RU2528168C1 - Mobile system of operational communication equipment - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: mobile system of operational communication equipment further includes a router, an a firewall, a multifunctional terminal device (MTD), two automated workstations for persons in charge based on portable computers, a navigation GPS/GLONASS receiver, two cable leads, two Ethernet wire links, the first of which is intended to transmit data to an external control station and the second provides an outlet to an external automatic telephone exchange (ATE), a main and a remote telephone set for IP telephony, five portable DSP radio stations with built-in antennae, an open telephone communication switch, a mobile communication base station with an antenna, two subscriber radio terminals, a main and a remote analogue double-line telephone set of the ATE and two portable ASP radio stations with built-in antennae.

EFFECT: broader functional capabilities by providing persons in charge of a mobile facility with different types of services and improved security from unauthorised access to information transmitted over the formed communication channels.

2 cl, 2 dwg

Description

The invention relates to telecommunication technology and can be used for the formation of paths and communication channels by various means of communication, the transmission of telephone and telegraph messages, data, electronic correspondence and other types of information.

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, 2, 3]. 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. However, experience in the development of telecommunication technology in recent years shows that the most effective is the creation and joint use of communication systems and means installed in one mobile facility and designed to solve certain problems in the complex. In this case, the cost of creating communication tools is significantly reduced, there is no need to use additional mating devices and channel transfer devices from one communication device to another, and this helps to increase the speed of deployment of communication tools in the field, speed up channel setup and, accordingly, reduce the time to establish new and restore broken links.

Of the known communication systems, the closest in technical essence is the mobile operational communication station described in [4].

A well-known mobile operational communications station contains a satellite communications station, a switching device, channel forming equipment, a radio relay station, a semi-telescopic mast, a tonal frequency modem, two encryption units, a subscriber unit, push-button switches, a main and remote automatic telephone communication apparatus, a broadband modem, a laptop computer, small-sized printer, direct dial subscriber lines, connecting line from an external automatic telephone exchange, operator console, portables hydrochloric radio, VHF radio mobile and connected thereto whip antenna.

The well-known mobile operational communications station provides the following modes of operation and types of communications:

a) the formation of tonal frequency (PM) channels and digital channels at transmission rates from 1.2 to 9.6 kbit / s to provide automatic telephone communications and data exchange with remote subscribers using a satellite communications station;

b) the formation of PM channels and digital channels using a radio relay station on an organized link line to stationary communication networks;

c) organization of work in radio communication networks.

The main disadvantages of the well-known mobile operational communications station are the limited possibilities for organizing various communication networks, the transmission of information with an insufficient degree of protection through well-formed channels, as well as the low throughput of the established communication directions.

The objective of the invention is the creation of a mobile complex of means of operational communication, providing the formation of communication paths, primary and secondary communication channels by various means of communication, structurally and technically combined in one mobile object, transmission of telephone, telegraph and facsimile messages through the formed paths and communication channels, data exchange and electronic correspondence, customer service and the provision of various communication services, including direct transmission of voice and documentary information m I am waiting formed subscribers of communication networks and remote subscribers various communication nodes.

The aim of the invention is to expand the functionality to provide various types of services provided to officials of a mobile facility and to increase the degree of protection against unauthorized access to information transmitted through established communication channels.

This goal is achieved by the fact that in a mobile complex of operational communications, containing a satellite communications station with an antenna system, two encryption units, an automated workplace of an officer of the operational technological control (AWP OTU) equipped with a laptop computer, a small-sized printer, a subscriber unit, main and remote telephone sets (TA) of the PBX system, direct dial subscriber line (AL), portable radio station with digital signal processing (DSP) with built-in antenna a semi-telescopic mast and an ultra-short-wave (VHF) radio station with an antenna connected to it, characterized in that it additionally includes a router, a firewall, a multifunctional terminal device (MTU), two automated workplaces of an official (AWP DL) equipped on the basis of laptop computers, GPS / GLONASS navigation receiver, two cable entries, two wired Ethernet lines, the first of which is designed to transmit data to an external control center, and the second to exit to an external ATS, primary and external IP telephony telephones, five portable DSP radios with integrated antennas, an open telephone switch, a mobile base station with an antenna, two subscriber radio terminals, a main and remote two-wire analogue PBX systems, and two portable radio stations with an analogue signal processing (AOS) with built-in antennas, while the high-frequency input-output of the satellite communication station is connected to the high-frequency input-output of the antenna system, channel inputs and outputs of satellite communications via Ethernet are connected to the first inputs and outputs of the router, the second, third and fourth inputs and outputs of which are connected via Ethernet to the inputs and outputs of the firewall, main IP-telephony SLT, and to the channel input-output of the sixth portable radio station DSP, the high-frequency input-output of which is connected to the built-in antenna, the second and third inputs and outputs of the firewall at the Ethernet interface are connected respectively to the linear input-output of the first encryption unit and to the first input-output of the installation, the fourth input-output of the firewall at the Е1 interface is connected to the first channel input-output of the first encryption block, the second channel input-output of which at the Ethernet interface is connected to the first input-output of the multifunction terminal device, the second input-output of which is at the Ethernet interface connected to the second input-output of the subscriber unit, the third and fourth inputs and outputs of the MTU at the Ethernet joints are connected to the inputs and outputs of the AWP OTU laptop computer and the AWP DL portable computer, respectively, with a small-sized printer, the second input-output of the AWP DL portable computer is connected to the input-output of the GPS / GLONASS navigation receiver, the inputs and outputs of the first MTU subscriber set are connected to the inputs and outputs of the main ATC system TA, the inputs and outputs of the second MTU subscriber set are connected to station inputs and outputs of the first cable input, the linear inputs and outputs of which are connected via the subscriber direct line to the inputs and outputs of the remote TA of the PBX system, the fifth MTU input-output at the Ethernet interface through the first the first cable input is connected to the input-output of the portable computer of the remote workstation AW, the fifth and sixth inputs and outputs of the router are connected via Ethernet joints to the first and second station inputs and outputs of the second cable input, to the first, second and third line inputs and outputs of which respectively, the first and second wired Ethernet lines and an external IP-telephony telephone set, a high-frequency input-output of an VHF mobile radio station is connected to a high-frequency input-output of an antenna, and a channel input the VHF output of a mobile radio at the C1-I junction is connected to the linear input-output of the second encryption block, the channel input-output of which at the C1-I junction is connected to the sixth MTU input-output, the channel input-output of the mobile base station at the Ethernet junction connected to the inputs and outputs of the channel sets of the open communications switch, the inputs and outputs of the first and second subscriber sets of which are connected to the input-output of the main analog two-wire TA of the PBX system and to the third station input-output of the second cable input, the third linear input-output of which is connected to the input-output of the remote analog two-wire TA of the PBX system; the first, second and third portable radios with DSP with integrated antennas are mounted on a semi-telescopic mast and are designed to increase the range of radio communications by organizing radio signal retransmission, while the channel inputs and outputs of the first and second portable radios are connected to each other at a low frequency, the antenna of the first portable radio station with DSP over the air is connected to the antenna of the first portable radio station with analog signal processing (AOS), the antenna of the second portable radio station with DSP over the air with unified with the antenna of the second portable radio station with AOS, for organizing radio communications between officials when they exit the mobile unit, the antenna of the third portable radio station with DSP is connected via ether to the antennas of the fourth and fifth portable radio stations with DSP, linking the mobile object to the state unified telecommunication network ( ESE) is carried out over the air using the sixth portable radio station with DSP and a similar portable radio station installed on the city automatic telephone exchange (GAT C), the first and second subscriber radio terminals are connected over the air with the antenna of the mobile base station, through which access to other communication channels formed by means of communication installed in the mobile unit is provided.

