RU2645742C1 - Mobile multifunctional communication node - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: additional devices are introduced in the communication node, to exchange information with several communication cars or communication objects to provide subscriber communication over a large territory.

EFFECT: increasing the survivability and connectivity of a distributed communication network, formed on a large territory in the interests of mobile subscribers.

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Description

The invention relates to telecommunication technology, and in particular to a technique with which it is possible to form a distributed communication network over a large territory.

Interpretation of terms used in the application.

A distributed communication network of a higher-level control system means:

- primary communication networks differing in the used medium of signal propagation;

- deployed on their basis secondary communication networks, differing in the type of telecommunication being implemented (the type of messages being transmitted, the data transfer application service) (M. Garanin and other Information Transfer Systems and Networks: Textbook for Universities. - M .: Radio and Svyaz, 2001. - 336 p., p. 13-19).

Under a large territory is understood - a large limited land space (Ozhegov SI, Shvedova N.Yu. Explanatory dictionary of the Russian language. 4th edition. - LLC A TEMP, 2006. - 947 p.).

The survivability of a communication network is understood as its property to ensure the establishment of connections and the transmission of messages at predetermined time intervals between subscribers of any two communication nodes of this network when its elements fail (Reliability and survivability of switched communication networks. / L.P.Sherbina, O.G. Hilko. - YOU, 1977 .-- 54 p., P. 33).

The main criterion for assessing the survivability of a communication network can be the probability of breaking its connectivity, that is, the probability of the network breaking into structurally unconnected sections (Reliability and survivability of switched communication networks. / L.P. Shcherbina, O.G. Khilko. - EAS, 1977. - 54 p., P. 33).

Known mobile node mobile communications ("Mobile node mobile communications", RF patent No. 2359410, H04B 7/185, publ. 06/20/2009, bull. No. 17). The device allows you to expand the functionality and increase the throughput of communication directions through the introduction of two technological automated workstations, a satellite modem, a line and group path switch, an Ethernet card, a server, a user distribution and switching unit, and an Internet Phone telephone set into the mobile node of a mobile communication unit , two operator workstations, two telephone sets for telephone confidential communication, a digital mini-automatic telephone exchange of the DECT system, a remote mobile base station radio communications of the DECT system with the antenna, subscriber lines of telephone confidential communications and lines of the local computer network.

The disadvantage of the complex is the low survivability and connectivity of the communication network formed over a large territory, in the interests of mobile subscribers, due to the lack of the ability to change communications and the functioning of the multifunctional communication center for exchanging information not with one communication vehicle, but with several communication vehicles or communication facilities for providing communications to subscribers over a large territory.

A well-known complex of video surveillance and communication means of a mobile control center (“A complex of video surveillance and communication means of a mobile control center”, RF patent No. 2468522, H04L 12/28, G06F 15/163, published on November 27, 2012, bull. No. 33), which adopted as a prototype. The device allows to increase the operational reliability of the complex due to the introduction of a mobile multifunctional communication center containing a communication vehicle (AS) and a manager’s car (AR), consisting of: a transport subsystem based on an all-wheel drive chassis; a local area network (LAN), including personal computers of automated workstations (AWS) and a switching subsystem with one LAN switch and one router, an encryption subsystem with a cryptographic protection server, the input of which is connected to the output of the switch of the switching subsystem, and the output to the input of the router; a video surveillance subsystem consisting of several remote video cameras, each of which is equipped with a rotary device and is connected to a transceiver; a video conferencing subsystem consisting of a video conferencing terminal connected to a switch of a switching subsystem and a video monitor connected to a video conferencing recorder; AWP of the head equipped with a personal computer; AWP for processing video information, consisting of a network video recorder connected to a video monitor server, connected via a switch to the input-output transceiver of a video surveillance subsystem; VSAT satellite communication channel, consisting of a satellite dish and a VSAT modem, the input of which is connected to the router of the switching system, and the output is connected to the input of the satellite dish; AWP of communication, consisting of a PC type laptop connected to the input of the switch and with a multifunction device; telephone communication subsystem consisting of an office-production automatic telephone exchange (PBX) with telephone sets connected to the input of the switch of the switching subsystem and a base station with DECT standard radiotelephones connected to the PBX; telephone subsystems; a voice radio communication subsystem consisting of an automobile VHF radio station, wearable VHF radio stations; navigation equipment with a GPS receiver connected to a laptop-type PC; a wireless broadband station connected to the input of the switch of the switching subsystem; subsystems of life support, power supply and fire fighting; moreover, a communication vehicle and a manager’s vehicle have the following communication channels between them: a communication channel by means of a fiber optic or copper (UTP) cable when the vehicles are in close proximity; wireless broadband channel; VHF radio channel; IP telephone communication channel using DECT telephones; video conferencing channel.

