RU2726942C1 - Integrated complex of physical protection of perimeters and territories of objects - Google Patents

Abstract

FIELD: protection systems.SUBSTANCE: invention relates to physical protection of objects. Integrated system comprises a computer network management system, a penetration detection and protection system, a surveillance system, an access control and monitoring system, a security lighting system, an automatic fire alarm system, a data transmission system, an alarm and ring signaling system, set of technical means of prevention, set of technical means of operative communication of protection service combined into a single information space of control and displaying. Intrusion detection and protection system is made using detection equipment operating on different physical principles and includes stationary, independent and mobile control stations with the possibility of organizing clusters with a combination of two or more physical principles of detection. Surveillance system is implemented with application of optical and optoelectronic surveillance and video monitoring devices in visible and infrared ranges of wave lengths.EFFECT: providing on-line monitoring of the physical protection status of the perimeters and territories of objects and obtaining operational information on alarm and critical situations.12 cl

Description

The invention relates to the field of physical protection of the perimeters and territories of objects using burglar alarms designed to detect intruders, with the organization of access and inspection of personnel and visitors to the facilities. The proposed invention can also be used in the design of anti-terrorist security of objects.

Monitoring of extended territories and protected objects located in these territories is usually implemented in the form of well-known multi-level automated systems, including technical means of detection (TCO) and identification of an intruder, informationally connected by wired or wireless communication channels and information exchange with a central observation post.

Protection of extended perimeters and vast territories of especially important objects (for example, facilities of the Ministry of Defense of the Russian Federation) is initially associated with the presence of a large number of engineering facilities, a central command post, checkpoints, an extensive information transmission system (information channel) and a significant number of technical means of detection and means of optical-electronic surveillance. Such protection is well-known and is implemented in the form of system variants, in which each technical means of detection and means of optical-electronic surveillance is connected directly with the central control point through an information channel. The presence in such a system of a large number of technical means with a large volume of transmitted information, as well as the presence of a checkpoint determine the increased requirements for the functioning of the system.

Known "Automated control system of territories and management of forces and means of protection", described in patent RU No. 2583742, IPC G06F 17/00, G06F 15/16, publ. 2016 The system contains a 3-level hierarchical structure, including complexes of technical means of control and automation, containing TCO and located directly in the controlled area, as well as outside the protected area. The system is controlled by automated workstations (AWS) of managers, operators on duty and officials, which are equipped with database servers, display facilities, communication facilities using a radio communication channel and are interconnected by means of a local computer network (LAN). To control the system at all levels through a dedicated communication channel, administrative information is received from decision-makers in whose area of responsibility the controlled territory is located, as well as control and target designation teams. To ensure control of the territories, information about the type, direction and parameters of the offender's movement is used. Initial information can be obtained through the use of stationary, autonomous and mobile control posts of the territory, where the complexes of technical means of control are located. Radar, radar-optical and optoelectronic modules, as well as magnetometric and seismomagnetometric detection tools can be used as TCO. The movement of information flows in the system is carried out via wired, radio relay, ultra-short-wave communication channels.

Similar essential features are: complexes of technical means of control and automation, database servers, display facilities, communication facilities using a radio channel, LAN facilities, operator's workstation, TCO, operating on different physical principles.

The disadvantage of the system is its limited functionality. The structure of the system is cumbersome, difficult to control, has an insufficient level of automation and completeness of the functioning processes.

The aforementioned disadvantages are partially eliminated in another, closest in technical essence to the claimed invention, the well-known "Integrated complex of engineering and technical security means" Post "and the method of its operation", described in patent RU No. 2647630, IPC G08B 13/196, G06F 17 / 30699, G08B 13/19608, G08B 13/19621, G06F 21/6909, publ. 2018, which is chosen as a prototype. The integrated complex of engineering and technical security means contains terminal devices of the system level, a network computer control system, including workstations, central and backup servers, a detection and protection system against intrusion, including a perimeter vibration detection tool and engineering barriers, a data transmission system , CCTV system, security lighting system, fire alarm system, block for collecting, processing the reaction of the network computer control system to changes in the situation and external influences at the system level (control computer), software.

Similar essential features are: a network computer control system, including workstations, central and backup servers, a detection and protection system against intrusion, which includes perimeter detection means and engineering barriers, a data transmission system, a CCTV system, a security lighting system, fire alarm system, control computer, software.

