CN202385225U - Portable wireless high-definition image transmission system - Google Patents

Abstract

The utility model discloses a portable wireless high-definition image transmission system. The portable wireless high-definition image transmission system comprises an image acquisition interface, an image compression module, a COFDM (coded orthogonal frequency division multiplexing) wireless transmitting end module, a COFDM wireless receiving end module, an image decoding module and a video output interface, wherein the image acquisition interface is connected with the output terminal of a CCD/CMOS (charge coupled device/complementary metal-oxide-semiconductor transistor) sensor or camera equipment. The portable wireless high-definition image transmission system provided by the utility model can realize long-distance 720P high-definition image transmission under limited wireless bandwidth, and the transmitting end device has the advantages of light weight, low power consumption and so on, thereby facilitating extension application on mobile equipment with limited carrying capacity.

Description

Portable mobile wireless high-definition image transmission system

The application obtains Tianjin natural science fund (09JCYBJC00100); The subsidy of Tianjin Normal University's development fund (52XK1001).

Technical field

The utility model belongs to that video image is handled and the wireless network communication technique field, relates to a kind of high-speed mobile the carrier collection and long distance transmitter of the high-definition video signal of collection and the passback of dynamic image to external world of being mainly used in.

Background technology

Along with computer software and hardware and development of wireless communication devices, the wireless video transmission technology has also obtained fast development, the application of wireless video transmission also more and more widely, this bandwidth and real-time to transmission of video images is had higher requirement.

The wireless image transmission is the real-time video transmission, mainly contains two notions: the one, and the processed compressed of HD video, i.e. video compression; The 2nd, wideband transmit, i.e. mobile broadband communication in moving.Therefore, development can be in the high-speed mobile process high definition video that frequency band is very wide carry out the wireless image transmission system of stable transfer, will solve two subject matters: the one, under the high definition, the alap video compression algorithm of compression ratio; The 2nd, the high-speed data communication of high stability.

And in existing wireless application, video compression coding with MPEG2/4, H.261/263 to wait be main.Wherein high quality graphic (resolution of standard P AL/NTSC standard is not less than 720 * 576) is generally in the majority with the MPEG2 coding and decoding, and average code stream is 10Mbps.

Chinese patent CN 102185624A discloses a kind of wireless signal transmitter-receiver that is used for the audio frequency and video transmission; The wireless signal dispensing device is delivered to the video decode circuit with the vision signal of input, by MPEG-2 video format compressor circuit vision signal is carried out compressed encoding again.The hardware configuration simple and stable of this wireless signal transmitter-receiver, video compression processing module reliability height and cost are controlled, but its video code flow is high, and the data transmission bauds with the rear end wireless transport module is required height, has limited video resolution.

The image resolution ratio and the transmission range index parameter of current market product are lower, are difficult to satisfy under the New Terms system to the requirement of image quality and communication distance.Mostly the market existing equipment is to transmit data through GPRS/TD-SCDMA/WCDMA etc. second, three generations mobile network; Its technological means is ripe; Product development speed is fast, but at present its highest 2 ~ 3Mbps the uplink rate limit lifting of video resolution, and be limited by base station distribution and high communications cost; Can not be in wilderness, serious natural calamity area reliably working, further limited its applied environment.

In having the place of more bar, it is poor that existing high-frequency wireless signals transmission equipment sends wireless signal diffraction, and communications cost is high, and high power transmission of wireless signals equipment can bring to human body

Certain infringement.Be limited by video compression efficiency simultaneously, the passback image resolution ratio under current transmission technology means is low.

Summary of the invention

The utility model is in order to solve the portable mobile wireless high-definition image transmission system that above-mentioned the problems of the prior art provide a kind of single worker.

The technical scheme that the utility model is taked is:

The portable mobile wireless high-definition image transmission system of the utility model comprises image capture interface, image compression module, COFDM wireless transmitting terminals module, COFDM wireless interface destination module, picture decoding module and video output interface.

Described image capture interface with CMOS the delivery outlet of transducer or camera apparatus be connected.

Advantage and the good effect that the utlity model has are:

The portable mobile wireless high-definition image transmission system of the utility model; This system has realized the long-distance transmissions of 720P high-definition image under the limited wireless bandwidth condition; And transmitting end device has light weight, characteristics such as low in energy consumption, is convenient to the expanded application on the limited mobile device of load-carrying.

