RU2609667C2 - Mobile multifunctional hardware communication - Google Patents

Abstract

FIELD: physics, communications.

SUBSTANCE: invention relates to communication systems and telecommunication and can be used as mobile multifunctional hardware communication, designed for self-contained operation in field conditions. The technical result is broader functional capabilities of hardware and providing, along with known classes and types of communication, video surveillance and videoconferencing between subscribers on an area without communication equipment, when conducting various events and eliminating consequences of emergency situations, achieved due to that the mobile multifunctional hardware communication consists of a satellite communication (SC) station, which includes an antenna, a receiver, a transmitter, an antenna control controller, an intermediate frequency divider, an adder, a signal spectrum analyser, a satellite modem and a converter, a DECT system base station with an antenna, a public communication automatic telephone station (ATS), a router, an automated workstation of the public communication operator, a multifunctional device, a public communication telephone apparatus, a navigation receiver with a built-in antenna, two media converters, encryption equipment, a local area network switch, a videoconferencing unit, a videoconferencing monitor, an automated workstation of an operational communication operator, a printer, an operational communication ATS, a DSL modem, an interface controller for a G.703 interface, an automated workstation of a video surveillance operator, a video surveillance system, a rotating video camera, a video monitor, lines from remote video cameras, a remote videoconferencing unit, two receivers of small-size video cameras with remote antennae, a cable input, subscriber lines for operational telephone communication, Ethernet wire lines, DSL wire lines, G.703 interface wire lines, an open telephone communication subscriber line, a remote SC station set, comprising a converter, a SC station transceiver and an antenna, a portable Inmarsat system radio station with a built-in antenna, a loudspeaker communication system, which includes a loudspeaker communication radio station with a built-in antenna, a signalling loudspeaker device and a loudspeaker intercom.

EFFECT: invention widens functional capabilities of hardware communication and provides video surveillance and video conferencing between subscribers.

1 dwg

Description

The invention relates to techniques for communication systems and telecommunications and can be used as a mobile multifunctional hardware communication device intended for stand-alone operation in the field.

The solution of the issues of providing communications of the events held in various conditions is one of the urgent tasks in the daily activities of officials.

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, the development experience of recent years shows that the most effective is the creation and joint use of communication systems and equipment installed in one facility and designed to solve certain problems in the complex.

Of particular difficulty is the problem of providing communications to officials who are not equipped with regard to telecommunication systems and communications, during various events and in response to emergency situations.

The aim of the invention is the creation of mobile multifunctional hardware communication, which provides, along with well-known types and types of communication, video surveillance and video conferencing between subscribers located in the territory that is not equipped with regard to communication, during various events and in response to emergency situations.

