RU2342793C1 - Automated control system of radio-electronic equipment of military installations - Google Patents

Abstract

FIELD: physics, guidance.

SUBSTANCE: invention concerns complex resorts of information-driving control systems and the control over a state removed from the central point of guidance of the objects functioning in real time, and can be used for a complex estimate of a state and guidance of the difficult objects and systems of different function. The system contains basic both reserve supergrid bodies and guidance points, communication channels of a transport communication network and controllabled radio-electronic resorts of military objects, the basic and reserve control centres. Guidance points contain the unified complexes of automated management and switching knots. The basic and reserve control centres, all knots of switching, and also communication channels of a transport communication network form telecommunication system of data exchange of a real time scale.

EFFECT: maintenance of inconvertible automated management with radio-electronic resorts of military men, making of uniform infrastructure of the MIS information system shaped on the basis of networks of data exchange.

2 cl, 2 dwg

Description

The invention relates to integrated tools for information and control systems for controlling and monitoring the status of objects operating in real time that are remote from the central control center and can be used for a comprehensive assessment of the status and management of complex objects and systems for various purposes.

There is a method that provides monitoring and control of electronic means, including determining the health of an electronic object by several parameters (characteristics, indicators) using devices of computer technology [1]. The method includes selecting the measured characteristics using a software-controlled switching circuit, converting the characteristics into digital data, generating reference characteristics and transmitting the measured parameters to a central control center, where object control commands are generated based on the received signals. However, in the known method, the efficiency of receiving and generating control commands is not ensured.

A known system for monitoring and controlling equipment of an object, comprising a central computing unit with an input / output device, with which sensors of control, measurement and control of equipment nodes are connected via information network channels, the system is equipped with controllers, and control modules are connected to each controller in series [2]. However, this system does not contain a single infrastructure, which makes it difficult to communicate with the corresponding remotely remote control objects.

The technical result consists in ensuring stable automated command and control of troops, radio-electronic means of aviation and air defense due to the operational adaptation of the automated control system (ACS) to the conditions of warfare, the creation of a unified infrastructure for ACS, formed on the basis of data exchange networks.

To achieve the specified technical result, in the automated radio-electronic control system of military facilities, containing the main body and control point, which is connected through a transport network of communication channels to many radio-electronic means of military facilities, many control bodies and control centers, as well as primary and backup control centers, are introduced, the main body and control center and the main control center form the main system-forming body and control center, one of the introduced organizations of control centers and a backup control center form a backup system-forming body and control center, each body and control center contains a unified automated control complex (UKAU) and a switching unit made in the form of a hub connected through a primary and backup multi-protocol packet switches to a channel switch, connected through the equipment for interfacing with communication channels with a transport network of communication channels, each UKAU is connected to a hub of the corresponding comm node Utilities, the main and backup control centers contain an analyzer of the assignments of network elements, an analyzer of reconfiguration commands, an automated workstation (AWP) of the operator, a monitoring and diagnostic module, and a router connected to the information bus that is connected to the hub of the switching node of the main or backup system-forming body, respectively, and control center, while the main and backup control centers, many switching nodes and the transport network of communication channels are a telecom realtime unikatsionnuyu data interchange (Tsodilo RML).

UKAU mainly contains an integrated server that provides reception of messages from AWPs of subordinate military facilities, analysis of received messages and their transmission to bodies and control centers for decision-making and formation of commands for controlling electronic assets of military facilities, as well as AWP switch, functional servers and functional server switch, the control inputs of all the switches are connected to the output of the integrated server commands, the integrated server is connected to the technological workstation and through the switch fu functional servers - with the corresponding functional server, each functional server is connected to the information bus connected to the hub of the corresponding switching node, and through the AWP switch - with the corresponding AWP of the subordinate military facility.

The proposed automated control system for radio-electronic means of military facilities allows for stable automated control of troops, radio-electronic means of aviation and air defense through operational adaptation to the conditions of warfare, and the creation of a unified infrastructure for automated control systems based on data exchange networks.

