control device of the technical means, at each assigned CP of the first level of each decentralized group form a message to the CP of the second level about the distribution of objects for the implementation of the impact between all vehicles of its decentralized group, from each assigned CP of the first level of each decentralized group send a message to the CP of the second level about the distribution of objects for the implementation of the impact between all vehicles of its decentralized group

The listed distinctive features of the claimed inventions make it possible to expand the functionality of the two-level control method by performing at the second-level control point such control functions as collecting, processing, analyzing, redefining data on objects of influence, assessing the capabilities of their vehicles, deciding on the implementation of influence and distribution of objects impact between the vehicles of the selected group, and on the first level control system - functions of additional determination of data on the objects of influence, assessing the effectiveness of the impact of all vehicles on all objects of influence and the independent distribution of objects for the implementation of the impact.

The proposed technical solutions are new, since the proposed methods of two-level control of technical means are not known from publicly available information.

The proposed technical solutions have an inventive step, since it does not explicitly follow from published scientific data and known technical solutions that the claimed sequence of actions of the methods leads to an expansion of the functionality of the two-level control method.

The proposed technical solutions are industrially applicable, since they are based on computer technology and control facilities, which are widely used in automated control systems for technical facilities.

The claimed inventions are illustrated by a specific implementation example, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result by the given set of features.

FIG. 1 and 2 show a block diagram of a two-level control system for technical means, which implements the claimed methods of two-level control over technical means.

On the block diagram of the control system, the numbers indicate:

1 _k - control points of the first level, the number of which is determined by the number of technical means k;

2 - PU of the second level;

3 - second storage device of the vehicle database, objects of influence and conditions of the situation;

4 - channel-forming equipment of the second level;

5 - second level data transmission equipment;

6 - second block for collecting and analyzing data on objects of influence;

7 - the second block of additional definition of data on objects of influence;

8 - the second control panel;

9 - the second block of formation of target designations of the vehicle of its group;

10 - block of formation of the list of vehicles by efficiency;

11 - the second block of distribution of objects of influence between the vehicle of its group;

12 - block of formation of tasks of PU of the first level;

13 - block for assessing the capabilities of their vehicles;

14 - block of identification of objects of influence;

15 - the second information display device;

16 - block of classification of objects of influence;

17 - block for determining the priorities of objects of influence;

18 - the first storage device for the vehicle database, objects of influence and conditions of the situation;

19 - the first control panel;

20 - computer network lines;

21 - block for generating messages;

22 - block for generating control signals;

23 - communication lines with CP of the first level;

24 - channel-forming equipment of the first level;

25 - first level data transmission equipment;

26 - device for receiving commands and address issuing control signals;

27 - control device for technical means;

28 - the first block of additional definition of data on objects of influence;

29 - block for evaluating the effectiveness of the impact;

30 - the first block for collecting and analyzing data on objects of influence;

31 - the first block of comparison of assessments of the effectiveness of the impact;

32 - the first block of distribution of objects of influence between the vehicle of its group;

33 - the first block of formation of target designations of the vehicle of its group;

34 - the first device for displaying information;

35 - the first block for selecting objects of influence;

36 - the second block of comparison of assessments of the effectiveness of the impact;

37 - the second block for selecting objects of influence.