Comparative analysis with the prototype shows that the claimed mobile complex of operational communications is characterized by the presence of new units: a router, a firewall, a multifunctional terminal device, two (main and remote) automated workstations for officials (AWP DL) equipped with laptop computers, two ( main and remote) IP-telephony apparatuses, a mobile base station with an antenna, two subscriber radio terminals, five portable radio stations with digital signal processing alov (DSP) with built-in antennas, an open telephone exchange switchboard, two analog two-wire telephone sets (TA) of the PBX system, two cable entries with connected communication lines, a GPS / TJIOHACC navigation receiver and two portable radio stations with analog signal processing (AOS) with built-in antennas, as well as changing the connections between known circuit elements.

When introducing new blocks in this connection with the rest of the circuit elements in the inventive mobile complex of means of operational communication, the above blocks exhibit new properties consisting in expanding the functionality to provide various types of services provided to officials of a mobile object and increasing the degree of protection against unauthorized access transmitted by educated communication channels of information.

Thus, the claimed mobile complex of means of operational communication meets the criterion of "novelty." Comparison of the proposed solution with other technical solutions shows that the newly introduced blocks into the proposed complex are realizable, well known to specialists in this field of technology and additional creativity, given the explanations below, for their reproduction is not required.

The claimed combination of elements and connections allows us to achieve this goal due to the original combination of instruments and devices used in public telephone networks, both in their direct and non-standard applications.

The proposed solution is significantly different from the currently known solutions. The proposed mobile complex of operational communications allows, in contrast to the prototype, the deployment of several communication networks, including: satellite and mobile networks with the ability to switch from one network to another, VHF mobile radio networks with the ability to exit through an organized network to the channels of the state unified network telecommunications (ESE), to provide work both in the parking lot and in motion with the possibility of transmitting various types of information via educated communication channels, to expand the volume and quality of delivered communication services to officials. This allows us to conclude that the proposed mobile complex of means of operational communication 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 complex of means of operational communication can be implemented using existing apparatus and equipment, means of electrical engineering and communications, computer technology and is industrially applicable.

Figure 1 presents the structural electrical diagram of a mobile complex of means of operational communication, figure 2 shows a structural diagram of a base station of mobile communications.

The proposed mobile complex of means of operational communication (SOS) contains (Fig. 1) a satellite communication station 1 with an antenna system 2, a router 3, a firewall 4, the first 5 encryption block, a subscriber installation 6, a multifunction terminal device (MTU) 7, a portable computer 8 automated workstation of operational-technological management (AWS OTU), a laptop computer 9 arm of an official, a small-sized printer 10, a navigation receiver 11 GPS / TJIOHACC, a main telephone set (TA) 12 automatic telephone exchange systems, the first cable input 13, direct dial subscriber line 14, remote TA 15 of the PBX system, portable computer 16 of the remote AWP DL, second cable input 17, first 18 and second 19 Ethernet lines, primary 20 and remote 21 IP telephony telephones, the first 22 portable a radio station with digital signal processing (DSP) with a built-in antenna, a second 23 portable radio station with a DSP with a built-in antenna, a third 24 portable radio station with a DSP with a built-in antenna, a fourth 25 portable radio station with a DSP with a built-in antenna, the fifth 26 a portable radio station with a DSP with a built-in antenna, the sixth 27th portable radio station with a DSP with a built-in antenna, a semi-telescopic mast 28, a VHF mobile radio station 29 with an antenna 30 connected to it, a second encryption unit 31, an open telephone switch 32, a mobile base station 33 with antenna 34, the first 35 and second 36 subscriber radio terminals, the main 37 and remote 38 analog two-wire ATC systems, the first 39 and second 40 portable radio stations with analog signal processing (AOS) with a built-in antenna.