An analysis of the state of the art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed technical solution, made it possible to establish that the applicant did not find a source characterized by features that were identical (identical) to all the essential features of the claimed technical solution . The determination from the list of identified analogues of the prototype as the closest in terms of the totality of the attributes of the analogue made it possible to establish the set of essential features relative to the applicant’s technical result of the claimed automated control system for radio-electronic means of military facilities set forth in the claims. Therefore, the claimed technical solution meets the criterion of "novelty."

An additional search conducted by the applicant did not reveal known solutions containing features that match the distinctive features of the claimed automated system for controlling radio-electronic means of military facilities. Therefore, the claimed technical solution does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed technical solution to achieve the technical result is not revealed from the prior art determined by the applicant. The claimed technical solution is not based on a change in a quantitative characteristic (s), the presentation of such signs in relationship or a change in its type. Therefore, the claimed technical solution meets the criterion of "inventive step".

The proposed automated control system for electronic assets of military facilities involves the implementation of operations known in control systems that can be implemented using known functional elements.

The essence of the declared automated control system for radio-electronic means of military facilities will be considered on the example of automated control systems of troops, forces and means of aviation and air defense, which include the main and reserve system-forming, as well as other bodies and control centers of military objects of aviation and air defense that are in a certain hierarchical subordination to each other .

Figure 1 presents a structural diagram of an automated control system for electronic weapons of military facilities, and figure 2 is a structural diagram of UKAU.

The automated control system for radio-electronic means of military facilities (see figure 1) contains UKAU 1 and switching nodes 2 as part of the main and backup system-forming bodies and control points 3 and 4, as well as all other control bodies and points 5, communication channels 6 transport communications network, controlled electronic equipment of 7 military aviation and air defense facilities, primary and backup control centers 8 and 9 as part of the primary and backup system-forming bodies and control points 3 and 4.

In this case, the main and reserve control centers 8 and 9 as part of the main and reserve system-forming bodies and control points 3 and 4, switching nodes 2 as part of the main and reserve system-forming bodies and control points 3 and 4 and as part of all other bodies and control points 5 as well as communication channels 6 of the transport communication network form the ACS subsystem by the troops, forces and means of aviation and air defense - TSOD RMV 10, which provides data exchange between all UKAU 1 (or other existing automation means).

TSOD RMV 10 connects all UKAU 1 with each other and with a variety of electronic equipment 7 military facilities.

TSOD RMV 10 in its organizational and technical construction refers to distributed data networks operating in the logical connection mode, and is based on the principles of packet switching. At the same time, the possibility of operational change of purpose of UKAU 1 leads to the need to provide TSOD RMV 10 of operational change in the routing of information flows between UKAU 1 or other automation equipment from the control system of troops, forces and means of aviation and air defense.

The primary and backup control centers 8 and 9 are designed to provide routing of information flows, monitoring the status of switching nodes 2 and remotely controlling them (changing port configurations, making changes to the route-address table) and generating statistics on the functioning of the TSM RMV 10. Territorially primary and backup control centers 8 and 9 are located on the main and reserve backbone bodies and control points 3 and 4 as part of the air force communications nodes.

The primary and backup control centers 8 and 9 solve the following problems:

- management of reconfiguration TSOD RMV 10;

- ensuring the collection and accumulation of information about failures and failures of switching nodes 2;

- ensuring the collection and accumulation of information about loading nodes 2 switching and communication channels 6;

- providing control of the current state of the nodes 2 switching;

- ensuring interaction with each other.

The reconfiguration of TSOD RMV 10 in the primary and backup control centers 8 and 9 is carried out:

- in case of failure of sections of TSOD RMV 10 or bodies and control points 3, 4 or 5, equipped with UKAU 1;

- when changing the structure of information exchange between bodies and control points 3, 4 or 5 from the ACS structure of troops, forces and means of aviation and air defense;

- when changing the connectivity of objects in the automated control system by troops, forces and means of aviation and air defense;

- with the operational change in the functional specialization of UKAU 1 from the ACS structure by troops, forces and means of aviation and air defense;

- when changing the structure of the automated control system by troops, forces and means of aviation and air defense (adding or removing individual UKAU 1 or other means of automation).

