CN1410780A - Radar video frequency data real time compression and decompression transmission method - Google Patents

Abstract

The encoding board and the decoding board located at the radar truck and the command car respectively are connected through two RS485 ports in twisted-pair. There are the main channel and the subchannel between the radar truck and the command car. The echo data being compressed by the encoding board through the main channel are transferred to the decoding board. The decoded echo data are sent to display terminal. The communication is carried out through the subchannel. The radar truck transfers the beam attribute code such as the beam position, range, etc. information. The command car sends the command control code to the radar truck. The simple mode is used in the main channel with the transfer protocol as: tag+data length+beam data+check sum. The half-duplex mode is used in the subchannel with the transfer protocol as: condition code+data length+transmission data+check.

Description

The compressed and decompressed transmission method of radar video data in real time

One. affiliated technical field

The present invention relates to the transmission of radar, particularly a kind of compressed and decompressed transmission method of radar video data in real time that is used for.

Two. background technology

Radar has very important effect as a kind of over-the-horizon sensor in national defence, land resources exploration etc.In the evolution of Radar Technology, radar network composite, data fusion technology have become main development trend, and the real-time Transmission problem of radar data becomes increasingly conspicuous.Many traditional cable transmission modes exist and connect shortcomings such as complicated, that reliability is low, poor anti jamming capability, loss are big ^{[1] [2]}Optical Fiber Transmission at a high speed, but have in actual applications that wiring needs specific purpose tool, wastes time and energy, cost is than problems such as height ^[3]

Three. summary of the invention

Defective or deficiency according to above-mentioned prior art existence, the objective of the invention is to, provide a kind of radar video data in real time compressed and decompressed transmission method, the present invention adopts and is militaryly finished the real-time Transmission of radar video image by multiple twisted-pair feeder, preferably resolves the deficiency of existing method.

The compressed and decompressed transmission method of radar video data in real time of the present invention may further comprise the steps:

1) will lay respectively at encoding board, decoding deck two parts on radar truck, the command car,, connect, be provided with main channel and subchannel between radar truck, the command car with the twisted-pair feeder form by two RS485 mouths;

2) encoding board sends decoding deck to by main channel after to the radar video data compression and decodes, and decoded echo data is directly given graphic display terminal;

3) the signaling communication between two cars is undertaken by subchannel, radar truck transmits the beam properties sign indicating number that comprises important informations such as beam. position, range, radar duty to command car, command car sends the order control code to radar truck, and subchannel retransmits the beam data of makeing mistakes to decoding deck when main channel is made mistakes simultaneously;

4) simplex mode is adopted in the main channel communication, only sends out and does not receive; Host-host protocol is: sign+data length+beam data+verification and; With the 10 bit data frames forms of RS232 commonly used different, this channel has proposed 34 unique bit data frames forms, and has realized asynchronous receiving-transmitting driver based on this kind frame format with FPGA;

Sign is used to distinguish first frame and difference, and data length is the byte number after the beam data compression; Transmit leg is the scrambler of encoding board, and reciever is the demoder of decoding deck; Reciever is according to verification and judge whether transmission course makes mistakes.If make mistakes, demoder is positioned at the main communication controller of decoding deck immediately with the interrupt mode notice, and main communication controller is to this wave beam echo data of communication controller request repeat that is positioned on the encoding board; Be provided with RAM between scrambler and the communication controller, be used to back up beam data;

5) subchannel adopts the half-duplex mode communication, has two communication controllers of first, second to lay respectively on decoding deck and the encoding board, receives and dispatches the role between the two and coordinates encoding board and demoder communication request by token;

The subchannel host-host protocol: condition code+data length+transmission content+verification and; Determine the transmission content by condition code;

Operation control code from operation bench is set up reciever separately; When the echo data that decoding deck is received was made mistakes, the first communication controller was to the second communication controller request repeat data that are positioned on the encoding board; Therefore the communication of main channel is not interrupted, and demoder is abandoned the beam data of makeing mistakes, and backs up this beam properties data, after all the other beam data are handled in the frame, handles the beam data that retransmits through subchannel;

Subchannel transmission content: from the sign indicating number of controlling of command car, beam properties sign indicating number, the beam data of makeing mistakes.