This goal is achieved in that the mobile multifunctional hardware communications system consists of a satellite communications station (SS), which includes an antenna, receiver, transmitter, antenna control controller, intermediate frequency divider (IF), adder, signal spectrum analyzer, satellite modem and converter, DECT system base station with antenna, automatic telephone exchange (PBX) for open communications, router, workstation (AWS) of open communications operator, multifunction device (MFP), telephone open communication device (TA), a navigation receiver with a built-in antenna, two media converters, encryption equipment, a local area network (LAN) switch, a videoconferencing unit (VKS), a VKS monitor, an operator of an operative communication system, a printer, a telephone exchange of operational communications, a DSL modem , an interface controller for the G.703 interface, an automated workstation of a video surveillance operator, a video surveillance system, a rotary video camera, a video monitor, lines from remote reportable video cameras (RVC), an external video conferencing unit, two small-sized video receivers p (MVK) with remote antennas, cable entry, subscriber lines (AL) for telephone communications, Ethernet wired lines, DSL wire lines, G.703 wired lines, open telephone communication AL, remote station station kit containing a converter, transceiver SS stations and an antenna; a portable radio station of the Inmarsat system with a built-in antenna; a speakerphone system including a speakerphone with a built-in antenna; a signaling speakerphone and a speakerphone In this case, the high-frequency input of the receiver of the satellite communication station is connected to the high-frequency output of the antenna, the high-frequency input of which is connected to the high-frequency output of the transmitter of the station, and the control input-output of the antenna is connected to the input-output of the antenna control controller, the output of the receiver is connected to the input of the intermediate frequency divider ( IF), the first output of which is connected to the input of the signal spectrum analyzer, the second output of the IF divider is connected to the input of the satellite modem, the output of which is connected through the adder with the input of the transmitter, the third output of the IF divider is connected to the input of the converter, the output of which is connected to the second input of the adder, the input-output of the satellite modem at the Ethernet interface is connected to the first input-output of the router, the second input-output of which is connected via Ethernet to the first line input - open exchange PBX output, the channel input-output of which is connected to the input-output of the base station of the DECT system, the high-frequency input-output of which is connected to the high-frequency input-output of the station antenna, the third input-output of the router The Ethernet link is connected to the first input-output of the open communication operator's workstation, the second input-output of which is connected via USB to the first input-output of the MFP, the second input-output of which is connected at the FXS interface to the first subscriber input-output of the open exchange telephone exchange, the second subscriber the input-output of which at the FXS interface is connected to the linear input-output of an open communication telephone set, the third input-output of the open communication operator's workstation is connected to the input-output of the navigation receiver with a built-in antenna, and the fourth input-output of the router is at the Eth interface ernet is connected to the first input-output of the first media converter, the second input-output of which is connected via an optical fiber cable (FOC) to the optical input-output of the second media converter, the second input-output of which is connected via Ethernet to the first input-output of the encryption equipment, the second the input-output of which at the Ethernet interface is connected to the first input-output of the LAN switch, the second input-output of which at the Ethernet interface is connected to the first input-output of the videoconferencing unit, the second input-output of which is connected via an HDMI interface to the monitor input-output VKS, the third input-output of the LAN switch at the Ethernet interface is connected to the first input-output of the workstation of the operator of operational communications, the second input-output of which is connected via USB to the printer input-output, the second line inputs and outputs of the open exchange telephone exchange at the FXS interface are connected to the first station inputs and outputs of the cable input, the second station inputs and outputs of which are connected via Ethernet to the fifth inputs and outputs of the router, the fourth input and output of the LAN switch is connected to the line input-output of the automatic telephone exchange, subscriber inputs - the outputs of which at the junction of the FXS are connected to the third station input-output cable input, the fourth station input-output of which is connected to the fifth input-output of the LAN switch, the sixth input-output of the router at the V.35 interface is connected to the first input-output of the DSL modem, the second input-output of which at the junction E1 is connected to the fifth station input-output of the cable input, the input of the video conferencing unit is connected to the first output of the video surveillance system, the second output of which is connected to the input of the video monitor, and the first, second and third inputs of the video system observations are connected to the outputs of the PTZ camera, the first and second receivers of small-sized cameras with external antennas, the sixth input-output of the LAN switch at the Ethernet interface is connected to the first input-output of the video surveillance operator's workstation, the second input-output of which is connected to the first input-output of the video surveillance system the second inputs and outputs of which, through lines from remote reporting cameras, are connected to the inputs and outputs of the remote video conferencing unit, the sixth station inputs and outputs of cable the inputs through the interface controller for the G.703 interface are connected to the seventh input-output of the router, and the first, second, third, fourth, and fifth line inputs and outputs of the cable input are connected to the AL inputs and outputs of the telephone line, Ethernet wired lines, DSL wired lines , wire lines at the junction of G.703 and AL of open telephone communication, the input-output of the converter of the satellite communication station is connected via fiber-optic cable to the first input-output of the converter of the remote set of station CC, the second input-output of which is soy dinene with a channel input-output of a transceiver, the high-frequency input-output of which is connected to the high-frequency input-output of an antenna of a remote satellite communication station, while the operators of the hardware-based workstation have the ability, using a portable radio station of the Inmarsat system with a built-in antenna, to conduct telephone communications with remote subscribers via the satellite of the indicated Inmarsat system, and using the above-mentioned speakerphone system, carry out radiotelephone communication between the equipment room and the radiotelephone subscribers and located outside the hardware address and notification subscribers near the hardware.

The drawing shows a structural electrical diagram of a mobile multifunctional hardware communication.