The disadvantages of the integrated complex are its limited functionality, in particular, due to the lack of use in its composition of detection tools operating on different physical principles. In the structure of the complex, only one perimeter detection means, of the "Pygmalion" type, is involved, which does not provide a sufficient level of perimeter security. The complex lacks the ability to provide security zones in the adjacent area to the guarded facility for early detection of intruders. The complex also lacks the possibility of using stationary, autonomous and mobile control posts with the possibility of organizing clusters with a combination of two or more physical principles of detection. The structure of the complex also has an insufficient level of automation and completeness of functioning processes. The CCTV system lacks surveillance and video monitoring equipment in the infrared wavelength range. The access control and management system does not have automated personal control points using biometric control methods. The integrated complex lacks an alarm system, sets of technical means for warning and operational communication of the security service. There is also no integration of all systems into a single information space for managing and displaying information in a network computer control system. All this indicates the lack of completeness of the complex functioning processes.

The purpose of the present invention is to expand the functionality of the complex to monitor the state of physical protection of the perimeters and territories of objects and obtain operational information about alarming and critical situations.

This goal is achieved through:

- automation of the processes of detection and identification of potential violators through the use of technical means of detection, operating on different physical principles;

- the use of stationary, autonomous and mobile control posts with the possibility of organizing clusters with a combination of two or more physical principles of detection;

- the possibility of using technical means of observation with the use of optical and optoelectronic means of observation and video control in the visible and infrared wavelength ranges;

- the use of automated personal control posts at checkpoints using biometric control methods;

- the possibility of using alarming and ringing alarms with the use of control stations and manual call points for prompt notification of emerging service and alarm situations;

- use of light and sound alarm devices, warning signs, non-lethal means of influence to scare off the offender;

- use of a set of technical means of communication for the security service using telephone and radio communication devices, information recording devices and subscriber devices;

- the possibility of providing covert control of the surrounding area without its engineering training with detection, classification, determination of the trajectory of movement and video monitoring of the observed objects;

- the use of object detection means for heated and unheated premises, with the possibility of forming linear and volumetric detection zones, providing detection and registration of unauthorized entry into premises;

- the possibility of using the exchange of necessary information between all systems of the integrated complex due to the data transmission system via wired and (or) wireless communication channels;

- the possibility of simultaneous processing and display of information about the situation in a single information space.

The protection of extended perimeters and territories of especially important facilities places increased demands on the identification of alarming situations, illegal acts and the suppression of unauthorized actions, which should be ensured by the high functionality of the integrated complex of physical protection of the perimeters and territories of facilities.

To achieve this goal, new essential features have been introduced into the known technical solution, which make it possible to expand the functionality of the integrated complex for monitoring the state of physical protection of the perimeters and territories of objects and obtaining operational information about alarming and critical situations.

This goal was achieved in the proposed "Integrated complex of physical protection of perimeters and territories of objects", which contains a network computer control system, which includes the AWP of the administrator, heads of services, operators on duty and officials, a control computer, database servers, and software ; intrusion detection and protection system, including a subsystem of perimeter detection means and a subsystem of engineering barriers; a system of technical means of observation, a system of monitoring and control of access, a security lighting system, an automatic fire alarm system, a data transmission system, the complex additionally includes an alarm system, a set of technical means of warning, a set of technical means of operational communication of the security service, intrusion detection and protection systems, a subsystem of object detection means is included, and all systems are combined into a single information space for control and display of information in a network computer control system. The intrusion detection and protection system is made using TCO operating on different physical principles: radio beam, radio wave, vibrometric, magnetometric, infrared, seismic, discontinuous, and providing digital methods for obtaining and processing information. The intrusion detection and protection system includes stationary, autonomous and mobile control posts with the possibility of organizing clusters with a combination of two or more physical principles of detection. The system of technical means of observation is made using optical and optoelectronic means of observation and video control in the visible and infrared ranges of wavelengths, while the means of observation and video control are controlled in automatic or automated mode by commands from the network computer control system, depending on the location detection of the intruder. The access control and management system is designed with the ability to use automated checkpoints for personal control using biometric control methods. The alarm system is made with the use of control posts and security hand-held detectors, made with the possibility of prompt notification of emerging service and alarm situations. A set of technical warning devices is made using light and sound signaling devices, warning signs, and non-lethal deterrent devices. The set of technical means of operational communication of the security service is made using telephone and radio communication devices, information recording devices and subscriber devices. The subsystem for ensuring security zones with a special legal regime around the protected object is made with the ability to provide covert control of the adjacent area without its engineering training with detection, classification, determination of the trajectory of movement and video monitoring of the observed objects. The subsystem of object detection means is made using means intended for heated and unheated premises, with the possibility of forming linear and volumetric detection zones, providing detection and registration of unauthorized entry into premises. All systems of the integrated complex are made with the ability to exchange the necessary information using a data transmission system via wired and (or) wireless communication channels. Simultaneous processing and display of information about the situation in a single information space allows you to identify and identify the offender, further predicts the behavior of the offender and timely neutralization of the offender by security forces.

