RU2621058C1 - Mobile video transmission complex - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: mobile video transmission complex is proposed, comprising: a transmitting antenna system, a transmitter, a signal processing unit with cable inputs including a laptop computer, an information stream coder, a data flow multiplexing unit, a cross board, a modulator, an amplifier with a control unit, a receiving antenna system connected through an active signal divider with receivers, a squarer/multiviewer and a monitor. The complex is equipped with video cameras, the outputs of which are connected to the inputs of a wireless transmission system including a signal processing unit and a power amplifying unit. The signal processing unit contains two modules of 2-channel encoders, a multiplexer, a cross-board and a modulator, each 2-channel encoder module connects two sources of digital video signal via the HD/SD SDI or HDMI interface, signal coding according to the standard MPEG4 AVC and general stream transfer via the ASI interface through the cross-board to the DVB-T modulator control module. In addition, the signal processing unit is equipped with four HDMI connectors, four BNC connectors for connecting HDSDI cameras, and the first television signal processing channel is provided with an additional external analog audio signal input for connecting the service signals. The wireless multi-channel system for receiving and displaying video and audio signals is equipped with two receiving antennas with masts, an active divider, four DVB-T signals, a squarer/ multiviewer for simultaneous displaying video and audio information from several sources, a video audio monitor with an audio channel, an external connection panel, a power supply distributor.

EFFECT: expanding the functionality.

2 dwg

Description

The invention relates to telecommunication complexes that allow for the transmission and reception of discrete (telecode) information in digital format, as well as the translation of encoded video signals with a high degree of protection of the transmitted information and can be widely used in the work of technical broadcasting services, as well as in the operation of special facilities of the Ministry of Defense Russian Federation, Ministry of Civil Defense and Emergencies, Ministry of Internal Affairs of the Russian Federation.

The well-known "Information Transmission and Transmission System", comprising an antenna-feeder unit, mechanically connected to the antenna guidance unit, an information signal distribution unit, a control and monitoring unit, a television (TV) transmitters unit, a local television reception unit, a broadcast and telegraph information reception unit and a block for transmitting broadcasting information, and the inputs and outputs of the antenna-feeder unit are connected to the corresponding outputs, the inputs of the information signal distribution unit, respectively, through a local television reception unit, a TV transmitter unit, a broadcasting and telegraph information reception unit and a broadcasting information transmission unit, channel outputs of the information signal distribution unit are outputs of individual reception channels, while control inputs of the information signal distribution unit, antenna pointing unit and antenna-feeder unit connected to the outputs of the control and monitoring unit, the control inputs of which are connected to the outputs of the antenna guidance unit, information distribution unit signals, and the additional inputs of the information signal distribution block are inputs for connecting external information sources, characterized in that radio stations of special networks and communication lines, a satellite television and radio reception unit are introduced, and additional inputs - outputs of the antenna-feeder block are connected to the corresponding outputs - the inputs of radio stations of special networks and communication lines (SSiLS) and the unit for receiving satellite television and radio broadcasting, the outputs of which are connected to the corresponding and additional inputs - outputs of the distribution block of information signals, and the distribution block of information signals is made in the form of a switching unit for television (TV) information, a switching unit for telegraph and digital information (TLC), a switching unit for broadcasting (RV) information, a storage unit for television information, a unit storing telegraph digital information and a broadcast information storage unit, the information outputs of the TV information switching unit, the TLGC information switching unit and PB information switching boxes are outputs of individual reception channels of an information signal distribution unit, and a TV transmitter unit with a group of inputs is connected to a group of outputs of a TV information switching unit, an input - an output of which is connected respectively to an output - an input of a TV information storage unit, a group of outputs of a local television reception unit connected to the corresponding input groups of the TV information switching unit and the PB information switching unit, the group of inputs and outputs of which is connected to the corresponding by their inputs and outputs of the storage unit of the RV information, the three groups of inputs of the radio stations SS and LAN are connected respectively to the groups of inputs of the switching unit of the TV information, the switching unit of the RV information and the switching unit of the TLC information, the corresponding inputs and outputs of which are connected to the inputs and outputs of the storage unit of the TLC information , the group of outputs of the receiving unit of satellite TV and PB is connected to the corresponding connected inputs of the switching unit of the TV information and the switching unit of the PB information, the corresponding group of inputs of which connected to the corresponding group of inputs of the switching unit of the TV information and the group of outputs of the receiving unit of the RV and TLC information, the group of low-frequency (LF) inputs of the switching unit of the TV information, the switching unit of the TGLC information and the switching unit of the RV information are combined and are the LF inputs of the distribution block of information signals , the control inputs and outputs of the control blocks of the TV information switching unit, the TLC information switching unit and the RV information switching unit are respectively the control inputs and outputs to monitoring the distribution block of information signals.

