RU2370919C1 - Mobile complex of means of communication - Google Patents

Abstract

FIELD: means of communication.

SUBSTANCE: invention refers to communication and control systems and can be used for deploying field communication networks in the areas with non-developed infrastructure in relation to communication and for providing transmission of data of various types via formed communication channels. The effect is achieved by the fact that additional units are introduced: digital radio relay station, cross switching device, multiplexer, channel switching unit, commutator, external screen, subscriber terminal, line introduction screen, base stations of mobile wireless communication, adder, subscriber stations of mobile wireless communication, automatic telephone station, m subscriber lines, cable entry unit, external video surveillance system, connection lines for generating sonic frequency channels, digital channels, bit transfer rate E1, bit transfer rate E3, packet transmission, wire circuits to connect subscriber lines of the system with center battery and subscriber lines of automatic telephone station system.

EFFECT: enlarging functional capabilities and increasing the carrying capacity of the communication directions managed with mobile complex means.

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Description

The invention relates to communication and control systems and can be used to deploy field communication networks in areas with undeveloped infrastructure in relation to communication and to ensure the transfer of various types of information through established communication channels.

There are various communication systems designed to provide individual genera and types of communication. These include radio communication systems, radio-relay and tropospheric communication systems, satellite and wire communication systems. They provide the deployment of radio communication networks, radio-relay, tropospheric, satellite and wire lines of communication, through the channels of which various types of services are provided to consumers, including telephone and telegraph communications, transmission of facsimile messages and data [1, 2].

The use of these means of communication individually leads to an increase in the total volume of equipment, since their mutual use requires common switching devices and additional matching devices due to the use of various signal processing methods in them, and also leads to a decrease in the efficiency of communication due to an increase in time necessary for laying the connecting lines for the transmission of channels between consumers and the used channel-forming means of communication.

Of the known communication complexes, the closest in technical essence to the proposed invention is a mobile complex of control automation, described in [3].

This mobile set of control automation equipment, located in a moving object on a chassis of a heavy-duty vehicle, contains four automated workstations for officials (AWP DL) located in a van-body of a moving object equipped with computer facilities and data transmission means, one operator's workstation per based on a Notebook-type laptop computer, two remote workstations DL based on a Notebook-type laptop computer, a radio relay station with antennas, a short-wave (KB) radio station, two ultra-short-wave (VHF) radio stations, channel forming equipment, local area network (LAN), multiplexer, telephone switchboard, four telephone exchanges of the operational system MB, one telephone apparatus of the MB system for technological communication, an accurate time receiver, matrix printer, laser printer, VHF a radio station installed in the driver's cab to provide radio communications when driving in a convoy.

The main disadvantages of the known mobile complex of automation tools are the limited ability to provide various types of services and the low throughput of communication directions organized with the help of equipment and equipment.

The aim of the invention is to expand the functionality and increase the throughput of communication directions, organized by means of communication of the mobile complex.