The system of two-level control of technical means, which implements the proposed methods of two-level control of technical means, contains a control point of the second level 2, which includes a series-connected second control panel 8, data transmission equipment of the second level 5 and channel-forming equipment of the second level 4, a second block for additional determination of data about objects action 7, the second output of which is connected to the third input of the data transmission equipment of the second level 5, and the first input is connected to the fourth output of the second control panel 8, the first input of which is connected to the second output of the data transmission equipment of the second level 5, the second input of which is connected to the second output channel-forming equipment of the second level 4, the second storage device of the vehicle database, objects of influence and conditions of the situation 3, the first input of which is connected to the second output of the second control panel 8, the second output is connected to the second input, the second input is connected to the first output of the block ka additional definition of data on objects of influence 7, and the seventh input - with the third output of the second level data transmission equipment 5, the second block for collecting and analyzing data on objects of influence 6, the first input of which is connected to the third output, and the output - to the second input of the second control panel 8, the second input is connected to the first output of the second storage device of the database of the vehicle, objects of influence and conditions of the situation 3, the identification unit of objects of influence 14, the first input of which is connected to the sixth output, the output is connected to the fourth input of the second storage device of the database of the vehicle, objects of influence and conditions of the situation 3, and the second input - with the fifth output of the second control panel 8, the block of classification of objects of influence 16, the first input of which is connected to the seventh output of the second control panel 8, the second input - with the third output, and the first output - with the fifth input of the second storage devices for the vehicle database, objects of influence and conditions of the situation 3, a block for determining priorities about targets 17, the first input of which is connected to the second output of the target classification unit 16, the second input to the fourth output, and the first output to the sixth input of the second storage device of the vehicle database, targets and conditions of the environment 3, the second block of target distribution between the vehicle of its group 11, the first input of which is connected to the second output of the unit for determining the priorities of the objects of influence 17, and the first output to the third input of the second storage device of the database of the vehicle, objects of influence and conditions of the situation 3, the unit for assessing the capabilities of its vehicles 13, the first input which is connected to the third output of the block for determining the priorities of objects of influence 17, the second input - with the fifth output of the second storage device of the database of its technical means, objects of influence and conditions of the situation 3, and the third input - with the tenth output of the second control panel 8, the unit for generating tasks of the PU the first level 12, the first input of which is connected to the the fourth output of the block for determining the priorities of objects of influence 17, the third input - with the ninth output of the second control panel 8, the first output - with the eighth input of the second storage device of the vehicle database, objects of influence and conditions of the environment 3, and the second output - with the fourth input of the second control panel 8, the unit for generating a list of vehicles by efficiency 10, the input of which is connected to the output of the unit for assessing the capabilities of its vehicles 13, the first output is with the second input of the second block for distributing objects of influence between the vehicles of its group 11, and the second output is connected to the second input of the unit for generating tasks of the PU the first level 12, the second block for generating target designations of the vehicle of its group 9, the first input of which is connected to the second output of the second block of distribution of objects of influence between the vehicles of its group 11, the second input - with the eighth output, and the output - with the third input of the second control panel 8, the second information display device 15, the first input of which is connected to the sixth output of the second PU control interface 8, the second input - with the seventh output of the second storage device of the vehicle database, objects of influence and conditions of the environment 3, the third input - with the third output of the second block of distribution of objects of influence between the vehicles of its group 11, and the fourth input - with the third output of the formation unit tasks PU of the first level 12, the second block for comparing the assessments of the effectiveness of the impact 36, the first input of which is connected to the eighth output of the second storage device of the vehicle database, objects of influence and conditions of the situation 3, and the second input - to the eleventh output of the second control panel 8, the second block of selection of objects of influence 37, the first input of which is connected to the output of the second block of comparison of assessments of the effectiveness of the impact 36, the second input - to the ninth output of the second storage device of the vehicle database, objects of influence and conditions of the situation 3, the third input - to the twelfth output of the second control panel 8, the first output - with the third input of the second block of distribution of objects actions between the vehicles of its group 11, and the second output - with the ninth input of the second storage device of the vehicle database, objects of influence and conditions of the situation 3, and also contains control points of the first level 1 _k , the number of which is determined by the number of technical means K, and each of which includes serially connected channel-forming equipment of the first level 24, data transmission equipment of the first level 25, a device for receiving commands and issuing address control signals 26 and a control device for technical means 27, the first control panel 19, the first output of which is connected to the second input, and the first input - with the second output of the data transmission equipment of the first level 25, the sixth output is connected to the second input of the device for receiving commands and issuing address control signals 26, the first information display device 34, the first input of which is connected to the fifth output of the first control panel 19, and the third input to the second output of the command receiver and address issuance of control signals 26, the first storage device of the vehicle database, objects of influence and conditions of the environment 18, the first input of which is connected to the third output of the data transmission equipment of the first level 25, the second input to the second output of the first control panel 19, and the fourth output to the second input of the first information display device 34, the first block for collecting and analyzing data about the objects of influence 30, the first input of which is connected to the third output, the output to the second input of the first control panel 19, and the second input is connected to the first output of the first storage device of the vehicle database , objects of influence and conditions of the situation 18, the first block of additional determination of data about objects of influence 28, the second output of which is connected to the third input of the data transmission equipment of the first level 25, the first input is connected to the fourth output of the first control panel 19, the second input is connected to the second output, and first output - with the third input of the base's first storage device data of the vehicle, objects of influence and conditions of the environment 18, the unit for evaluating the effectiveness of exposure 29, the output of which is connected to the fourth input, and the second input to the third output of the first storage device of the database of the vehicle, objects of influence and conditions of the environment 18, the first input of the unit for assessing the effectiveness of the influence 29 is connected to the seventh output of the first control panel 19, the first unit for comparing impact assessments 31, the first input of which is connected to the fifth output of the first storage device of the vehicle database, objects of influence and conditions of the environment 18, and the second input to the eleventh output of the first control panel 19 , the first block for selecting objects of influence 35, the first input of which is connected to the sixth output, the third output - to the fifth input of the first storage device of the vehicle database, objects of influence and conditions of the environment 18, the second input - to the eighth output of the first control panel 19, and the third input - with the release of the first block of comparison of assessments of the effectiveness of impact 3 1, a message generating unit 21, the first output of which is connected to the third input of the first control panel 19, the third output to the sixth input of the first storage device of the vehicle database, objects of influence and conditions of the environment 18, the second output to the fourth input of the first level data transmission equipment 25, and the second input - with the ninth output of the first storage device of the database of the vehicle, objects of influence and conditions of the environment 18, a block for generating control signals 22, the first input of which is connected to the second output of the first block for selecting objects of influence 35, the first output - with the third input of the device receiving commands and issuing address control signals 26, the second output - with the fourth input of the first display device 34, and the third output - with the seventh input of the first storage device of the vehicle database, objects of influence and conditions of the situation 18, the first block of distribution of objects of influence between the vehicle of its group 32, the first input of which is connected to the seventh output, and the first output is connected to the eighth input of the first storage device of the vehicle database, objects of influence and conditions of the environment 18, the second input is connected to the ninth output of the first control panel 19, and the third input is connected to the first output of the first block for selecting objects of influence 35, the first block of target designation The vehicle of its group 33, the first input of which is connected to the second output of the first block of distribution of objects of influence between the vehicles of its group 32, the second input to the tenth output, and the third output to the fifth input of the first control panel 19, the first output to the second input of the formation unit control signals 22, and the second output - with the first input of the message generating unit 21, the eighth output of the first storage device for the vehicle database, objects of influence and conditions of the environment 18 is additionally connected to the fourth input of the first control panel 19, and also contains the lines of the computer network 20, made in the form of serially connected second-level data transmission equipment 5, channel-forming equipment of the second level 4, communication lines with control points of the first level 23, channel-forming equipment of the first level 24 and data transmission equipment of the first level 25, the fourth output of which is connected to the third input of the channel-forming equipment of the first level 24, while the second inputs-outputs of the channel-forming equipment equipment of the first level 24 of all CPs of the first level 1 _k are interconnected.