RF patent for invention №2012142, IPC: Н04В 7/00, publ. 04/30/1994

The well-known "Mobile complex of automation and communication tools" containing a switching subsystem consisting of a switch (router) and a LAN local area network switch, an encryption subsystem consisting of an M-229B-08 product with an encoder, the input of which is connected to the output of the LAN switch, and access to the first input of the switch (router), a voice radio communication subsystem consisting of an ultra-short-wave (VHF) car radio station, wearable VHF radio stations and a GSP mobile terminal or GCK car kit, satellite communications subsystem consisting of a satellite dish and satellite communications kit, the first input-output of which is connected to the satellite antenna input-output, and the second input-output of the switching subsystem (router) of the switching subsystem, the open telephone communications subsystem consisting of mini-telephone exchanges with telephone sets connected to the second input of the switch (router) of the switching subsystem, the base station with DECT standard radiotelephones connected to the PBX, closed telephone subsystem, switching subsystem and a LAN, as well as a transport base, life support subsystem, characterized in that the mobile complex further comprises a video surveillance subsystem consisting of a remote video camera, a transmitter connected to a remote video camera, and a receiver, a video conferencing subsystem consisting of a video conferencing terminal, whose two output / input outputs respectively connected to the first input of the receiver of the video surveillance subsystem and the third input of the LAN switch of the switching subsystem, and the video monitor connected to the VI terminal e-conferencing, an automated workstation for processing video information (ARM-VI) of a data processing subsystem consisting of a server with a video capture card and connected to the server by a monitor and a printer-scanner, the server being additionally connected to the second input-output of the receiver of the video surveillance subsystem and the second input of the LAN switch switching subsystems.