The proposed integrated complex of physical protection of perimeters and territories of objects works as follows. When organizing the protection of an extended perimeter or the territory of a particularly important object, the entire perimeter or territory is conditionally divided into many control areas (control posts), on which many TGO are located. Each control post generates a number (address) of "its" zone or area of the territory. TSOs in each of the control posts are located in the protected area and are grouped into several TSOs. These technical means are located in stationary, autonomous and mobile control posts of the territory. Many geographically located control posts (clusters) are connected to the network computer control system through a data transmission system using a wired communication channel and (or) a radio communication channel operating, for example, at a frequency of 433 MHz.

TCO can operate on different physical principles. Seismic detectors, radio wave detectors, active and passive infrared detectors, magnetometric detectors, single-position or two-position radio-beam detectors, vibrometric detectors installed on a physical barrier, and breakaway detectors can be used as TCOs.

TCO can be configured to detect a human intruder, or to detect larger objects such as cars and trucks, tracked and animal-drawn vehicles. TCO operating on different physical principles have their own characteristics of functioning under various technogenic, seasonal and weather conditions. For example, seismic detection equipment degrades performance during heavy rainfall, wetting and waterlogging. Infrared detection will reduce performance in fog. Radio-beam and radio-wave detection means are sensitive to the effects of radio-electronic interference, acting in their operating frequency ranges. Vibrometric detectors installed on the fence are sensitive to strong continuous wind loads. Therefore, the combination of physical principles of TCO operation is an important direction in the organization of security. The information entering the network computer control system from the TCO, as a rule, is uncorrelated and carries different, complementary information. A comparative analysis of this information and a combination of various factors make it possible with a high probability to reveal the fact of violation of the line of protection and to identify the offender. Combined processing of information provides an increase in the detection characteristics of TCO, a decrease in the influence of external interference factors and an improvement in the operating time for false alarms due to the combination of two or more physical principles of detection, selected according to the principle of complementarity, when the limitations of one physical principle are compensated by the capabilities of another.

A network computer control system is a complex of hardware and software that serves to receive and process information coming from systems with its display using a terrain plan, as well as remote control of the systems' means via wired and (or) wireless communication channels of the information transmission system. The network computer control system includes automated workstations of the administrator, chiefs of services, duty operators and officials, a control computer, database servers, and software. With regard to the structure of military units of the Ministry of Defense of the Russian Federation, the following automated workstations can be organized: AWP of the officer on duty in the military unit, AWP of the pass bureau, AWP of the guard chief, AWP of the operator on duty at the checkpoint, AWP of the operator of technical security equipment and other workers places. The computer network control system is provided with archival memory located in the database servers (main and backup). The software controls the functioning of the integrated complex and is designed to provide information support to operators by generating the necessary recommendations (using a friendly interface).

TCO are made with the possibility of receiving control information from the network computer control system, as well as transmitting information to this system through the data transmission system. Data from TSO can be transmitted in digital format in the form of separate files (frames) in case of an alarming situation or a change in the situation at the control areas. This data may include the following information:

- the presence of an alarm (yes / no);

- place of violation of the guarded boundary (number of the control area, number of the segment of the control area);

- classification of the detected object ("single", "group", "vehicle");

- direction of movement ("to us", "from us");

- the detected object has a metal weapon ("armed", "not armed");

- signal fragments;

- other signs and parameters (on / off, battery discharge, threshold levels, malfunction, processing error, etc.).

When an object (for example, an intruder) enters the protected area at one of the control posts, the appropriate detection means will generate threat signals with their “own” numbers (addresses) of the control areas and the necessary accompanying data, which will be transmitted using the data transmission system to computer network control system for data analysis and processing.