The high-frequency input-output of satellite communication station 1 is connected to the high-frequency input-output of antenna system 2, and the channel inputs-outputs of satellite communication station 1 are connected via Ethernet to the first inputs and outputs of the router, the second, third, and fourth inputs and outputs of which are connected via Ethernet connected to the inputs and outputs of the firewall 4, the main IP telephony TA 20 and the channel input-output of the sixth portable radio station 27 with DSP, the high-frequency input-output of which is connected to the built-in antenna.

The second and third inputs and outputs of the firewall 4 are connected at the Ethernet interface respectively to the linear input-output of the first encryption unit 5 and to the first input-output of the subscriber installation 6, the fourth input-output of the firewall at the interface Е1 is connected to the first channel input-output of the first encryption unit 5, the second channel input-output of which at the Ethernet interface is connected to the first input-output of the multifunctional terminal device 7, the second input-output of which at the Ethernet interface is connected to the second input-output of the subscriber unit and 6.

The third and fourth inputs and outputs of MTU 7 at the Ethernet joints are connected to the inputs and outputs of a portable computer 8 of an automated workstation of operational technological management (AWP OTU) and a portable computer 9 AWP DL connected to a small-sized printer 10, the second input-output of a portable computer 9 AWP DL is connected to the input-output of the navigation receiver 11 GPS / GLONASS.

The inputs and outputs of the first subscriber set MTU 7 are connected to the inputs and outputs of the main TA 12 of the PBX system, the inputs and outputs of the second subscriber set MTU 7 are connected to the station inputs and outputs of the first cable input 13, the linear inputs and outputs of which are connected via the direct communication line 14 with inputs and outputs of remote TA 15 of the automatic telephone exchange system. The fifth MTU input-output 7 at the Ethernet interface through the first cable input 13 is connected to the input-output of the portable computer 16 of the remote workstation; the fifth and sixth inputs and outputs of the router 3 are connected via Ethernet joints to the first and second station inputs and outputs of the second cable input 17, to the first, second and third line inputs / outputs of which are connected, respectively, the first 18 and second 19 wired Ethernet lines and a remote telephone apparatus 21 IP-telephony.

The high-frequency input-output of the VHF radio station 29 of the mobile communication is connected to the high-frequency input-output of the antenna 30, and the channel input-output of the VHF radio station 29 of the mobile communication at the junction C1-I is connected to the linear input-output of the second encryption unit 31, the channel input-output of which the C1-I joint is connected to the sixth input-output of MTU 7, the channel inputs and outputs of the mobile base station 33 are connected via Ethernet to the inputs and outputs of the channel sets of the open switch 32, the inputs and outputs of the first and second subscriber sets a connected to the input-output of the primary two-wire analog PBX systems TA 37 and to the third input-output Stationary second cable input 17, third linear input-output of which is connected to the input-output of the analog two-wire remote SLT 38 PBX system.

The first 22, second 23 and third 24 portable radio stations with DSP with integrated antennas are mounted on a semi-telescopic mast 28 and are designed to increase the radio range by organizing radio signal retransmission, while the channel inputs and outputs of the first 22 and second 23 portable radio stations at a low frequency are interconnected , the antenna of the first 22 portable radio station with DSP over the air is connected to the antenna of the first portable radio station 39 with analog signal processing (AOS), the antenna of the second 23 portable radio station with The DSP on the air is connected to the antenna of the second 40 portable radio station with AOS, for organizing radio communications between officials when they exit the mobile unit, the antenna of the third 24 portable radio station with DSP on the air is connected to the antennas of the fourth 25 and fifth 26 of the portable radio stations with DSP.

The mobile unit is linked to the state unified telecommunication network (ESE) via a radio channel using the sixth 27th portable radio station with DSP and a similar portable radio station installed on the city automatic telephone exchange (GATS), the first 35 and second 36 radio subscriber stations are connected via the air to the antenna 34 a mobile base station 33, through which access to other communication channels formed by means of communication installed in a moving object is provided.

The mobile base station 33 contains (FIG. 2) a controller 41 that manages the subscriber database, provides network management and performs all multisite switching functions according to the TETRA standard protocol, transceiver 42, monitor 43, standard keyboard 44 and mouse 45 ", While the first inputs and outputs of the controller 41 are connected to the channel inputs and outputs of the transceiver 42, the high-frequency part of which is connected to the antenna 34, the second, third and fourth inputs and outputs of the controller 41 are connected to the inputs and outputs of the monitor 43, the standard keyboard 44, and the mouse 45, respectively; the fifth inputs and outputs of the controller 41 are channel inputs and outputs of the mobile base station 33.

Station 1 satellite communications is intended:

to provide duplex telephony and data transfer, 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 on the basis of radio-telephone exchanges 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.

Satellite communication station 1 provides the formation of an interference-free satellite communication line at speeds from 1.2 to 9.6 kbit / s.

In the modes without interference protection, the satellite communication station 1 provides for the transmission of information at a speed of 1.2 to 256 kbit / s in motion and from short stops via a digital satellite channel, and also provides satellite communication at a speed of up to 2048 kbit / s from short stops to automatically deployable antenna.