The disadvantage of the complex is the low survivability and connectivity of the communication network formed over a large territory, in the interests of mobile subscribers, due to the lack of the ability to change communications and the functioning of the multifunctional communication center for exchanging information not with one communication vehicle, but with several communication vehicles or communication facilities for providing communications to subscribers over a large territory.

The objective of the invention is the creation of a mobile multifunctional communication center, which allows to increase the survivability and connectivity of a distributed communication network formed on a large territory in the interests of mobile subscribers by introducing additional devices, changing communications and the functioning of the multifunctional communication center to exchange information not with one communication vehicle, but with several communication vehicles or communication facilities to provide subscribers with communications over a large territory.

The problem is solved in that a mobile multifunctional communication center containing a communication vehicle and a manager’s car, comprising: a transport subsystem based on an all-wheel drive chassis; LAN, including AWP personal computers and a switching subsystem with one LAN switch and one router, an encryption subsystem with a cryptographic protection server, the input of which is connected to the output of the switching subsystem switch, and the output to the router input; a video surveillance subsystem consisting of several remote video cameras, each of which is equipped with a rotary device and is connected to a transceiver; a video conferencing subsystem consisting of a video conferencing terminal connected to a switch of a switching subsystem and a video monitor connected to a video conferencing recorder; AWP of the head equipped with a personal computer; AWP for processing video information, consisting of a network video recorder connected to a video monitor server, connected via a switch to the input-output transceiver of a video surveillance subsystem; VSAT satellite communication channel, consisting of a satellite dish and a VSAT modem, the input of which is connected to the router of the switching system, and the output is connected to the input of the satellite dish; AWP of communication, consisting of a PC type laptop connected to the input of the switch and with a multifunction device; a telephone communication subsystem consisting of a PBX with telephones connected to the input of the switch of the switching subsystem and a base station with DECT standard radiotelephones connected to the PBX; telephone subsystems; a voice radio communication subsystem consisting of an automobile VHF radio station, wearable VHF radio stations; navigation equipment with a GPS receiver connected to a laptop-type PC; a wireless broadband station connected to the input of the switch of the switching subsystem; subsystems of life support, power supply and fire fighting; moreover, a communication vehicle and a manager’s vehicle have the following communication channels between them: a communication channel by means of a fiber optic or copper (UTP) cable when the vehicles are in close proximity; wireless broadband channel; VHF radio channel; IP telephone communication channel using DECT telephones; the videoconferencing channel, according to the invention, is supplemented: in a communication vehicle n - equipment for atmospheric optical data transmission (AOPS), n - radio relay stations (RRS), modem, external modem, n - communication vehicles in the specified package, and the input of the external modem is connected to the modem output the input of which is connected to the output of the AV switch of the switching subsystem, the inputs n - РРС are connected to the outputs of the AV switch of the switching subsystem, the inputs of n - PCA are connected to the outputs of the AV switch of the switching subsystem, output s n - NPA are connected to the inputs of the PDA of the head car and to the inputs of the PDA of n - communication vehicles, the outputs n - РРС are connected to the inputs of the PPC of the head car and the inputs of the PPC of n - vehicles, to the car of the head n - the PDA, n - РРС, inputs which are connected to the outputs of the LAN switch of the subsystem of switching, the inputs n - of the PDP are connected to the outputs of the LAN switch of the subsystem of the switching, the outputs of n - NPD are connected to the inputs of the PDP of n - communication vehicles, the outputs of n - РРС are connected to the inputs of the RRS of n - communication vehicles.