To implement the secrecy (or camouflage) of the integrated complex, it is recommended to use seismic or radio wave underground detection equipment installed in the ground as a TSS. Such means can be point seismic detectors BSK-SSO (BAZHK.425139.010) and radio wave underground detectors BSK-RVP (BAZHK.425142.058) of the Web-M complex, described in the materials on the website www.nikiret.ru. Seismic detection means provide the classification of the detected object ("single", "group", "vehicle") and determine the direction of movement ("towards us", "away from us"). Radio-wave underground detection systems ensure operation in areas with a complex landscape (hills, ravines, rocky terraces, wooded, swampy and densely vegetated areas, sand dunes, etc.). To control the transport of metal objects (for example, firearms and edged weapons) by an intruder into the territory of a protected object, magnetometric detection means can be used as TCO, providing the formation of signals of the presence of metal weapons ("armed" or "not armed").

To create rapidly deployable temporary bases of people, vehicles, material values on extended flat areas of the terrain, single-position radio-beam (BSK-RLO, BZHAK.425142.050) and two-position (BSK-RLD, BZHAK.425142.051) detection means of the "Web-M" complex can be used ... On hard-to-reach areas (roads, forest paths, mountain passes, gorges, ravines, etc.), infrared passive detection means BSK-IK (BZHAK.425152.003) can be used. To detect the penetration of unauthorized persons into the protected area, blocking window and door openings, various kinds of fences, walls, etc. discontinuous detection means BSK-O (BZHAK.468173.026) can be used. All these TCOs are described in detail in the materials on the website www.nikiret.ru.

The processing of information received from the detection means is carried out in the network computer control system based on the analysis of threat events according to the criteria of the maximum detection probability or the minimum number of false alarms and taking into account the physical principle of the TCO operation, their location on the ground, and also depending on the season, time days, meteorological conditions and the operational situation at the protected object associated with the emergence of threats. When using the mechanism for combining detection means, information processing algorithms can be selected in accordance with the decision rules "AND", "OR", "2 out of 3" depending on tactical tasks.

Prediction of events is carried out due to the accumulation and storage of information on alarming situations in the integrated complex for a certain period of time with the subsequent identification of the dynamics of changes in threats and determination of the tendency of their aggravation.

Automated control methods for analyzing threat events can also use the following additional capabilities:

- adaptation to threats and models of violators;

- taking into account weather conditions in order to adjust processing algorithms (for example, in case of rain, hail, strong winds, fog, etc.);

- interrogation of the state of neighboring detection means in order to make a final decision about an alarming situation in a certain control area of the protected area (for example, during a thunderstorm or strong gusts of wind);

- accumulation of data to take them into account when analyzing the state of detection means in the event of similar situations in the future;

- using the sleep mode (sleep) to save energy by the integrated complex;

- the use of the information received to identify the object of violation by classes (person, small animal or bird, vehicle), which provides additional information to the security forces to counter violators.

The subsystem of engineering barriers used in the integrated complex is made with the use of physical barriers, protective and defensive structures for sentries, engineering equipment for checkpoints and perimeters. Protective barriers, gates, gates, barriers and other physical obstacles are used as physical barriers. Observation towers, guard posts, booths, etc. are used as protective and defensive structures for sentries. District cabinets, distribution boxes, etc. are used as perimeter engineering equipment. Protective barriers include light or rigid barriers, usually with a height of 2 to 3.5 meters. For the stability of extended obstacles, supports are used, which are installed in the ground at a certain distance from each other. Fencing sections (in the intervals between the supports) can consist of mesh cloths, "chain-link" mesh or solid structures (wooden, reinforced concrete, brick), as well as from tightly stretched wires (including "barbed"). When organizing physical protection of objects and territories, barriers with mesh canvases are preferable. Known protective mesh barriers (patents for inventions RU Nos. 2266382, 2333327, 2476656), containing supports buried in the ground, on which mesh cloths (or sections) of the barriers are fixed. Mesh webs are usually assembled from horizontally and vertically oriented steel wires or rods fastened together, which form cells of a certain size along the entire web of the fence. Cloths of mesh fences have a protective layer of zinc, polymer or ceramic coating and can be successfully used as physical and signal fences. The vibrometric cable detection device "Godograph-Universal" (www.nikiret.ru) is used for the organization of signaling barriers. To enhance the protection of the perimeter on flat areas, the following can be used: an active multi-beam infrared detection device "Glaze" and two-position active radio-beam detection devices such as "RLD Redut-500", "RLD Redut / 1-300I" and "RLD Redan-125" (www .nikiret.ru). Gates and wickets are usually built into mesh fences for the passage of people and vehicles. Gates and wickets are usually equipped with electromechanical locking devices (EMZD), which control the opening and closing of gates and gates from the side of the network computer control system through a data transmission system. The following locking devices can be used as EMZU: "Gobi-EMZU", "Basalt", "Rubezh", "Korund", given in the materials on the website www.nikiret.ru.