Satellite communication station 1 includes a receiver and a transmitter.

The receiver of the satellite communication station is designed to pre-amplify the received high-frequency signals, convert the signals to an intermediate frequency (usually 70 MHz) and transmit them to the demodulator of the modulator-demodulator block. 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 communications station is designed to generate a high-frequency signal with specified parameters and its amplification to the required power level. The transmitter comprises an intermediate frequency converter, an exciter and a power amplifier.

On a functional basis, satellite communication station 1 consists of the following main parts:

an antenna module that provides guidance to a repeater located on a spacecraft (SC);

transceiver equipment that provides reception and transmission of signals at frequencies from 7 to 8 GHz with their conversion to intermediate frequencies 345 and 700 MHz for reception and transmission, respectively;

a hardware module, incorporating functional devices that ensure the formation and processing of all given signals and frequencies. The hardware module interfaces with the antenna module at intermediate frequencies;

hardware and software of the automated control subsystem, providing control of the station;

navigation complex, providing information about the current location of the satellite communications station.

The hardware module includes transceiver equipment, channel-forming equipment, a digital signal processing path, a control processor and external equipment.

The antenna module includes antenna system 2, which includes a parabolic mirror with a diameter of 1.5 m and a slewing ring device, as well as a device for automatically deploying the antenna system to provide radio communications.

Organization of satellite communications and the provision of various operating modes using station 13 is carried out according to well-known principles set forth in the literature [1].

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

Router 3 is designed to transmit packets between satellite and mobile networks in accordance with specific protocol stacks. Router 3 provides 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 receiving (transmitting) traffic from an external public communication network.

As the specified router 3 can be used a router company "NETRIX" type IP Network Exchange 2210 [5].

The firewall 4 is an information security tool and is designed to filter traffic coming through the communication channels of the satellite communication station 1, the mobile base station and from the external public network via portable radio stations and / or transmitted to the external network in accordance with the selected access restrictions to information.

The first 5 and second 31 encryption blocks are designed to encrypt information transmitted over radio channels and wire lines in order to hide the content of transmitted messages, protect against false information and intercept transmitted messages. Each of them contains a temporary compaction and decompression unit, an individual encoder, input and output matching devices. As such devices, a confidential communication device described in the patent of the Russian Federation No. 2117401 [6. RU, patent No. 2117401, class. H04K 1/00, 1998], which contains an analyzer of a speech-converting device, a pseudo-random sequence generator, a cipher block, a linear block (adder, digital-to-analog converter) in the information transmission path, and includes a linear block (low-pass filter, analog-to-digital in the receiving path) converter), a pseudo-random sequence generator, a cipher removal unit, a speech-converting device synthesizer, and also a frequency generating unit.

Subscriber unit 6 is a gateway device and is designed to provide operation of TA 20 and 21 IP-telephony via satellite and mobile radio communication channels.

The multifunctional terminal device (MTU) 7 is structurally made in one monoblock and contains an external connection panel on which there are connectors for connecting communication lines at the joints RS-232, RS-449, G 703 E1, G 703 E0, Ethernet VoIP / SIP, C1 -And, service switch, data transfer server, Ethernet switch, power and protection device. MTU is designed to convert signals of all kinds of interfaces (speech, data, file exchange, electronic correspondence exchange (e-mail) of terminal equipment to digital format for further switching and transportation over the communication network and reverse conversion.

The MTU 7 Ethernet switch is designed to provide subscribers with access to an established local area network and to ensure data transfer through it at the Ethernet 10 Base-FX junction between officials' workstations and via communication channels.

Multifunctional terminal device 7 is designed to create in the field an automated communication network with switching channels and packets. It provides:

1) the formation of a telephone network with cryptographic protection of the transmitted information on the basis of several stations connected by E1 channels, channels at the C1-I junction at speeds of 1200 (2400) bit / s or digital paths of a packet-switched network;

2) connection of manual and automatic telephone exchanges of similar purpose via medium-speed communication channels 1200 (2400) bit / s;

3) the deployment of a network that provides the connection of remote workstations for officials and the integration of types of information exchange (speech, data, file exchange, electronic correspondence exchange) with cryptographic protection of the transmitted information;

4) deployment of a subscriber network using four-wire and two-wire telephones;

5) deployment of a subscriber network using IP phones;

6) the formation of circular call networks and conference calls;

7) the integration of telephone networks with automated networks for the exchange of data and documentary information.

When routing in a circuit-switched network, MTU 7 provides:

1) automatic selection of the direction of communication to the called station by the network number of the station (the first four digits of the number of the called subscriber);

2) search for outgoing calls up to two workarounds to the called station to reserve the main direction of communication in case of failure or busyness;

3) automatic notification of network stations and the establishment of connections with mobile subscribers when they change the anchor stations.

When routing in a packet-switched network, MTU 7 provides routing of data streams in accordance with SIP V 2.0 routing protocols.

The inter-station interaction of the terminal device 7 through communication channels formed by various means is carried out using signaling systems:

1) for structured E1 flows - at the junction of G.703 HDB3 Q.931 for oncoming work with similar and other automatic telephone exchanges using EDSS1 signaling, G.711 codec (for work on channels with limited bandwidth, the resource-saving G.729 codec is used );

2) on medium-speed channels - noise-resistant coding of signals “3 out of 8” according to the algorithms of the existing network;

3) on the channels of a packet-switched network using SIP, SIP-T protocols.