The solution to this problem provides the operational adaptation of the automated control system by troops, forces and means of aviation and air defense to conditions changing during its operation, maintains a given degree of combat readiness and ensures high efficiency in the functioning of information areas.

The task of collecting and accumulating information about failures and failures from switching nodes 2 is solved in order to restore working capacity and develop solutions to eliminate failures, bringing teams (signals) and instructions for restoring the TSB RMV 10 to the performers (switching nodes 2 and the personnel serving them).

The task of collecting and accumulating information on the loading of switching nodes 2 and communication channels 6 (on the number of received and transmitted packets, errors during transmission / reception, etc.) is solved in the interest of maintaining the real functioning of the TSOD RMV 10 with the specified requirements. To this end, statistical data on the loading and operation of the elements of the RMOD 10 are analyzed and collected in the main and reserve control centers 8 and 9. By analyzing the information received, the main and reserve control centers 8 and 9 support the functioning of the RMOD 10 at the required performance level and determine the trends for the future. use of TSOD RMV 10.

The solution of the task of monitoring the current state of TSOD RMB 10 provides for the implementation in the primary and backup centers 8 and 9 of the control control the current status of the network and make changes to this state by transmitting the appropriate commands to the nodes 2 switching.

The task of interaction of the main control center 8 with the backup control center 9 is solved in the interests of ensuring high survivability of the TSOD RMV 10 by keeping the database of the backup control center 9 up to date.

The primary and backup control centers 8 and 9 are included in the TSOD RMB 10 similarly to other users, but as a privileged subscriber. Their interaction with network elements - switching nodes 2 (establishing connections, transmitting / receiving information, disconnecting established connections) is carried out using 10 algorithms adopted in the TSOD RMV. This provides for the transfer of control information at certain intervals of time or at the request of the operators of the main and backup control centers 8 and 9.

The composition of both the primary and backup control centers 8 and 9 includes an analyzer 11 for assigning network elements, an analyzer 12 reconfiguration commands, an AWP 13 for the operator of the control center, a router 14, and a monitoring and diagnostic module 15 connected to the information bus 16.

The network element assignment analyzer 11 implements the functions of analyzing messages from UKAU 1, which are part of the ACS by the troops, forces and means of aviation and air defense, about their specialization (when connecting new UKAU 1 to the network, while changing the functional specialization of the connected to the network UKAU 1), the issuance of these messages to UKAU 1 of the main and backup system-forming bodies and points 3 and 4 of the management and control of the router 14.

The analyzer of 12 reconfiguration commands implements the functions of analyzing the commands for reconfiguring the automated control system by troops, forces and means of aviation and air defense coming from the main (reserve) backbone body and control point 3 (4) or from the AWP 13 of the control center operator, analyzing the state of the facilities included in ACS by troops, forces and means of aviation and air defense, issuing control commands to switching nodes 2 and a reserve control center 9.

AWP 13 of the operator of the control center implements the management functions of the TSOD RMV 10 according to the operator’s commands, and also displays information about the current state of the switching nodes 2 and statistical information about their failures and failures.

Router 14 implements the functions of issuing through the nodes 2 switching information packets from UKAU 1 of the main (reserve) system-forming body and control point 3 (4) to subordinate and interacting UKAU 1, as well as receiving information packets to UKAU 1 of the main (reserve) system-forming body and point 3 (4) control via switching nodes 2 from subordinate and interacting UKAU 1 when changing their functional specialization.

The monitoring and diagnostics module 15 implements the functions of monitoring the current state of switching nodes 2, collecting and accumulating information about loading of switching nodes 2 and communication channels 6, collecting and accumulating information about failures and failures of switching nodes 2.