RF patent for ПМ №67741, MPK: G06F 13/00, publ. 10/27/2007

The closest analogue to the proposed technical solution is "Autonomous mobile telecommunications complex" containing a satellite communications station (SS), consisting of a transceiver and antenna system, the high-frequency input-output of which is connected to the high-frequency input-output of the transceiver, a switching unit, (main and remote telephone sets (TA), broadband modem, subscriber lines of telephone encrypted communication and ultra-short-wave (VHF) radio station, the high-frequency input-output of which is connected with a high-frequency input-output antenna, two cable inputs, a signal spectrum analyzer, an SS station control panel, two cryptographic routers, two technological workstations (AWS), two optical cross-channels, two DSL modems, two IP gateways are additionally introduced into it , two electric cross-sections, fiber-optic communication line (FOCL), firewall, main and remote Ethernet switches, multi-function device, two main and two automated workstations for officials (AWP DL) with a connection WEB cameras, a video conferencing unit, a video splitter (splitter), two video monitors, two main and two remote SLTs, a GPS / GLONASS navigation receiver, two-wire telephone lines, a remote controlled high-resolution dome camera, a camcorder with a DVB-T transmitter, Ethernet wired line, service communication equipment and service radio unit, while the channel input-output of the transceiver is connected to the first line input-output of the first cable input, the second line input-output of which is connected to the control the input-output of the transceiver, the first station input-output of the first cable input is connected to the input-output of the signal spectrum analyzer and to the linear input-output of a broadband modem, the input-output of the control station of the CC station is connected to the second station input-output of the first cable input, and the channel input-output of the broadband modem at the Ethernet interface is connected to the first input-output of the first cryptographic router, the second input-output of which at the Ethernet interface is connected to the input-output of the first technological a workstation equipped on the basis of a portable computer (PC), the input of which is connected to the output of the GPS / GLONASS navigation receiver, the third input-output of the first cryptographic router is connected to the first input-output of the multiplexer, the second input-output of which is connected to the first input-output of the first optical cross, the second input-output of which is connected to the third station input-output of the first cable input, the fourth input-output of the first cryptographic router at the Ethernet interface is connected to the first input-output the first DSL modem, the second input-output of which is connected to the first input-output of the first electric cross, the fifth input-output of the first cryptographic router is connected to the first input-output of the first GR-gateway, the second input-output of which is connected to the second input-output of the first electric cross, the third input-output of which at the junction E1 is connected to the sixth input-output of the first cryptographic router, the fourth station input-output of the first cable input is connected to the fourth input-output of the first electric cross-country, the fifth input-output of which is connected to the linear input-output of the first main SLT, the linear input-output of the fiber-optic communication line is connected to the third linear input-output of the first cable input, telephone subscriber lines are connected to the fourth linear input-output of which , the seventh input-output of the first cryptographic router at the Ethernet interface is connected to the first input-output of the second cryptographic router, the second input-output of which at the Ethernet interface is connected to the first input-output m a blackboard, the second input-output of which at the Ethernet interface is connected to the first input-output of the main Ethernet switch, the second input-output of which is connected to the first input-output of a second technological workstation equipped with a PC, the second input-output of which is connected to the input- the output of a multifunction device with the possibility of facsimile exchange, the third input-output of the main Ethernet switch is connected to the first input-output of the first workstation equipped with a PC, the second input-output of which is connected to the WEB-camera, and the fourth the input-output of the main Ethernet switch is connected to the first input-output of the second workstation equipped with a PC, the second input-output of which is connected to the WEB camera, the third input-output of the firewall at the Ethernet interface is connected to the first input-output of the video conferencing unit, the second input-output of which is connected to the first input-output of the video conferencing unit, the second input-output of which is connected to the first input-output of a video splitter, the second and third inputs and outputs of which are connected to the input-outputs of the first and second type, respectively monitors, the fourth input-output of the firewall at the Ethernet interface is connected to the first input-output of the second IP gateway, the second inputs and outputs of which are connected to the first inputs and outputs of the second electrical cross, the second and third inputs and outputs of which are connected to the linear inputs and outputs respectively, of the second and third main SLTs, the fifth input-output of the main Ethernet switch at the Ethernet interface is connected to the first input-output of the second DSL modem, the second input-output of which is connected to the fourth input-output of the second electric cross, the sixth and sixth input-outputs of which are connected respectively to the first and second station inputs-outputs of the second cable input, the sixth input-output of the main Ethernet switch is connected to the first input-output of the second optical cross, the second input-output of which is connected to the third station input-output the second cable input, to the first, second, third, fourth and fifth line inputs and outputs of which are connected, respectively, two-wire telephone lines, subscriber telephone lines, encrypted communication, a high-resolution controllable dome camera, a camcorder with a DVB-T transmitter, and an Ethernet wired line connected to the first input-output of the external Ethernet switch, the second input-output of which is connected to the first input-output of the first remote workstation equipped with a PC the second input-output of which is connected to the WEB-camera, the third input-output of the external Ethernet switch is connected to the first input-output of the second remote AWP DL equipped with a PC, the second input-output of which is connected to the WEB-camera, the second ends are two the telephone wire lines are connected to the line inputs and outputs of the switching unit, the first and second station inputs and outputs of which are connected to the line inputs and outputs of the first and second remote TA, the fourth station inputs and outputs of the second cable input are connected to the first inputs and outputs of the office equipment communication, the second inputs and outputs of which are connected to the first inputs and outputs of the service radio unit, the second inputs and outputs of which are connected to the channel inputs and outputs of the VHF radio station.

RF patent for invention №2550339, IPC: Н04М 3/00, publ. 05/10/2015 g.

