RU2578805C1 - Mobile control and communication equipment - Google Patents

Abstract

FIELD: radio engineering and communications.

SUBSTANCE: invention relates to telecommunication- and communication systems and can be used for real-time control and communication by emergency services, Emergency Situations Ministry, other ministries and establishments. Into the equipment vehicle there is additionally introduced a digital radio relay station (RRS) with an antenna, a server-interface converter, n portable radio stations of GSM standard with built-in antennas, an interface unit, a combined multiplexer, two access routers, a cryptographic router, an individual encoder, a group encoder, four-channel data transmission equipment (DTE), portable computer of DTE operator WS, a universal telecommunication server, a video conferencing server, an operational communication telephone station, a portable computer of telephone operator WS, portable computers with connected to them video cameras of two main LG WSs system, two main telephone sets of ATS system, two unitized commander panels, an interface converter, a lines input unit, telephone communication subscriber lines (SL), operational communication SL, two fibre-optic communication lines, n portable VHF radio stations with built-in antennas, navigation equipment, as well as self-contained equipment consisting of an interface converter, optical switching center, portable computers of three remote LD WSs with connected to them video cameras, a printing device, n external self-contained telephone sets of ATS system and remote TS of operational communication.

EFFECT: technical result consists in expansion of functional capabilities to provide to officials different communication services of the required quality when these officials are in a vehicle or work in field conditions with the help of self-contained LD WSs.

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Description

The invention relates to techniques for telecommunication systems and communication systems and can be used to organize operational management and communication in ambulance services, the ministry of emergency situations, other ministries and departments.

Known single-channel tools and multi-channel communication systems that provide the formation of both primary and secondary channels used for telephone and telegraph communications, fax and document information, as well as for the exchange of data and graphic information. These include various means of radio communication, radio relay and satellite communications in stationary and mobile versions [1, 3, 4]. Each of the mentioned means of communication separately provides the formation of one or two communication channels and the ability to conduct through them using terminal equipment telephone and telegraphy a certain type of communication - radio, radio relay or satellite communications, while the effectiveness of each of them individually is limited by the or other reason.

A well-known system of operational telephone communications, which provides the deployment of telephone networks for internal and long-distance communications, the conduct of telephone conversations on connected subscriber lines and communication channels, and the exchange of documentary information described in [1]. This system has limited capabilities for ensuring communications with the required quality directly from the workplaces of officials, which makes it difficult to use it to provide subscribers with a wide range of communication services, the needs of which have now grown substantially.

The main disadvantages of the known operational communication stations are that they are made in a stationary version, have large dimensions and weight, so it is not possible to place them in the back of a moving object with a limited volume on the vehicle chassis.

These shortcomings significantly limit the use of such stations to provide operational communications.

Closest to the technical nature of the present invention is a mobile monitoring, control and communication station described in RF patent No. 2321182 [2].

This station contains a satellite communications station with an antenna system, an electronic switching unit, a router, a GPS navigation receiver, first and second automobile VHF radio stations with antennas, first and second VHF transponders with antennas, n wearable VHF radio stations of the lower frequency range with antennas, n wearable VHF high-frequency radio stations with antennas, a mobile radio base station, consisting of a transceiver with a transceiver and a receiving antenna, a controller based on a PC platform, a monitor, keyboards s, mice and n subscriber radio stations with a built-in antenna, portable digital video camera, television signal transmitter, television receiver, media gateway, laptop computer, multifunction device made in the form of a fax machine and printer, remote monitor, telephone system of PBX system, KB radio receiver, broadband modem (satellite modem) for access to the Internet and satellite phone.

The main disadvantage of the known mobile station is that it provides monitoring, control and communication capabilities for a limited number of subscribers connected to the station, and does not provide access to various communication networks, including a public communication network.

The aim of the invention is to expand the functionality of the hardware to provide officials with various services in connection with the required quality when they are in a moving object and work in the field with external AWS DL.

This goal is achieved by the fact that in a mobile control and communication equipment room containing a satellite communications station, the high-frequency input-output of which is connected to the antenna system, an electronic switching unit, an ultra-short-wave (VHF) car radio station with interchangeable antennas, a VHF repeater with an antenna, a standard base station GSM, the high-frequency input-output of which is connected to the antenna, a laptop computer of the automated workplace of the dispatcher (ARMD) and an unmanned aerial vehicle (UAV), additionally a digital radio relay station (RRS), the high-frequency input-output of which is connected to the antenna, an interface converter server, n portable GSM radio stations with built-in antennas, an interface unit, a combined multiplexer, two access routers, a cryptographic router, an individual encoder, a group encoder, four-channel data transmission equipment (ADF), laptop computer of the APM operator, universal telecommunication server, video conferencing server, telephone exchange Active Telecommunications (TSOS), a workstation operator’s laptop computer, laptop computers with video cameras of the first and second main automated workstations of officials (AW workstation) connected to them, two main telephone exchanges (TA) of the automatic telephone exchange system, two unified commander desks (PC ), an interface converter, a line input unit, telephone subscriber lines (AL), an operational subscriber line, two fiber-optic communication lines (FOCL), n portable VHF radio stations with built-in antennas, navigation a equipment installed in a pneumoframe tent; remote equipment consisting of an interface converter, an optical switch, three portable computers of remote workstation AW with video cameras connected to them, a printing device, n remote telephone sets (TA) of the telephone exchange system and remote TA of operational communication, while channel the input-output of the satellite communication station at the Ethernet interface is connected to the first input-output of the electronic switching unit, the second input-output of which at the Ethernet interface is connected to the station input-output of the serv interface converter, the linear input-output of which at the Е1 interface is connected to the channel input-output of the digital РРС, the third input-output of the electronic switching unit at the Ethernet interface is connected to the channel input-output of the car VHF radio station, the first and second high-frequency inputs and outputs of which connected to the high-frequency inputs-outputs of the first and second interchangeable antennas, the fourth input-output of the electronic switching unit at the Ethernet interface is connected to the channel input-output of a GSM base station, each of n portable radio stations GSM standard via an integrated antenna over the air is connected to the antenna of the base station of the GSM standard, the fifth input-output of the electronic switching unit at the Ethernet interface is connected to the channel input-output of the interface unit, the station input-output of which at the C1-I interface is connected to a digital input - an output of an individual encoder, the analogue input-output of which is connected to the first input-output of the channel field of the telephone exchange of operational communication, the sixth input-output of the electronic switching unit at the Ethernet interface is connected to the channel input-you the combined multiplexer, the linear input-output of which is connected to the first FOCL, the seventh input-output of the electronic switching unit at the Ethernet interface is connected to the first input-output of the first access router, the second input-output of which is connected via Ethernet to the first input-output of the cryptographic router the second input-output of which at the Ethernet interface is connected to the first input-output of the second access router, the second input-output of which at the Ethernet interface is connected to the second input-output of the group encoder, the first one output of which at the Ethernet interface is connected to the third input-output of the first access router, the fourth input-output of which at the Ethernet interface is connected to the first channel input-output of the four-channel ADF, the second channel input-output of which at the C1-I interface is connected to the second station the input-output of the interface unit, the third input-output of the second access router at the Ethernet interface is connected to the third channel input-output of the four-channel ADF, the station input-output of which at the RS-232 interface is connected to the input-output of a portable computer EPA operator AWP, the fourth input-output of the second access router at the Ethernet interface is connected to the first input-output of the dispatcher’s laptop computer, the second input-output of which is connected via RS-232 interface to the input-output of navigation equipment, the fifth and sixth inputs and outputs the second Ethernet access router is connected to the inputs and outputs of the universal telecommunication server and the video conferencing server, the seventh input and output of the second access router via the Ethernet interface is connected to the second input the output of the channel field of the telephone exchange of operational communication, the input-output of which at the Ethernet interface is connected to the input-output of the portable computer of the operator-telephone operator, the eighth input-output of the second access router at the Ethernet interface is connected to the first input-output of the laptop of the first main workstation the second input-output of which is connected to the input-output of the camera, the ninth input-output of the second access router at the Ethernet interface is connected to the first input-output of the laptop computer of the second main workstation DL, the second the input-output of which is connected to the input-output of the camera, the tenth input-output of the second access router at the Ethernet interface is connected to the first input-output of the interface converter, the linear inputs and outputs of the first and second main TA of the PBX system are connected respectively to the first and second inputs and outputs the subscriber field of the telephone exchange of operational communications, the third and fourth inputs and outputs of the subscriber field of which are connected respectively to the first and second station inputs and outputs of the line input unit, each of n portable VHF radio stations via an integrated ether antenna is connected to the VHF repeater antenna, the second input-output of the interface converter at the Ethernet interface is connected to the first input-output of the interface converter from the remote equipment, the second input-output of which is connected to the first input via the Ethernet interface the output of the optical switch, the second, third and fourth inputs and outputs of which are connected at Ethernet interfaces to the first inputs and outputs of portable computers, respectively, of the first remote, second remote and the third remote AWP DL, the second input-output of the laptop computer of the first remote AWP DL is connected to the input-output of the camera, and the third input-output of the laptop computer of the first remote AWP DL at the RS-232 interface is connected to the input-output of the printing device, the second input is the output of the portable computer of the second remote AWP DL connected to the input-output of the camera, the second input-output of the laptop of the third remote AWP DL connected to the input-output of the camera, the linear inputs and outputs of each of n remote TA PBX systems means of subscriber telephone lines are connected to the first line input-output unit input lines, the second line inputs and outputs through which the subscriber operative communication line connected to the linear input-output of the remote SLT operational communication.