Each switching node 2 is a complex of hardware and software that performs the functions of organizing communication sessions between subscribers (means of automation of organs and control points) and transmitting data over the network, and includes a hub 17, a main and backup multi-protocol switches 18 and 19 packets , a switch 20 channels connected through equipment 21 interfaces with channels 6 of the communication transport network of communication channels.

The hub 17 is a device for connecting UKAU 1 or other automation equipment to the switching unit 2.

Connection to switching nodes 2 of various users (UKAU 1 or other existing means of automation of bodies and control points) is carried out using means of access of subscribers - the main and backup multi-protocol switches 18 and 19 of the packet.

The main and backup multiprotocol switches 18 and 19 of the package are devices that provide the exchange of information between UKAU 1 or other means of automation of organs and control points using various information exchange protocols.

The channel switch 20 is a device that provides switching in the switching node 2 from the main multi-protocol packet switch 18 to the redundant multi-protocol packet switch 19 (in hot standby mode).

UKAU 1 (see figure 2) have a block-modular structure. The software and technical basis of UKAU 1 is the minimum required in composition and sufficient in functionality a set of basic unified hardware and software, including:

- AWP 22 operators of subordinate military facilities, an integrated server 23, which provides messages from AWP 22 through the switch 24 AWP, functional servers 25 and switch 26 functional servers, information bus 27 and technological AWP 28;

- general software;

- special software;

- unified development and debugging tools for special software.

The integrated server 23 is designed to create a single information space on the workstation of 22 different persons of the combat crew of the organs and points 3, 4 or 5 control. It forms a single database for the operation of functional servers 25.

AWP 22 are intended for the formation of an information model about combat readiness and the input of commands to control persons of combat crew of bodies and points 3, 4 or 5 of the control. One of AWP 22 may include equipment for the production of accounting documents.

General software is designed to provide a focused computing process and includes an operating system, a database management system, office tools and geographic information system tools.

Special software is designed to provide automated solutions to the tasks of combat control of electronic means of 7 military facilities, provides functional specialization (adaptation) of UKAU 1 for solving specific tasks for the purpose, determined by the type of equipped body and control points 3, 4 or 5, and should include structure a complex of programs for the exchange of information, a complex of programs for processing information about the situation, a complex of programs for processing information about combat readiness and about fighting x the capabilities of the radio-electronic means of military facilities, on the results of hostilities, a complex of programs for processing information on the effects of the enemy, radiation, chemical, bacteriological and meteorological conditions, a complex of decision support programs, a complex of radio-electronic facilities for military installations, a complex of information display programs, a complex of programs documentation of information and a set of training programs.

The specific composition of the unified hardware and software of each of the UKAU 1 is determined by the type of body and control unit for the automated control system of troops, forces and means of aviation and air defense equipped with it, and the tasks they solve.

The capabilities of UKAU 1 for the operational change of their specialization (functional purpose) make it possible to realize new capabilities for the operational adaptation of ACS by troops, forces and means of aviation and air defense in general to the conditions of warfare.

This adaptation is provided both by changing the functional specialization of individual UKAU 1, and by solving reconfiguration tasks of the declared automated control system for radio-electronic means of military facilities using control elements TSOD RMV 10.

An automated control system for electronic equipment of military facilities works as follows.

The management of military aviation and air defense facilities is carried out with the help of the main and reserve system-forming bodies and control points 3 and 4, which are in a certain subordination to each other, as well as other control bodies and points 5, which are part of the hierarchical ACS of the troops, forces and means of aviation and air defense, which solves the following tasks:

1. Adapt in advance the means of UKAU 1 to simultaneously perform the functions of controlling the electronic means of subordinate military facilities - anti-aircraft missile divisions and electronic means attached to military facilities - fighter aircraft.

2. Promptly during the conduct of hostilities as a fighter aircraft performs a combat mission and fighters land on airfields, as well as relocates air defense missile defense divisions to the combat zone, adapt UKAU 1 to control radio electronic means of subordinate and attached military installations - anti-aircraft missile divisions, canceling the control functions of fighter aircraft.