Description of drawings

Fig. 1 is the structural representation of video acquisition transmitting terminal of the portable mobile wireless high-definition image transmission system of the utility model;

Fig. 2 is the structural representation of reception server end of the portable mobile wireless high-definition image transmission system of the utility model;

Fig. 3 is the fundamental diagram of wireless communication link module of the portable mobile wireless high-definition image transmission system of the utility model;

Main label declaration among the figure:

1. image capture interface 2. image compression module

3. COFDM wireless transmitting terminals module 4. COFDM wireless interface destination modules

5. picture decoding module 6. video output interfaces.

Embodiment

Followingly the utility model is elaborated with reference to accompanying drawing and embodiment.

The portable mobile wireless high-definition image transmission system of the utility model comprises video acquisition transmitting terminal, reception server end and wireless communication link module.

H.264/AVC the video acquisition transmitting terminal utilizes compression standard that the video that collects is carried out the high compression ratio compression, and the X.264 algorithm of increasing income is improved, and makes it satisfy the wireless video transmission to the low delay of video flowing, low code check requirement.Take to cut apart to the video code flow that the COFDM technology adapts; In chnnel coding, add independently ERC (forward error correction); Error code to adapt to transmission channel under the complex electromagnetic environment better disturbs, and improves the robustness of system, with the stability of enhanced system image quality.

Fig. 1 is the structural representation of video acquisition transmitting terminal of the portable mobile wireless high-definition image transmission system of the utility model.As shown in Figure 1, the video acquisition transmitting terminal is made up of image capture interface, image compression module and COFDM wireless transmitting terminals module three parts.Described image capture interface with CMOS the delivery outlet of transducer or camera apparatus be connected.The core processor of image compression module uses the STM320DM36x family chip; Video camera or CCD chip data that collection is connected on the image capture interface obtain the 720P video code flow; Utilize the Video processing in the Video processing subsystem (VPSS); Video processing front end (VPFE) among the VPSS utilizes image sensor interface (ISIF) that the video flowing that is obtained by transducer is controlled and parameter such as is provided with at preliminary treatment, again will be from the CCD/CMOS uncorrected data to YCbCr-4:2:2 by programmable image passage (IPIPE) or the YCbCr-4:2:0 data transaction.Data after the conversion are stored among the SDRAM through the DMA passage, carry out encoding process by HDVICP (high definition encoding and decoding coprocessor) through DMA (direct memory access) mode transmitting video data again.

HDVICP among the DM36x carries out processed compressed to the yuv format vision signal, and compression algorithm is used H.264 standard.H.264 adopt the mode of predictive transformation, quantization encoding and statistical coding to eliminate the redundant information in the video information of front-end collection in: at first, to carry out estimation and motion compensation and eliminate the time redundancy that exists between consecutive frame.Again the residual error after the motion compensation is carried out integer transform and eliminate spatial redundancy.Next conversion coefficient is quantized to eliminate visual redundancy, at last coefficient after quantizing and motion vector are carried out entropy coding elimination statistical redundancy, finally obtain the compressed bit stream of standard.

The normal video code stream that obtains transfers to the SPI interface (SPI) of full duplex through dma controller; The SPI interface links to each other with the corresponding SPI interface of COFDM module; The highest 20MHz that is set to of CLK lineman's working frequency of DM36xSPI interface; Transmission rate to satisfy video code flow is regulated requirement, and video stream packets length is 188 bytes.

The image code stream that the reception server end is received the communication module end according to compression standard is H.264/AVC decoded, and generates the 720P digital video sequences of YCbCr-4:2:0 standard at last, and utilizes the VGA interface that video is outputed to high definition display device end.

Fig. 2 is the structural representation of reception server end of the portable mobile wireless high-definition image transmission system of the utility model.As shown in Figure 2, the reception server end is made up of COFDM wireless interface destination module, picture decoding module and video output interface three parts.

Compressing video frequency flow transfers back to the picture decoding module through COFDM wireless interface destination module, and the processor of picture decoding module still is DM36x, and the interface of itself and COFDM is SPI, and DM36x utilizes DMA will write the space of SDRAM from the TS stream that the SPI oral instructions are come.

The decoding work of video compression sign indicating number is accomplished by the built-in HDVICP of DM36x.HDVICP uses the integer transform of inverse discrete cosine transform (IDCT) in the transfer process of the frequency domain to time domain of image information, convert the video flowing of one dimension into 4 * 4 image block, is made up of the image frame of 720P again several image blocks of 4 * 4.

First frame that HDVICP receives is IDR (instantaneous decoding refresh) image.It is specified by the air-frame inner estimation mode of rebuilding, and through adding predication error frame.Follow-up frame possibly be in the frame or the result of interframe encode.

Decoder adds the residual result of infra-frame prediction in the position of the estimating motion of reconstructed preceding frame image in decoding.Repeat this process, up to obtaining whole continuous decoding bit stream.