Comparative analysis with the prototype shows that the claimed mobile control and communication hardware is distinguished by the presence of new units: a digital radio relay station (RRS) with an antenna, an interface converter server, n portable GSM radio stations with built-in antennas, an interface unit, a combined multiplexer, two access routers , a cryptographic router, an individual encoder, a group encoder, four-channel data transmission equipment (ADF), a workstation portable computer RA APD, universal telecommunication server, video conferencing server, telephone exchange of operative communication (TSC), laptop computer of telephone operator operator, laptop computers with video cameras connected to them of the first and second main automated workstations of officials (AW DL), two main telephone sets (TA) of the automatic telephone exchange system, two unified commander (PC) consoles, an interface converter, a line input unit, telephone subscriber lines (AL), an operative subscriber line, two fiber-optic communication lines (FOCL), n portable VHF radio stations with built-in antennas, navigation equipment located in a pneumoframe tent of remote equipment, consisting of an interface converter, an optical switch, laptop computers of three remote AW workstations with video cameras connected to them, a printing device , n remote telephone sets (TA) of the telephone exchange system and remote TA of operational communications, as well as a change in the connections between the remaining remaining circuit elements.

The difference also lies in the implementation of the GSM standard base station, the automated workstation of the dispatcher and the telephone exchange of operational communications, which is a station with a combined service system: automatic telephone communications for local network subscribers, automatic and semi-automatic service of long-distance subscribers, including the establishment of connections with subscribers of a communication network with mobile objects.

Thus, the claimed movable hardware control and communication meets the criteria of the invention of "novelty." Comparison of the proposed solution with other technical solutions shows that the introduced blocks are widely known and additional creativity for their implementation is not required. However, when they are introduced in this connection with the rest of the circuit elements into the inventive mobile control and communication hardware, the above blocks exhibit new properties, which leads to an expansion of the hardware’s functionality to provide various communication services provided to officials with the required quality, including providing access to the communication network general use, multi-access in a communication network with mobile objects with transmission of voice and fax messages over established connections, high documentary-velocity information (data, file sharing, e-mail) and video conferencing.

This allows us to conclude that the technical solution meets the criterion of "significant differences".

The claimed solution explicitly does not follow from the prior art and has an inventive step.

The inventive mobile control and communication hardware can be implemented using existing communication tools and equipment, telecommunications and computer technology and is industrially applicable. At present, a prototype of mobile hardware control and communication has been manufactured, the test results of which confirm the possibility of industrial implementation of the invention.

In FIG. 1 is a structural electrical diagram of a mobile hardware control and communication system, and FIG. 2, 3, and 4, respectively, are structural diagrams of a GSM base station with an antenna, a dispatcher’s laptop computer, and an operational telephone exchange.

In the block diagram of FIG. 1 is indicated:

1 - satellite communication station with antenna system 2;

3 - digital radio relay station (RRS) with antenna 4;

5 - server interface converter;

6 - automobile VHF radio station with interchangeable antennas 7 and 8;

9 - base station of the GSM standard with antenna 10;

11 (11 ₁ -11 _n ) - portable GSM radio stations with built-in antennas;

12 - block electronic switching;

13 - interface unit;

14 - combined multiplexer;

15 - the first fiber optic communication line (FOCL);

16, 17 - the first and second access routers;

18 - cryptographic router;

19 - an individual encoder;

20 - group encoder;

21 - four-channel data transmission equipment (ADF)

22 - portable computer of a workstation (AWS) of the ADF operator;

23 - laptop computer workstation dispatcher;

24 - universal telecommunication server;

25 - video conferencing server;

26 - telephone exchange operational communications (SCOS);

27 - a portable computer AWP operator-telephone operator;

28 - a laptop computer of the first main workstation of an official (AWP DL) with a video camera connected to it 29;

30 - a laptop computer of the second main AWP DL with a connected video camera 31;

32, 33 - the first and second main telephone sets (TA) of the PBX system;

34, 35 - the first and second unified remotes of the commander (PC);

36 - interface converter;

37 - block input lines;

38 - subscriber lines (AL) telephone;

39 - subscriber line operational communications;

40 - second fiber optic communication line (FOCL)

41 - unmanned aerial vehicle (UAV);

42 - ultra-short-wave (VHF) repeater with antenna 43;

44 (44 ₁ -44 _n ) - portable VHF radios with integrated antennas

45 - navigation equipment;

46 - remote equipment placed in a pneumoframe tent, consisting of:

47 - interface converter,

48 - optical switch

49 - a portable computer with a connected video camera 50 of the first remote AWP DL,

51 - printing device,

52 - a portable computer with a connected video camera 53 of the second remote AWP DL,

54 - a portable computer with a connected video camera 55 of the third remote AWP DL,

56 (56 ₁ -56 _n ) - remote TA of the PBX system,

57 - remote TA operational communications.