The mobile multifunctional hardware communication station contains a satellite communication station consisting of an antenna 1, a receiver 2, a transmitter 3, an antenna control controller 4, an intermediate frequency divider 5, an adder 6, a signal spectrum analyzer 7, a satellite modem 8 and a converter 9, a base station 10 DECT systems with antenna 11, automatic telephone exchange 12 open communication, router 13, AWP 14 open communication operator, multifunction device (MFP) 15, open telephone telephone 16, navigation receiver 17, first 18 and second 19 media converters, apparatus encryption tour 20, local area network (LAN) switch 21, video conferencing (VKS) block 22, VKS 23 monitor, 24 operator telecom operator AWP, 25 printer, 26 automatic telephone exchange 26, DSL modem 27, interface controller 28 for G.703 interface , AWP 29 of a CCTV operator, a video surveillance system 30, a rotary video camera 31, a video monitor 32, a line 33 from an external reportable video camera (RVC), an external video communication unit 34, the first 35 and second 36 receivers of small-sized video cameras (MVK) with external antennas, cable entry 37 , subscriber lines (AL) 38 operational t telephone communication (OTC), wire lines 39 Ethernet, wire lines 40 DSL, wire lines 41 at the junction G.703, AL 42 open telephone connection, remote set of station CC, consisting of a converter 43, transceiver 44 station SS and antenna 45, portable a radio station 46 of the Inmarsat system with a built-in antenna, a speakerphone system including a radio speaker 47 of a speakerphone with a built-in antenna, a signal speakerphone 48, and a speakerphone 49.

The high-frequency input of the receiver 2 of the satellite communication station is connected to the high-frequency output of the antenna 1, the high-frequency input of which is connected to the high-frequency output of the transmitter 3 of the station, and the control input-output of the antenna 1 is connected to the input-output of the antenna control controller 4, the output of the receiver 2 is connected to the input of the divider 5 intermediate frequency (IF), the first output of which is connected to the input of the signal spectrum analyzer 7, the second output of the IF divider 5 is connected to the input of the satellite modem 8, the output of which through the adder 6 is connected to transmitter house 3. The third output of the IF divider 5 is connected to the input of the converter 9, the output of which is connected to the second input of the adder 6, the input-output of the satellite modem 8 at the Ethernet interface is connected to the first input-output of the router 13, the second input-output of which is at the Ethernet interface connected to the first linear input-output of the open exchange PBX 12, the channel input-output of which is connected to the input-output of the base station 10 of the DECT system, the high-frequency input-output of which is connected to the high-frequency input-output of the antenna 11 of the station, the third input-output of the router RA 13 at the Ethernet interface is connected to the first input-output AWP 14 of an open communication operator, the second input-output of which at the USB interface is connected to the first input-output of the MFP 15, the second input-output of which at the FXS interface is connected to the first subscriber PBX input-output 12 open communication, the second subscriber input-output of which at the FXS interface is connected to the linear input-output of the open telephone telephone 16, the third input-output AWP 14 of the open communication operator is connected to the input-output of the navigation receiver 17 with a built-in antenna.

The fourth input-output of the router 13 at the Ethernet interface is connected to the first input-output of the first 18 media converter, the second input-output of which is connected via the fiber-optic cable (FOC) to the optical input-output of the second media converter 19, the second input-output of which is at the Ethernet interface connected to the first input-output of the encryption equipment 20, the second input-output of which at the Ethernet interface is connected to the first input-output of the LAN switch 21, the second input-output of which is connected via Ethernet to the first input-output of the VKS unit 22, the second input is od of which is connected to the junction of the HDMI input-output monitor 23 videoconferencing. The third input-output of the LAN switch 21 at the Ethernet interface is connected to the first input-output of the workstation 24 of the operator of operational communications, the second input-output of which is connected via USB to the input-output of the printer 25.

The second line inputs and outputs of the open exchange PBX 12 at the FXS interface are connected to the first station inputs and outputs of the cable entry 37, the second station inputs and outputs of which at the Ethernet interface are connected to the fifth inputs and outputs of the router 13. The fourth input-output of the LAN switch 21 is connected to a line input-output of the exchange ATS 26, the subscriber inputs-outputs of which at the junction of the FXS are connected to the third station inputs and outputs of the cable input 37, the fourth station input-output of which is connected to the fifth input-output of the switch 21 LAN. The sixth input-output of the router 13 at the V.35 interface is connected to the first input-output of the DSL modem 27, the second input-output of which at the E1 interface is connected to the fifth station input-output of the cable input 37.

The input of the videoconferencing unit 22 is connected to the first output of the video surveillance system 30, the second output of which is connected to the input of the video monitor 32, and the first, second and third inputs of the video surveillance system 30 are connected to the outputs of the rotary video camera 31, the first 35 and second 36 receivers of small-sized video cameras with external antennas . The sixth input-output of the LAN switch 21 is connected via Ethernet to the first input-output of the video surveillance operator 29, the second input-output of which is connected to the first input-output of the video surveillance system 30, the second input-output of which is connected via lines 33 from remote report cameras to the inputs and outputs of the remote unit 34 video conferencing.