This goal is achieved by the fact that in a mobile communications system containing a digital radio relay station (CRRS), the high-frequency part of which is connected to the antenna via a coaxial cable, the telephone system of the MB system for technological communication, the ultra-short-wave (VHF) radio station, the high-frequency part of which is connected to the antenna , an automated workstation (AWP) of the operator, consisting of a Notebook-type laptop computer and a printer connected via USB to the corresponding input-output portable about a computer, a multiplexer, a VHF radio station installed in the driver’s cabin, designed to provide radio communications when driving in a convoy, three additional CRRSs are introduced, the high-frequency part of each of which is connected to its antenna via a coaxial cable, a cross-connect device, a second multiplexer, a channel switching unit , wired automatic telephone switchboard (PBX), remote switchboard, transit-terminal switch (TOK), subscriber terminal, line entry switchboard, two mobile base stations radio communication with its antennas, adder, n subscriber (wearable) mobile radio stations, two automatic telephone exchanges (PBX), each of which m subscriber lines are connected, cable entry unit, lines for connecting an external video surveillance system, trunk lines for issuing channels PM, connecting lines for issuing digital channels, lines for issuing digital stream E1 with an information transfer rate of 2048 kbit / s, lines for issuing digital stream E3 with an information transfer rate of 34368 kbit / s, packet line transmissions (BOB), wire lines for connecting the subscriber lines of the Central Bank system and wire lines for connecting the subscriber lines of the PBX system, while the first inputs and outputs of the first CRRS are connected to the first station inputs and outputs of the cross-switching device, the second inputs and outputs of the first CRRS are connected to the first inputs and outputs of the second CRRS, the second inputs and outputs of which are connected to the second inputs and outputs of the cross switching device, the third and fourth inputs and outputs of which are connected to the first inputs and outputs, respectively of the network and the fourth DRRS, the second inputs and outputs of the third and fourth DRRS are connected respectively to the first and second inputs and outputs of the PATS switch, the third inputs and outputs of which are connected to the station inputs and outputs of the remote control, the linear inputs and outputs of the telephone system of the MB system for technological communication connected to the fifth station inputs and outputs of the cross-switching device, the sixth station inputs and outputs of which are connected to the channel inputs and outputs of the VHF radio station, the first and second linear inputs and outputs of the device Cross switching properties are connected to the first inputs and outputs of the first multiplexer and the second multiplexer, the second inputs and outputs of the first multiplexer are connected to the first station inputs and outputs of the channel switching unit, the second station inputs and outputs of which are connected to the second inputs and outputs of the second multiplexer, the first and the second line inputs and outputs of the channel switching unit are connected respectively to the first and second station inputs and outputs of the cable input unit, the third and fourth stations the input-outputs of which are connected respectively to the third and fourth linear inputs and outputs of the cross-connect device, the third and fourth inputs and outputs of the third CRRS are connected respectively to the fifth and sixth station inputs and outputs of the cable input unit, the seventh and eighth station inputs and outputs of which are connected respectively, to the third and fourth inputs and outputs of the fourth CRRS, the first and second linear inputs and outputs of the remote shield are connected respectively to the ninth and tenth station inputs and outputs of the cable unit input, the inputs and outputs of a Notebook AWP portable operator’s computer are connected at the Ethernet interface to the first inputs and outputs of the TOK, the second, third, fourth, fifth and sixth inputs and outputs of which are connected via Ethernet to the inputs and outputs of the subscriber terminal, to the fourth inputs and outputs of the PATS switch, to the third inputs and outputs of the first multiplexer, to the third inputs and outputs of the second multiplexer and to the station inputs and outputs of the line input shield, the seventh and eighth inputs and outputs of the current transformer are connected to the channel inputs and outputs with respectively, of the first and second base stations of mobile radio communications, the inputs and outputs of the high-frequency part of the first base station of mobile radio communications are connected to the first inputs and outputs of the adder, the second inputs and outputs of which are connected to the antenna of the first base station of mobile radio communications, the inputs and outputs of the high-frequency part of the second base station of mobile radio communications are connected to the third inputs-outputs of the adder, the fourth inputs and outputs of which are connected to the antenna of the second base station of a mobile radio communication, each of n subscribers of (wearable) mobile radio communication stations are connected via the radio interface to the antenna of the first base mobile radio station, the first and second line inputs and outputs of the line entry shield are connected to the inputs and outputs of the first and second exchanges, respectively, inputs and outputs of subscriber sets of each of the m subscriber lines of the first ATS are connected to the eleventh station inputs and outputs of the cable entry unit, the twelfth station inputs and outputs of which are connected to the inputs and outputs of the subscriber sets of each of the m subscriber lines of the second Automatic telephone exchange, the first linear inputs and outputs of the cable entry unit are connected to an external video surveillance system through a line for connecting an external video surveillance system, respectively, connecting lines for issuing are connected to the second, third, fourth, fifth, sixth, seventh and eighth linear inputs and outputs of the cable input unit PM channels, connecting lines for issuing digital channels, lines for issuing digital stream E1 with an information transfer rate of 2048 kbit / s, lines for issuing digital stream E3 with a transmission rate Info 34368 kbit / s, BOB, wire lines for connecting subscriber lines CB system and wire lines for connecting subscriber lines PBX system.

Comparative analysis with the prototype shows that the proposed mobile communications system is characterized by the presence of new units: an additional three CRRS with its antennas, a cross switching device, a second multiplexer, a channel switching unit, a PABS switch, an external switchboard, a current transformer, a subscriber terminal, a line entry shield, two base stations of mobile radio communication with their antennas, an adder, n subscriber (wearable) stations of mobile radio communication, two automatic telephone exchanges, each of which m subscriber lines are connected, a cable unit input line, lines for connecting an external video surveillance system, connecting lines for issuing PM channels, connecting lines for issuing digital channels, lines for issuing an E1 digital stream with an information transfer rate of 2048 kbit / s, lines for issuing an E3 digital stream with an information transfer rate of 34368 kbit / s, BOB, wire lines for connecting subscriber lines of the Central Bank system and wire lines for connecting subscriber lines of the PBX system, as well as their connections with other circuit elements.

Thus, the claimed mobile communications system meets the criteria of the invention of "novelty." Comparison of the proposed solution with other technical solutions shows that the equipment and units newly introduced into the proposed mobile communications complex are well-known to specialists in this field of technology and additional creativity, given the explanations below, it is not required to reproduce them.

This solution is significantly different from the known solutions in the art. The claimed solution explicitly does not follow from the prior art and has an inventive step.

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

The inventive solution can be implemented using existing equipment, instruments and devices used in electrical engineering and computer technology, and is industrially applicable.

The drawing shows a structural diagram of the proposed mobile complex communications.