To confirm attempts to overcome the security line, a system of technical means of observation is used, which is made using optical and optoelectronic means of observation and video control in the visible and infrared ranges of wavelengths, while the means of observation and video control are controlled in an automatic or automated mode by commands from the network computer control system depending on the place of detection of the intruder. Video cameras and thermal imagers operating in continuous or small-frame modes can be used as means of observation and video control. The low-frame mode of operation used in video monitoring tools is well-known and is described in patents RU # 2517042 ("Small-frame video surveillance system for monitoring extended security lines") and RU # 2504015 ("Small-frame mobile video surveillance system"). The system of technical means of observation provides identification of the intruder by his visual observation by the operator on the means of display in real time. The system means provide identification of objects at ranges up to 3 km. The system has a video auto-tracking mode, which allows in automatic mode to carry out the primary guidance of the optical axes of the technical means of observation to the object detected by other detection means. In the monitoring area, video monitoring points of the low-frame mobile system "Camouflage-Video" (BAZhK.463349.005), made in accordance with the patent RU No. 2504015 (www.nikiret.ru), can be used as technical means of video surveillance.

The access control and management system used in the integrated complex is made using means that ensure the inspection of passing personnel and passing vehicles for the subject of carrying or transporting prohibited items (weapons, radioactive materials, explosive and toxic substances, etc.). The equipment of the access control and management system performs the functions of ensuring authorized access of personnel and visitors to security facilities and allows increasing the degree of security of checkpoints (checkpoints) from unauthorized access to the protected area. To enhance the quality of control, in addition to comparing the visitor by his photograph, they use such biometric methods as control by the geometry of the face and the geometry of the palm. At the checkpoint, the Smart Radar technology can also be used to scan the behavioral signs of a person (smell, sweat, heart rate, etc.), as well as to recognize material objects hidden on the body of a person who is offending. The use of these methods practically excludes possible errors in the identification of personnel and visitors.

The security lighting system is designed to create the necessary conditions for the action of security forces on the territory of a protected object in poor visibility conditions. In addition, the security lighting system provides the required level of illumination for the functioning of the system of technical means of observation. The set of the security lighting system includes lighting control cabinets, a set of supports, a lighting control panel and a set of lamps.

The automatic fire alarm system is designed for early detection of fires and smoke in the protected area and inside buildings. The technical means of the system can be, for example, the automatic fire alarm system "Strelets" (www.argus-spectr.ru) or other automated fire protection systems.

The alarm system is made with the use of control posts and security hand-held detectors, made with the possibility of prompt notification of emerging service and alarm situations.

A set of technical warning devices is made using light and sound signaling devices, warning signs, and non-lethal deterrent devices. Non-lethal means include, for example, the non-lethal effect of an electric current when trying to overcome a protective barrier. Non-lethal impact can be carried out when using under-barrel grenade launchers with ammunition of irritating, light-sound and shock-shock action. It is allowed to use light, sound and annoying grenades such as "Zarya", "Flame", "Torch" and "Drift". As means of deterrence, speech, sound, light and chemical means of influence can be used. For example, a loud shout recorded on a tape recorder, a bright flash of light, a deafening sonic boom, the application of coloring or foul-smelling extracts to the offender's clothes. Simultaneously with these actions, which impede the advancement of a person in the protected area, it is possible to use means that scare away animals and birds (light and sound effects, electric shock). Deterrent agents can be used in areas most likely to enter intruders.

The set of technical means of operational communication of the security service is made using telephone and radio communication devices, information recording devices and subscriber devices.