Six station I / O cable entry 37 through the interface controller 28 for the G.703 interface are connected to the seventh input-output of the router 13, and AL 38 inputs and outputs are connected to the first, second, third, fourth and fifth line inputs-outputs of the cable input 37 telephone line, wired lines 39 Ethernet, wire lines 40 DSL, wire lines 41 at the junction of G.703 and AL 42 open telephone.

The input-output of the converter 9 of the satellite communication station is connected via a fiber-optic cable to the first input-output of the converter 43 of the remote set of the CC station, the second input-output of which is connected to the channel input-output of the transceiver 44, the high-frequency input-output of which is connected to the high-frequency input the antenna output 45 of the remote satellite communications station.

At the same time, the operators of the hardware workstation have the ability to use the portable radio station 46 of the Inmarsat system with an integrated antenna for conducting telephone communications with remote subscribers via the satellite of the specified Inmarsat system, and using the aforementioned speakerphone system, which includes the radio station 47 of the speakerphone with the built-in antenna, signaling loud-speaking device 48 and loud-speaking intercom 49, to carry out radiotelephone communication between the equipment room and subscribers of radiotelephone communication, finding outside the equipment room, loud-speaking communication and notification of subscribers located near the equipment room.

Satellite communications station consisting of antenna 1, receiver 2 and transmitter 3, antenna control controller 4, IF divider 5, adder 6, signal spectrum analyzer 7, satellite modem 8 and converter 9 are 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 transfer on channels with a bandwidth 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 when operating in continuous mode.

Antenna 1 of a satellite communication station is a transceiver antenna, which is a single-mirror parabolic antenna, consisting of a mirror with an irradiating system, a rotary support device and guidance equipment.

The receiver 2 of the SS station is designed to pre-amplify the received high frequency signals, convert the signals to an intermediate frequency (IF) and transmit them through a divider 5 to the modem 8 demodulator for subsequent processing. It includes a low-noise amplifier, switchgear, frequency converters and components of the inverter path, control and interface unit.

The transmitter 3 of the SS station is designed to generate a high-frequency signal with specified parameters and its amplification to the required power level. The transmitter 3 contains an inverter, an exciter and a power amplifier.

The antenna control controller 4 is intended for automatically pointing the antenna 1 to the satellite and its tracking.

The IF divider 5 is designed to separate the received intermediate frequency signal and transmit the signals to the inputs of the spectrum analyzer 7, satellite modem 8, and to the transceiver of the remote set of the satellite communications station.

The adder 6 is intended for combining the signals coming from the modem 8 and the converter 9 into one signal for subsequent transmission to the input of the transmitter 3 of the SS station.

The signal spectrum analyzer 7 is an analyzer of interface telecommunications signals transmitted via satellite. It is designed to configure, control and diagnose channels and paths of networks with various interfaces. Setting of operating modes and monitoring of measurement processes is carried out using a button keyboard and a liquid crystal display. As such a device, a spectrum analyzer of the Avcom PSA-2150C type can be used.

Satellite modem 8 is a device that is designed to convert analog signals into digital form and ensure operation via standard channels of a satellite communications station through an interface at the RS-232 interface. As such a block, a modem with a transmission speed of 9600 bit / s of the type “Modem-9600” or a transceiver-satellite modem of the VSAT system can be used.

Converter 9 is designed to convert the interface of the E1 standard of wire lines to the interface of the standard for the joint operation of the main and remote sets of satellite communications stations.

The base station 10 of the DECT system, together with antenna 11, refers to a broadband wireless access (BWA) system based on the IEEE 802.16-2004 recommendation, which provides operation in the microwave range with a bandwidth of up to 30 Mbps and the transmission of digital information streams via the Ethernet interface. This system is designed to build wireless networks for corporate users, create carrier networks of high-speed Internet access, connect WiFi access points, organize video surveillance and telephony services (based on VoIP), organize temporary mobile wireless networks for online response services. Base station 10 includes remote transceivers consisting of an access module, a modem unit, transceiver modules, and sector antennas.

As the base station 10 of the DECT system, a station of the DECT 4070 EO-RF type with an external antenna can be used.

The telephone exchanges of open 12 and operational 26 communications are of the same type, each of them contains a block of sets of four-wire subscriber lines, a block of sets of four-wire trunk lines, a block of a switching field, a control device, a block of channel sets, an IP server and a local area network switch ( LAN).

Telephone exchange 12 is intended for switching and encoding voice information from telephone sets, including DECT standard cordless telephones, for transmission over open communication channels formed by a satellite communication station and a DECT system base station. As such a station, the OmniPCX Office RCE Small IP PBX can be used.