Portable computers AWP OTU 8 and AWP DL 9 contain a system unit consisting of a motherboard on which a microprocessor, a system bus (bus) of the ISA / PCI type, RAM, a reprogrammable ROM and a keyboard controller, monitor adapter, port adapter, disk controller, an additional device controller, a hard magnetic disk, a floppy disk drive, system software and application software supplied on a hard disk drive, audio cards - input-output video card IO and Ethernet cards, and has a display with a plasma screen, QWERTY keyboard and a graphical pointing device such as a "mouse".

As portable computers 8 and 9, a personal computer (PC) of the EC-1866 type can be used, which is a multifunctional terminal supplemented with hardware and software for navigation, communication and data transmission. Structurally, the EC-1866 type personal computer is a portable protected Notebook computer installed on a shock-absorbing frame in order to prevent its movement when the moving object is in motion.

AWP of operational technological control using portable computer 8 is designed to control the operation of technical means (apparatus and equipment) of communication and radio access, switching and distribution of received channels and digital streams, and organizing the exchange of information and data with interacting stations. In this case, the operator using a laptop computer AWP OTU provides:

1) input, storage and display of information;

2) information exchange with interacting workstations through a data exchange network;

3) collecting, summarizing and displaying information about the status of communications, channels and hardware equipment;

4) remote control of the equipment from the hardware to the extent of the capabilities provided for in the equipment;

5) the solution of information and settlement problems in organizing areas of information exchange and communication channels;

6) information and functional interaction through computer 9 AWP DL with navigation equipment, including the automatic reception of data to determine the coordinates of your location and entering them into the memory of your laptop computer.

For the performance of these functions as part of a laptop computer AWP OPU and AWP DL there is a functional application software.

Small-sized printer 10 is designed to print data on the status of the apparatus and equipment of the mobile complex of operational communications, received commands and control signals.

As the aforementioned small-sized printer, a black-and-white printer of the HP LaserJet 1020 type can be used.

The GPS / GLONASS navigation receiver 11 is designed to determine the coordinates of the location and the directional (azimuthal) angle of the longitudinal axis of the moving object, in the back of which the apparatus and equipment of the mobile complex of operational communications are mounted. The principle of operation of the navigation receiver 11 is based on the integrated processing of information received from the autonomous navigation system of the geomagnetic type and the receiver of the satellite navigation system GLONASS / GPS.

The navigation receiver 11 provides at any point in the route of the moving object the definition of the following basic parameters: flat rectangular (or geographical) coordinates of the location, directional (magnetic) azimuth of the longitudinal axis of the product, tilt angles in the longitudinal and transverse planes, speed and distance traveled, memorization and storage of coordinates of control points of the route of movement.

The navigation receiver 11 in combination with a laptop computer 9 AWP DL provides visualization of an electronic map of the area, real-time display of graphic and digital information of the route and movement parameters, correction of the measured coordinates by matching the trajectory of the moving object with the geometry of the roads encoded in a digital map database , information exchange with external devices via RS-232. The navigation receiver 11 receives data from the global satellite system GPS or GLONASS, which is designed for high-precision determination of the three position coordinates that make up the velocity and time vectors of various moving objects.

The antenna included in the navigation receiver 11 is a whip antenna mounted on a vehicle’s car cabin.

As the main 12 and 15 remote telephone sets of the ATS system, AT-3031 type ATS (ATS RG2.187.096 TU) can be used, which have a tangent for controlling the operation of radio stations and operate on a four-wire communication line from a P-269M type field distribution multicore cable.

The main 12 and 15 remote telephones are designed to provide direct telephone conversations for individual (privileged) subscribers (officials) by connecting them to the telephone network directly from the specified telephones for communication with senior management.

The first 13 and second 17 cable entries contain connecting and switching elements to which connecting lines from interacting objects and stations are connected using cable connectors, they are designed to distribute information and control circuits to equipment and devices, as well as devices and units installed in a movable a complex of means of operational communication. Structurally, the first 13 and second 17 cable entries are made according to the same type of scheme in accordance with the industry standard, but differ in the number of connector blocks installed on the panels and in the wiring of pairs of connected communication cables.

A direct communication subscriber line 14, at the other end of which a remote telephone exchange of the PBX system is turned on, can be performed using a field cable of the P-269M-1 × 4 + 1 × 2 type.

The primary 20 and remote 21 telephony IP-telephony devices are designed to provide encrypted telephone communications directly between officials, both inside the mobile unit and over the air with remote subscribers. In these devices, a device is built in to protect against unauthorized access to transmitted information, made in the form of a subscriber encryption device.

As such telephones, IP phones of the Cruise or Ericsson type can be used.

As the first 22, second 23, third 24, fourth 25, fifth 26 and sixth 27 portable radio stations with a DSP with an integrated antenna, commercially available subscriber wearable radio stations of the R-169NM type from the complex of technical means R-169, composition and technical capabilities, can be used which are described in [6], and Kenwood TK-2160M, Kenwood TK-3160M radio stations.

The indicated radio stations are also intended to ensure uninterrupted radiotelephone communication to officials and subscribers of the mobile complex of means of operational communication with subscribers of the telephone network of the mobile radio communication system, as well as for reaching the telephone network subscribers of an external automatic telephone exchange.

The semi-telescopic (telescopic mast) 28 is a mast up to 12 m high, consisting of seven sections made of duralumin tubes of various diameters. The use of such a mast with portable radios with DSPs with built-in antennas installed on it first 22, second 23 and third 24 makes it possible to significantly increase the range of radio communications during operation of the mobile complex of means of operational communications in the parking lot.