3. Promptly, at the end of hostilities, adapt a given number of AWPs 22 of each UKAU 1 for the automated fulfillment of headquarters functions (solving planned, information-settlement and reference tasks).

To accomplish the first task, control commands are entered into the integrated server 23 in advance from the technological workstation 28. In accordance with the received commands, the integrated server 23 issues control commands to the switch 26 of the functional servers and the switch 24 of the workstation.

The switch 26 functional servers connects to the integrated server 23 functional servers 25 for exchanging information with electronic means of control bodies and points 3, 4 or 5, for processing information about the air situation from subordinate information sources, for controlling electronic means of anti-aircraft missile divisions, for controlling electronic means of assigned military installations - fighter aircraft fighters.

The switch 24 AWP connects a given number of AWP 22 of a given type to each of the connected functional servers 25. Functional servers 25 load the required type of software into the AWP 22, which is necessary for the formation of information models and the input of combat control commands by combat combat officers of bodies and items 3, 4 or 5 controls.

The types of AWP 22 differ from each other in the number of monitors, the type of headset of communication equipment (intercom, external communication, air communication), the presence of indicators of primary radar information, etc.

During the conduct of hostilities, information about the air situation comes from electronic means to the functional server 25 for exchanging information with authorities and control points 3, 4 or 5, as well as from subordinate sources of information to the functional server 25 for processing information about the air situation. These functional servers 25 process the received information (lead to a single view, to a single time, etc.) and transmit the processed information through the switch 26 of the functional servers to the integrated server 23.

From the electronic means of 7 subordinate military installations - anti-aircraft missile divisions - information on their ammunition and combat readiness is received to the functional server 25 for controlling electronic electronic means of anti-aircraft missile divisions. The functional server 25 for controlling the electronic means of the anti-aircraft missile divisions processes the received information and transmits the processed information through the switch 26 of the functional servers to the integrated server 23.

When fighters take off from radio electronic means of higher authorities and control points 3, 4 or 5, information exchange commands are sent to the functional information exchange server 25 for command and control, and when targets appear, commands to destroy enemy air attack equipment are sent.

From electronic means of 7 attached military facilities - fighters to the functional server 25 for controlling electronic means of fighters receives information about their ammunition and combat readiness. The functional server 25 for controlling the electronic means of the fighter processes the received information and transfers the processed information through the switch 26 of the functional servers to the integrated server 23.

Functional servers 25 process the received information (solve management problems) and provide processed information through the switch 26 of the functional servers to the integrated server 23 for its generalization and creation of a single database. From the integrated server 23 through the switch 26 functional servers, the functional servers 25 and the switch 24 AWP to the AWP 22, generalized information is issued based on which information models are formed for them for combat crew members and control points 3, 4 or 5.

Persons of the combat crew of the authority and control point 3, 4 or 5 enter combat control commands from AWP 22 UKAU 1, which enter the functional servers 25 through the switch 24 of the AWP. Functional servers 25 based on the solution of combat control tasks and teams of combat crew members of the authority and control point 3, 4 or 5 directorates issue control commands for electronic equipment of 7 controlled subordinate military facilities - anti-aircraft missile divisions and attached military facilities - fighters. Information on the issued control commands from the functional servers 25 is also provided through the switch 26 of the functional servers to the integrated server 23.

The integrated server 23 generates reports (on the air situation, on combat readiness, on the conduct of hostilities, etc.), which, through the switch 26 functional servers, are received by electronic means of higher authorities and control points 3, 4 or 5.

To perform the second task, control commands are promptly entered from the technological workstation 28 into the integrated server 23. In accordance with the received commands, the integrated server 23 issues control commands to the switch 26 of the functional servers, switch 24 of the workstation, which adapt the composition of the functional servers 25 and the workstation 22 to perform new tasks. Next, combat work continues with the participation of new (redistributed duties) persons of combat crews of bodies and points 3, 4 or 5 of the command.