The technical result of the mobile video broadcasting complex includes expanding the system’s functionality due to the optimal interaction of all its blocks connected by communication channels, introducing signal processing units and a power amplifier into a wireless transmission system, introducing video and audio signals - an active divider into a wireless multi-channel system for receiving and displaying video and audio signals connected to the antennas, four DVB-T signal receivers, a quad / multi-viewer combining several video signals for demon radio on a single monitor.

This result is achieved due to the fact that the "Mobile video broadcasting complex" contains a transmitting antenna system, a transmitter, a signal processing unit with cable entries, including a laptop computer, an information stream encoding device, a unit for multiplexing an information stream, a cross-board, a modulator, an amplifier with a control unit, a receiving antenna system, connected through an active signal splitter with receivers, a quad / multi-viewer and a monitor. The complex is equipped with a set of cameras, the outputs of which are connected to the inputs of a wireless transmission system, including a signal processing unit and a power amplifier unit. Moreover, the signal processing unit contains two modules of 2-channel encoders, a multiplexer, a cross-board and a modulator, each 2-channel encoder module is used to connect two digital video sources via HD / SD SDI or HDMI, encoding MPEG4 AVC signals and transmitting the general stream via ASI through a cross-board to the DVB-T modulator control module T. In addition, the signal processing unit is equipped with four HDMI connectors, four BNC connectors for connecting (transmitting) video signals from HD SDI cameras, and the first one The television signal processing channel is provided with an additional external input of the analog audio signal “AUDIO” for connecting communication signals. The high-frequency signal is transmitted to the power amplifier from the signal processing unit using a coaxial cable through the N-type connector on the front panel of the unit. The power amplifier is equipped with a modem for monitoring and control from the signal processing unit and a protective element from overheating and from overload. In turn, the wireless multi-channel system for receiving and displaying video and audio signals is equipped with two receiving antennas with masts, an active divider, four DVB-T signal receivers, a quad / multi-viewer, which serves to simultaneously display video and audio information from several sources, a video audio monitor with an audio channel, panel of external connections, power distributor. At the same time, the reception and display system serves to receive DVB-T MPEG4 AVC signals in the UHF range and convert them to digital HDMI and HDSDI, as well as analog CVBS video signals.

All blocks of the mobile video broadcasting complex (both the transmitting part and the receiving part) can be placed in a protective transportation rack case.

"Mobile video broadcasting complex" is represented by drawings, diagrams in figures 1 and 2.

Figure 1 - Mobile video broadcasting complex is a structural diagram of the transmitting part of a simplex 4-channel MKV.

Figure 2 - Mobile video broadcasting complex is a structural diagram of the receiving part of a simplex 4-channel MKV.

According to FIG. 1 and 2, the mobile video broadcasting complex contains: a set of cameras 1 of the FULL HD format, the outputs of which are connected to a wireless transmission system, including a signal processing unit and a power amplifier unit. Video and audio signals from video cameras 1 are fed to the input connectors of the encoders 2 of the signal processing unit. Then, using the multiplexer 3, they are transmitted via the ASI interface through the cross-board 4 to the DVB-T 5 modulator. The modulated signal is transmitted from the output of the DVB-T 5 modulator via the high-frequency SMA connector to the control module of the power amplifier 6, which controls the power amplifier 7 and controls his works. The signals from the output of the power amplifier 7 through the transmitting antennas go to the radio. The wireless transmission system is also provided with a power unit 8 of the transmitting device. Radio signals, using 2-receiving antennas mounted on the masts, and an active divider 9, are received by receivers (receivers) 10 of the video and audio signal receiving system, demodulated, decoded and converted into video and audio signals that are transmitted through the quad / multi-viewer 11 to monitor (or monitors) 12 for visual and auditory perception of information by the operator. The system for receiving video and audio signals is also provided with a power supply 13 of the receiving device.

Thus, all video and audio information from a mobile object (ground, surface, and air) in the ON LINE mode is transmitted via radio waves to the location of the information receiving equipment, and then, if necessary, to the information network 14. Each of the parts of the mobile complex The video broadcast can be stationary or mobile.