где N - количество вершин многоугольника, ограничивающего зону; координаты вершин (угловых точек) участков, запрещенных для размещения объектов воздействия (соответствующих участкам местности (пространства), непригодным для размещения объектов воздействия)

где U^H - количество непригодных участков, V^H _U - количество вершин многоугольника, ограничивающего U-й непригодный участок; номера и координаты ТС и их пунктов управления

где K - количество ТС; их пропускную способность ρ_m; диапазоны работы; возможности воздействия Р_m; виды воздействий С_m; известные характеристики объектов воздействия.The inventive methods of two-level control of technical means using the described two-level control system are carried out as follows. The operation of the system begins with the activation of the second control panel on the control panel of the second level 8.Using the second control panel 8, which, like other atypical units, is based on a personal computer with the appropriate software for implementing the provided control functions, is first introduced into the second storage device databases of the vehicle, objects of influence and conditions of the situation 3 initial data necessary for operation, for example: coordinates determined on the map (X ^PU , Y ^PU ) of the second-level control point; coordinates of the tops (corner points) of the area of responsibility of the vehicle control system (X ^З _n , Y ^З _n ),

where N is the number of vertices of the polygon bounding the zone; coordinates of the vertices (corner points) of the areas prohibited for the placement of objects of influence (corresponding to areas of the terrain (space) unsuitable for the placement of objects of influence)

where U ^H - the number of unusable areas, V ^H _U - the number of vertices of the polygon, limiting the U-th unusable area; numbers and coordinates of the vehicle and their control points

where K is the number of vehicles; their throughput ρ _m ; ranges of work; the possibility of impact P _m ; types of impacts C _m ; known characteristics of objects of influence.

Then, upon a command from the third output of the second control panel 8, the second block for collecting and analyzing data on objects of influence 6 reads out the previously entered initial data from the second storage device of the vehicle database, objects of influence and conditions of the situation 3 through its second input, analyzes them for completeness and forms a message transmitted from its output to the second input of the second control panel 8 about the completeness or the need to redefine the data on the objects of influence.

On the basis of this message, with the help of the second control panel 8, during the implementation of both the first and second variants of the method of two-level control of technical means, one of the control points of the first level 1 _{k is} arbitrarily assigned to carry out additional data determination and to assess the effectiveness of the impact of all vehicles on all objects of influence, all objects the actions are arbitrarily divided into two groups and distributed to implement additional data determination between the control point of the second level 2 and the designated control point of the first level 1 _k .

Also, on the basis of this message, the second control panel 8 generates at its fourth output a signal that allows the second block for additional determination of data on the objects of influence 7 to complete the determination of the missing data on the selected group of objects of influence. The additional determination of the missing data on the objects of influence is carried out, for example, by determining their primary characteristics, measuring the primary characteristics and calculating the secondary characteristics. The predetermined data are recorded in the second storage device of the vehicle database, objects of influence and conditions of the situation 3 at its second input.

After that, during the implementation of both the first and second variants of the method of two-level control of technical means, the additional data on the selected group of objects of influence are transmitted to the first level 1 _k PU assigned for assessing the effectiveness of the impact.

Simultaneously with the beginning of the additional determination of data on the CP of the second level 2, the second control panel 8 generates at its first output and transmits through the lines of the computer network 20 using the data transmission equipment of the second level 5, the channel-forming equipment of the second level 4, communication lines with the CP of the first level 23, channeling equipment of the first level 24 and equipment for transmitting data of the first level 25 to the first input of the first control panel 19 of each control point of the first level 1 _k commands in the form of control signals when implementing and the first and second variants of the method of two-level control of technical means - transmit commands in the form of control signals, containing data on which of the first level control point 1 _{k is} assigned to redefine data on the objects of influence and to assess the effectiveness of the impact of all vehicles on all objects of influence, and to the designated control point of the first level 1 _k - to determine the missing data on the objects of influence and on appraising To the effectiveness of the impact of all vehicles on all objects of influence, simultaneously with the transmission of this command, they transmit data on the group of objects of influence allocated to the assigned CP of the first level 1 _k for additional determination of data.

где N - количество вершин многоугольника, ограничивающего зону; координаты вершин (угловых точек) участков, запрещенных для размещения объектов воздействия (соответствующих участкам местности (пространства), непригодным для размещения объектов воздействия)

где U^H - количество непригодных участков, V^H _U - количество вершин многоугольника, ограничивающего U-й непригодный участок; пропускную способность ρ_m; диапазоны работы; возможности воздействия Р_m; виды воздействий С_m.At the control points of the first level 1 _k, after receiving these commands, a database of the vehicle, objects of influence and conditions of the situation is formed, while in the first storage device of the database of the vehicle, objects of influence and conditions of the situation 18, it is written to its second input from the second output of the first control panel 19 the initial data necessary for operation, for example: coordinates determined on the map (X ^PU1 , Y ^PU1 ) of this control point of the first level 1 _k ; coordinates of the vertices (corner points) of the area of responsibility of this control point of the first level

where N is the number of vertices of the polygon bounding the zone; coordinates of the vertices (corner points) of the areas prohibited for the placement of objects of influence (corresponding to areas of the terrain (space) unsuitable for the placement of objects of influence)

where U ^H - the number of unusable areas, V ^H _U - the number of vertices of the polygon, limiting the U-th unusable area; throughput ρ _m ; ranges of work; the possibility of impact P _m ; types of impacts С _m .

At the command from the third output of the first control panel 19, the first block for collecting and analyzing data on objects of influence 30 reads from the first storage device of the vehicle database, objects of influence and conditions of the situation 18 through its second input previously entered initial data, analyzes them for completeness and generates a message , transmitted from its output to the second input of the first control panel 19 about the completeness or the need to redefine data on the objects of influence.

Based on this message, the first control panel 19 of all CPs of the first level 1 _k, when implementing both the first and second variants of the method of two-level control of technical means, is transmitted to the CP of the second level 2 and to the assigned CP of the first level 1 _k from the remaining CPs of the first level 1 _K-1 data on their technical means and conditions of the situation, at the designated control point of the first level 1 _k receive from the second level control unit 2 additional data on the group of objects of influence allocated to it, and from the rest of the first level control units 1 _K-1 data on their technical means and conditions of the situation.

After that, during the implementation of both the first and second variants of the method of two-level control of technical means, data about their technical means and conditions of the situation at the designated control point are transmitted to the CP of the second level 2 and to the assigned CP of the first level 1 _k from the remaining CPs of the first level 1 _K-1 of the first level 1 _k receive from the control unit of the second level 2 additional data on the group of objects of influence allocated to it, and from the rest of the control unit of the first level 1 _K-1 data on their technical means and conditions of the situation.