The mobile communications system contains the first 1 CRRS with antenna 2, the second 3 CRRS with antenna 4, the third 5 CRRS with antenna 6, the fourth 7 CRRS with antenna 8, a cross switching device 9, a telephone system 10 MB for technological communications, VHF radio station 11 with antenna 12, first 13 multiplexer, second 14 multiplexer, 15 channel switching unit, PBX switch 16, remote shield 17, operator workstation, consisting of Notebook type 18 laptop computer and printer 19, TOK 20, subscriber terminal 21, line entry shield 22 first 23 base station mobile adiosvyazi, an adder 24 for combining the functions of two base stations, the antenna 25 of the first base station 23, mobile radio communication, the second base station 26, mobile radio communication with the antenna 27, n subscriber (portable) stations 28 (January ₂₈ -28 _n) mobile radio, a first ATC 29 to which m subscriber lines 30 are connected, a second PBX 31 to which m subscriber lines 32 are connected, cable entry unit 33, lines 34 for connecting an external video surveillance system 35, connecting lines 36 for issuing PM channels, connecting lines 37 for issuing digital channels whether 38 for issuing an E1 stream with an information transfer rate of 2048 kbit / s, line 39 for issuing an E3 stream with an information transfer rate of 34368 kbit / s, LPP 40, wire lines 41 for connecting subscriber lines of the Central Bank system and wire lines 42 for connecting subscriber lines ATS systems, as well as VHF radio station 43 with an antenna installed in the driver’s cab of a moving object.

The first inputs and outputs of the first 1 DRC, the high-frequency part of which is connected via a coaxial cable to the antenna 2, are connected to the first station inputs and outputs of the cross switching device 9, the second inputs and outputs of the first 1 DRC are connected to the first inputs and outputs of the second 3 CRRS, the high-frequency part which through a coaxial cable is connected to the antenna 4. The second inputs and outputs of the second 3 CRRS are connected to the second station inputs and outputs of the cross-switching device 9, the third and fourth station inputs and outputs which are connected to the first input-output 5 respectively third and fourth DRRS 7 DRRS. The high-frequency part of the third 5 CRRS by means of a coaxial cable is connected to the antenna 6, and the high-frequency part of the fourth 7 CRRS by means of a coaxial cable is connected to the antenna 8. The fifth station inputs and outputs of the cross-connect device 9 are connected to the linear inputs and outputs of the telephone set 10 of the MB system for technological communication and the sixth station inputs and outputs of the cross-switching device 9 are connected to the channel inputs and outputs of the VHF radio station 11, the high-frequency part of which is connected to the antenna 12.

The first and second linear inputs and outputs of the cross switching device 9 are connected to the first inputs and outputs of the first multiplexer 13 and the second 14 of the multiplexer, the second inputs and outputs of the first 13 multiplexer are connected to the first station inputs and outputs of the channel switching unit 15, and the second station inputs and outputs which are connected to the second inputs and outputs of the second multiplexer 14, the first and second linear inputs and outputs of the channel switching unit 15 are connected respectively to the first and second station I / O m block 33 cable entry, the third and fourth station inputs and outputs of which are connected respectively to the third and fourth linear inputs and outputs of the device 9 cross switching. The third and fourth inputs and outputs of the third DRRC 5 are connected respectively to the fifth and sixth station inputs and outputs of the cable input unit 33, the seventh and eighth station inputs and outputs of which are connected respectively to the third and fourth inputs and outputs of the fourth 7 CRRS. The second inputs and outputs of the third 5 and fourth 7 CRRS are connected respectively to the first and second inputs and outputs of the PBX switch 16, the third inputs and outputs of which are connected to the station inputs and outputs of the remote shield 17.

The first and second linear inputs and outputs of the remote shield 17 are connected respectively to the ninth and tenth station inputs and outputs of the cable input unit 33, the inputs and outputs of the Notebook AWP portable computer type 18 are connected via Ethernet to the first inputs and outputs of the TOK 20, second, third the fourth, fifth and sixth inputs and outputs of which are connected via Ethernet to the inputs and outputs of the subscriber terminal 21, to the fourth inputs and outputs of the PBX switch 16, to the third inputs and outputs of the first 13 multiplexer, to the third inputs and outputs m of the second 14 multiplexer and to the station inputs and outputs of the shield 22 line input, the seventh and eighth inputs and outputs of the TOK 20 are connected to the channel inputs and outputs of the first 23 and second 26 base stations of mobile radio communications, the inputs and outputs of the high-frequency part of the first 23 base station mobile radio communications are connected to the first inputs and outputs of the adder 24, the second inputs and outputs of which are connected to the antenna 25 of the first 23 mobile radio base stations, the inputs and outputs of the high-frequency part of the second 26 mobile radio base station dinene with the third inputs-outputs of the adder 24, the fourth inputs and outputs of which are connected to the antenna 27 of the second 26 base station of a mobile radio. Each of the n subscriber (wearable) mobile radio communication stations 28 is connected via the radio interface to the antenna 25 of the first 23 mobile radio base stations, the first and second linear inputs and outputs of the line input board 22 are connected to the inputs and outputs of the first 29 and second 31 telephone exchanges, the inputs are the outputs of the subscriber sets of each of the m subscriber lines 30 of the first 29 telephone exchanges are connected to the eleventh station inputs and outputs of the cable entry unit 33, the twelfth station inputs and outputs of which are connected to the inputs and outputs of the subscriber sets of m subscriber lines 32 of the second 31 automatic telephone exchanges, the first linear inputs and outputs of the cable entry unit 33 are connected to an external video surveillance system 35 via line 34 for connecting an external video surveillance system to the second, third, fourth, fifth, sixth, seventh and eighth line inputs - the outputs of the cable input unit 33 are respectively connected connecting lines 36 for issuing PM channels, connecting lines 37 for issuing digital channels, lines 38 for issuing a digital stream E1 with an information transfer rate of 2048 kbit / s, lines 39 for issuing a digital stream E3 with a data transfer rate of 34368 kbit / s, BOB 40, wire lines 41 for connecting subscriber lines of the Central Bank system and wire lines 42 for connecting subscriber lines of the PBX system.