To perform the third task, control commands are promptly entered from the technological workstation 28 into the integrated server 23. In accordance with the received commands, the integrated server 23 issues control commands to the switch 26 of the functional servers and switch 24 of the workstation, which adapt the composition of the functional servers 25 and the workstation 22 to perform new tasks of combat duty by persons of combat crews of bodies and points 3, 4 or 5 of the command and control of planned, information-settlement and reference tasks by officials of the headquarters.

When solving staff problems, they additionally connect a functional server 25 of the headquarters and AWP of 22 officials of the headquarters. At the same time, through the functional information exchange server 25 and the switch 26 of the functional servers, orders, orders, additional information are received from the electronic means of higher authorities and control points 3, 4 or 5, which are recorded in a single database. This data from the integrated server 23 is received through the switch 26 functional servers, the functional server 25 headquarters and the switch 24 AWP to AWP 22 officials of the headquarters. Using the information received, the headquarters officials enter the initial data and commands on AWP 22 to solve planned, information-calculation and reference tasks. The entered information is received from AWP 22 through AWP switch 24 to the functional server 25 of the headquarters where the task is carried out, after which the decision results are sent through AWP switch 24 to AWP 22 of the headquarters officials solving the corresponding tasks.

The results of solving individual tasks by the commands of the headquarters officers are transmitted from AWP 22 through AWP switch 24, headquarters functional server 25 and functional server switch 26 to the integrated server 23, where they are recorded in a single database, and then in the form of reports generated by the integrated server 23, 25 functional servers are transmitted through the switch to the electronic equipment of higher authorities and control points 3, 4 or 5.

When managing the reconfiguration of the TSOD RMV 10 in the main (standby) control center 8 (9), the database on the configuration of the TSOD RMV 10 and the purpose of its elements is maintained and the routing and address tables in the switching nodes 2 are maintained.

Information about the configuration of TSOD RMV 10 is formed:

- from the information about the initial configuration, which is entered into the analyzer database of 12 reconfiguration commands from the workstation 13 of the control center operator when the network is generated (developed and debugged);

- from information from the main (backup) multi-protocol switch 18 (19) packets about subsequent changes that arise as a result of failure of the ACS elements by troops, forces and means of aviation and air defense (in whole or in part), evolutionary or operational change in its structure, operational change functional specialization of its elements. This information is transmitted through the transport network of communication channels 6 to the switching node 2 of the main (backup) backbone authority and control point 3 (4) and then to the analyzer 12 reconfiguration commands to change its database on the ACS configuration by troops, aircraft and air defense forces.

Operational automated configuration change of the TSOD RMV 10 (when the enemy acts on the ACS elements by troops, forces and means of aviation and air defense, the need to directly control its specific element from a higher authority and command post, etc.) provides for the following set of actions:

- adding (removing) elements TSOD RMV 10;

- definition and management of the topology of TSOD RMV 10;

- determination of the functional specialization of ACS elements by troops, forces and means of aviation and air defense, connected to the TSOD RMV 10;

- ensuring routing of information flows, taking into account the operational changes in the structure of the automated control system by troops, forces and means of aviation and air defense.

Adding (deleting) elements of TSOD RMV 10 is performed by logically connecting (disconnecting) nodes 2 of switching bodies and control points 5 to the network (from the network). Moreover, in the main (backup) control center 8 (9), the "Logically add (delete) RMOD TSOD element" commands are used.

These commands are generated by the operator at the AWP 13 of the control center operator or come directly from UKAU 1 of the main (backup) backbone authority and control point 3 (4) to the analyzer 12 reconfiguration commands. In the analyzer 12 reconfiguration commands, these commands are implemented by adding 12 reconfiguration commands of new elements to the analyzer database and issuing commands for adjusting the route-address tables in the main (backup) multi-protocol switch 18 (19) packets of the switching node 2 of the main (backup) system-forming body and paragraph 3 (4) of management.