The channel input-output of the satellite communication station 1, the high-frequency circuits of which are connected to the antenna system 2, at the Ethernet interface is connected to the first input-output of the electronic switching unit 12, the second input-output of which at the Ethernet interface is connected to the station input-output of the converter server 5 interfaces, the linear input-output of which at the Е1 interface is connected to the channel input-output of the digital РРС 3, the high-frequency input-output of which is connected to the input-output of the antenna 4. The third input-output of the electronic switching unit 12 at the Ethernet interface is connected to the input / output of the automobile VHF radio station 6, the first and second high-frequency inputs-outputs of which are connected to the high-frequency inputs-outputs of the first 7 and second 8 removable antennas, the fourth input-output of the electronic switching unit 12 at the Ethernet interface is connected to the channel input-output of the base station 9 of the GSM standard, the high-frequency part of which is connected to the antenna 10. Each of the n portable radio stations 11 (11 ₁ -11 _n ) of the GSM standard is connected via antenna over the air to the antenna 10 of the base station 9 of the GSM standard.

The fifth input-output of the electronic switching unit 12 at the Ethernet interface is connected to the channel input-output of the interface unit 13, the station input-output of which at the C1-I interface is connected to the digital input-output of an individual encoder 19, the analog input-output of which is connected to the first input - the output of the channel field of the telephone exchange 26, the sixth input-output of the electronic switching unit 12 at the Ethernet interface is connected to the channel input-output of the combined multiplexer 14, the linear input-output of which is connected to the first FOCL 15, gray the seventh input-output of the electronic switching unit 12 at the Ethernet interface is connected to the first input-output of the first 16 access router, the second input-output of which at the Ethernet interface is connected to the first input-output of the cryptographic router 18, the second input-output of which is connected to the Ethernet interface the first input-output of the second 17 access router, the second input-output of which at the Ethernet interface is connected to the second input-output of the group encoder 20, the first input-output of which at the Ethernet interface is connected to the third input-output of the first 16 routing ora access, a fourth input-output of which is connected by Ethernet to a first junction of the input-output channel quad ADF 21, the second input-output channel by which the C1-junction and connected to the second input-output of the station 13 interfacing unit.

The third input-output of the second 17 access router at the Ethernet interface is connected to the third channel input-output of the four-channel ADF 21, the station input-output of which at the RS-232 interface is connected to the input-output of the APM operator's portable computer 22, the fourth input-output of the second 17 the Ethernet access router is connected to the first input-output of the dispatcher’s laptop 23, the second input-output of which is connected via RS-232 interface to the input-output of navigation equipment 45, the fifth and sixth inputs and outputs of the second 17 router blunt Ethernet junctions are connected to the inputs and outputs of the universal telecommunication server 24 and video conferencing server 25, the seventh input-output of the second access router 17 at the Ethernet interface is connected to the second input-output of the channel field of the telephone exchange 26, the input-output of which is at the junction Ethernet is connected to the input-output of the portable computer 27 of the operator-telephone operator AWP, the eighth input-output of the second access router 17 at the Ethernet interface is connected to the first input-output of the portable computer 28 the first main workstation DL, the second input-output of which is connected to the input-output of the camcorder 29, the ninth input-output of the second 17 access router through an Ethernet interface is connected to the first input-output of a laptop computer 30 of the second main workstation of the DL, the second input-output of which is connected to the input-output of the camera 31, the tenth input-output of the second 17 access router at the Ethernet interface is connected to the first input-output of the interface converter 36, the linear inputs and outputs of the first 32 and second 33 of the main TA of the PBX system are connected respectively to the first and the second inputs and outputs of the subscriber field of the telephone exchange 26 for operational communications, the third and fourth inputs and outputs of the subscriber field of which are connected respectively to the first and second station inputs and outputs of the block 37 input lines, to the first and second linear inputs and outputs of which are respectively connected subscriber lines 38 telephone communications and subscriber line 39 operational communications.

Each of the n portable VHF radio stations 44 (44 ₁ -44 _n ) is connected via the built-in antenna to the antenna 43 of the VHF relay 42, the second input-output of the interface converter 36 is connected via Ethernet to the second FOCL 40 to the first input-output of the interface converter 47 from the equipment 46, the second input-output of which at the Ethernet interface is connected to the first input-output of the optical switch 48, the second, third and fourth inputs and outputs of which are connected at the Ethernet joints to the first inputs and outputs of portable computers 49, 52 and 54, respectively, the first remote, second remote and third remote AWP DL, the second input-output of the laptop 49 of the first remote AWP DL is connected to the input-output of the camera 50, and the third input-output of the laptop 49 of the first remote AWP DL is connected to the RS-232 interface with the input-output of the printing device 51, the second input-output of the portable computer 52 of the second remote AWP DL connected to the input-output of the camera 53, the second input-output of the portable computer 54 of the third remote AWP DL connected to the input-output of the video steps 55, linear input-output 56 each (56 ₁ -56 _n) of the n remote SLT PBX system through the subscriber lines 38 are connected to the telephone line first inputs-outputs unit 37 input lines, the second line inputs and outputs which through the subscriber line 39 operational communications are connected to a linear input-output remote TA 57 operational communications.

The base station 9 of the GSM standard contains (Fig. 2) a controller 58 that manages the database of subscribers, provides control of the cellular network and performs all the functions of the multisite switching according to the GSM standard protocol, a transceiver 59, a monitor 60, a standard keyboard 61 and a graphic manipulator 62 "mouse".

The antenna 10 of the base station 9 of the GSM standard can be made in the form of one transceiver antenna and one receive antenna, designed for the independent reception of commands and signals from an external cellular network management system.

The first inputs and outputs of the controller 58 are connected to the channel inputs and outputs of the transceiver 59, the high-frequency part of which is connected to the antenna 10, the second, third, and fourth inputs and outputs of the controller 58 are connected to the inputs and outputs of the monitor 60, standard keyboard 61, and type 62 "Mouse", while the fifth inputs and outputs of the controller 58 are channel inputs and outputs of the base station 9 of the GSM standard, the high-frequency inputs and outputs of which are the inputs and outputs of the transceiver 59.

The laptop computer 23 of the automated workstation of the dispatcher (ARMD) contains (Fig. 3) a system unit 63 consisting of a motherboard 64 on which a microprocessor 65, a system bus 66, random access memory 67, reprogrammable read-only memory 68 and keyboard controller 69 are located . The system unit 63 also includes a monitor adapter 70, a port adapter 71, a disk controller 72, an additional device controller 73, a hard disk drive 74, a floppy disk drive 75, system software 76 and application software 77 provided on the drive on a hard magnetic disk 74. The ARMD laptop 23 also includes a display with a plasma screen (monitor) 78, a standard keyboard 79, and a graphical pointing device 80 of the mouse type.