Router 13 is designed to transmit packets between satellite and radio networks in accordance with specific protocol stacks. The router provides routing and transmission of traffic at the Ethernet interface through the channels of satellite communication networks and the base station 10 of the DECT system, as well as the reception and transmission of traffic from an external public communication network.

As the specified router 13 can be used a router company "NETRIX" type IP Network Exchange 2210, the capabilities of which are given in [3].

As a router 13, a router containing a set of network modules, for example, the CISCO 2801 series, which are used as routers / access servers and single platforms with built-in fiber-optic modems and HDSL modems, can also be used. These routers can work both with each other and as a response device for DXC multifunction access nodes. Along with routing and distribution of the call flow, routers of this type verify user identifiers and collect data on packet transmission over the network for analysis, thereby providing protection against failures. Such a router makes it possible to provide not only standard services traditional for routers of this class, but also new ones associated with packet telephony and the “intelligent services” system.

The automated workstation (AWP) of the open communication operator 14 is equipped on the basis of a laptop computer such as a laptop. It is intended for processing documents and transmitting / receiving formalized documents through open channels and communication lines. As such a computer, a Toshiba laptop can be used, which includes a system unit, a keyboard, a graphic mouse type mouse and related software, or a portable laptop type NP300E7Z-S01RU.

A multifunction device (MFP) 15 is a device that combines the functions of a printer, copier, scanner and fax machine sheets of A4 size. As such a device, an MFP of the type KX-MB1530RU can be used.

The telephone 16 is designed to conduct open telephone exchange through the telephone exchange 12 through the satellite channels and channels of the base station 10 of the DECT system formed in the hardware communication. As such an apparatus can be used TA type KX-TS2350RU.

The navigation receiver 17, in combination with the portable computer AWP of the open communication operator 14, 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 motion path of the mobile multifunctional hardware communication with the geometry of the roads encoded in digital card database, information exchange with external devices via RS-232 interface. The navigation receiver 17 receives data from the global GPS or GLONASS satellite system, which is designed for high-precision determination of the three location coordinates that make up the velocity and time vectors of various moving objects with their display on the screen of a laptop computer and the hardware binding to a single navigation system. As such a unit, a GPSmap 267 s navigation receiver can be used.

The first 18 and second 19 media converters are designed for galvanic isolation of operational LAN circuits from channel-forming equipment. They convert the signal propagation medium from one type to another, including the signal from copper wires to optical cables, that is, the media converter is the link between the two propagation media - optical and copper cables when connecting communication channels, encryption equipment, routing devices 13 and switching 21.

The encryption equipment 20 is designed to protect the transmitted information and data coming through the local area network for transmission over communication channels from interception and input of false information. As a protection device for information transmitted via communication channels, the crypto-TCP / IP encryptor of data transmitted in the TCP / IP network can be used. The specified data encoder is a hardware-software complex based on a personal computer such as IBM PC 486, Pentium and equipped with a touch-memory device to prevent unauthorized loading of the operating system. The complex provides data encryption and authentication with verification of the integrity of the transmitted information. The hardware-software complex is running the FreeBSD operating system and provides an exchange rate of 10 Mbps. The Ethernet protocol is used as the network interface.

LAN switch 21 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 interface between officials' workstations and via communication channels. The specified switch has a media converter that converts the signal propagation medium from one type to another, including the signal from copper wires to optical cables, that is, the media converter is the link between the two propagation media - optical and copper cables.

As switch 21, a SKM-8 mobile network switch, type commercially available by the industry, developed by SISTEMPROM OJSC [105066, Moscow, ul. N. Krasnoselskaya, building 13, p. 1]. The specified switch complies with the IEEE 802.3u Fast Ethernet 10/100 Base T / TX Switch standard, has a 10/100 Base T / TX network interface (eight ports with 10TV PC connectors) and a configuration port for working with VLAN (virtual LAN), provides duplex and half duplex modes of operation, supports automatic detection of the transmission rate of 10/100 Mbit / s half / full duplex.

The video conferencing system of mobile multifunctional hardware communication includes a video conferencing unit 22 (VKS) monitor 23 VKS.

Block 22 videoconferencing is the basis of a video conferencing system. It is designed to organize video conferencing with high image quality by combining together the transmission of excellent sound quality, high-resolution video and data for video conferencing from two or more participants. As such a unit, the Cisco SX20 Quick Set HD or the Polycom HDX 8000-1080 can be used.