The definition and management of the topology of TSOD RMB 10 is carried out in the main (reserve) control center 8 (9) by periodically analyzing the information on the presence (absence) of physical connections (based on the results of comparing the frequency of receipt of information with a given time period). The results of this analysis are transmitted in the main (backup) control center 8 (9) to the analyzer 12 reconfiguration commands and then to the AWP 13 of the control center operator for display and subsequent analysis by the operator. Based on the information received, the operator, using the AWP 13 of the control center operator, generates physical connection control commands for the switching node 2 that are sent to the main (backup) multi-protocol switch 18 (19) of the packets of the switching node 2. In the absence of operator commands, the analyzer 12 reconfiguration commands generates commands for managing physical connections independently. The main (standby) multiprotocol switch 18 (19) packets of the switching node 2 implements these commands by making changes to the route-address table, on the basis of which the physical connection of the switching nodes 2 is carried out.

Determination of the functional specialization of ACS elements by the troops, forces and means of aviation and air defense connected to TSOD RMV 10 is carried out in the main (reserve) control center 8 (9) using the analyzer 11 for the designation of network elements. At the same time, UKAU 1 of control bodies and points 5, when it changes its functional purpose, sends information about this change to the TSOD RMB 10 with the recipient address "for the control center" when it changes its functional purpose. This information on the transport network of communication channels 6 goes to the switching node 2 of the main (backup) backbone authority and control point 3 (4) and then to the network element destination analyzer 11, which, upon receipt of this information, issues a control command for router 14 and a message for UKAU 1 of the main (reserve) backbone body and clause 3 (4) of the control about the change in the structure of the automated control system by troops, forces and means of aviation and air defense.

Ensuring the routing of information flows, taking into account the operational changes in the structure, is carried out using the router 14 of the main (backup) control center 8 (9). Router 14, based on the received control commands from the analyzer 11 for designating network elements, adjusts in its database the table of specialization of ACS elements by troops, forces and means of aviation and air defense and, in accordance with this table, allows the issuance (reception) of special information from (to) UKAU 1 (reserve) system-forming body and management clause 3 (4) to (from) UKAU 1 of that authority and control clause 5 that has changed its functional purpose.

The collection and accumulation of information about failures and failures is carried out by the module 15 for monitoring and diagnostics of the main (backup) control center 8 (9) based on the information received from the main (backup) multi-protocol switch 18 (19) packets of the switching node 2. From the module 15 control and diagnostics, this information is issued to the AWP 13 operator of the control center for decision-making on emerging situations.

The collection and accumulation of information about the loading of switching nodes 2 and communication channels 6 is carried out by the module 15 for monitoring and diagnostics of the main (backup) control center 7 (9) based on information received from the main (backup) multi-protocol switch 18 (19) packets of the switching node 2. From the module 15 control and diagnostics, this information is issued to the AWP 13 operator of the control center for decision-making on emerging situations.

The main (backup) control center 8 (9) monitors the current state of the switching nodes 2 (periodic testing of its resources) using the monitoring and diagnostics module 15. At the same time, in each node 2 of switching bodies and control points 5, which are part of the automated control system of troops, forces and means of aviation and air defense, according to the commands of module 15 for monitoring and diagnostics of the main (reserve) control center 8 (9), the main (reserve) multiprotocol is initialized the switch 18 (19) of the packet of the switching node 2, the network software is started and the network elements are tested. According to the test results, the main (standby) multiprotocol switch 18 (19) packets of the switching node 2 transmits information on the state of network elements to the monitoring and diagnostic module 15. This information then from the module 15 control and diagnostics is received and displayed on the AWP 13 operator of the control center.

In the interaction of the main control center 8 with the backup control center 9 through the main (backup) multi-protocol switch 19 (10) packets of the switching node 2 from the analyzer 12 reconfiguration commands and the analyzer 11 of the network elements of the main control center 8 to the analyzer 12 reconfiguration commands and the analyzer 11 assignment of network elements of the backup control center 9 through the main (backup) multi-protocol switch 18 (19) packets of the switching node 2 periodically receives information about the characteristics the state of the network elements, the route-address table and the table of specialization of ACS elements by troops, forces and means of aviation and air defense. This information is entered into the database of the analyzer 12 reconfiguration commands and the analyzer 11 of the destination network elements of the backup control center 9 to maintain them up to date. A notification on receipt of the issued information is issued to the main control center 8 from the backup control center 9.