The inputs / outputs of the Central processor 65 through the system bus 66 are connected to the inputs / outputs of random access memory 67, reprogrammable read-only memory 68, keyboard controller 69, monitor adapter 70, port adapter 71, disk controller 72 and additional device controller 73, second and third the inputs and outputs of the disk controller 72 are connected to the inputs and outputs of the hard magnetic disk 74 and the drive 75 for connecting a flexible magnetic disk, the second inputs and outputs of the controller 6 9 keyboards are connected to the inputs and outputs of the standard keyboard 79, the second inputs and outputs of the monitor adapter 70 are connected to the inputs and outputs of the plasma display (monitor) 78, the second inputs and outputs of the controller 73 of additional devices are connected to the inputs and outputs of the graphic manipulator 80 of the type mouse ", while the first inputs and outputs of the ARMD laptop 23 are the second inputs and outputs of the adapter 71 ports, which are connected to the fourth inputs and outputs of the second 17 access router, the second inputs and outputs are portable computer 23 are the third inputs and outputs of the controller 73 additional devices that are connected to the inputs and outputs of the navigation equipment 45, the above software is designed to implement the functions of operational and technological control of equipment of mobile hardware control and communication, its diagnostics, as well as functions for setting channels and the provision of services to officials.

Telephone exchange 26 for operational communications (Fig. 4) contains a block of 81 sets of four-wire subscriber lines (AL), a block of 82 sets of two-wire AL, a block 83 of a switching field, a control device 84, a block of 85 channel sets, an IP server 86, and a local computing switch 87 network (LAN).

The information input-output chains, including voice and calling circuits, of the station side of each subscriber set of the block 81 sets of four-wire AL telephone exchanges are connected via a technological bus to the first information inputs and outputs of the switching field unit 83, the second information inputs and outputs of which are connected to the first information inputs - the outputs of the station side of the block 82 sets of two-wire AL, the control inputs and outputs of the block 83 of the switching field are connected to the first control the control device 84 inputs and outputs. The third information inputs and outputs of the switching field unit 83 are connected via the technology bus to the information inputs and outputs of the station side of the channel set block 85, the fourth information inputs and outputs of the switching field block 83 are connected to the information inputs and outputs of the IP station side -servers 86, the information inputs and outputs of the subscriber side of which are connected to the information inputs and outputs of the subscriber side of the LAN switch 87, while the first and second The information inputs and outputs of the subscriber sets of the linear side of the block 82 of sets of two-wire ALs are the first and second inputs and outputs of the subscriber field of the telephone exchange 26 of the operational communications, the third and fourth inputs and outputs of the subscriber side of which are the information inputs and outputs of the linear side of the block 81 of sets of four-wire AL , information and control inputs and outputs of the telephone exchange are the second control inputs and outputs of the control device 84, which are connected at the Ethernet interface the information and control inputs and outputs of the laptop 27 of the operator-telephone operator, the first and second channel inputs and outputs of the telephone exchange 26 are, respectively, the first and second channel inputs and outputs of the block 85 channel sets, the Ethernet input and output of the telephone exchange is the line-side input-output LAN switch 87, and IP telephones (IP-TA) are connected to the line side of IP server 86.

Satellite communication station 1 is a Ku-band station. It includes a receiver, a transmitter and a satellite modem [3].

The receiver of the satellite communication station 1 is intended for preliminary amplification of the received high frequency signals, converting the signals to an intermediate frequency and transmitting them to the demodulator of the modulator-demodulator unit. It includes a low-noise amplifier, switchgear, frequency converters and elements of the intermediate frequency path, control unit and interfaces.

The transmitter of the satellite communication station 1 is intended for generating a high frequency signal with predetermined parameters and amplifying it to the required power level. The transmitter comprises an intermediate frequency converter, an exciter and a power amplifier.

As a satellite communication station 1, the Qualcomm GCK1410 Globalstar car kit can be used, the structural diagram and technical capabilities of which are described in [3].

Station 1 satellite communications is intended:

for the deployment of a high-speed satellite communication line in the Ku-band and for providing duplex telephone and data communications, as well as for telephone communication or inter-machine communication in the mode of a remote telephone exchange subscriber when working in radial-node communication networks via fixed channels or channels operating according to the principles of radio -ATS with continuous information transfer;

to provide duplex communication and data transmission on 1 ... 4 channels with a throughput of 1.2 to 9.6 kbit / s, organized in four directions of communication on fixed channels or channels used in the radio-automatic telephone exchange during continuous operation.

Antenna system 2 includes a parabolic mirror with a diameter of 1.5 m and a rotary support device, as well as a device for automatically deploying the antenna system to ensure the operation of satellite communication station 1 in motion.

Organization of satellite communications and the provision of various operating modes using station 1 is carried out according to well-known principles set forth in the literature [3].

Digital radio relay station 3 contains a digital modem, a transceiver made in the form of transceivers of the upper and lower subbands, an antenna-feeder device, an antenna-rotary device, a control unit and an automated remote alignment device with an electronic compass.

Digital radio relay station 3 is intended for the construction of multi-span digital radio relay communication lines. It is based on the use of DS-CDMA (Digital Signal-Code Division Division Multiple Access) technology and is designed to provide autonomous work in the field in the parking lot or in conjunction with other similar stations that are part of the communication center. In this case, up to four radio-relay communication lines can be organized, one direction of broadband wireless access (BWA) and network operation using STM-1 technology is ensured. For each of the radio-relay directions, the transmission of several digital streams E1 and E3 can be ensured, as well as the transmission of information on an Ethernet network with an exchange speed of up to 100 Mbit / s.

Digital radio relay station 3 can operate in terminal mode, relay mode and in the organization of broadband wireless access (BWA).

Antenna 4 is part of the antenna-feeder device of the aforementioned digital PPC 3. On the telescopic mast (not shown in the diagram), two antennas can be installed for two subbands.

To provide microwave communication in the range 390-645 MHz, an in-phase array can be used, which is a Z-shaped antenna consisting of four Z-emitters made of aluminum alloy pipes, a flat reflector and a power divider. It is designed for directional radiation and directional reception of signals in the specified frequency range.

A parabolic antenna with a mirror diameter of 1.5 m can be used as an antenna for the operation of digital radio relay station 3 in the range 3.95-4.20 GHz.

A server-converter of 5 interfaces is intended for matching channel circuits and signal levels of digital РРС 3 with switching and terminal hardware equipment. The interface converter is a multifunctional device that allows you to combine hardware data transmission systems with various interfaces. It is made like a “bridge”, which is required for the equipment to communicate with the VSB RS-485, RS-232 interfaces for transmitting data over long distances even in conditions of electromagnetic interference.

Automotive VHF radio station 6, together with interchangeable antennas 7 and 8, is designed to form radio channels in the DKMV and MB bands. The specified radio station is a multifunctional transceiver station, consisting of a transceiver having two antenna connectors for connecting the first and second antennas, connectors for issuing channels, the interface module and antenna devices. It is built using components of modern software and hardware with digital signal processing and provides the construction of radio networks based on a hierarchy of mesh networks, distributed-reference network (ROS) and radio access networks (SRD), which provide:

automatic dynamic routing of information with switching channels and packets;

various types of services provided to subscribers when working in the parking lot and on the move;

the ability to deploy a radio network based on packet technologies with switching and routing at the channel and network levels;

various information speeds of data transmission in radio networks, the possibility of increasing throughput and operational recovery of network breaks;

automatic selection of radio frequencies and automatic establishment of a channel for communication or relaying; decentralized principle of monitoring the status of a radio network;

automatic authentication, identification of radio stations and subscribers, roaming of moving subscribers in the network;

connection of remote subscribers and network sections based on standardized protocols;

the ability to input / output data from external media;

cryptographic protection of information transmitted over the air.