As a WEB-camera for video conferencing, you can use a SONY video camera or an ISD-VPH series WEB-camera of the Logitech HD Webcam C270 type, which are designed to exchange video images in a video conferencing network.

As a 23 VKS monitor, a 32 inch LED monitor of the 5 Full HD UE32EH5040W series can be used.

The automated workstation (AWP) of the 24 operational communications operator is equipped with a laptop-type laptop computer. It is intended for processing documents and transmitting / receiving them over open channels and communication lines. As such a computer, a Toshiba laptop can be used, which includes a system unit, a keyboard, a graphic mouse type mouse and related software, or a laptop type NP300E5C-A01RU.

The printer 25 is designed for printing developed documents and received data through communication channels. As such a printer, a small-sized laser printer such as the HP Laser Jet 1020 can be used.

Telephone exchange 26 together with a router 13 and a LAN switch 21 is designed to create in the field an automated communication network with circuit switching of channels and packets. It provides:

1) the formation of a telephone network with cryptographic protection of the transmitted information through the channels and digital paths of the packet-switched network at various speeds, the integration of types of information exchange (speech, data, email) with the cryptographic protection of the transmitted information;

2) deployment of a subscriber network using four-wire, two-wire telephones and a network using IP phones;

3) connection of manual and automatic telephone exchanges of a similar purpose.

As a telephone exchange 26 for operational communications, an IP-PBX Agat UX-2211 can be used.

DSL modem 27 is designed to transmit information over long distances, inaccessible to local area networks, using dedicated and switched telephone lines. The modulator converts binary information from computers into analog signals with frequency and / or phase modulation, the spectrum of which corresponds to the bandwidth of conventional voice telephone lines. A demodulator from this signal extracts the encoded binary information and transfers it to the receiving computer AWP operator 14 open communication.

The modem during the communication session can operate in simplex, duplex and half duplex mode. To increase the effective speed, various methods of information compression are used, implemented both by the modem itself and by communication software.

As a DSL modem 27, a well-known Watson type DSL modem can be used.

The G.703 interface interface controller 28 is designed to convert the E1 standard interface to the V.35 standard interface and receive signals from the line to the router 13.

As a laptop computer for the workstation of the operator of the video surveillance system 29, a personal electronic computer (PC) such as a laptop can be used, for example, a portable EU 1866 developed by NITSEVT OJSC (Moscow), or a laptop such as NP300E7Z-S01RU, with which monitoring and control of the video surveillance system.

The laptop computer of the operator 29 of the video surveillance system contains a system unit consisting of a motherboard on which the microprocessor, system bus, random access memory (RAM), reprogrammable read-only memory (ROM) and keyboard controller, also consisting of a monitor adapter, port adapter, are located , disk controller, controller of additional devices, hard magnetic disk, floppy disk drive, system software and with etsialnoe application software supplied on a hard disk drive, and includes a display with a plasma screen, QWERTY keyboard and a graphical pointing device such as a "mouse".

The video surveillance system 30 is designed to record video and sound from a PTZ camera 31 and remote cameras 34, from receivers 35 and 36 of small-sized video cameras in real time, archived and played back on demand, including remotely via a satellite communications channel.

The PTZ camera 31 is designed for video recording of events near mobile multifunctional hardware communication with the ability to remotely control the camera by the video surveillance operator AWP 29. The camcorder 31 is also controlled from the control panel.

Video monitor 32 is designed to display video information coming from the output of the video surveillance system 30. As such a video monitor 32, a 27 inch Syns Master S27A550H type video monitor may be used.

As a video monitor 32, a video monitor of the aforementioned Polycom company can be used, which provides the ability to work with the highest quality video and sound, as well as transmit data in accordance with high definition (HD) standards. As the video monitor 32, a liquid crystal monitor can also be used, for example a monitor of the type TV BORK LT SSN1710SI.

Lines 33 from remote video cameras 34 are intended for transmission to the video surveillance system 30 of image and sound over wired lines.

Remote video cameras 34 are mobile reportable video cameras with transmitters, for example with DVB-T transmitters. They are designed to organize video broadcasting from the territory near the hardware connection. Remote cameras 34 are connected to the video surveillance system 30 by means of lines 33, which are made using a two-wire twisted pair cable. As such video cameras, video cameras of the ISE-30 / 36ZWDN650FD type can be used.

The first 35 and second 36 receivers of small-sized video cameras with remote antennas are designed to receive images and sound from remote mobile video cameras over the air.