The listed new composition of the equipment of the mobile multifunctional communication center provides the opportunity to increase the survivability and connectivity of the communication network, which is formed on a large territory in the interests of mobile subscribers by introducing additional devices, changing communications and the functioning of the multifunctional communication center to exchange information not with one communication vehicle, but with several communication vehicles or communication facilities to provide communication to subscribers over a large territory.

The analysis of the prior art made it possible to establish that analogues that are characterized by a combination of features that are identical to all the features of the claimed technical solution are absent, which indicates compliance of the invention with the condition of patentability “novelty”.

Search results for known solutions in this and related fields of technology in order to identify features that match the distinctive features of the claimed object from the prototype showed that they do not follow explicitly from the prior art. The prior art also did not reveal the popularity of the impact provided for by the essential features of the claimed invention, the transformations to achieve the specified technical result. Therefore, the claimed invention meets the condition of patentability "inventive step".

The "industrial applicability" of the introduced elements is due to the presence of the element base on the basis of which they can be made.

The claimed device is illustrated by drawings, which show:

FIG. 1 - communication vehicle device;

FIG. 2 - device car leader;

FIG. 3 is a structural diagram of JSCPD;

FIG. 4 - the algorithm of operation of the JSC;

FIG. 5 is a structural diagram of the RRS;

FIG. 6 - the algorithm of the RRS;

FIG. 7 is a fragment of a communication network organized by means of a modem using one copper twisted pair cable at a speed of up to 15 Mbit / s;

FIG. 8 is a structural diagram of a modem;

FIG. 9 is a first embodiment of deploying a complex of means of a mobile multifunctional communication center on a large territory;

FIG. 10 - the second option for deploying a complex of means of a mobile multifunctional communication center on a large territory;

FIG. 11 - dependence of the connectivity of a distributed communication network on the probability of failure of a communication node (s).

The claimed device can be implemented in the form of structural diagrams of a communication vehicle and a manager’s vehicle, shown in FIG. 1 and FIG. 2 respectively.

A satellite communications station is a known device. Designed to organize a satellite communication channel. Alternatively, it can be performed on the basis of Inmarsat BGAN Explorer 500 equipment with the function of transmitting short messages to enable the operation of alarm facilities (Explorer 500. User's guide).

Voice radio subsystem as part of wearable VHF radio stations. Wearable VHF radio station - a known device. Designed for radio communications. Alternatively, it can be performed on the basis of the equipment R-169P-1 (Radio station R-169P-1. Operation manual. RMNK. 464511.201 RE).

The video conferencing subsystem as part of the video conferencing terminal connected to the switch of the switching subsystem and the video monitor is a known device. Designed for organizing video conferencing sessions. As an option, it can be performed on the basis of the PC-VKS MARSAT equipment (Portable video-conferencing complex PK-VKS MARSAT. Instruction manual / Moscow: Open World, 2015).

The telephone subsystem consists of a PBX with telephone sets and a base station with cordless telephones of the DECT standard. Designed to organize telephone communications. As an option, the PBX can be performed on the basis of Coral-R 800 equipment (Office-production automatic telephone exchange Coral-R 800. User manual / Moscow, CJSC Coral-telecom, 2014). Alternatively, a base station with cordless telephones of the DECT standard can be made on the basis of SIEMENS Gigaset 4010 Classic equipment (SIEMENS Gigaset 4010 Classic. Operating Instructions).

A satellite television subsystem composed of a satellite dish and a modem. A modem and satellite dish are known devices. Alternatively, it can be performed on the basis of the Tricolor TV GS B522 equipment (htpp: //tricolor-st.ru/sputnikovoe-televidenie/komplektyi-trikolor/).