VHF radio station 29 of a mobile communication contains a microcomputer, a transceiver, a transceiver unit, a control unit, switching and pairing, a control panel and an external control panel that can be carried up to ten meters. The operation of all the components of the radio station is controlled through the serial input / output line of the microcomputer, which receives commands from the operator through the radio station controls and issues all the necessary messages to the display elements located on the front panel.

Radio station 29 is a transceiver, ultrashort-wave, frequency modulated, designed to provide radio communications between ground moving objects in the parking lot and in motion when conducting the following types of work: telephone, auditory voice telegraph and digital signal-code communication.

As an VHF radio station 29 with an antenna 30, a VHF radio station of the R-168-25U type with a power of 25 W can be used. This radio station is a transceiver, VHF 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. Using the radio station 29, radio communication is carried out in motion by accessing the radio network and exchanging voice and formalized messages.

As the VHF antenna 30 for the mobile radio station 29, a Kulikov whip antenna (1.5 m pin) can be used, which is mounted on a shock absorber and mounted on the vehicle’s cabin. The Kulikov antenna consists of two metal pins made of steel tubes with a diameter of 10 and 12 mm, connected to each other and to the antenna shock absorber.

The open communication switch 32 is designed to connect two-wire communication lines with a central bank TA system, two-wire PBX trunk lines, four-wire lines with a data transfer rate of 16 kbit / s, two-wire packet transmission lines from user terminals, four-wire PCM lines with a transmission speed of 2048 kbit / s for connections with similar switches or equipment of a complex of technical means of the R-169 type.

The switch 32 provides automatic pairing with similar switches, automatic outgoing and incoming communication of subscribers from the main 37 and remote 38 analog two-wire TA of the PBX system with each other in full-duplex mode and over the air from KTS of the R-169 type in the digital standard, work on two-wire communication lines via HDSL interface with a transfer rate of 192 to 2048 kbit / s.

The base station 33 of mobile communications as part of the above controller, transceiver, monitor, standard keyboard and graphical manipulator type "mouse" is designed to organize a radio access network. It provides network management and all multisite switching functions according to the TETRA protocol.

The antenna 34 of the base station 33 of the mobile communication is a transceiver antenna designed to access the mobile radio communication network, as well as to receive commands and signals from an external mobile network management system.

Mobile base station 33 together with antenna 34, first 35 and second 36 subscriber radio terminals are intended for organizing a radio communication network with officials and specialists located outside the mobile object of the mobile complex of operational 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, can be used as a mobile base station [3]. It provides duplex radiotelephone communication between mobile and stationary radio subscribers among themselves, as well as with PBX subscribers. The control of the base station 33 is carried out both autonomously and from an external control device using software. At the same time, the MRT 1327 radio protocol is used in the station. The base station provides access for the subscriber radio terminals 35 and 36 (subscriber stations) to the mobile communication network, forms 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.

As such a station 33, the base station of the Tetra Flex professional radiotelephone communication system can also be used, designed for the rapid deployment of small TETRA technology systems.

The Tetra Flex system includes one BS421 base station, which provides the basic functions of the TETRA standard and uses IP technology. The fundamental characteristics of the Tetra Flex system are its connection via IP architecture and the use of voice over IP (VOIP).

The user program interface (API) allows for easy access to the basic functionality of TETRA, without delving into deep knowledge of the standard protocols.

The first 35 and second 36 subscriber radio terminals are mobile portable devices, combined with mobile cellular communication stations, designed to provide communication services to officials when they are both in a mobile object and outside it.

As subscriber radio terminals 35 and 36, portable portable radios of the R-169NM type or mobile subscriber terminals, for example, Globalstar systems, can be used.

P-380K-TA-02 devices can be used as the main 37 and remote 38 analog two-wire automatic telephone exchanges of the ATS system.

As the first 39 and second 40 portable radio stations with analogue signal processing with a built-in antenna, wearable RH-168-0.1U type VHF radio stations with a power of 0.15 W can be used, providing simplex or dual-frequency simplex telephone radiocommunications on one of eight in advance prepared channels with the transmission of analog information in the frequency range 44.025-55.975 MHz at a range of up to 1.2 km. If there is a cryptographic device built into the radio station, the information transmitted over the radio channel is protected.

To accommodate the equipment and equipment of the proposed mobile complex of means of operational communication, a box body mounted on the chassis of an off-road vehicle and the degree of protection against external influences can be used.

The mobile complex of means of operational communication is intended to provide communication services to officials located in mobile objects, while working in the parking lot and on the move.

The mobile SOS complex provides:

1) the deployment of a satellite communication line with a data transfer rate of up to 256 kbit / s for work in the parking lot and in motion using station 1 satellite communications with antenna system 2;

2) ensuring the relay of signals from the radio stations of the existing fleet with the help of two (22 and 23) portable radio stations with DSP located on a semi-telescopic mast 28. The signal path includes: the first portable radio station 39 with AOS with an integrated antenna, airing to the first 22 a portable radio station with a DSP with a built-in antenna, the low-frequency output of which is connected to the low-frequency output of a second 23 portable radio station with a DSP with a built-in antenna, the output of the second portable radio station 23 over the air in oruyu portable radio 40 AOC with integrated antenna;

3) ensuring the relay of signals from the fourth 25 and fifth 26 portable radio stations with DSP in TETRA mode using the third 24 portable radio station with DSP located on the semi-telescopic mast 28;

4) the radio access of mobile subscribers to the public telephone network using the sixth 27th portable radio station with DSP by broadcasting over the air to a similar portable radio station installed on the city automatic telephone exchange (GATS);

5) the formation of a duplex encrypted VHF radio channel to provide radio access to the telephone encrypted communication network at a data transfer rate of 1.2 kbit / s using VHF radio station 29 mobile communication with antenna 30 and the second encryption unit 31.