Another characteristics of the present invention are that the relation between described main channel and the subchannel is:

(1), on encoding board, be provided with SRAM and the bus controller that is used for the storage backup beam data between scrambler and the second communication controller, scrambler constantly refreshes the SRAM content, and communication controller obtains the backup beam data from SRAM after receiving the request of autonomous communication controller.Obtain control with handshake by bus controller between the two to SRAM;

(2), on decoding deck, except the SRAM and bus controller of storage backup beam data, demoder can also hard interrupt mode notice first communication controller between demoder and the first communication controller, the request repeat beam data of makeing mistakes; Demoder only just detects the first communication controller and whether SRAM is refreshed end after sending request repeat signal, if finish, read beam data with dma mode from SRAM immediately, obtains control to SRAM with handshake by bus controller between the two;

(3), the first communication controller is also undertaken from operation bench and is read the task of controlling order.The reciever that links to each other with operation bench provides data in the parallel data mode to the first communication controller.

Four. description of drawings

Fig. 1 is an algorithm block diagram of the present invention;

Fig. 2 is based on the lossless image coding framework of EZW;

Fig. 3 is the normalization diagrammatic sketch in the arithmetic coding;

Fig. 4 is the hardware platform block diagram of one embodiment of the present of invention;

Fig. 5 is four DSP time-sharing work sequential charts of the embodiment of the invention.

Five. embodiment

The present invention is described in further detail below in conjunction with specific embodiment that accompanying drawing and inventor provide.

Hardware system of the present invention comprises encoding board, the decoding deck two parts that lay respectively on radar truck, the command car, by two RS485 mouths, connects with the twisted-pair feeder form, and communication distance is 500m recently.Be provided with two channels (distinguishing) between radar truck, the command car with main channel, subchannel.Encoding board sends decoding deck to echo data compression back to by main channel and decodes, and decoded echo data is directly given graphic display terminal.Communication between two cars is undertaken by subchannel, radar truck transmits the beam properties sign indicating number that comprises important informations such as beam. position, range, radar duty to command car, command car sends the order control code to radar truck, and subchannel retransmits the beam data of makeing mistakes to decoding deck when main channel is made mistakes simultaneously.

Simplex mode is adopted in the main channel communication, only sends out and does not receive.Host-host protocol is: sign+data length+beam data+verification and.Sign is used to distinguish first frame and difference, and data length is the byte number after the beam data compression.Transmit leg is the scrambler of encoding board, and reciever is the demoder of decoding deck.Reciever is according to verification and judge whether transmission course makes mistakes.If make mistakes, demoder is notified main communication controller (being positioned at decoding deck) with interrupt mode immediately, and the communication master controller is to this wave beam echo data of communication controller request repeat that is positioned on the encoding board.Be provided with RAM between scrambler and the communication controller, be used to back up beam data.

Subchannel adopts the half-duplex mode communication, has two communication controllers (AT89C55) to lay respectively on decoding deck and the encoding board and (is distinguished by first, second communication controller), receives and dispatches the role between the two and coordinates encoding board and demoder communication request by token.Operation control code from operation bench is set up reciever separately.When the echo data that decoding deck is received was made mistakes, the first communication controller was to the second communication controller request repeat data that are positioned on the encoding board.Therefore the communication of main channel is not interrupted, and demoder is abandoned the beam data of makeing mistakes, and backs up this beam properties data, after all the other beam data are handled in the frame, handles the beam data that retransmits through subchannel.The subchannel host-host protocol: condition code+data length+transmission content+verification and.Determine the transmission content by condition code.Subchannel transmission content: from the sign indicating number of controlling of command car, beam properties sign indicating number, the beam data of makeing mistakes (only when main channel is made mistakes, just passing).

Major and minor interchannel relation is closer:

(1), on encoding board, be provided with SRAM and the bus controller that is used for the storage backup beam data between scrambler and the second communication controller, scrambler constantly refreshes the SRAM content, and communication controller obtains the backup beam data from SRAM after receiving the request of autonomous communication controller.Obtain control with handshake by bus controller between the two to SRAM.

(2), on decoding deck, except the SRAM and bus controller of storage backup beam data, demoder can also hard interrupt mode notice first communication controller between demoder and the first communication controller, the request repeat beam data of makeing mistakes.Demoder only just detects the first communication controller and whether SRAM is refreshed end after sending request repeat signal, if finish, read beam data with dma mode from SRAM immediately.Obtain control with handshake by bus controller between the two to SRAM.

(3), the first communication controller is also undertaken from operation bench and is read the task of controlling order.The reciever that links to each other with operation bench provides data in the parallel data mode to the first communication controller.

The algorithm ultimate principle:

Radar echo signal is a kind of stochastic process of non-stationary, and its intrinsic information entropy is very big, can't reach ratio of compression more than 2 times with lossless compression algorithm merely, therefore introduces Reversible Integer-to-Integer Wavelet, adopts the lossy compression method scheme based on Reversible Integer-to-Integer Wavelet.Algorithm block diagram is referring to Fig. 1.