Switching subsystem as part of a switch (LAN, audio-video) and router. The switch is a known device. Designed to combine network devices into a single network segment with a single IP addressing. Alternatively, it can be performed on the basis of equipment (Fast Ethernet switch L2 level ALS-62000b2. Operation manual). A router is a known device. Designed for combining network segments. Alternatively, it can be performed on the basis of ZELAX MM-205 equipment (ZELAX MM. Technical description).

A wireless broadband station is a known device. Designed for wireless transmission and reception of digital data. Alternatively, it can be performed on the basis of RAPIRA RS3 equipment (RAPIRA RS3. User manual).

Video surveillance subsystem, consisting of several remote video cameras. Remote video camera - a known device. Designed to provide control of the perimeter of adjacent territories. Alternatively, it can be performed on the basis of Proline PR-8107JU4 equipment (/https://www.proline-rus.ru/catalog/2127detail/56143/).

The central control processor of the LAN is a known device. Designed for the distribution of audio and video signals, wireless transmission and reception of digital data. Alternatively, it can be performed on the basis of the Crestron control processor of the second series (Crestron AV2 & PR02. User Manual).

Encryption subsystem including a cryptographic protection server. The security server is a known device. Designed to organize the following functions: encryption, electronic digital signature (EDS) and others, as well as certificate management functions from the organization’s application programs. Alternatively, it can be performed on the basis of a PC with the installed MagPro CryptoServer software package (MagPro CryptoServer software package 1.0. System Administrator Guide. SEIU.00018-01 33 01).

The workstation of the head is a known device. Designed to control the equipment of the complex, video display and sound reinforcement. Alternatively, it can be performed on the basis of devices: a Getac X500 laptop computer and Crestron TPMC-4SM-T touchpad.

Communication AWP - a known device, consists of a personal computer with a multifunction device (MFP) connected to it. Designed to control the communications equipment of the complex. Alternatively, it can be performed on the basis of devices: Getac X500 laptop and Samsung MultiXpress K2200ND multifunction printer.

AWP video processing is a known device. Designed for video recording and video editing. Alternatively, it can be performed on the basis of the device laptop MSI GE72VR 6RF-213RU.

AWP operator audio-video conferencing - a known device. Designed for organizing and recording audio-video conferencing sessions. Alternatively, it can be performed on the basis of devices: MSI GE72VR 6RF-213RU00 laptop, Crestron TPMC-4SM-T touchpad and Samsung MultiXpress K2200ND MFP.

AKPD is a known device. Designed for organizing duplex communication between objects within direct line of sight. Alternatively, it can be performed on the basis of AOLS-15 Lightning equipment. AOLS-15 provides the transmission of digital information streams with a transmission speed of up to 15 Gbit / s. (Technical description of AOLS-15 "Lightning" /http://larti.ru/atmosfernaya-opticheskaya-liniya-svyazi-aols-15-molniya/) .

AOLS-15 (Fig. 3) consists of a signal encoder / decoder block - 3.3, a transmission path consisting of: a pulse former block - 3.1, a transmitter block - 3.2, a receiver path composed of: a pulse former block - 3.4 and a photodetector block - 3.5.

AOLS-15 uses the technology of organizing high-speed communication channels through infrared radiation. This makes it possible to transfer any data: text, sound, graphic through atmospheric space without the use of fiberglass.

The transmitter is a powerful semiconductor laser diode. The operation algorithm of the APPD is shown in FIG. four.

The input electrical signal enters the encoder / decoder - 4.1, in which it is encoded with various noise-resistant codes - 4.3, then the signal enters the pulse shaper, where the signal is modulated by the optical laser emitter - 4.5, then it is focused by the optical system of the transmitter of the transmitter into a narrow collimated laser beam, and transmitted to the atmosphere - 4.7.

On the receiving side, the optical system focuses the optical signal on a highly sensitive photodiode of the photodetector - 4.2, which converts the optical beam into an electric signal - 4.4. Then the signal is demodulated and converted into signals of the output interface - 4.6.