The first 1 CRRS with antenna 2, the second 3 CRRS with antenna 4, the third 5 CRRS with antenna 6 and the fourth 7 CRRS with antenna 8 are intended for the organization of radio-relay communication lines and radio-relay links of subscribers of mobile objects to stationary communication networks to ensure transmission over educated channels communication of various information with a maximum speed of 2048 kbit / s.

Each of the four CRRS contains an antenna device, a transceiver, access modules, interface blocks for access modules, and digital multiplexers. Radio relay stations of the MIK-RL8 type, incorporating an antenna device complete with a support and adjustment unit, a transceiver device, access modules and digital multiplexers, can be used as such CRRS.

An antenna device is an antenna system consisting of a basket with a mirror having a diameter of one meter and an irradiator, a support and adjustment device, a protective radom, and a coaxial waveguide transition with a coaxial cable. As antennas 2, 4, 6, and 8, an MIK type antenna device with a diameter of 1.0 m and a range of 8 GHz can be used. The antenna device provides the reception and transmission of microwave radio signals with vertical or horizontal linear polarization.

The transceiver is structurally made in a metal housing of cylindrical shape, in the volume of which all functional units are located. The transceiver device performs the functions of amplification, conversion, modulation and demodulation of the microwave signal, regeneration and scrambling of the digital stream. The telemetry and control system controller provides control of the main parameters of the transceiver device, loop control, setting the power and operating frequencies in the range of 7, 8, 11, 13 and 15 GHz. The incoming and outgoing information signal for the transceiver from the access modules is the main digital stream E3 in HDB3 code. The access modules perform the regeneration of the main digital stream and switching the radio channels in manual or automatic mode. Built-in tools allow using the keyboard and display to control the parameters and control the central control system from the front panel. When you connect a computer, you can set the operating frequencies of the transceiver device, monitor and control the CRRS. The service program runs under Windows and monitors the network of radio relay lines or a separate CRRS.

The cross-switching device 9 is intended for connecting, switching and distributing consumers formed by means of radio relay communication and a base station of mobile radio communication.

The cross-switching device 9 is made in the form of a patch panel for twenty-four digital streams based on the use of KRONE type patch panels and cord sets manufactured by the industry. At the same time, the cross switching device 9 provides full access switching of any input to any output. Service device 9 cross switching is carried out by means of a telephone apparatus 10 of the MB system for technological communication. This device provides the ability to check any input-output by ringing the chains and conducting telephone communications on the 9 communication lines included in the device.

As the device 9 cross switching can be used a device cordless cross switching channels made in accordance with the patent for the invention [4].

As a telephone set 10 of the MB system for technological communication, a telephone set of the type TA-57 or TA-88 can be used.

As an VHF radio station 11 with an antenna 12, a VHF radio station of the R-168-25U type with a power of 25 W can be used. This radio station is a VHF transceiver station with frequency modulation. It is designed to enter the radio communication network and to conduct automated, searchless and un tuned radio communications in the operating frequency range from 30025 to 79975 kHz between ground and moving objects in the parking lot and in motion. This radio station provides the following types of work: telephone, auditory tonal telegraph and digital signal-code communication. The main antenna for the radio station is a two-meter whip antenna.

The first 13 and second 14 multiplexers are designed to extract from digital streams E1 and E3 and distribute digital channels with a lower transmission rate to consumers.

Block 15 switching channels acts as a switch of signals for their distribution in the terminal equipment.

The PBX switch 16 together with a remote shield 17, the first 29 and the second 31 automatic telephone exchanges is designed to deploy in the field an open telephone telephone network for sixty-four subscribers, as well as to deploy a telephone subscriber network for eight central bank subscribers and up to twenty subscribers on packet data lines.