Then, at the command from the seventh output of the first control panel 19 to the first input of the unit for assessing the effectiveness of the impact 29, the effectiveness is assessed at the designated CP of the first level 1 _{k of} all technical means for all objects of influence.

The second input of the unit for assessing the effectiveness of the impact 29 comes from the third output of the first storage device of the vehicle database, objects of influence and conditions of the environment 18 values of the characteristics of objects of influence and the values of characteristics of all technical means during the implementation of the first and second variants of the method of two-level control of technical means, taking into account which evaluates the effectiveness of the impact on each object of impact. To implement the block for evaluating the effectiveness of the impact 29, programmable (customizable) multifunctional tools are used, the algorithm of which can be determined, for example, by the following mathematical relationships.

The criterion for sufficient effectiveness of impact on objects is, for example, the fulfillment of the energy conditions of impact, which are defined as the excess of the impact level over the threshold level by a given number of times, called the impact coefficient (K _B ):

where K _B is the impact factor (when determining sufficient efficiency, K _B = 1.5 is taken);

E _P , E _B - respectively, the field strength of the threshold signal and the impact signal at the input of the target.

The field strength of the stimulus signal (E _B ) at the input of the object of influence is determined by the formula:

where R _p is the power of the transmitter of the technical device;

G _p - the gain of the antenna of the transmitter of the technical device;

r - exposure distance;

v is the path attenuation multiplier (dB).

The obtained values of the impact efficiency from the output of the impact efficiency assessment unit 29 are transmitted to the fourth input of the first storage device of the vehicle database, objects of influence and conditions of the environment 18.From the fourth output of the first storage device of the vehicle database, objects of influence and environment conditions 18, the obtained results of assessing the effectiveness of implementation the impact of your vehicle (or all technical means) on all objects of influence are fed to the fourth input of the first control panel 19, with the help of which they are transmitted through the lines of the computer network 20, which includes the first level data transmission equipment 25, the channel-forming equipment of the first level 24, lines communication with the CP of the first level 23, channel-forming equipment of the second level 4 and the equipment for transmitting data of the second level 5, to the CP of the second level 2 to the first input of the second control panel 8.

When implementing the first and second variants of the method of two-level control of technical means on the second level control unit 2 using the second control panel 8 and the second block for collecting and analyzing data on the objects of influence 6, additional data on all objects of influence are collected and the results of assessing the effectiveness of the impact of all vehicles on all objects of influence and transmit them from the second output of the second control panel 8 to the first input of the second storage device of the vehicle database, objects of influence and conditions of the situation 3, or from the third output of the data transmission equipment of the second level 5, the incoming data is immediately transferred to the seventh input of the second storage device of the base vehicle data, targets and environmental conditions 3.

At the end of the specified time interval ΔT for the functioning of the two-level control system in this mode, or after additional determination of the data about all the required objects or by the operator's command from the fifth output of the second control panel 8 to the second input of the target identification unit 14, the target identification unit is read 14 information about the values of the characteristics of objects of influence from the second storage device of the vehicle database, objects of influence and conditions of the situation 3. Simultaneously, the first input of the identification unit of objects of influence receives data on the boundaries of the zones of responsibility of the vehicle control system, which are also read from the second storage device of the base vehicle data, objects of influence and conditions of the situation 3 from its sixth exit. In the block for identification of objects of influence 14, a sign of the operational designation of objects of influence is determined, which is formed on the basis of the coincidence of the coordinates of objects of influence with the coordinates of the bands of the zone of responsibility of the control system, and forms of objects of influence are formed. The generated form of the object of influence, containing the sign of operational purpose from the output of the identification block of objects of influence 14, is fed to the fourth input of the second storage device of the vehicle database, objects of influence and conditions of the situation 3. If necessary, the results of identification of objects of influence on command from the second control panel 8 can be issued from the seventh output of the second storage device of the vehicle database, objects of influence and conditions of the situation 3 to the second input of the second display device 15 for their control and analysis by the operator of the control point of the second level 2. If necessary, these data are corrected and recorded from the second control panel 8 into the second storage device for the vehicle database, objects of influence and conditions of the situation 3.

At the beginning of the impact on the detected objects, the block for the classification of the objects of influence is activated 16, which sequentially reads the forms of the objects of influence on its second input from the third output of the second storage device of the vehicle database, objects of influence and conditions of the situation 3 and classifies the objects of influence, taking into account their coordinates on terrain (in space), distances between them and their operational purpose. The output of the values of the classified objects of influence from the outputs of the block of classification of objects of influence 16 is carried out to the first input of the block for determining the priorities of objects of influence 17 and to the second storage device of the vehicle database, objects of influence and conditions of the situation 3 to its fifth input. In the block for determining the priorities of the objects of influence 17, the coordinates of the objects of influence are compared with the coordinates of the bands of the zone of responsibility of the control system, the values of which are read from the fourth output of the second storage device of the database of the vehicle, objects of influence and conditions of the situation 3, and, depending on the band of the zone, with the coordinates which coordinates of objects of influence coincided, determine their priorities and form a list of objects of influence in accordance with the obtained values of their priorities, which is transferred to the second storage device of the vehicle database, objects of influence and conditions of the situation 3 to its sixth input, to the first input of the task formation unit PU of the first level 12, to the first input of the unit for assessing the capabilities of its own TS 13 and to the first input of the second block of distribution of objects of influence between the TS of its group 11.

From the fifth output of the second storage device of the vehicle database, objects of influence and conditions of the situation 3, the collected values of the assessments of the effectiveness of the impact and the values of the characteristics of their vehicles are fed to the second input of the unit for assessing the capabilities of their vehicles 13, in which they assess the capabilities of their vehicles to influence all objects in accordance with the obtained values of their priorities. To implement the unit for assessing the capabilities of their TS 13, programmable (customizable) multifunctional tools are used, the algorithm of which, for example, can also be determined by mathematical relations (1) and (2).