The subsystem for ensuring security zones with a special legal regime around the protected object is made with the ability to provide covert control of the adjacent area without its engineering training with detection, classification, determination of the trajectory of movement and video monitoring of the observed objects. This subsystem provides early detection of the intruder and the issuance of a warning signal to the security forces of the facility when the intruder approaches the protected facility at a certain distance, for example, up to 1.5 km. Radar systems and optoelectronic surveillance systems can be used to provide early warning.

The subsystem of object detection means is made using means intended for heated and unheated premises, with the possibility of forming linear and volumetric detection zones, providing detection and registration of unauthorized entry into premises. For heated rooms can be used, for example, burglar detectors "Foton-16" and "Shorokh-2-10" (www.rielta.ru), the device "Bars-M" and microwave signaling device SMV-19 (www.eleron.ru ) other. For unheated premises, sensors D5M-11,12 (www.eleron.ru) and the product "Coral-DSM-01" (www.nikiret.ru) can be used.

All systems of the integrated complex are designed to exchange the necessary information using a data transmission system via wired and (or) wireless communication channels, for example, via an Ethernet interface or an RS-485 interface. Simultaneous processing and display of information in a single information space allows you to identify and identify the offender, provides further prediction of the offender's behavior and timely neutralization of the offender by security forces.

The additional features introduced into the well-known integrated complex make it possible to give the proposed complex new essential properties, leading to the expansion of the functionality of the complex for monitoring the state of physical protection of the perimeters and territories of facilities and obtaining operational information about alarming and critical situations.

Claims (12)

1. An integrated complex of physical protection of perimeters and territories of objects, containing a network computer control system, which includes automated workstations of the administrator, heads of services, operators on duty and officials, a control computer, database servers, and software; intrusion detection and protection system, including a subsystem of perimeter detection means and a subsystem of engineering barriers; a system of technical means of observation, a system of monitoring and control of access, a security lighting system, an automatic fire alarm system, a data transmission system, characterized in that the complex additionally includes an alarm system, a set of technical means of warning, a set of technical means of operational communication of the service security, the intrusion detection and protection system includes a subsystem for ensuring security zones with a special legal regime around the protected object and a subsystem of object detection tools, and all systems are combined into a single information space for controlling and displaying information in a network computer control system. 2. The integrated complex according to claim 1, characterized in that the intrusion detection and protection system is made using technical means of detection operating on different physical principles: radio-beam, radio-wave, vibrometric, magnetometric, infrared, seismic, break-off, and providing digital methods receiving and processing information. 3. Integrated complex according to claim 1, characterized in that the intrusion detection and protection system includes stationary, autonomous and mobile control posts with the possibility of organizing clusters with a combination of two or more physical principles of detection. 4. Integrated complex according to claim 1, characterized in that the system of technical means of observation is made using optical and optoelectronic means of observation and video control in the visible and infrared wavelength ranges, while the means of observation and video control are controlled in automatic or automated mode by commands coming from the network computer control system, depending on the place of detection of the intruder. 5. The integrated complex according to claim 1, characterized in that the access control and management system is designed with the possibility of using automated checkpoints for personal control using biometric control methods. 6. The integrated complex according to claim 1, characterized in that the alarm system is made with the use of control posts and security manual detectors, made with the possibility of prompt notification of emerging service and alarm situations. 7. The integrated complex according to claim 1, characterized in that the set of technical means of warning is made with the use of light and sound alarm devices, warning signs, deterrent non-lethal means. 8. An integrated complex according to claim 1, characterized in that the set of technical means of operational communication of the security service is made using telephone and radio communication devices, information recording devices and subscriber devices. 9. The integrated complex according to claim 1, characterized in that the subsystem for ensuring security zones with a special legal regime around the protected object is designed to provide covert control of the surrounding area without its engineering training with detection, classification, determination of the trajectory and video monitoring of the observed objects. 10. Integrated complex according to claim 1, characterized in that the subsystem of object detection means is made with the use of means intended for heated and unheated rooms with the possibility of forming linear and volumetric detection zones, providing detection and registration of unauthorized entry into the premises. 11. Integrated complex according to claim 1, characterized in that all systems of the integrated complex are made with the ability to exchange the necessary information using a data transmission system via wired and (or) wireless communication channels. 12. Integrated complex according to claim 1, characterized in that the processing and display of information about the situation in a single information space is carried out simultaneously.