Algorithm arrangement has been introduced the reversible wavelet transform conversion, and wavelet transformation makes energy more concentrated to the echo data decorrelation, and a kind of compact representation of multiresolution of data is provided.Before carrying out wavelet transformation, need carry out symmetry expansion, this is the needs in order to satisfy wavelet filter and to carry out convolution algorithm.The selection of wavelet filter has fundamental influence to the performance of compression algorithm.This algorithm is selected computational complexity, reconfigurability 5-3 wave filter preferably for use.Embedded wavelet zero-tree coding is encoded to it according to the significance sequence of wavelet coefficient, and the importance of wavelet coefficient is weighed by its size to the image reproduction contribution here.At last, entropy coding has made full use of and has passed through in the later identical frequency band of wavelet transformation and the redundancy that still exists between the different frequency bands, has further improved compression efficiency.

1). embedded wavelet zero-tree coding

Embedded wavelet zero-tree framework provides a kind of fabulous solution to the compression of images problem.The embedded wavelet zero-tree coding (EZW) that proposes by Shapiro and all demonstrate based on high ratio of compression of wavelet compression scheme and lower computational complexity by the classification tree set division methods (SPIHT) that Said and Pearlman propose its improvement.

Lossless image coding framework based on EZW is made up of three parts: 1) reversible discrete wavelet changes; 2) classification of wavelet coefficient and selection; 3) context-modeling-based. (arithmetic) entropy coding; As shown in Figure 2:

Be not difficult to find out from the block diagram of Fig. 2, all need to make one's options 1 in each part) first step: select wavelet filter; 2) second step: select suitable wavelet coefficient mode classification; 3) the 3rd step: for entropy coder is selected context model.Use suitable wavelet filter can farthest reduce correlation of data, the wavelet coefficient that is produced is carried out suitable classification and classification and selects suitable context model for arithmetic coding and all can improve compression efficiency.Use for compression of images, the performance of three step models depends on all three modules.Each step must well combine with other two steps and just can produce optimum, compactness and insertion type code stream.

In the first step, wavelet transformation is to the view data decorrelation, makes concentration of energy, and a kind of compact representation of image multiresolution is provided.In this step, the selection of wavelet filter has fundamental influence to the performance of compression algorithm.For Lossless Image Compression, Reversible Integer-to-Integer Wavelet obtains using more widely owing to finishing the mapping of integer to integer.Experimental result shows, in selected wave filter, and (5,3) overall filter best performance.

In second step, according to the significance sequence of wavelet coefficient it is encoded, the importance of wavelet coefficient is weighed according to its size to the image reproduction contribution here.EZW and SPIHT are that the order of magnitude according to wavelet coefficient determines its importance.In progressive transmission is used, the position allocation strategy that the selection criterion decision approaches one by one, therefore the fidelity to reconstructed image has important effect.In EZW, Shapiro has defined importance figure.Among the importance figure, whether the coefficient of each its relevant position of binary number value representation is important for given threshold value.Approaching one by one by changing threshold value generation importance figure of wavelet coefficient realized.

At last, entropy coding makes full use of and passes through in the later identical frequency band of wavelet transformation and the relation that still keeps between the different frequency bands.This relation shows as the statistics dependence between adjacent coefficient importance value and the father and son's importance value.Used neighbourhood context to utilize the high-order entropy based on the arithmetic coding scheme of preamble.

2). entropy coder

The applicant adopts the arithmetic coding algorithm as entropy coder, and its ultimate principle is as follows: the state of scrambler for the ease of discussing, supposes that L and R are real numbers with two variables L (the low end points of bounded interval) and R (interval width) record, and the boundary is between 0 and 1.When specific implementation, can the time integer, constantly by by 2 power convergent-divergent.

1. initial L=0, R=1.

Suppose P=[p _i] be normalized probability distribution, have ${\mathrm{\Σ}}_{i=1}^n{p}_t=1.$ Definition $\mathrm{low}\left[i\right]={\mathrm{\Σ}}_{j=1}^{i-1}{p}_j,$ All alphabetical accumulated probability in the source alphabet before the i.Same definition low[n+1]=1.