When the main control center 8 fails, the backup control center 9 (by command from the workstation 13 of the control center operator or when information is not received from the main control center 8 for a predetermined time) becomes the main one.

The above information indicates the fulfillment of the following set of conditions when using the claimed technical solution:

- funds that embody the claimed automated control system for electronic assets of military facilities during its implementation, are intended for use in industry, namely in control systems and electronic facilities of military facilities;

- for the claimed automated control system for radio-electronic means of military facilities for its implementation in the form described in the independent paragraph of the claims, the possibility of its implementation using the means and methods described in the application or known prior to the priority date is confirmed.

Therefore, the claimed technical solution meets the criterion of "industrial applicability".

When using the claimed automated control system for radio-electronic means of military facilities, it is possible to implement automated control systems by troops, forces and means of aviation and air defense, which allows to ensure:

- high stability of automated control of troops, forces and means of aviation and air defense due to the operational adaptation of ACS to the conditions of warfare;

- a single ACS infrastructure, formed on the basis of data exchange networks;

- the ability to transfer information to the place of shared access, which allows you to parallelize its processing and thereby ensure the use of the same information simultaneously by several ACS elements;

- the possibility of information interaction between the elements of the ACS, as well as solving problems with various elements of the ACS using the same information;

- the possibility of phased development of ACS (expanding the list of tasks in the ACS elements, changing the composition of ACS elements, changing the number and types of interacting and managed objects);

- reduction of costs for equipping and modernizing automation equipment for authorities and aviation and air defense control centers.

Literature

1. RU 2237366 C1, (InterDigital Technology), 09/27/2005.

2. RU 2133490 C1, (GINZBURG V.V.), 07.20.1999.

Claims (2)

1. An automated control system (ACS) of electronic equipment located at military facilities, containing a central command post (CCP) with an automated workstation for the CCP operator, the central command post is connected via a switching unit via communication channels to a variety of electronic equipment at military facilities, characterized in that the communication channels are a transport network of communication channels made in the form of a telecommunication system for real-time data exchange (TSOD RMV), radio The electronic means of each military object are made in the form of a unified automated control complex (UKAU), which is connected through a corresponding switching unit to a transport network of communication channels, a backup central command center with an automated workstation of a central control station operator is introduced, and a backup central control center is connected through a corresponding switching center via a communication channel with a transport network, while the main and backup central command centers contain an analyzer of the assignments of network elements, which through the router is connected to the switching center of the CCP, the reconfiguration command analyzer connected at the input to the network element assignment analyzer and to the system-forming UKAU, the outputs of the reconfiguration command analyzer are connected respectively to the switching center of the CCP and the workstation of the CCP operator, the output of which is connected to the switching node through the monitoring and diagnostic module at the same time, each switching node of the main and backup central control centers and all UKAUs is made in the form of a hub, the inputs of which are inputs of the switching node, and the output of the hub is connected nen with the primary and secondary switches multiprotocol packets coupled through switch channels in a yield NBI switching node. 2. The system according to claim 1, characterized in that the UKAU contains an integrated server that provides messages from automated workstations (AWS) of a subordinate military facility, analysis of received messages and transmit them to the CCP for decision-making and the formation of electronic communications control teams, as well as AWP switch, functional servers, switch of functional servers, switch of interface equipment and interface equipment with TSOD RMV, control inputs of all switches are connected to the output of the commands of the integrated server, integral the ver is connected to the automated workstation of the highest command post and to the technological automated workstation, and through the switch of functional servers the integrated server is connected to the corresponding functional server, each functional server through the switch of automated workstation is connected to the corresponding automated workstation of the subordinate military facility, and through the switch of the interface equipment with the corresponding interface equipment with TSOD RMV, each of which contains the corresponding means of communication connected to communication channels.

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