The mobile video broadcasting system works as follows: video and audio signals from sources (FULL HD video cameras 1 and built-in or remote microphones) are fed to the input connectors (HD / SD SDI or HDMI interfaces) of the encoders 2 of the signal processing unit, encoded in accordance with the MPEG4 standard AVC and using multiplexer 3 are converted into a digital information stream (ASI interface) and through the cross-board 4 come to the DVB-T 5 modulator.

The DVB-T 5 modulator remultiplexes digital information streams and modulates signals in accordance with the requirements of the DVB-T standard. The modulator also generates a group spectrum of signals in DVB-T format at one or two carrier frequencies in the range 698-850 MHz (or in the range 2300-2700 MHz) for subsequent signal output to the control module of the power amplifier 6 through a high-frequency SMA connector. The power amplifier 6 control module controls the power amplifier 7 and controls its operation. The signals from the output of the power amplifier 7 through the transmitting antennas go to the radio.

Radio signals using 2 active receiving antennas RA-4000 mounted on the masts and an active divider 9 are received by the video and audio signal reception system (DVB-T MPEG4 AVC signal standard, range 698-850 MHz or 2300 - 2700 MHz) and converted to digital HDMI and HDSDI signals, for transmission to digital broadcast networks, as well as to analog CVBS video and audio signals, which are fed to monitors 12 for visual and auditory perception of information by the operator. Thus, all video and audio information from the transmitting part of the MKV mobile object (ground, surface and air) in the ON LINE mode is transmitted to the receiving part of the MKV located at the location of the center for receiving information. Each part of the mobile video broadcasting complex can be stationary or mobile.

The “Mobile Video Broadcasting Complex” proposed as an invention allows the transmission and reception of discrete (telecode) information in digital format, as well as the translation of encoded video signals with an increased degree of protection of the transmitted information and can be widely used in the work of technical broadcasting services, as well as in the operation of special objects of the Ministry of Defense of the Russian Federation, the Ministry of Civil Defense and Emergencies, the Ministry of Internal Affairs of the Russian Federation.

Claims (1)

A mobile video broadcasting complex comprising a transmitting antenna system, a transmitter, a signal processing unit with cable inputs, including a laptop computer, an information stream encoding device, an information stream multiplexing unit, a cross-board, a modulator, an amplifier with a control unit, a receiving antenna system connected via active signal splitter with receivers, quad / multi-viewer and monitor, characterized in that the complex is equipped with a set of video cameras, the outputs of which are connected to the system transmission, including a signal processing unit with cable inputs and a power amplifier, and the signal processing unit with cable inputs contains two 2-channel encoder modules, a DVB-T modulator module, a power amplifier control module, and a cross-board, each 2-channel encoder module it is used to connect two digital video sources via HD / SD SDI or HDMI, to encode signals according to the MPEG4 AVC standard and to transfer the total stream via ASI via a cross-board to the DVB-T modulator module, in addition, the signal processing unit with cable it is equipped with four HDMI connectors, four BNC connectors for transmitting video signals from HD / SD SDI cameras, and one of the television signal processing channels for connecting office communication is provided with an external analog audio signal “AUDIO”, and the high-frequency signal is transmitted to a power amplifier from the signal processing unit with cable entries is carried out using a coaxial cable through the N-type connector on the front panel of the unit, while the power amplifier is equipped with a control unit for its output power and control from the signal processing unit with cable entries, as well as a device for protection against overheating and from power overload, while the multichannel system for receiving and displaying video and audio signals is equipped with two receiving antennas mounted on the masts, an active divider, DVB-T signal receivers, a quad / multiviewer, which serves to simultaneously display video information from several sources, a video monitor with an audio channel, an external connection panel, a power distributor, while multi-channel systems receiving and displaying video and audio signals used for receiving DVB-T MPEG4 AVC standard signals in the UHF band and converting them into digital HD / SD SDI or HDMI, CVBS and analog video signals.

Images