The first 7 and second 8 antennas of the radio station 6 are transceiver antennas, providing the ability to conduct radio communications in a wide range of waves.

The base station 9 of the GSM standard together with the antenna 10 are intended for the organization of a cellular network of the GSM standard for officials located at a considerable distance from the mobile hardware control and communication with the transmission of voice messages and data via educated radio channels.

The GSM cellular communication system represents a wide range of services and the possibility of using a variety of equipment for transmitting voice messages and data, call signals and alarms, as well as the ability to connect to public telephone networks, data networks and digital networks with service integration [4] .

The GSM standard uses time division multiple access (TDMA), which allows you to place 8 voice channels simultaneously on one carrier frequency. The speech codec RPE-LTP with regular pulsed excitation and a speech conversion rate of 13 kbit / s is used as a speech-converting device.

Portable radios 11 (11 ₁ -11 _n ) with a built-in antenna are designed to provide open telephone and cryptographically protected voice information, as well as digital data in two frequency ranges. They provide the following operating modes: simplex and two-frequency simplex at fixed frequencies, scanning at four pre-prepared frequencies, pseudo-random frequency tuning with a speed of up to 100 jumps / s and automated monitoring of the health of the radio station.

As radio stations 11, Ericsson GA318 and GA628 cordless telephones can be used [4] or home-made portable radios of the R-169P type with an integrated antenna from the complex of well-known R-169 radios [5].

The electronic switching unit 12 is intended for receiving and operational switching, monitoring and operational verification of equipment and communication channels connected to it, software restructuring of connection schemes when organizing paths for transmitting information and data.

As block 12, an automatic digital switchboard ACU-1000 can be used, which allows switching signals from portable radio stations, KB radio stations, mobile terrestrial radio stations, satellite terminals, telephone systems, including cell phones, as well as cellular systems of all types, ensuring the universality of all communications . It provides automatic signal processing with reliable connections and high quality of processed signals.

The interface unit 13 is intended for connecting and matching signal levels of channel forming means (satellite and radio relay communication stations, radio stations) with an internal digital network for transmitting voice information and hardware data, as well as for setting up and controlling equipment connected to the unit.

The combined multiplexer 14 is an integrated platform that combines the functions of multiplexing signals of all stages of PDH, Ethernet, signals of spectral multiplexing equipment (CWDM), equipment for organizing linear paths via a fiber-optic communication cable and equipment for dedicated channels. It contains system and interface units, including a control unit with an integrated LCD display that monitors and controls the router, a multiplexer unit that converts several component E1 signals to an aggregate signal E3, a linear optical unit that converts the E3 signal to a linear optical signal, and an electronic switch of component signals E1, which multiplexes the flows E1 to E3 (performed by software) and the switching of channel intervals in E1 (performed etsya software).

Multiplexer 14 provides input / output functions and supports interfaces: spectral multiplexing of optical channels (CWDM), E1 and E3 with optical and electrical outputs, Ethernet 10/100 Base-T, data transfer (V35, V36), BCC and RS-232.

The first fiber-optic communication line 15 is designed to organize an optical line with interacting hardware. Such a line can be made using an optical cable of the OK-V-M-4T-0300-B-S type.

The first 16 and second 17 access routers are designed to transfer packets between satellite, microwave and radio networks in accordance with specific protocol stacks. They provide routing and transmission of traffic at the Ethernet interface from the satellite communication station 1 between the blocks of the mobile complex, as well as reception (transmission) of traffic from an external public communication network, organization of subscriber access to trunk lines for issuing E1 channels and wire lines for data transmission to an external consumer via the Ethernet interface, ensuring data transfer through them at the Ethernet 10 Base-FX interface between officials' workstations.

As these access routers, a NETRIX router of the IP Network Exchange 2210 type can be used [6], and also SKM-8 type mobile network switches commercially available by the industry can be used. The SKM-8 switch was developed by SISTEMPROM OJSC (105066, Moscow, N. Krasnoselskaya St., building 1) and meets the IEEE 802.3u Fast Ethernet 10/100 Base T / TX Switch standard, has a network interface 10 / 100 Base T / TX (eight ports with PC 10TV type connectors) and a configuration port for working with VLAN (virtual LAN), provides full-duplex and half-duplex operation modes, supports automatic 10/100 Mbps half / full duplex transfer rates.

Cryptographic router 18 is a switching cryptographic router, which provides the formation of two digital streams E1 with a data transfer rate of 2048 kbit / s and two channels OTsK-64 (the main digital channel with a transmission speed of 64 kbit / s). It has a modular design and contains a subscriber unit, switching and network units. At the same time, the telephone exchange 26 is connected to the subscriber unit via two E1 or Ethernet joints through the second access router 17, and a combined multiplexer 14 is connected to the network unit via the first access router 16 and the electronic switching unit 12 to provide Ethernet and E1 streams and communication channels in the first FOCL 15.

As a protection device for information transmitted via communication channels as part of a cryptographic router 18, the encryptor of data transmitted in the TCP / IP network "Crypto-TCP / IP" is used. The specified data encoder is a hardware-software complex based on a personal computer such as IBM PC 486, Pentium and equipped with a touch-memory device to prevent unauthorized loading of the operating system. The complex provides data encryption and authentication with verification of the integrity of the transmitted information. The hardware-software complex is running the FreeBSD operating system and provides an exchange rate of 10 Mbps. The Ethernet protocol is used as the network interface.

The individual encoder 19 is intended for additional encryption of the transmitted information over the communication channels formed by the satellite communication station 1 transmitted through the electronic switching unit 12 and the interface unit 13 to the telephone exchange 26 of the operational communication. As a block 19, a confidential communication device can be used, the block diagram and capabilities of which are described in [7].

The group encoder 20 is designed for group encryption of information transmitted through communication channels in order to hide the content of messages being transmitted, to protect against the input of false information and to intercept transmitted messages. The group encoder 20 comprises a temporary compaction and decompression unit, an information encryption unit, a channel distributor, input and output matching devices. As an encryption block, a confidential communication device can be used, the block diagram and capabilities of which are described in RF patent No. 2111401 cl. H04K 1/00 [7. RU, patent No. 2117401, class. H04K 1/00, 1998].

Four-channel equipment 21 for data transmission (ADF) provides operation via wired communication channels, KB and VHF radio channels, satellite communication channels and the formation of corresponding channel interfaces with various joints.

The equipment provides distribution and noise-free transmission of data, facsimile information, automatic distribution of messages between communication channels and data terminal equipment (OOD), data exchange using the principles of packet and message switching, remote control from a remote control, OOD or via a communication channel.