The PBX switch 16, together with the first 23 and second 26 base stations, provides the ability to deploy a mobile radio network and radio access of mobile subscribers having subscriber (wearable) mobile radio stations 28 and subscriber terminals 21 to the telephone network using base stations 23 and 26 connected Ethernet 10/100 Base T through the TOK 20 and the shield 22 input lines to two 29 and 31 exchanges.

The PATS switch 16 has great functionality and includes various types of line terminations, including subscriber kits, two-wire trunk lines, E1 lines with EDSS1 or 2 VSK signaling, LPP, a modem SHDSL line, and an Ethernet 10/100 Mbps port.

One of the main functions of the PBX switch 16 is to provide radio silence communication. In this case, the subscriber terminals 21 are connected to the BOB using inductive input-output devices without violating the insulation of the field cable type P-274M. One LPP provides four duplex connections over a two-wire field cable over distances of up to 1.5 km. The SHDSL modem included in the 16 PBX switch allows you to combine similar PBX switches using a temporarily laid field cable. The modem automatically sets the connection speed from 192 to 2048 kbit / s, depending on the quality and length of the communication line from the field cable.

As a computer 18, a Toshiba Notebook type portable computer may be used, comprising a system unit consisting of an Intel type central processor, a system bus, electronic random access memory modules and reprogrammable read-only memory, a standard keyboard, a plasma screen display , system software and special application software (STR), supplied on a hard disk drive. One of the functions of open source software is the generation of files for the modem built into the system unit. The STR also includes an SNMP manager, through the protocol of which the equipment is controlled and diagnosed. The software is designed for the Windows NT operating system and includes a utility for generating configuration files for the modem. Exchange of electronic correspondence via communication channels is carried out using the well-known mail program Internet Mail and the corresponding files in the form of a standard protocol for the RS-232 modem interface with transmission rates from 1200 to 9600 bit / s.

The printer 19 is designed to document data on the status of mobile radio equipment, switching devices, and imprinting messages received on the communication channel. As such a printer, an HP Laser Jet 1020 type printer or a Toshiba small-sized printer can be used.

TOK 20, subscriber terminal 21 and shield 22 input lines in conjunction with the first 23 base station of a mobile radio with an antenna 25, an adder 24, a second 26 base station with an antenna 27 and two (29 and 31) automatic telephone exchanges are designed to deploy a digital communication system and provide output to other telephone networks in various regions, including the public switched telephone network.

As these means of communication can be used means of communication that are part of a complex of technical equipment of the type R-169 [2]. At the same time, a P-169T switch can be used as a TOK 20. The basis of this switch is an Ethernet switch, which provides Ethernet 10/100 Base T interfaces for connecting switching equipment, the first 23 and second 26 base stations of mobile radio communications, as well as the first 29 and second 31 telephone exchanges. It performs multichannel conversion of speech coding algorithms for mobile subscribers to go to external networks.

This switch provides control of base stations of mobile radio communications of the R-169-4BM type in a single-zone network, access to inter-zone communications with other channel switches via tonal frequency channels or digital channels of the PCM 30 system, and output to PBX subscribers via subscriber communication lines [2].

In such block 20, access to the public telephone network and departmental exchanges is possible through PIA modules, and using the PID module, it is possible to connect to the ISDN network.

An integrated digital communication system, built on the basis of the above tools and equipment, provides subscribers with a wide range of services. A diverse service is available to network subscribers, which includes both traditional fixed-line services (call forwarding, group calls, conference calls, etc.), trunk network services (simplex group call, short and status messages), and data transfer. Communication with other networks is provided using the first 29 and second 31 telephone exchanges, which can be used as station type R-169ATS. Each of stations 29 and 31 has a digital interface E1 with a data transfer rate of up to 2048 kbit / s or up to thirty-two analog two-wire subscriber numbers (30 and 32) and trunk lines. Stations provide the ability to work with IP-telephony networks and subscriber equipment via SIP version 2.0.

The first 23 and second 26 base stations of mobile radio communications in conjunction with the TOK 20 are designed to provide communication with mobile subscribers and the organization of a zone of trunked communications. A radio station of the R-169-4BM type, which is an eight-channel station built on the same type of modules and designed to operate as part of the R-169 hardware complex mentioned above, can be used as a mobile base station. It provides duplex radiotelephone communication between mobile and stationary radio subscribers among themselves, as well as with PBX subscribers. The base stations 23 and 26 are controlled from the TOK 20 switch using software. At the same time, the MRT 1327 radio protocol is used in the station. Base stations provide access of subscriber stations 28 to the mobile communication network, form a signaling channel and seven duplex traffic channels. For broadcasting speech on air, the modern ACELP speech coding method with a stream rate of 4.8 kbps is used.