RRS - a known device designed for the organization of microwave links. Alternatively, it is possible to use a digital RRS from the MIK-RL-7 ... 18R series. RRS is intended for organizing intrazonal and local radio-relay lines and communication systems for various purposes with stream transmission with a G.703 or Ethernet interface with a speed of up to 34 Mbit / s (V.V. Mizerov, A.G. Mironov, K.V. Shestak. Creation and development of domestic multi-channel radio communications for special purposes: scientific and historical work / - Eagle: Academy of the Federal Security Service of Russia, 2015. - P.137-144, section 1.3.18. Digital RRS of the MIK-RL-7 ... 18R series , Radio-relay communication complexes: a manual. At 2 p. Part 2. / Under the general editorship of KV Shestak. - Eagle: Academy of the Federal Security Service of Russia, 2009 - S. 239-254, RA Section 5.2. Purpose, composition, characteristics and capabilities of digital radio relay stations “MIK-RL-7 ... 18R”).

The equipment "MIK-RL7 ... 18P" (Fig. 5) consists of external equipment located in the open air and indoor equipment located in heated rooms. Remote equipment as a basic configuration includes an antenna device (AU) and one (in the “1 + 0” configuration) or two (in the “1 + 1” configuration) blocks of transceiver devices (PPU) - 5.1 and 5.2. As an optional equipment, one or two drop cables are included for connecting the control panel to the internal equipment and a remote control and adjustment device (control panel tester). Antenna devices can have one or two inputs for connecting the control panel. The internal equipment as a basic configuration includes a first-level access module (MD) module - MD1-1 or a second-level access module - MD2 - 5.3, an optional accessory module of additional channels MD-DK-1 is also included as an optional equipment in the first-level RRS . The AU is a two-mirror antenna and consists of a basket with a parabolic mirror and an irradiator, a support and adjustment device, a protective radom and a coaxial waveguide transition (CVP) with a coaxial cable or a polarization diplexer (PD) with two coaxial cables. KVP or PD antenna device cables are connected to the high-frequency coaxial connector of the PPU.

PPU performs the functions of amplification, conversion, modulation and demodulation of the microwave signal, regeneration and scrambling of the digital stream. The controller of the telemetry and control system provides control of the main parameters of the control panel, loop control, setting the power and operating frequencies. The incoming and outgoing information signal for the PPU from the MD is the digital stream in HDB3 code.

The MD access module performs the addition and separation of the main digital stream and the traffic of additional (system and user) channels, switching the radio channels in manual or automatic mode, provides identification of the RRS in the network, the operation of TU-TS systems and intercom. When you connect a computer provides monitoring and control of the RRL network.

The PPC operation algorithm is shown in FIG. 6.

When transmitting digital streams, the main E3 digital stream entering the input of the MD1-1 access module from the multiplexing equipment (МЦП-13 or similar) is fed to the multiplexing unit (МЦП) of the module, which simultaneously collects data from the nodes of the additional channel 2048 Kbps (E1) and additional channels 6x64 Kbit / s (DK), data from the remote control-tele-signaling unit (TU-TS), data from the communication device (CC) of the BUKS unit, status information (receiver and transmitter operability and their activity) local stations from Control Properties (UK) of the BUKS-6.1 assembly. From the MCP, the generated stream is simultaneously fed to the coordination devices (DC) of the BUKS unit. In the USB, group digital streams are converted to the linear code HDB3 - 6.3, amplified and fed to the “Trunk 1”, “Trunk 2” connectors of the MD1-1 module and then to the drop cables connecting the MD and the PUF of the trunks. In the PUF, the group digital signal received from the drop cable passes through the DC, where it is restored and amplified, and fed to the digital modem - 6.5. In the modem, a group digital signal is recoded, scrambled, and a modulated intermediate frequency signal is generated from it, which is fed to the transmitter - 6.7. In the transmitter, the signal is transferred to the working frequency of the transmission, amplified and fed through the filter to the antenna connector of the PPU and then to the antenna - 6.9.