What HDVICP finally exported is the YCbCr-4:2:0 sequence, and the ADC module that is carried by DM36x at last is converted into analog signal, is linked into the high definition display device to show final real-time high definition picture.But notice that the terminal among the present invention shows that output is not limited to simulation output.

Need to prove; Because there is the requirement of high real-time in system to the vision signal of transmission; All used Montavista Linux high real-time embedded OS at the transmitting terminal of high-definition image transmitting device and the DM36x processor in the receiving terminal; The hardware effort core of this operating system is ARM926EJ-S, and operating system and kernel are to operate encoder H.264 through mutual construction package (Framework Component, be called for short FC); FC is as the software interface between operating system and the codec, and system manages resource and the internal memory mutual with kernel through predefined API.In the present invention, the ARM core is to call the encoding and decoding work that HDVICP carries out HD video in strict accordance with eXpressDSP Digital Media standard and algorithm interface standard.

The wireless communication link module is set up the wireless high-speed communication link based on the COFDM technology, guarantees under visual condition under 50km, the non-sighting condition stable transfer of realtime image data in the 5km scope.

For overcoming at a high speed (> 150km/h) move in because Doppler frequency shift and fast change of channel cause the communication obstacle; Turbo code improvement project to interleaver among the COFDM of the Rayleigh fading effect of wireless channel has been proposed; Can effectively improve noise effect, improve anti-fading, the antijamming capability of wireless channel.Make it can resist the signal fadeout that multipath effect causes, improve communication stability, so that the extensive use of extended wireless image delivering system under severe rugged environments such as portable, low-power consumption, high-speed mobile.

Fig. 3 is the fundamental diagram of wireless communication link module of the portable mobile wireless high-definition image transmission system of the utility model.As shown in Figure 3; The wireless communication link module has been used COFDM technology (COFDM); System is the high speed simplex link that is made up of COFDM transmitting terminal and COFDM receiving terminal; And used Turbo code improvement project to interleaver among the COFDM of the Rayleigh fading effect of wireless channel, and can effectively improve noise effect, improve anti-fading, the antijamming capability of wireless channel.

The present invention provides the relevant carrier wave of stable video information to recover to recover with frame synchronization in COFDM signal modulated process, to carrier wave and simultaneous bias also tracking correction in good time, so the method for employing insertion pilot tone and reference signal.

To the COFDM Channel Modulation scheme of selecting for use among the present invention, in the choosing of multipath channel, for difference postpone with different echo amplitudes under the performance of COFDM transmission system of 16-QAM modulation system adjust automatically.Because have enough protections that echo is stopped when next symbol arrives, echo delay can not influence the performance of whole system, has reduced the intersymbol interference that is caused by multipath effect.Echo amplitude also can influence the performance of system, is protecting under enough at interval situation, and echo can exert an influence to current sign simultaneously.When the error rate was 10-4, the range parameter B of multipath was increased to the loss that will have 3dB at 0.4 o'clock from 0.25, so in this COFDM transport module demodulating process, weaken the interference of echo through the mode that adds channel equalization.Through introducing protection at interval, improve signal to noise ratio in addition, when protection was bigger than echo delay at interval, channel performance had bigger improvement.

When wireless image transmission system high-speed mobile, the fade-out of wireless channel increases the weight of, and has a strong impact on the received signal quality of system receiving terminal, has influenced the reliability of communication, in order to support multimedia communication such as video, should adopt suitable error correcting technique.

In the modulation module of WirelessHD image delivering system, the modulation system of traditional OFDM has convolutional encoding (CC) mode and latticed coding (TCM) mode, among the present invention Turbo code and COFDM modulation is combined the performance antijamming capability of having guaranteed system.To the wireless electromagnetic environment of complicacy, its complex structure degree is littler than traditional T C-OFDM, and this has effectively improved channel coding/decoding scheme in the high-definition image COFDM transmission system.

Obviously, the foregoing description only is to be the basic principle done of explanation clearly, and is not the qualification to execution mode.For the those of ordinary skill in affiliated field, on the basis of above-mentioned explanation, can also make other multi-form variation or change according to the purposes difference of equipment.Here need not also can't give exhaustive to all execution modes.And conspicuous variation of being extended out thus or change still are among the protection range of the invention.

Claims (2)

1. a portable mobile wireless high-definition image transmission system comprises image capture interface, image compression module, COFDM wireless transmitting terminals module, COFDM wireless interface destination module, picture decoding module and video output interface.

2. portable mobile wireless high-definition image transmission system according to claim 1 is characterized in that: described image capture interface with CMOS the delivery outlet of transducer or camera apparatus be connected.

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