The subscriber terminal 21 is designed to work in a wired telephone exchange network by connecting to the LPP 40 through the TOK 20 switch, the PBX switch 16, the remote shield 17, and the cable entry unit 33. Subscriber terminals 21 in addition to the batch mode of operation can operate in the radio station, similar to the subscriber station 28 mobile radio. Switching between modes is performed by the user using the terminal keyboard.

For the operation of base stations 23 and 26 of mobile radio communications, the standard frequency range of the transmitter is 385-388 MHz and the frequency range of the receiver is 447-450 MHz.

Subscriber (wearable) stations 28 of mobile radio communications are designed to provide communication with mobile subscribers when officials leave the mobile object and are located at a considerable distance from telephone communications. As such a station can be used, for example, a subscriber portable radio station R-169NM from the R-169 hardware complex, designed to operate in a mobile radiotelephone communication system in accordance with the MPT 1327 radio protocol. This station provides duplex radiotelephone communication through base stations of the type R-169-4BM with mobile or stationary radio subscribers, as well as with PBX subscribers.

The external video surveillance system 35 may include portable or portable digital video cameras, television signal transmitters and television receivers, information boards designed to transmit video images and video signals, including video recordings of natural disasters and other emergency events.

Line 34 for connecting an external 35 video surveillance system can be performed using a fiber optic cable (FOC) or a field distribution cable of type P-269-1 × 4 + 1 × 2, to the connecting line of which a modem is connected, through which a video signal is transmitted in the system video surveillance.

Lines 36, 37, 38, 39, and 42 can be deployed using a multi-pair field distribution cable of type P-269-8 × 4 + 4 × 2, and lines 40 and 41 for connecting subscriber terminals and telephone sets of the Central Bank system can be deployed with using a light field cable type P-274M.

As a VHF radio station 43 installed at the driver’s workplace in the car cabin, for example, a portable subscriber station of the type R-169V or R-169VM with a transmitter power of five watts can be used. The station includes a transceiver unit, a handset, a handset holder, a power cable, a whip antenna on a magnetic base. It is possible to connect data transmission equipment and a GPS receiver to the station.

The proposed mobile communications system (PCSS) provides:

1) the formation of twelve E1 digital streams with a data transfer rate of up to 2048 kbit / s and one Ethernet 10 Base T stream using the first CRRS;

2) the formation of twelve E1 digital streams with a data transfer rate of up to 2048 kbit / s and one Ethernet 10 Base T stream using a second CRRS;

3) the formation of a transit stream E3 with a data transfer rate of up to 34368 kbit / s for video transmission using the third and fourth CRRS;

4) the crossover of two digital streams E1 to the first 13 and second 14 multiplexers;

5) cross-linking of one E1 stream to the PBX switch 16;

6) the formation of an official VHF radio network using VHF radio stations 11 and 43;

7) provision of the Ethernet 10/100 Base T interface included in the mobile complex 20 TOK for connecting two CRSs, a PBX switch 16, two base stations 23 and 26, two automatic telephone exchanges 29 and 31;

8) deployment of a subscriber network of telephone open communication for sixty-four subscribers using two automatic telephone exchanges 29 and 31 under the control of PBX switch 16;

9) deployment of a subscriber open telephone network using a PABX switch 16 to eight subscribers of the central battery (CB) system and twenty subscribers to four LPPs;

10) deployment of a mobile radio communication network using two eight-channel base stations 23 and 26, subscriber (wearable) mobile radio stations 28 of the R-169N type and subscriber terminals 21 installed on remote workstations of officials and connected to the LPP;

11) radio access of mobile subscribers to the telephone network using two eight-channel base stations 23 and 26 of mobile radio communication connected via Ethernet 10/100 Base T via current 20 to two PBXs 29 and 31 and PBX switch 16;

12) education using two multiplexers 13 and 14 of the following channel endings:

twelve four-wire tonal frequency (PM) channels;

four digital channels (BCC) with a transmission speed of 64 kbit / s;

four telegraph channels with a transmission speed of up to 200 baud;

sixteen PBX trunk lines (FXO);

twelve wired subscribers (FXS);

13) using a laptop computer 18 AWP operator:

Ethernet 10/100 Base T interface allows remote control and configuration of mobile radio communications and switching equipment using 16 PATS switch;

collecting, processing, displaying on a monitor and documenting on the printer 19 data on the status of mobile radio communications and switching equipment;

monitoring and remote control of CRRS operation modes;

monitoring the status of sensors and controlling actuators of external systems;

accumulation of statistical data and their storage in the database.

For the deployment of telephone networks, subscriber lines and lines for issuing channels to consumers, the cable entry unit 33 of the proposed mobile communications complex provides the connection:

1) one cable type UTP for connecting to a local Ethernet 10/100 Base T network;

2) one P-269-1 × 4 + 1 × 2 cable for connecting a modem, through which a video signal is transmitted in a video surveillance system;

3) three cables P-269-8 × 4 + 4 × 2 for the deployment of a subscriber telephone network;

4) one remote shield of the switch 16 PATS;

5) cable P-274M for connecting remote subscriber terminals 21 and telephone sets of the Central Bank system.