When receiving, the radio signal received by the antenna is fed to the antenna connector of the PPU and then to the receiver - 6.2. In the receiver, the microwave signal is amplified, transferred to an intermediate frequency, filtered and fed to a digital modem. The modem demodulates the signal. The received group digital signal passes through the control panel, is amplified and fed into the drop cable - 6.4. In MD1-1, group digital streams from the PUFs of the 1st and 2nd shafts pass each through its matching device for the BUKS unit, where they are amplified, their shape is restored, and each enters its own demultiplexing unit (CP) - 6.6. In the cerebral palsy, the clock frequency is restored, the code is converted to NRZ code, and the cycle and super-cycle synchronization are searched for and held, which are necessary for the correct separation of the group stream data. From the cerebral palsy of both trunks, copies of the main digital stream go to the backup node (UR) - 6.10. From the cerebral spastic infantile paralysis of the trunk that is active at receiving, the selected data is also transmitted by gating pulses to the corresponding nodes: data of additional channels to the DC and E1 nodes, tele-control and tele-signaling data to the TUTS node, service communication data to the SS device, information about the status of the remote ( corresponding) stations - in the UK of the BUKS unit.

Equipment for linking communication vehicles to ESE communication nodes as part of a modem and field cable.

A modem is a well-known device designed to organize high-speed duplex communication channels over a copper cable. Alternatively, it is possible to use a Zelax M-1-MEGA modem for physical lines, hereinafter referred to as a modem intended for organizing one or two high-speed duplex communication channels (Zelax M-1 M-1-MEGA User Guide / https: // www. zelax.ru/assets/docs/m-1-mega.pdf).

The first channel organizes Ethernet data transmission at speeds up to 60 Mbps (depending on the number of pairs used). The second channel operates in asynchronous mode, and is designed to transmit RS-232 data at any speed from the speed line from 110 bits / s to 115200 bits / s (Fig. 7).

The modem (Fig. 8) is a basic module with one Ethernet port, one, two or four SHDSL ports and an RS-232 port, which can operate in data transfer mode and in control mode.

The input digital stream from the RS-232 port enters the processor, where the Ethernet interface is converted and then goes to the switch, combined with the input data from the Ethernet port, and fed to the SHDSL controller, in which it is transcoded to the output electrical signal and through the SHDSL port comes in line.

Field cable - a known device designed to organize cable communication lines in the field. As an option, it is possible to use the P-274M telephone wire, designed for field communication with laying in soil, on the ground, suspension on supports or local objects, as well as for short-term laying through water barriers.

Additionally, the input equipment is connected to the equipment installed in the prototype as follows: in the leader’s car, the inputs of the PDP and RRS are connected to the outputs of the LAN switch, in the communication car, the inputs of the NPPD and RRS are connected to the outputs of the AV switch, in the manager’s car, the modem input is connected to the output of the LAN switch, output the modem is connected via cable to a similar modem installed on the ESE communication node, in the communication vehicle the modem input is connected to the output of the AV switch, the modem output is connected via cable to a similar modem installed on the ESE communication center.

Mobile multifunctional communication node operates as follows.

On a large territory there is a mobile multifunctional communication center, consisting of (1 ... n) communication vehicles (AC) and the head's car (AR). The speakers are located on the territory, taking into account the terrain, the operating range of the APPD and RRS and provide binding of the AR to at least two speakers by means of the APPD and RRS simultaneously (Fig. 9). In addition, the AR contacts the AS No. 3 via a physical line or a wireless broadband access channel is organized. AS No. 2 and No. 4 are connected to the stationary communication centers of the ESE (US ESE) by means of modems via a cable line. For this, an external modem with a 220 V / 9 V network adapter is installed on the ESE ES. When the AR is moved to a new location, the AR is connected to AS No. 1 and No. simultaneously (Fig. 10).

Evaluation of the effectiveness of the proposed technical solution is made by comparing the probabilities of connectivity R (G) of a distributed communication network deployed using the prototype device and the proposed device.

The method for determining the probability of R (G) is described in (Reliability and survivability of switched communication networks. / LP Shcherbina, OG Khilko. - YOU, 1977, - 54 s, p. 39).