Cable entry 37 contains connecting and switching elements to which subscriber and wire lines from consumers are connected using cable connectors. It is intended for distribution and switching of information and control circuits to the equipment and equipment of mobile multifunctional hardware communication. Structurally, the cable entry 37 is made according to the well-known scheme in accordance with the industry standard.

Subscriber telephone lines 38, wire lines 40, intended for organizing communication directions using DSL technology, and wire lines 41 at the G.703 interface are made using a multicore (multi-pair) field distribution cable with a quadruple structure of type P-269M-2 × + 1 × 2.

The wired 39 Ethernet lines are made using a cable with twisted-pair copper conductors.

Subscriber lines 42 are designed to deploy a telephone network of open communication. They can be performed using a multicore field cable with a four-structure like P-269M-4 × 4 + 2 × 2.

A remote set of a satellite communication station, including a converter 43, a transceiver 44, and a remote antenna 45, is intended for organizing a satellite communication network when the mobile multifunctional hardware communication is only in the parking lot.

The portable radio station 46 of the Inmarsat system with a built-in antenna belongs to the personal satellite communication system and is intended to provide telephone communication operators via the satellite of the Inmarsat system. An Inmarsat IsatPhone Pro terminal with IsatDock DRIVE docking station can be used as such a station.

A speakerphone system including a speakerphone radio 47 with a built-in antenna, a speakerphone 48, and a speakerphone 49 is intended for speakerphone and alert people in the area near the hardware.

In this case, the radio station 47 is intended for the organization of radiotelephone communication between the equipment room and remote subscribers of radiotelephone communication. As such a station, a Motorola XTL-1500 car radio station with an external antenna can be used.

As a signal loud-speaking device 48, an SSU Elect-Veteran SSU-200-2 device can be used, which is intended for conducting loud-speaking communication and notification near the equipment room.

As a loud-speaking intercom 49, a Getcall-GC-6004C1 type intercom can be used, which is designed for two-way communication between the driver and the passenger compartment of the vehicle.

Mobile multifunctional hardware communication provides the following types and modes of operation:

1) the organization of satellite and radio communications networks with the possibility of transmitting various types of information via channels, including the transmission of telephone messages and data;

2) access to the personal satellite communication network of the Inmarsat system and conducting telephone communications through the satellite of the Inmarsat system;

3) deployment of telephone networks of operational and open communication;

4) the organization of video conferencing, video broadcasting and video surveillance with high image quality, displaying video on monitors and during video conferencing;

5) processing of documents and their transmission / reception via open and operational telephone communications;

6) access to automatic open telephone communication using a separate telephone set;

7) maintaining an automatic secure operational telephone service for subscribers with access to the departmental network;

8) exchange of electronic correspondence;

9) the organization of video surveillance of the territory near the hardware connection, the recording of video and sound from external video cameras in real time, the storage of information in the archive and playback on demand, including remotely via a satellite communication channel;

10) the organization of radiotelephone communications between hardware communications and remote subscribers of radiotelephony communications, speakerphone communications and alerts near the equipment room;

11) connection to automatic telephone exchanges of DECT standard telephone sets using the base station of the DECT system;

12) support for a single time service, determining the coordinates of one’s location, displaying on an electronic map of the workstation of an open communication operator in real time a graphical digital information of coordinates, route and movement parameters of mobile hardware using a navigation receiver.

The technical efficiency of the present invention consists in expanding the functionality of a mobile multifunctional hardware and providing, along with well-known types and types of communication, video surveillance and video conferencing between subscribers located in the territory not equipped with regard to communication during various events and emergency response.

Information sources

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

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

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

Claims (1)