The results of assessing the capabilities of their vehicles from the output of the unit for assessing the capabilities of their vehicles 13 are fed to the input of the unit for forming a list of vehicles according to efficiency 10, in which a list of vehicles is generated randomly, the impact efficiency values of which were sufficient to influence objects from the generated priority list. The generated list of vehicles according to the effectiveness of the impact and the values of assessments of the effectiveness of the impact of all vehicles on all objects of influence from the outputs of the unit for forming the list of vehicles according to efficiency 10 is fed to the second input of the unit for generating tasks of the PU of the first level 12 and to the second input of the block for distributing objects of influence between vehicles of its group 11 ...

After that, using the second control panel 8, the block for the distribution of objects of influence between the vehicles of its group 11 and the second information display device 15, a centralized group of vehicles and the corresponding CPs of the first level 1 _k are assigned, for which the distribution of objects of influence and the formation of target designations will be carried out centrally on CP of the second level 2, assign a group of objects of influence corresponding to this centralized group of vehicles for centralized distribution, form a numbered list of objects of influence for centralized distribution.

At the command from the eleventh output of the second control panel 8 to the second input of the second block for comparing the impact assessments 36, the values of the impact assessments are read from the eighth output of the second storage device of the vehicle database, objects of influence and conditions of the environment 3 to the first input of the second unit for comparing impact assessments 36 of each vehicle of the centralized group to all objects of influence from the numbered list for centralized distribution.

Using the second block for comparing the impact assessments 36, the assessments of the impact effectiveness of each vehicle of the centralized group are compared with the assessments of the effectiveness of the impact of the remaining vehicles of the centralized group on all objects of impact from the numbered list for the centralized distribution. Then, at the command from the twelfth output of the second control panel 8 to the third input of the second block for selecting targets 37, the data on the assigned numbers to all vehicles of the centralized group and data on all targets for the centralized distribution, and also read from the output of the second block for comparing impact assessments 36 the results of comparing assessments of the impact of all vehicles of the centralized group on all objects of influence for centralized distribution.

With the help of the second block for selecting objects of influence 37, an object of influence is selected for each vehicle of the centralized group from a numbered list for centralized distribution, the effectiveness of the impact on which this vehicle is the greatest, and the selection results are transmitted to the second block of distribution of objects of influence between the vehicle of its group 11 and in the second storage device for the database of the vehicle, objects of influence and conditions of the situation 3.Using the second block of distribution of objects of influence between the vehicles of their group 11, the objects for the implementation of the influence between the vehicles of the centralized group are distributed by sequential assignment for each vehicle of the centralized group of the selected object of influence from the numbered list for centralized distribution, the effectiveness of the impact on which the given vehicle is the greatest, and the distribution results are transmitted to the second unit of formation of target designations of the vehicle of its group 9, to the second storage device data base of the vehicle, objects of influence and conditions of the situation 3 and for display in the second display device 15.

In the second block for generating target designations of the vehicle of its group 9, target designation of the vehicle of the centralized group is formed to influence the selected objects, commands are generated on the computerized second control panel 8 and transmitted in the form of control signals through the lines of the computer network 20 using the second level data transmission equipment 5, channel-forming equipment of the second level 4, communication lines with CP of the first level 23, channel-forming equipment of the first level 24 and equipment for transmitting data of the first level 25 to devices for receiving commands and addressing control signals 26 of control points of the first level 1 _{k of the} centralized group.

Simultaneously with the distribution of objects for the implementation of the impact between the vehicles of the centralized group from the rest of the vehicles and the corresponding control units of the first level using the task formation unit of the control unit of the first level 12, the second control panel 8 and the second information display device 15:

1) When implementing the first variant of the method of two-level management of technical means, one decentralized group of vehicles is formed for the independent distribution of objects of influence, a numbered list of vehicles of a decentralized group is formed, a group of objects of influence corresponding to this decentralized group of vehicles is assigned for decentralized distribution, and a numbered list of objects of influence for decentralized distribution is formed , arbitrarily assign one of the first level controllers to distribute the objects of influence between the vehicle, form a task for the assigned control system of the first level for the independent distribution of objects for influencing between all vehicles. The assignment includes data on all objects of influence in accordance with the generated numbered list for decentralized distribution, as well as data on the numbers assigned to all technical means of the decentralized group.

2) When implementing the second version of the method of two-level control of technical means, several decentralized groups of vehicles are randomly formed for the independent distribution of objects of influence, including in each group from 2 to (K-2) funds, where K is the total number of vehicles, the control points of which will independently distribute objects of influence, form a numbered list of vehicles of decentralized groups, assign target groups corresponding to these decentralized groups of vehicles for decentralized distribution, form a numbered list of objects of influence of each group for decentralized distribution. In each group, one of the first-level CPs of this group is arbitrarily assigned to distribute the objects of influence between the vehicles of this group, a task is formed for the assigned CP of the first level of each group for the independent distribution of objects for the implementation of the influence between all the vehicles of their group. The task includes data on all objects of influence of each group in accordance with the formed numbered list of objects of influence of each group for decentralized distribution, as well as data on the numbers assigned to all vehicles of decentralized groups.

Formed in the unit for generating tasks of the CP of the first level 12, tasks for the assigned control points of the first level 1 _k from the outputs of unit 12 are fed to the second storage device of the vehicle database, objects of influence and conditions of the situation 3 and for displaying to the second information display device 15.

At a given point in time T _B or on a command from the ninth output of the second control panel 8, the task formation unit of the CP of the first level 12 issues from its second output the generated tasks to the fourth input of the second control panel 8, which from its first output transmits the tasks to the assigned control points of the first level 1 _k :

1) one decentralized group when implementing the first management method;

2) or several decentralized groups when implementing the second method of management;

in the form of control signals over the lines of the computer network 20, including the second level data transmission equipment 5, the channel-forming equipment of the second level 4, the communication lines with the first level control unit 23, the channel-forming equipment of the first level 24 and the first level data transmission equipment 25, to the first input of the receiving device commands and address delivery of control signals 26, to the first input of the first storage device of the vehicle database, objects of influence and conditions of the environment 18 and to the first input of the first control panel 19 of the corresponding assigned CP of the first level 1 _{k of} one or more decentralized groups.