The mobile complex of means of operational communication ensures the provision of the following communication services to officials and subscribers:

1) the formation of a nodal network of automatic open telephone communication using the open switch 32, the main 37 and remote analog two-wire TA PBX system;

2) the formation of a network of automatic encrypted telephone communications using a multifunctional terminal device 7, four-wire main 12 and remote 15 telephone sets of the PBX system. At the same time, customer service is carried out in automatic and semi-automatic modes;

3) work in an encrypted telephone network using MTU 7, the first 5 and second 31 encryption blocks, the main 12 and remote 15 telephone sets of the PBX system. The channel for communication via satellite communication channel includes: the main 12 (remote 15) TA of the PBX system, MTU 7, the first encryption block 5, the firewall 4, router 3, satellite communication station 1 and antenna 2, then the radio channel exits through the same satellite communications station and similar MTU to a remote subscriber. The communication channel over the radio channel formed by VHF radio station 29 of mobile communication includes: the main 12 (or remote 15) telephone sets of the ATS system, MTU 7, the second encryption unit 31, VHF radio station 29 with antenna 30, and then the radio channel exits to the opposite station via similar MTU to subscribers connected to it;

4) the exchange of encrypted data using MTU 7 and the first encryption unit 5 along the path, including: AWP OTU 8 (or AWP DL 9), MTU 7, the first encryption unit 5, firewall 4, router 3, then through the channel of satellite 1 communication and over-the-air access to a similar AWP OTU or AWP DL of an interacting mobile unit or similar telephone exchange. Data exchange with subscribers of the public network is carried out along the path, including: AWP OTU 8 (or AWP DL 9), MTU 7, the first encryption unit 5, firewall 4, router 3, the radio channel of the sixth portable radio station 27 with a DSP with a built-in antenna and an output via radio channel through the GATS to the channels of the public communication network;

5) operation in an encrypted telephone network using a subscriber unit 6, MTU 7, primary 20 and remote 21 telephony IP telephony devices, which includes an integrated system for protecting information transmitted through communication channels and communication lines. The path for conducting telephone communication via the channel of satellite communication station 1 includes: the main 20 TA, router 3, the channel of satellite communication station 1, radio access to the opposite station, a similar router and through it access to the IP-telephony telephone of a remote subscriber. Telephone communication directly between officials within the facility is carried out along the path, including: the main TA 20 (of one of the officials), the router 3, the firewall 4, the subscriber installation 6, MTU 7 and the main TA 12 of the PBX system (another official) or remote TA 21 (of another official) IP telephony, second cable entry 17, router 3, firewall 4, subscriber installation 6, MTU 7 and the main 12 TA of the PBX system or remote 15 TA of the PBX system, subscriber line 14 direct communication, the first cable input 13, MTU 7, subscriber installation 6, firewall 4, router 3, second cable entry 17 and remote 21 TA IP telephony;

6) switching and routing of intra-traffic traffic over IP network protocols using router 3;

7) support for the quality of customer service in accordance with the requirements for the transfer of IP packets;

8) firewall shields between the channels of encrypted and open telephone communications;

9) the conclusion of information on paper using a portable computer 9 AWP DL and small-sized printer 10;

10) the radio access of mobile subscribers to the automatic open telephone network using the base station 33 mobile, the first 35 and second 36 subscriber radio terminals. The communication path includes: a first 35 (or second 36) radio subscriber terminal, an antenna 34, a mobile base station 33, an open telephone switch 32 and an open telephone subscriber 37 or an open telephone switch 32, a second cable entry 17 and a subscriber 38 remote analog TA of the PBX system. Telephone communication between subscribers is carried out in automatic maintenance mode;

11) support of the single-time service, determination of the coordinates of one’s location, display on the electronic map of the workstation of the official in real time of graphic digital information of the coordinates, route and movement parameters of the moving object using the GPS / GLONASS navigation receiver 11;

12) technological management of the apparatus and equipment of the mobile complex using a portable computer 8 AWP OTU by collecting data on the status of communication channels, apparatus and equipment, as well as issuing commands to maintenance personnel to repair or replace failed equipment;

13) testing and diagnostics of communication equipment using SNMP (Simple Network Management Protocol - Simple Network Resource Management Protocol) using a portable computer 8 AWP OTU with the status and quality of the communications provided;

14) information and technological interaction with an external control point using a laptop computer 8 AWP OTU on the second wired line 19 Ethernet. Interaction with an external control center is carried out by exchanging telephone messages and data along the path, including: AWP OTU 8, MTU 7, the first encryption unit 5, the firewall 4, router 3, the second cable entry 17, the second wired Ethernet line 19 and then the output via lines on the laptop computer of an official of an external control point.

The technical effect of the proposed mobile complex of means of operational communication is to expand the functionality to provide various types of services provided to officials of the mobile facility and to increase the degree of protection against unauthorized access of information transmitted through established communication channels, achieved through the introduction of new units and an original combination of communication tools, switching and computer technology, as well as their use in various operating modes to provide lzhnostnym parties and subscribers the required communication services.

Moreover, in comparison with the prototype in the proposed mobile complex of means of operational communication, an increase (from five to fourteen) of the number and an increase in the quality of the provided communication services is provided.