Mobile multifunctional hardware communication system, consisting of a satellite communications station (SS), including an antenna, receiver, transmitter, antenna control controller, intermediate frequency divider (IF), adder, signal spectrum analyzer, satellite modem and converter, a DECT system base station with open communication antenna, automatic telephone exchange (PBX), router, workstation (AWS) of open communication operator, multifunctional device (MFP), open telephone telephone (TA), nav a receiver with a built-in antenna, two media converters, encryption equipment, a local area network (LAN) switch, a video conferencing unit (VKS), a VKS monitor, an operator’s workstation operator, a printer, a telephone exchange, a DSL modem, and a G.703 interface interface controller , Workstation of a video surveillance operator, a video surveillance system, a rotary video camera, a video monitor, lines from external reportable video cameras (RVC), an external video conferencing unit, two small-sized video camera (MVK) receivers with external antennas, a cable direct input, subscriber lines (AL) for telephone services, Ethernet wired lines, DSL wired lines, G.703 wired lines, open telephone AL, remote station CC kit containing a converter, a CC station transceiver and an antenna, a portable radio system Inmarsat with a built-in antenna, a speakerphone system including a speakerphone with a built-in antenna, a signaling speakerphone and a speakerphone, with a high-frequency input the receiver of the satellite communication station is connected to the high-frequency output of the antenna, the high-frequency input of which is connected to the high-frequency output of the transmitter of the station, and the control input-output of the antenna is connected to the input-output of the antenna control controller, the output of the receiver is connected to the input of the intermediate frequency divider (IF), the first output which is connected to the input of the spectrum analyzer, the second output of the IF divider is connected to the input of the satellite modem, the output of which through the adder is connected to the input of the transmitter, the third output is frequency converter is connected to the input of the converter, the output of which is connected to the second input of the adder, the input-output of the satellite modem at the Ethernet interface is connected to the first input-output of the router, the second input-output of which at the Ethernet interface is connected to the first linear input-output of the public switched telephone exchange, the channel input-output of which is connected to the input-output of the base station of the DECT system, the high-frequency input-output of which is connected to the high-frequency input-output of the antenna of the station, the third input-output of the router at the Ethernet interface is connected to the first input-you an automated workstation of an open communication operator, the second input-output of which is connected via USB to the first input-output of the MFP, the second input-output of which is connected to the first subscriber input-output of an open exchange telephone exchange at the FXS interface, the second subscriber input-output of which is at the FXS interface connected to the linear input-output of an open communication telephone set, the third input-output of an open communication operator workstation connected to the input-output of the navigation receiver with a built-in antenna, the fourth input-output of the router connected via Ethernet to the first input-output the first media converter, the second input-output of which is connected via the fiber-optic cable (FOC) to the optical input-output of the second media converter, the second input-output of which is connected via Ethernet to the first input-output of encryption equipment, the second input-output of which is via Ethernet connected to the first input-output of the LAN switch, the second input-output of which at the Ethernet interface is connected to the first input-output of the VKS unit, the second input-output of which is connected via the HDMI interface to the input-output of the VKS monitor, the third input-output of the switch A VS at the Ethernet interface is connected to the first input-output of the operator of the operational communication operator, a second input-output of which at the USB interface is connected to the printer input-output, the second line inputs and outputs of the public switched telephone exchange at the FXS interface are connected to the first station cable-entry inputs and outputs , the second station I / O of which is connected at the Ethernet interface to the fifth inputs and outputs of the router, the fourth input-output of the LAN switch is connected to the line input-output of the automatic telephone exchange, the subscriber inputs and outputs of which are connected at the FXS interface with third station cable-entry inputs / outputs, the fourth station input-output of which is connected to the fifth input-output of the LAN switch, the sixth router input-output at the V.35 interface is connected to the first DSL modem input-output, the second input-output of which is at the interface E1 is connected to the fifth station input-output of the cable input, the input of the videoconferencing unit is connected to the first output of the video surveillance system, the second and output of which is connected to the video monitor input, and the first, second and third inputs of the video surveillance system are connected to the outputs of the co respectively, of a rotary video camera, the first and second receivers of small-sized video cameras with external antennas, the sixth input-output of the LAN switch is connected via Ethernet to the first input-output of the workstation of the video surveillance operator, the second input-output of which is connected to the first input-output of the video surveillance system, the second inputs are the outputs of which, via lines from remote reporting cameras, are connected to the inputs and outputs of the remote unit of video conferencing, the sixth station inputs and outputs of cable input via an interface controller for the G.703 junction, they are connected to the seventh input-output of the router, and the first, second, third, fourth and fifth line inputs and outputs of the cable input are connected to the AL inputs and outputs of the telephone line, Ethernet wired lines, DSL wired lines, wired lines through to the junction of G.703 and AL of open telephone communication, the input-output of the converter of the satellite communication station is connected via fiber-optic cable to the first input-output of the converter of the remote set of station CC, the second input-output of which is connected to the channel input-output of and a transmitter whose high-frequency input-output is connected to the high-frequency input-output of an antenna of a remote satellite communication station, while the operators of the hardware-based workstation have the possibility, using a portable radio station of the Inmarsat system with a built-in antenna, to conduct telephone communications with remote subscribers via the satellite of the specified Inmarsat system, and using the aforementioned speakerphone system, to carry out radiotelephone communication between the equipment room and the radiotelephone subscribers outside the equipment room, Talking communication and notification of subscribers located near the equipment room.

Images