Radio-relay communication is ensured by organizing trunk radio-relay lines and radio-relay link lines to reference communication nodes for access to the public telephone network. In this case, the first 1 and second 3 of the TsRSs are used to deploy radio relay links, and the third 5 and fourth 7 of the TsRSs can be used as a transit node, where information is received with regeneration by digital streams, including microwave signals of the E3 stream at a speed information transfer up to 34368 kbit / s for video transmission. The principles of radio relay communication are known and we will not dwell on them in detail [1]. We only note the peculiarity of the used TsRSs, which have an expanded set of functional capabilities, including additional channels with digital and analog interfaces, automatic trunk reservation according to the criteria of reliability, reception level and hardware accident, a radio-control system and RRL tele-alarm systems, built-in testing and control equipment parameters.

Digital streams formed by CRRS, mobile radio base stations, PM channels, digital and telegraph channels are issued via connecting lines to consumers, in which telephone and telegraph communication equipment, fax machines and data transmission equipment are included in these channels.

Telegraph communication is provided by medium-speed 1200 bit / s on HF channels and low-speed up to 200 baud channels. In the latter case, start-stop telegraph devices of the STA-M67 type, rolled telegraph devices or subscriber telegraph terminals can be connected to channels [5].

Telephone communication is provided via subscriber and trunk lines with local subscribers or with remote subscribers through the channels of PM stations PPC and base stations of mobile radio communications. In this case, automatic telephone communication is carried out by dialing a subscriber number or by closing a loop on the subscriber lines of the Central Bank system and making a call with alternating current on the subscriber lines of the MB system. Telephone communication over the BOB is carried out using subscriber terminals installed at subscribers. Subscriber terminals are connected to the BOB from a field cable of type P-274M using inductive input-output devices without breaking the insulation. At the same time, one duplex provides four duplex connections via a two-wire field cable at a distance of up to 1.5 km.

Video signals are received from an external video surveillance system via a line by transmitting video images using a digital video camera mounted on a moving object or a portable video camera on which a television signal transmitter is mounted.

The technical efficiency of the proposed mobile communications complex is to expand the functionality and increase the throughput of communication directions organized by the communications complex of the mobile complex.

The expansion of functionality consists in providing the possibility of deploying several types of autonomous communication networks, combining them into a single integrated communication network and linking it to a public telephone network using high-speed CRRS, as well as providing over established communication channels, along with traditional types of communication services, such as telephone and telegraph communications, the transmission of facsimile messages and data, the exchange of electronic correspondence, the reception and transmission of video information, television images zheny and environment data from the field of emergency situations with a high transmission rate in real time.

This goal is also achieved due to the possibility of transmitting information simultaneously through the channels of various communication networks, including radio-relay and wireline networks, radio communications and servicing subscribers of the telephone network, as well as the ability to communicate when an official is removed from the main means of communication using mobile base stations radio communications, VHF radio stations and subscriber (wearable) radio stations.

In addition, the advantage of the proposed mobile communications equipment complex is to increase the throughput of the communication directions it organizes due to the possibility of increasing the information transfer rate from 1.2 and 16.0 kbit / s to 2048 and 34368 kbit / s and automatically adjusting the information transfer rate depending on the quality of the used communication channels, monitoring, remote control of operating modes and equipment settings, which helps to increase the reliability of information reception and transmission and reliability communication.

A positive factor in the proposed mobile communications complex is also the provision of high-quality duplex communication between subscribers in the exchange of voice information and electronic correspondence between similar communication systems deployed on the basis of communications of the proposed mobile communications complex.

Prototypes of the proposed mobile communications system were manufactured and tested. The test results of the samples confirmed the correctness of the technical solutions, their performance in all operating modes and the performance of the functions provided in accordance with the specified requirements.

Information sources

1. Telecommunication technology abroad: Reference book / L.I. Yakovlev, V.D. Fedorov, G.V. Dedyukin, A.S. Nemirovsky. - M .: Radio and communications, 1990.

2. A set of technical means of mobile radio communications R-169. OJSC "Ryazan Radio Plant".

3. RU patent No. 2263960, class. G06F 17/60, 2005.

4. RU patent No. 2214067, class H04Q 3/52, 2003.

5. Schraer F.I. Equipment for industrial and institutional communications. Directory. - M .: Communication, p. 344-372, 1974.