Information sources

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

2. Andrianov V.I., Sokolov A.V. Mobile communications. - SPb .: BHV-St. Petersburg, 1998.

3. The complex of technical means of mobile radio communications R-169. Prospectuses from the exhibition 2003. OJSC “Ryazan Radio Plant” (Russia, Ryazan, 11 Lermontov St.).

4. Patent RU No. 2271072, cl. H04M 5/00, 2006 (prototype).

5. Ivanova T.N. Subscriber terminals and computer telephony. - M .: Eco-Trends, 1999, p. 158-174, 213-227.

6. Patent RU No. 2117401, cl. H04K 1/00, 1998.

Claims (2)

1. A mobile complex of operational communications equipment containing a satellite communications station with an antenna system, two encryption units, an automated workplace of an officer of the operational technological management (AWP OTU) equipped with a laptop computer, a small-sized printer, a subscriber unit, main and external telephones (TA) PBX systems, direct dial subscriber line (AL), portable digital signal processing station (DSP) with integrated antenna, semi-telescopic mast and ultra short-wave (VHF) radio station with an antenna connected to it, characterized in that it additionally includes a router, a firewall, a multifunctional terminal device (MTU), two automated workstations for an official (AWP DL) equipped with laptop computers, a navigation receiver GPS / GLONASS, two cable entries, two wired Ethernet lines, the first of which is designed to transmit data to an external control center, and the second to access an external telephone exchange, main and remote telephone IP-telephony devices, five portable radio stations with DSP with integrated antennas, an open telephone switch, a mobile base station with an antenna, two subscriber radio terminals, a main and remote analog two-wire TA automatic telephone exchange systems and two portable radio stations with analog signal processing (AOS) with built-in antennas, while the high-frequency input-output of the satellite communication station is connected to the high-frequency input-output of the antenna system, the channel inputs and outputs of the satellite communication station at the Ethernet interface connected to the first inputs and outputs of the router, the second, third and fourth inputs and outputs of which are connected via Ethernet to the inputs and outputs of the firewall, main IP telephony TA and channel input-output of the sixth portable radio station with DSP, high-frequency input-output which is connected to the built-in antenna, the second and third inputs and outputs of the firewall at the Ethernet interface are connected respectively to the linear input-output of the first encryption unit and to the first input-output of the subscriber unit, the fourth input-output One firewall at the E1 interface is connected to the first channel input-output of the first encryption unit, the second channel input-output of which at the Ethernet interface is connected to the first input-output of the multifunction terminal device, the second input-output of which is connected via Ethernet to the second input-output a subscriber installation, the third and fourth inputs and outputs of the MTU at the Ethernet joints are connected to the inputs and outputs of the AWP OTU laptop computer and the AWP DL laptop computer connected to a small-sized printer, respectively, the second the input / output of the AWP DL portable computer is connected to the input / output of the GPS / GLONASS navigation receiver, the inputs and outputs of the first MTU subscriber set are connected to the inputs and outputs of the main ATC system TA, the inputs and outputs of the second MTU subscriber set are connected to the station inputs and outputs of the first cable input, the linear inputs and outputs of which are connected via the subscriber direct communication line to the inputs and outputs of the remote TA of the PBX system, the fifth MTU input-output at the Ethernet interface is connected to the input-output via the first cable input home of a portable computer of a remote workstation AW DL, the fifth and sixth inputs and outputs of the router at Ethernet joints are connected respectively to the first and second station inputs and outputs of the second cable input, the first, second and third line inputs and outputs of which are connected respectively the first and second Ethernet wire lines and an external telephone apparatus for IP-telephony, a high-frequency input-output of a VHF mobile radio station is connected to a high-frequency input-output of an antenna, and a channel input-output of a VHF mobile radio station and at the junction C1-I is connected to the linear input-output of the second encryption unit, the channel input-output of which at the junction C1-I is connected to the sixth input-output of the MTU, the channel inputs and outputs of the mobile base station are connected to the input-outputs by the Ethernet interface channel sets of the open communication switch, the inputs and outputs of the first and second subscriber sets of which are connected to the input-output of the main analog two-wire TA of the PBX system and to the third station input-output of the second cable input, the third linear input-output of which th connected to the input-output of the analog two-wire remote SLT PBX system; the first, second and third portable radios with DSP with integrated antennas are mounted on a semi-telescopic mast and are designed to increase the range of radio communications by organizing radio signal retransmission, while the channel inputs and outputs of the first and second portable radios are connected to each other at a low frequency, the antenna of the first portable radio station with DSP over the air is connected to the antenna of the first portable radio station with analog signal processing (AOS), the antenna of the second portable radio station with DSP over the air with unified with the antenna of the second portable radio station with AOS, for organizing radio communications between officials when they exit the mobile unit, the antenna of the third portable radio station with DSP is connected via ether to the antennas of the fourth and fifth portable radio stations with DSP, linking the mobile object to the state unified telecommunication network ( ESE) is carried out over the air using the sixth portable radio station with DSP and a similar portable radio station installed on the city automatic telephone exchange (GAT C), the first and second subscriber radio terminals are connected over the air with the antenna of the mobile base station, through which access to other communication channels formed by means of communication installed in the mobile unit is provided. 2. The mobile complex according to claim 1, characterized in that the mobile communication base station contains a controller that manages the subscriber database, provides network management and performs all multisite switching functions according to the TETRA standard protocol, 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 The controller s are connected to the inputs and outputs of the monitor, standard keyboard, and mouse type graphics manipulator, while the fifth inputs and outputs of the controller are channel inputs and outputs of the mobile base station.

Images