Tasks received in advance on a command from the sixth output of the first control panel 19 to the second input of the device for receiving commands and addressing the issuance of control signals 26 can be issued from the second output of the device 26 to the third input of the first information display device 34 for their control and analysis by the operator of the control point of the first level 1 _k . After this, the tasks are transmitted from the second output of the first control panel 19 to the second input of the first storage device of the vehicle database, objects of influence and conditions of the environment 18.

Then, at all designated control points of the first level 1 _k native or several decentralized groups, the database of the vehicle, objects of influence and conditions of the situation is specified.

In this case, using the first control panel 19, the specified data necessary for operation are entered into the first storage device of the vehicle database, objects of influence and conditions of the environment 18, for example, the coordinates (X ^PU , Y ^PU ) of the second-level control point, numbers and coordinates determined from the map your own and other vehicles and their control points (X ^TS _k , Y ^TS _k ) of their decentralized group, data on all objects of influence of their decentralized group.

After that, at the command from the eleventh output of the first control panel 19 to the second input of the first comparison unit for evaluating the effectiveness of the impact 31, the data about all objects of influence for decentralized distribution, data on the assessments of the effectiveness of the impact of all vehicles of the decentralized group on all objects of influence for decentralized distribution, compare the assessments of the effectiveness of the impact of each vehicle with the estimates of the effectiveness of the impact of the rest of the vehicles of the decentralized group on all objects of influence from the numbered list for decentralized distribution. Then, at the command from the eighth output of the first control panel 19 to the second input of the first block for selecting objects of influence 35, data on the assigned numbers to all vehicles of the decentralized group and data on all objects of influence for the decentralized distribution, and also read from the output of the first block of comparison of impact assessments 31 the results of comparison of assessments of the impact of all vehicles of the decentralized group on all objects of influence for decentralized distribution. An object of influence is selected from a numbered list of objects of influence for decentralized distribution for the implementation of the impact by each vehicle, the effectiveness of the impact on which this vehicle is the greatest. The data on the target of influence selected for each vehicle from the outputs of the first block for selecting targets of influence 35 is transferred to the first block of distribution of targets of influence between the vehicle of its group 32 and to the first storage device of the vehicle database, targets and environment conditions 18.

With the help of the first block of distribution of objects of influence between the vehicles of their group, 32 distribute objects for effecting between the vehicles of the decentralized group by sequentially assigning for each vehicle a decentralized group of the selected object of influence from the numbered list for decentralized distribution, the effectiveness of the impact on which this vehicle is the greatest, and transfer the results of distribution to the first block of formation of target designations of the vehicle of its group 33 and to the first storage device of the vehicle database, objects of influence and conditions of the situation 18.

In the first block of the formation of target designations of vehicles of their group 33, target designations of vehicles of their decentralized group are formed to influence the selected objects. From the first output of the first unit for generating target designations, the vehicle of its target designation group for its vehicle is transmitted to the second input of the unit for generating control signals 22; The vehicles of their decentralized group are transmitted to the fifth input of the first control panel 19.

Using the message generating unit 21, messages are generated about the objects selected for the impact for each vehicle of its decentralized group and transmitted from the first output to the third input of the first control panel 19, from the third output to the sixth input of the first storage device of the vehicle database, objects of influence and conditions of the situation 18, and from the second output - to the fourth input of the first level 25 data transmission equipment and further along the communication lines between the channel-forming equipment of the first level 24 to the input of the device for receiving commands and addressing control signals 26 of the remaining CPs of the first level 1 _K-1 a decentralized group.

Simultaneously with the generation of these commands, using the control signal generating unit 22, control signals are generated to control their vehicle, which are transmitted from the first output of the control signal generation unit 22 to the third input of the device for receiving commands and addressing control signals 26, and from the second output to the fourth an input of the first information display device 34 for operator control.

From the first output of the device for receiving commands and address delivery of control signals 26, address delivery of control signals to the input of the control device for technical means 27 is carried out to control its technical means.

At each assigned CP of the first level 1 _{k of} each decentralized group, using the first control panel 19, a message is generated to the CP of the second level 2 about the distribution of objects for impacting between all vehicles of its decentralized group and transmit it through the lines of the computer network 20, including data transmission equipment the first level 25, channel-forming equipment of the first level 24, communication lines with the CP of the first level 23, channel-forming equipment of the second level 4 and the equipment for transmitting data of the second level 5, to the CP of the second level 2.

Thus, as follows from the description of the implementation of the two-level control methods, the solution to the task is achieved, namely, the expansion of the functionality of the two-level control method due to the execution of such control functions at the CP of the second level as collection, processing, analysis, additional determination of data on the objects of influence, assessment of the capabilities of their vehicles, making a decision on the implementation of impact and the distribution of objects of influence between the vehicles of the selected group, and at the first level control system - the functions of completing the data on the objects of influence, assessing the effectiveness of the impact of all vehicles on all objects of influence and the independent distribution of objects for the implementation of the impact.