With data terminal equipment (OOD), the equipment provides work at the RS-232 interface.

The data transmission apparatus 21 comprises an automatic packet switch (ACP), a signal converter, a universal multifunctional channel unit consisting of an error protection device and a signal conversion device, subscriber, line and protective filters, a remote control.

The basis for the operation of data transmission equipment is software and hardware principles. At the same time, the ADF provides reception from the OOD or channel of information and service messages, encryption and decryption of processed packets, priority distribution of packets arriving at the equipment, local monitoring of functional units and equipment as a whole with the output of control results to the portable computer 22 of the APM operator's workstation and terminal equipment data.

The portable computer 22 AWP of the APD operator is designed to control four-channel equipment 21 for transmitting data, including selecting operating modes, tuning and monitoring channels, transmitting data on the status of equipment and channels to a higher control center.

As a portable computer 22 AWP of the ADF operator, a Toshiba-type portable computer can be used.

A portable computer 23 ARMD, portable computers 28 and 30 of the first and second main workstation DL, portable computers 49, 52 and 54 remote workstations DL made on the basis of a personal electronic computer (PC) type EC-1866, which is a multifunctional terminal (computer, supplemented with hardware and software for navigation, communication and data transfer) and provides users with the ability to use all the resources and services provided by the KShM. Structurally, the PC-type EC-1866 is a portable rugged laptop computer installed on a cushioning frame to prevent it from moving when the mobile control unit and communications are in motion.

Portable computers are designed to generate and transmit data, exchange voice information, document, process and store various information, including video information, as well as display location data on the ground obtained using navigation equipment 45.

The data arriving at the ARMD portable computer 23 are systematized, summarized, recorded in the computer memory, and, through the electronic switching unit 12, are transmitted to the higher-level control centers or a control center on demand via a channel of a satellite communication station 1 for making appropriate management and communication decisions.

The mentioned portable computers also allow the dispatcher and officials to conduct internal communication with subscribers of workplaces, telephone communication in the open mode and in the mode of masking information on radio channels and wired communication channels.

The mobile hardware control and communication provides for the transmission of video information and video conferencing using laptop computers AWP DL by connecting a digital video information medium and video cameras to the appropriate port, then converting the specified information by the computer and transmitting it via the communication channel.

As camcorders 29, 31, 50, 53 and 55 for laptop computers AWP DL, any of the camcorders manufactured by the domestic or foreign industry can be used, including a digital video camera of the AG-DVC30 type or a digital video camera Sony DCR-DVD106E. The Sony DCR-DVD106E camcorder provides DVD recording, has a Carl Zeiss lens, a matrix of 80,000 pixels, a 2.5 ″ LCD touchscreen, optical / digital 40x / 2000x zoom and an MS Duo memory card slot. The D-Link DSB-C320 webcam with a standard set of functions and fairly good image quality can also be used for these purposes.

Universal telecommunication server 24 is designed for the interconnected operation of equipment, equipment and channels in the process of organizing the transfer of various types of information and data on paths and communication channels formed by means of switching and communication of mobile equipment.

Video conferencing server 25 is intended for organizing a video conferencing network between officials of the main and remote AWPs, as well as AWPs of the interacting objects.

The universal telecommunication server 24 and the video conferencing server 25 can be implemented as separate functionally complete devices or as an embedded system having advanced graphics and multimedia capabilities and integrated functions of high-speed network connections. As such devices, devices of the TANK series of the TANK-700 or TANK-720 type can be used.

As the first 32 and second 33 main telephone sets of the ATS system, as well as remote telephone sets 56 (56 ₁ -56 _n ) of the ATS system, AT-3031 type ATEs (RG2.187.096 TU automatic telephone exchanges) or ATS-R can be used.

The first 34 and second 35 unified commander panels are a device that provides advanced internal functions between crew members and external communications, as well as the functions of managing a communication network for an official (unit commander or other person). The commander’s panels provide the possibility of simultaneous operation in several digital and analog networks of internal and external communications and the organization of voice selective and circular communications, text messaging and voice mail.

Unified consoles 34 and 35 are installed on the respective main workstations of the DL, with the help of which officials are given the opportunity to conduct internal communication with each other and exit via electronic switching unit 12 to radio and satellite communication channels.

Interface converter 36 is intended for matching channel circuits and signal levels of channel forming means with switching and terminal equipment of the equipment room. The interface converter is a multifunctional device that allows you to combine hardware data transmission systems with various interfaces. It is made like a “bridge”, which is required for the formation of communications between hardware equipment and VSB interfaces RS-485, RS-232 for data transmission over long distances.

The line input unit 37 contains connecting and switching elements to which four-wire and two-wire subscriber lines are connected using cable connectors. Structurally, the line input unit 37 is made in accordance with the industry standard in the form of a linear shield, on the panel of which there are terminal blocks with sockets, through which subscriber lines are checked for their serviceability.

Four-wire subscriber lines 38 can be made using field distribution multipair (multi-core) cable with a four (four and two four) structure of the type P-269M-4 × 4 + 2 × 2, P-269M-2 × 4 + 1 × 2.

The subscriber line 39 of the operational communication can be performed using a field distribution multicore cable with a quadruple structure of the P-269M type.

The second fiber-optic communication line 40 can be performed using a field optical cable of the OK-B-M-4T-0050-B-S type.

An unmanned aerial vehicle (UAV) 41 contains a stabilized platform on which VHF repeater 42 with antenna 43 are located.

On the stabilized platform of the unmanned aerial vehicle 41, an additional video signal recording unit, an executive device unit, and a digital video camera can be installed to monitor the territory in the region of which the mobile control and communication equipment is located, and to transmit data to the dispatcher’s laptop computer.

VHF repeater 42 with antenna 43 and portable VHF radio stations 44 are designed to organize a radio network with a group of specialists located outside the equipment room at a considerable distance from it, who have these portable VHF radio stations 44 with them.

As the VHF repeater 42, domestic or foreign automobile VHF radios with their own antennas can be used.

From domestic radio stations for these purposes can be used commercially available VHF radio stations of the R-169 VM range from the R-169 hardware complex, the composition and technical capabilities of which are described in [5], and from foreign stations — Kenwood TR-750 and Kenwood transponders TR-850.

Navigation equipment 45 is designed to receive and register data with the current coordinates of the location of the mobile hardware control and communications on the ground with displaying them on the monitor screen of the ARMD laptop 23 and ensuring the hardware is linked to a single navigation system. As the navigation equipment 45, a GPSmap 267c type navigation receiver can be used.

Remote equipment 46 can be placed in a pneumoframe tent with a set of additional equipment of the PKP-A29 type.

The interface converter 47 of the external equipment 46 is intended for matching channel circuits and signal levels of channelization means with the switching and terminal equipment of the equipment room. The interface converter is a multifunctional device that allows you to combine hardware data transmission systems with various interfaces. It is made like a “bridge”, which is required for the formation of communications between hardware equipment and VSB interfaces RS-485, RS-232 for data transmission over long distances.