Claims (1)

A mobile communications complex containing a digital radio relay station (CRRS), the high-frequency part of which is connected to the antenna via a coaxial cable, the telephone system of the MB system for technological communication, the ultra-short-wave (VHF) radio station, the high-frequency part of which is connected to the antenna, and an automated workstation (AWS) operator, consisting of a Notebook type portable computer and a printer connected via USB to the corresponding input / output of the portable computer, multiplexer, VHF radio an antenna installed in the driver’s cabin, designed to provide radio communications when driving in a convoy, characterized in that three additional CRMs are introduced into it, the high-frequency part of each of which is connected to its antenna via a coaxial cable, a cross switching device, a second multiplexer, a channel switching unit , wired telephone switchboard (PABX), remote switchboard, transit-terminal switch (TOK), subscriber terminal, line entry shield, two base stations of mobile radio communication and with its antennas, adder, n subscriber (wearable) mobile radio stations, two automatic telephone exchanges (ATS), each of which m subscriber lines are connected, cable entry unit, lines for connecting an external video surveillance system, trunk lines for issuing PM channels , connecting lines for issuing digital channels, lines for issuing digital stream E1 with an information transfer rate of 2048 kbit / s, lines for issuing digital stream E3 with an information transfer rate of 34368 kbit / s, packet transmission lines (BOB) ), wire lines for connecting the subscriber lines of the Central Bank system and wire lines for connecting the subscriber lines of the PBX system, while the first inputs and outputs of the first CRRS are connected to the first station inputs and outputs of the cross switching device, the second inputs and outputs of the first CRRS are connected to the first inputs - the outputs of the second CRRS, the second inputs and outputs of which are connected to the second inputs and outputs of the cross-switching device, the third and fourth inputs and outputs of which are connected to the first inputs and outputs of the third and fourth, respectively grated CRRS, the second inputs and outputs of the third and fourth CRMS are connected respectively to the first and second inputs and outputs of the PATS switch, the third inputs and outputs of which are connected to the station inputs and outputs of the remote control, the linear inputs and outputs of the telephone system of the MB system for technological communication are connected to the fifth station inputs and outputs of the cross-switching device, the sixth station inputs and outputs of which are connected to the channel inputs and outputs of the VHF radio station, the first and second linear inputs and outputs of the cross new switching are connected to the first inputs and outputs of the first multiplexer and the second multiplexer, the second inputs and outputs of the first multiplexer are connected to the first station inputs and outputs of the channel switching unit, the second station inputs and outputs of which are connected to the second inputs and outputs of the second multiplexer, the first and second the linear inputs and outputs of the channel switching unit are connected respectively to the first and second station inputs and outputs of the cable input unit, the third and fourth station inputs are you the passages of which are connected respectively to the third and fourth linear inputs and outputs of the cross switching device, the third and fourth inputs and outputs of the third CRRS are connected respectively to the fifth and sixth station inputs and outputs of the cable input unit, the seventh and eighth station inputs and outputs of which are connected respectively to the third and the fourth inputs and outputs of the fourth CRRS, the first and second linear inputs and outputs of the remote shield are connected respectively to the ninth and tenth station inputs and outputs of the cable input unit a, the inputs and outputs of a Notebook AWP portable operator’s computer are connected at the Ethernet interface to the first inputs and outputs of the TOK, the second, third, fourth, fifth and sixth inputs and outputs of which are connected via Ethernet to the subscriber terminal inputs and outputs, and the fourth inputs - the outputs of the PATS switch, to the third inputs and outputs of the first multiplexer, to the third inputs and outputs of the second multiplexer and to the station inputs and outputs of the line input shield, the seventh and eighth inputs and outputs of the current transformer are connected to the channel inputs and outputs, respectively about the first and second base stations of mobile radio communications, the inputs and outputs of the high-frequency part of the first base station of mobile radio communications are connected to the first inputs and outputs of the adder, the second inputs and outputs of which are connected to the antenna of the first base station of mobile radio communications, the inputs and outputs of the high-frequency part of the second base station of mobile radio communications are connected to the third inputs-outputs of the adder, the fourth inputs and outputs of which are connected to the antenna of the second base station of a mobile radio communication, each of n subscriber (wearable ) stations of mobile radio communication via a radio interface are connected to the antenna of the first base station of mobile radio communication, the first and second linear inputs and outputs of the line entry shield are connected to the inputs and outputs of the first and second exchanges, respectively, the inputs and outputs of subscriber sets of each of the m subscriber lines of the first exchange are connected to the eleventh station inputs and outputs of the cable entry unit, the twelfth station inputs and outputs of which are connected to the inputs and outputs of the subscriber sets of each of the m subscriber lines of the second telephone exchange, the first the line inputs / outputs of the cable entry unit are connected to an external video surveillance system through a line for connecting an external video surveillance system, respectively, connecting lines for outputting the PM channels are connected to the second, third, fourth, fifth, sixth, seventh and eighth line inputs / outputs of the cable input unit, connecting lines for issuing digital channels, lines for issuing digital stream E1 with an information transfer rate of 2048 kbit / s, lines for issuing digital stream E3 with an information transfer rate 343 68 kbit / s, BOB, wire lines for connecting subscriber lines of the Central Bank system and wire lines for connecting subscriber lines of the PBX system.