Claims (2)

1. The method of two-level control of technical means, which consists in the fact that at the control point (CP) of the second level they form a database of their technical means (TC), objects of influence and conditions of the situation, analyze data on their vehicles, objects of influence and conditions of the situation for completeness , if it is necessary to redefine the data, one of the control points of the first level is arbitrarily assigned to carry out the additional definition of data and to assess the effectiveness of the impact of all vehicles on all objects of influence, all objects of influence are arbitrarily divided into two groups and distributed to carry out the additional definition of data between the control point of the second level and the assigned the control point of the first level, at the control point of the second level, additional data on the selected group of objects of influence are determined and the additional data on the selected group of objects of influence and the known characteristics of their vehicles are transferred to the assigned control unit of the first level, simultaneously with the beginning of the final data on the selected part of the objects of influence on the second level control unit form a command in the form of control signals to determine the missing data on the objects of influence and to assess the effectiveness of the impact of all vehicles on all objects of influence and transmit it via communication lines to the designated control point of the first level, to the rest At the same time, CPs of the first level transmit data about which of the CPs of the first level is assigned to collect additional data on all groups of objects of influence and assess the effectiveness of the impact of all vehicles on all objects of influence, at the control points of the first level, after receiving this command, they form a database of their technical means, objects of influence and conditions of the situation, at the designated control point of the first level, they redefine data on the selected group of objects of influence, transfer data about their technical means, objects of influence and conditions of the situation to the PU of the second level, transfer the remaining PU of the first level t at the second level launcher and at the assigned first level launcher, data on their technical means and the conditions of the situation, at the assigned control point of the first level receive additional data from the second level launcher on the group of target objects allocated to it, and from the rest of the first level launchers - data on their technical means and conditions of the situation, assess the effectiveness of the impact of all vehicles on all objects of influence, transmit to the second level control system the results of assessing the effectiveness of the impact of all vehicles on all objects of influence, on the second level control system they collect additional data on the state of their technical means, on objects of influence and conditions of the situation, the results of assessing the effectiveness of the impact of their vehicles on all objects of influence, clarify the database of their vehicles, objects of influence and conditions of the situation, identify objects of influence, classify objects of influence, determine the priorities of objects of influence, form a list of objects of influence in accordance with the obtained values of their priorities, assess the capabilities of their vehicles to influence objects included in the priority list, randomly form a list of vehicles whose efficiency values were sufficient to influence objects from the generated list, characterized in that additionally, after that, a centralized group of vehicles and the corresponding CPs of the first level are assigned, for which the distribution of objects of influence and the formation of target designations will be carried out centrally at the CP of the second level, a group of objects of influence corresponding to this centralized group of vehicles is assigned for centralized distribution, a numbered list of objects of influence for the centralized distributions, compare the estimates of the effectiveness of the impact of each vehicle of the centralized group on all objects of influence from the numbered list for the centralized distribution, choose for For each vehicle of the centralized group, the object of influence from the numbered list for centralized distribution, the effectiveness of the impact on which this vehicle is the greatest, distribute the objects for impact between the vehicles of the centralized group by sequentially assigning for each vehicle of the centralized group of the selected object of influence from the numbered list for centralized distribution, the effectiveness of the impact on which this vehicle is the greatest, the target designation of the vehicle of the centralized group is formed to influence the selected objects, commands are generated on the computerized control panel and transmitted via communication lines to devices for receiving commands and addressing control signals of the control points of the first level of the centralized group, simultaneously with the distribution of objects for the implementation of the impact between the vehicles of the centralized group from the rest of the vehicles and the corresponding control units of the first level I form a decentralized group of vehicles for independent distribution of objects of influence, form a numbered list of vehicles of a decentralized group, assign a group of objects of influence corresponding to this decentralized group of vehicles for decentralized distribution, form a numbered list of objects of influence for decentralized distribution, for each vehicle of a decentralized group form a list of assessments of the effectiveness of implementation its impact on all objects of influence from a numbered list for decentralized distribution, arbitrarily assign one of the CPs of the first level of the decentralized group to distribute objects of influence between the TS of the decentralized group, form a task for the assigned CP of the first level of the decentralized group to independently distribute objects for the implementation of influence between all TS a decentralized group, the task includes data on all objects of influence for decentralized distribution in accordance with the generated numbered list, as well as data on the numbers assigned to all technical means of the decentralized group and data on the assessments of the effectiveness of the impact of each vehicle of the decentralized group on all objects of influence for decentralized distribution, then after the formation of commands and transmission on the computerized control panel them via communication lines to the device for receiving commands and addressing the issuance of control signals at the designated control point of the first level of the decentralized group, they receive commands for the independent distribution of objects to influence between all vehicles of the decentralized group, including data on all objects of influence for decentralized distribution in accordance with the generated numbered list , as well as data on the numbers assigned to all technical means of the decentralized group, and data on assessments of the effectiveness of the implementation of the impact each vehicle of a decentralized group on all objects of influence for decentralized distribution, form a database of their vehicles, objects of influence and conditions of the situation, compare estimates of the effectiveness of the impact of each vehicle of a decentralized group on all objects of influence from a numbered list for decentralized distribution, select for each vehicle of a decentralized group an object of influence from a numbered list for decentralized distribution, the effectiveness of the impact on which this vehicle is the greatest, distribute objects for impacting between the vehicles of the decentralized group by sequentially assigning for each vehicle a decentralized group of the selected object of influence from the numbered list for decentralized distribution, the effectiveness of impact on which of this vehicle is the largest, form the target designation of the vehicle of the decentralized group to influence the selected objects from the numbered list for decentralized distribution, form commands on the computerized control panel of the assigned CP of the first level of the decentralized group and transmit them via communication lines to devices for receiving commands and addressing control signals of all other CPs of the first level of the decentralized group, simultaneously with the formation of these commands, control signals to control their vehicle, transmit the generated control signals to the device for receiving commands and address issuing control signals of their own CP of the first level, perform address delivery of control signals to the control device for the technical means, at the assigned CP of the first level of the decentralized group form a message to the CP of the second level about the the distribution of objects for the implementation of influence between all TS of the decentralized group, from the assigned CP of the first level of the decentralized group send a message to the CP of the second level about conducting distributed distribution of objects for the implementation of impact between all vehicles of the decentralized group. 