Optical switch 48 is a local area network (LAN) switch and is designed for switching optical signals and organizing access from computers of remote AWS DL via the second FOCL 40 to the channels of external communication networks to ensure data transmission through them at the Ethernet 10/100 Base TX interface.

As an optical switch 48, a SKM-8 type mobile network switch, commercially available by industry, developed by SISTEMPROM OJSC (1350, N. Krasnoselskaya St., Moscow, 105066, Russia), can be used.

The printing device 51 is designed to document received messages and signals, data on the state of technical means and terminal equipment of the mobile hardware control and communication, as well as paths and communication channels. As the printing device 51, printers of the type UD-M or HP Laser Jet 1020 can be used.

As an external telephone set 57 for operational communications, a telephone set of a central bank / telephone exchange system of the AT-3031 type (ATS RG2.187.096 TU) can be used, which makes it possible for officials to conduct telephone operational communications directly through the telephone exchange 26 for operational communications.

Mobile control and communication hardware provides various types and modes of operation, including:

1) education:

Ku-band high-speed satellite link in the parking and on the move;

high-speed radio relay line (RRL) with the ability to connect to fixed and field communication nodes;

DKMV radio channels;

simplex and duplex MB radio channels;

group signal flow E3 on the first fiber optic communication line (FOCL) via OK-V-M-4T cable with the possibility of connecting it to the interacting hardware of the field communication node;

DSL lines on a field two-wire cable of type P-274M with the ability to connect to objects of stationary and field communication nodes;

2) organization of a GSM multiple access network;

3) relay of radio channels of the DMV range;

4) the provision of various services to officials, including:

organization of a telephone encrypted communication network with access to a secure network of various ministries and departments;

access to an open public telephone network using an IP telephone;

access to an open public telephone network using portable radio stations of the GSM standard with built-in antennas (mobile GSM phones);

access of subscribers of portable VHF radio stations via VHF repeater to an open public telephone network;

transmission (reception) of data over communication channels and lines;

sharing email and files;

video conferencing with AWP officials between themselves and with subscribers of interacting objects.

The main equipment of the mobile hardware control and communication is located in the body of a cross-country vehicle.

The technical efficiency of the proposed mobile hardware control and communication consists in expanding the functionality of the hardware to provide various services related to the required quality to officials when they are in a mobile facility and working in the field from external workstations, as well as when the official is removed from the main means of communication using portable radio stations and ultra-short-wave mobile radio stations.

The expansion of the functionality of the proposed mobile hardware control and communication is achieved through the introduction of computer and switching equipment, which allows for the processing, documentation and transmission of various information in real time on the communication channels and the organization of video conferencing directly with the AW workstation between themselves and with a higher control center.

The proposed mobile control and communication hardware is capable of solving the problems of increasing the throughput of organized communication networks and increasing the communication range by relaying signals via VHF relay 42 with antenna 43, raised to a certain height using an unmanned aerial vehicle, to terminal devices of subscribers located at a considerable distance from transport communications.

A positive factor of the proposed mobile hardware control and communication is also the provision of high-quality duplex communication of subscribers in the mode of exchange of electronic correspondence between similar hardware and stations.

To ensure direct communications directly from the workplaces of officials and to increase the efficiency of use, the switching hardware is included in the mobile hardware, which allows all officials to access all the channels formed by the radio and communication means available in the hardware.

A prototype of the proposed movable hardware control and communication unit was manufactured, the test results of which confirmed the correctness of the technical solutions, the operability of the equipment room in all its operating modes, and the performance of the functions provided in accordance with the specified requirements.

Information sources

1. Schraer F.I. Industrial and institutional communications equipment: Directory. - 2nd ed., Ext. and reslave. - M.: Communication, p. 150-151, 1978.

2. RU, patent No. 2321182, class. H04M 5/00, H04B 7/26, 2008 (prototype).

3. Satellite Communications and Broadcasting: A Guide. - 3rd ed., Revised. and add. / V.A. Bartenev, G.V. Bolotov, V.L. Bulls and others; Ed. L.Ya. Cantor. - M .: Radio and communications, 1997.

4. Andrianov V.I., Sokolov A.V. Mobile communications. - St. Petersburg: St. Petersburg, 1998.

5. The complex of technical means of mobile radio communications R-169. OJSC "Ryazan Radio Plant".

6. Ivanova T.I. Subscriber terminals and computer telephony. - M .: Eco-Trends, 1999.

7. RU, patent No. 2117401, class. H04K 1/00, 1998.

Claims (4)