For this, a distributed communication network is represented by a finite graph G without loops and multiple edges, whose vertices correspond to the angles, and the edges to the branches of the network in question. Branch damage is assumed to be independent.

The connection probability R (G) is found by the formula:

where ρ _min is the minimum degree of the vertices of a given graph G;

n is the number of vertices of the graph (in our case, the number of communication nodes);

p is the probability of failure of the communication node (s).

As input data:

n = 2 (in the prototype), n = 4 (in the present invention);

ρ _min = 1.

The output results are presented in the form of dependences R (G) under given conditions (Fig. 11).

To calculate the efficiency, we set p = 0.3. Then

when n = 2 R (G) = 0.837;

n = 4 R (G) = 0.986.

The performance of the proposed mobile multifunctional communication node is determined as follows:

Thus, the problem of the invention is solved.

Claims (1)

Mobile multifunctional communication center, consisting of a communication vehicle and a manager’s car, consisting of a transport subsystem based on an all-wheel drive chassis, a local area network, including personal computers of workstations and a switching subsystem with one local area network switch and one router, an encryption subsystem with a cryptographic server protection, the input of which is connected to the output of the switch of the switching subsystem, and the output - to the input of the router, subsystem we have video surveillance, consisting of several remote video cameras, each of which is equipped with a rotary device and connected to a transceiver, a video conferencing subsystem, consisting of a video conferencing terminal connected to a switching subsystem switch, and a video monitor connected to a video conferencing recorder of a head-mounted electronic workstation, an automated workstation a computer, an automated workstation for processing video information, consisting of sub connected to the video monitor server of the network video recorder connected via a switch to the input-output of the transceiver of the video surveillance subsystem, a satellite communication channel consisting of a satellite antenna and a modem, the input of which is connected to the router of the switching system, and the output to the input of the satellite antenna, automated workstation, consisting of a personal electronic computer such as a laptop connected to the input of the switch and with a multifunctional device, the telephone subsystem communication, consisting of an office-production automatic telephone station with telephone sets connected to the input of the switch of the switching subsystem, and a base station with radiotelephones connected to the office-production automatic telephone station, telephone subsystem, voice radio communication subsystem, consisting of a car radio station, wearable radio stations, navigation equipment with a receiver connected to a personal electronic computer such as a laptop, station a wireless broadband connection connected to the input of the switch of the switching subsystem, life support subsystem, power supply and fire extinguishing, the communication vehicle and the manager’s car having the following communication channels between them: communication channel via fiber optic or copper cable when the vehicles are in close proximity, wireless broadband communication channel, radio communication channel, telephone communication channel using telephone sets, video conferencing channel, characterized in that included: n communication vehicles, to the main radio electronic means located on n communication vehicles, n atmospheric optical data transmission equipment, n radio relay stations, a modem, an external modem, the input of the external modem being connected to the modem output, the input of which is connected to the output of the audio-video switch of the subsystem switching, the inputs of n radio relay stations are connected to the outputs of the audio-video switch of the switching subsystem, the inputs of n equipment of atmospheric optical data transmission are connected to the outputs of the audio-video switch switching subsystems, outputs n of atmospheric optical data transmission equipment are connected to inputs of atmospheric optical data transmission equipment located on the manager’s car, and to inputs of atmospheric optical data transmission equipment located on n communication vehicles, outputs of n radio relay stations are connected to inputs of radio relay stations located on the head’s car, and with the entrances of the radio relay stations located on n communication vehicles, into the main electronic means, located located on the leader’s car, - n atmospheric optical data transmission equipment, n radio relay stations whose inputs are connected to the outputs of the commutator of the local area network of the switching subsystem, inputs n of the atmospheric optical data transmission equipment are connected to the outputs of the local area network switch of the switching subsystem, outputs n of atmospheric equipment optical data transmission are connected to the inputs of atmospheric optical data transmission equipment located on n communication vehicles odes of n radio relay stations are connected to the inputs of radio relay stations located on n communication vehicles.

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