2. The method of two-level control of technical means, which consists in the fact that at the control point (CP) of the second level they form a database of their technical means (TC), objects of influence and conditions of the situation, analyze data on their vehicles, objects of influence and conditions of the situation for completeness , if it is necessary to redefine the data, one of the control points of the first level is arbitrarily assigned to carry out the additional definition of data and to assess the effectiveness of the impact of all vehicles on all objects of influence, all objects of influence are arbitrarily divided into two groups and distributed to carry out the additional definition of data between the control point of the second level and the control point of the first level, at the control point of the second level, additional data on the selected group of objects of influence are determined and the additional data on the selected group of objects of influence and the known characteristics of their vehicles are transferred to the assigned control unit of the first level, simultaneously with the beginning of the final data on the selected part of the objects of influence on the second level control unit form a command in the form of control signals to determine the missing data on the objects of influence and to assess the effectiveness of the impact of all vehicles on all objects of influence and transmit it via communication lines to the designated control point of the first level, to the rest At the same time, CPs of the first level transmit data about which of the CPs of the first level is assigned to collect additional data on all groups of objects of influence and assess the effectiveness of the impact of all vehicles on all objects of influence, at the control points of the first level, after receiving this command, they form a database of their technical means, objects of influence and conditions of the situation, at the designated control point of the first level, they redefine data on the selected group of objects of influence, transfer data about their technical means, objects of influence and conditions of the situation to the PU of the second level, transfer the remaining PU of the first level t at the second level launcher and at the assigned first level launcher, data on their technical means and the conditions of the situation, at the assigned control point of the first level receive additional data from the second level launcher on the group of target objects allocated to it, and from the rest of the first level launchers - data on their technical means and conditions of the situation, assess the effectiveness of the impact of all vehicles on all objects of influence, transmit to the second level control system the results of assessing the effectiveness of the impact of all vehicles on all objects of influence, on the second level control system they collect additional data on the state of their technical means, on objects of influence and conditions of the situation, the results of assessing the effectiveness of the impact of their vehicles on all objects of influence, clarify the database of their vehicles, objects of influence and conditions of the situation, identify objects of influence, classify objects of influence, determine the priorities of objects of influence, form a list of objects of influence in accordance with the obtained values of their priorities, assess the capabilities of their vehicles to influence objects included in the priority list, randomly form a list of vehicles whose efficiency values were sufficient to influence objects from the generated list, characterized in that additionally, after that, a centralized group of vehicles and the corresponding CPs of the first level are assigned, for which the distribution of objects of influence and the formation of target designations will be carried out centrally at the CP of the second level, a group of objects of influence corresponding to this centralized group of vehicles is assigned for centralized distribution, a numbered list of objects of influence for the centralized distributions, compare the estimates of the effectiveness of the impact of each vehicle of the centralized group on all objects of influence from the numbered list for the centralized distribution, choose for For each vehicle of the centralized group, the object of influence from the numbered list for centralized distribution, the effectiveness of the impact on which this vehicle is the greatest, distribute the objects for impact between the vehicles of the centralized group by sequentially assigning for each vehicle of the centralized group of the selected object of influence from the numbered list for centralized distribution, the effectiveness of the impact on which this vehicle is the greatest, the target designation of the vehicle of the centralized group is formed to influence the selected objects, commands are generated on the computerized control panel and transmitted via communication lines to devices for receiving commands and addressing control signals of the control points of the first level of the centralized group, simultaneously with the distribution of objects for the implementation of the impact between the vehicles of the centralized group from the rest of the vehicles and the corresponding control units of the first level I randomly form several decentralized groups of vehicles for the independent distribution of objects of influence, including in each group from 2 to (K-2) funds, where K is the total number of vehicles, whose control points will independently distribute objects of influence, form a numbered list of vehicles of decentralized groups , assign the groups of objects of influence corresponding to these decentralized groups of vehicles for decentralized distribution, form a numbered list of objects of influence of each group for decentralized distribution, for each vehicle of each decentralized group form a list of evaluations of the effectiveness of its impact on all objects of influence of its group from the numbered list for decentralized distribution , arbitrarily assign in each decentralized group one of the first level CPs of this decentralized group to distribute the objects of influence between the TS of this decentralized group, The task is assigned to the assigned CP of the first level of each decentralized group for the independent distribution of objects for the implementation of influence between all vehicles of its decentralized group, the task includes data on all groups of objects of influence for the decentralized distribution assigned to each decentralized group in accordance with the formed numbered list, and also data on the numbers assigned to all the technical means of each decentralized group, and data on the assessments of the effectiveness of the impact of each vehicle of each decentralized group on all objects of influence of its group for decentralized distribution, then after the formation of commands on the computerized control panel and their transmission via communication lines to the device receiving commands and addressing the issuance of control signals at the designated control point of the first level of each decentralized group receive commands for independent distribution of the volume ktov for the implementation of influence between all vehicles of its decentralized group, including data on all groups of objects of influence assigned to each decentralized group in accordance with the generated numbered list, as well as data on the numbers assigned to all technical means of each decentralized group, and data on performance evaluations implementation of the impact of each vehicle of a decentralized group on all objects of influence of its group for decentralized distribution, form a database of the vehicle of its decentralized group, objects of influence and conditions of the situation, compare estimates of the effectiveness of the impact of each vehicle of its decentralized group on all objects of influence from the numbered list of its group for decentralized distribution, select for each vehicle of their decentralized group the object of influence from the numbered list of their group for decentralized distribution, the efficiency is achieved the impact on which this vehicle is the greatest, distribute objects for impacting between the vehicles of their decentralized group by sequentially assigning for each vehicle its decentralized group of the selected object of influence from the numbered list of its group for decentralized distribution, the effectiveness of the impact on which this vehicle is the greatest, form the target designation of the vehicle of their group to influence the selected objects from the numbered list of their group for decentralized distribution, form on the computerized control panel of the assigned CP of the first level of each decentralized group of commands and transmit them via communication lines to devices for receiving commands and addressing the issuance of control signals of all other CPs the first level of their decentralized group, simultaneously with the formation of these commands, they generate control signals to control their vehicle, transmit the generated control transmitting signals to the device for receiving commands and address issuing control signals of its first level CP, carry out address delivery of control signals to the hardware control device, at each assigned CP of the first level of each decentralized group form a message to the second level CP about the distribution of objects to effect between All TSs of their decentralized group, from each assigned CP of the first level of each decentralized group, transmit a message to the CP of the second level about the distribution of objects for effecting between all TSs of their decentralized group.

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