1. A mobile control and communication apparatus, comprising a satellite communication station, the high-frequency input-output of which is connected to the antenna system, an electronic switching unit, a car ultra-short-wave (VHF) radio station with interchangeable antennas, a VHF repeater with an antenna, a GSM standard station, a high-frequency input - the output of which is connected to the antenna, a laptop computer of the dispatcher's automated workstation (ARMD) and an unmanned aerial vehicle (UAV), characterized in that it is additionally equipped with digital radio relay station (RRS), the high-frequency input-output of which is connected to the antenna, an interface converter server, n portable GSM radio stations with built-in antennas, an interface unit, a combined multiplexer, two access routers, a cryptographic router, an individual encoder, a group encoder, four-channel data transmission equipment (ADF), portable computer of the APM operator’s workstation, universal telecommunication server, video conferencing server, telephone exchange and (TSOS), a laptop computer of an operator-telephone operator, laptop computers with video cameras connected to them of the first and second main automated workstations of officials (AW DL), two main telephone sets (TA) of the automatic telephone exchange system, two unified commander desks (PC) , interface converter, line input unit, telephone subscriber lines (AL), operational communications subscriber line, two fiber optic communication lines (FOCL), n portable VHF radio stations with built-in antennas, navigation equipment, p remote equipment housed in a pneumoframe tent, consisting of an interface converter, an optical switch, portable computers of three remote AW workstations with video cameras connected to them, a printing device, n external telephone exchanges (TA) of the telephone exchange system and remote active communication TA, with the channel input being the output of the satellite communication station at the Ethernet interface is connected to the first input-output of the electronic switching unit, the second input-output of which at the Ethernet interface is connected to the station input-output of the server-envelope interfaces, the linear input-output of which at the Е1 interface is connected to the channel input-output of the digital РРС, the third input-output of the electronic switching unit at the Ethernet interface is connected to the channel input-output of the car VHF radio station, the first and second high-frequency inputs-outputs of which are connected to high-frequency inputs and outputs of the first and second interchangeable antennas, the fourth input-output of the electronic switching unit at the Ethernet interface is connected to the channel input-output of a GSM base station, each of n portable radio an antenna of the GSM standard through an integrated antenna over the air is connected to the antenna of a base station of the GSM standard, the fifth input-output of the electronic switching unit at the Ethernet interface is connected to the channel input-output of the interface unit, the station input-output of which at the C1-I interface is connected to a digital input - the output of an individual encoder, the analogue input-output of which is connected to the first input-output of the channel field of the telephone exchange of operational communication, the sixth input-output of the electronic switching unit at the Ethernet interface is connected to the channel input - the output of the combined multiplexer, the linear input-output of which is connected to the first FOCL, the seventh input-output of the electronic switching unit at the Ethernet interface is connected to the first input-output of the first access router, the second input-output of which is connected via Ethernet to the first input-output of the cryptographic router, the second input-output of which at the Ethernet interface is connected to the first input-output of the second access router, the second input-output of which at the Ethernet interface is connected to the second input-output of the group encoder, the first input-output of which at the Ethernet interface is connected to the third input-output of the first access router, the fourth input-output of which at the Ethernet interface is connected to the first channel input-output of the four-channel ADF, the second channel input-output of which at the C1-I interface is connected to the second with the station input-output of the interface unit, the third input-output of the second access router at the Ethernet interface is connected to the third channel input-output of the four-channel ADF, the station input-output of which at the RS-232 interface is connected to the input-output of the portable computer of the APM operator’s workstation, the fourth input-output of the second access router at the Ethernet interface is connected to the first input-output of the dispatcher’s laptop computer, the second input-output of which is connected via RS-232 interface to the input-output of the navigation equipment, the fifth and sixth inputs and outputs the second Ethernet access router is connected to the inputs and outputs of the universal telecommunication server and the video conferencing server, respectively; the seventh input and output of the second Ethernet access router is connected to the second input ohm-output of the channel field of the telephone exchange of operational communication, the input-output of which at the Ethernet interface is connected to the input-output of the portable computer of the operator-telephone operator, the eighth input-output of the second access router via the Ethernet interface is connected to the first input-output of the portable computer of the first main workstation DL, the second input-output of which is connected to the input-output of the camera, the ninth input-output of the second access router via an Ethernet interface is connected to the first input-output of the laptop computer of the second main workstation of the DL a swarm input-output of which is connected to the input-output of the camera, the tenth input-output of the second access router at the Ethernet interface is connected to the first input-output of the interface converter, the linear inputs and outputs of the first and second main TA of the PBX system are connected respectively to the first and second inputs the outputs of the subscriber field telephone exchange operational communications, the third and fourth inputs and outputs of the subscriber field which are connected respectively to the first and second station inputs and outputs of the block input lines, each of n portable The VHF radio stations are connected via the ether via an ether antenna to the VHF repeater antenna, the second input-output of the interface converter at the Ethernet interface is connected to the first input-output of the interface converter from the remote equipment, the second input-output of which is connected at the Ethernet interface to the first input - the output of the optical switch, the second, third and fourth inputs and outputs of which are connected at Ethernet interfaces to the first inputs and outputs of portable computers, respectively, of the first remote, second remote of the third and third remote AWP DL, the second input-output of the laptop computer of the first remote AWP DL is connected to the input-output of the camera, and the third input-output of the laptop of the first remote AWP DL at the RS-232 interface is connected to the input-output of the printing device, the second input - the output of the laptop of the second remote AWP DL connected to the input-output of the camera, the second input-output of the laptop of the third remote AWP DL connected to the input-output of the camera, linear inputs and outputs of each of n remote TA systems AT With the help of subscriber telephone lines connected to the first linear inputs and outputs of the line input unit, the second linear inputs and outputs of which are connected via a subscriber line of operational communication with the linear input-output of the remote operational communication TA. 2. The mobile hardware room according to claim 1, characterized in that the base station of the GSM standard contains a controller that controls the database of subscribers, provides network management and performs all the functions of multi-site switching according to the GSM standard protocol, a transceiver, monitor, standard keyboard and graphic manipulator type “Mouse”, while the first inputs and outputs of the controller are connected to the channel inputs and outputs of the transceiver, the high-frequency part of which is connected to the antenna, the second, third and fourth inputs and outputs MODULES connected to the inputs-outputs of the monitor, respectively, the standard keyboard and graphical manipulator "mouse", the fifth controller inputs and outputs are channel inputs-outputs a base station GSM standard, the high frequency inputs-outputs of which are inputs and outputs of the transceiver. 3. The mobile hardware room according to claim 1, characterized in that the ARMD portable computer contains a system unit, a display with a plasma screen (monitor), a standard keyboard and a graphic mouse-type manipulator, and the system unit contains a motherboard consisting of a microprocessor, a system trunk, random access memory, reprogrammable read-only memory and keyboard controller, monitor adapter, port adapter, disk controller, additional device controller, hard magnetic to, a drive for connecting a flexible magnetic disk, system software and application software supplied on a hard disk drive, the inputs and outputs of the central processor through the system bus connected to the inputs and outputs of random access memory, reprogrammable read-only memory, keyboard controller , monitor adapter, port adapter, disk controller and additional device controller, second and third control inputs and outputs the disk drive is connected to the inputs and outputs of the hard magnetic disk and the drive for connecting the flexible magnetic disk, the second inputs and outputs of the keyboard controller are connected to the inputs and outputs of the standard keyboard, the second inputs and outputs of the monitor adapter are connected to the inputs and outputs of the display with a plasma screen (monitor ), the second inputs and outputs of the controller of additional devices are connected to the inputs and outputs of the graphical manipulator of the mouse type, while the first inputs and outputs of the ARMD laptop are I have the second inputs and outputs of the port adapter, which are connected to the fourth inputs and outputs of the second access router, the second inputs and outputs of the laptop computer are the third inputs and outputs of the controller of additional devices that are connected to the inputs and outputs of the navigation equipment, the mentioned software is designed to implement functions operational and technological control of equipment of mobile hardware control and communication, its diagnostics, as well as functions for setting channels and provided services to officials. 4. The mobile equipment room according to claim 1, characterized in that the telephone exchange of operational communication comprises a block of sets of four-wire subscriber lines (AL), a block of sets of two-wire ALs, a block of a switching field, a control device, a block of channel sets, an IP server and a local computing switch network (LAN), while the chains of information inputs / outputs, including voice and calling circuits, the station side of each subscriber set of the set of sets of four-wire AL telephone exchanges for technological w they are not connected to the first information inputs and outputs of the switching field unit, the second information inputs and outputs of which are connected to the first information inputs and outputs of the station side of the block of two-wire AL sets, the control inputs and outputs of the switching field block are connected to the first control inputs and outputs of the control device, third information inputs and outputs of the switching field unit via a technological bus are connected to information inputs and outputs of the station side of the channel block sets, the fourth information inputs and outputs of the switching field unit are connected to the information inputs and outputs of the station side of the IP server, the information inputs and outputs of the subscriber side of which are connected to the information inputs and outputs of the subscriber side of the LAN switch, while the first and second information inputs and outputs of the subscriber sets of the linear side of the block sets of two-wire AL are the first and second inputs and outputs of the subscriber field of the telephone exchange operational communications, the third and even The net inputs and outputs of the subscriber side of which are the information inputs and outputs of the linear side of the block of four-wire AL sets, the information and control inputs and outputs of the telephone exchange are the second control inputs and outputs of the control device, which are connected via Ethernet to the information and control inputs and outputs of the laptop computer AWP operator-telephone operator, the first and second channel inputs and outputs of the telephone exchange are respectively the first and second channel inputs and outputs b loka of channel sets, the input-output of the telephone exchange Ethernet is the input-output of the line side of the LAN switch, and IP-telephones are connected to the line side of the IP server.

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