②L←L+R×low[i]

③R←R×p _i

4. in order to solve precision and overflow problem, must add this step (heavily normalization)

while?R＜0.25do

(a)if?L+R＜0.5?then?bit_plus_follow(0)

(b)else?if?0.5≤L?then?bit_plus_follow(1)

Set?L←L-0.5

(c)Else

Set?bits_outstanding←?bits_outstanding+1

Set?L←L-0.25

(d)Then，for?all?cases，Set?L←2×L?and?R←2×R⑤To?peeform?bit_plus_follow(b)

(a)write_one_bit(b)

(b)Use?write_one_bit(1-b)to?output?bits_outstanding?bits?ofthe?opposite?polarity

(c)Set?bits_outstanding←0.

This R 〉=0.25 that kept before symbol of each coding makes the precision of L and R only than Probability p _iThe most the more two of precision.

Fig. 3 is corresponding to (a) and (b), (c) in the 4th step, and among the figure (a), the bit of output obviously is 0, and corresponding the obtaining of L and R adjusted.Second kind of situation (figure (b)), output 1.Special is the third situation, when R＜0.25, L and L+R lay respectively at 0.5 both sides simultaneously, the bit of exporting can't be determined, it depends on the next symbol that will import, yet we can know that and then the next bit of the bit of current output must be opposite with the current bit that will export.So under the third situation, do not export, but still, just write down this situation (using bits_outstanding) additionally to export the bit number opposite next time with exporting bit to L and R expansion.

Demoder process therewith is opposite.A given sign indicating number c, demoder must determine to produce m the symbol sebolic addressing of yard c.Suppose that V is the current window that enters c, identical with L with the R precision.Border L and R are reinitialized to 0 and 1 respectively, and before first symbol, V must be initialized as several bits of beginning of bit stream c.

1. determine i, make low[i]≤(V-L)/R＜low[i+1]

②L←L+R×low[i]

③R←R×p _i

4. except that L multiplication, the L in V and the scrambler is treated equally, the multiplication of V is by reading 1 from coded bit stream, the move to left lowest order of back adding V of V.

5. output symbol i.

The hardware configuration that the present invention is selected

Because algorithm complexity is higher, single DSP can't be competent at evaluation work, considers later calculating redundancy simultaneously, has designed the hardware platform that contains four DSP, adopts streamline mechanism.Encoding board and decoding deck have duplicate hardware configuration, have reduced the workload of debugging and plate-making.Because decoding deck has identical structure with encoding board, therefore draw no longer separately.

Hardware platform as shown in Figure 4, four dsp chips can be shared on-chip memory each other by address bus, data bus interconnection.System's input data enter dual-ported memory by buffering (BUF), FPGA1 finishes the addressing and the write signal of dual-ported memory according to clock signal, and serve as the function of timer, and send the trigger pip that four decision DSP start working, realize the pipeline work of system.The DSP that receives work order obtains pending echo data from dual-ported memory, begins coding.

The work schedule of four processors as shown in Figure 5.The DSP that finishes the coding task sends into FPGA2 by its link port data, and FPGA2 finishes the also string conversion of data, in the asynchronous serial mode data is sent.The decoding deck working method is identical with encoding board, repeats no more here.

, list of references

[1] Tian Erwen, radar signal transmission and processing and modular applications thereof, microelectronics, 1994 01 phases, the 24th the 1st phase of volume, p75-81.

[2] red bayberry, the airborne PD fire control radar 1553B of system bus driver layer and transport layer software interface analysis, modern radar, in April, 1994, the 2nd phase.P50-56。

[3] the 8mm radar is based on the high speed data transfer research of parallel port, systems engineering and electronic technology, the 2nd phase of calendar year 2001.The 23rd 2 phases of volume.

Claims (2)

1. the compressed and decompressed transmission method of radar video data in real time is characterized in that, may further comprise the steps:

1) will lay respectively at encoding board, decoding deck two parts on radar truck, the command car,, connect, be provided with main channel and subchannel between radar truck, the command car with the twisted-pair feeder form by two RS485 mouths;

2) send decoding deck to by main channel after encoding board compresses echo data and decode, decoded echo data is directly given graphic display terminal;

3) communication between two cars is undertaken by subchannel, radar truck transmits the beam properties sign indicating number that comprises important informations such as beam. position, range, radar duty to command car, command car sends the order control code to radar truck, and subchannel retransmits the beam data of makeing mistakes to decoding deck when main channel is made mistakes simultaneously;

4) simplex mode is adopted in the main channel communication, only sends out and does not receive; Host-host protocol is: sign+data length+beam data+verification and; Adopt 34 bit data frames forms, and realize asynchronous receiving-transmitting driver based on this kind frame format with FPGA;

Sign is used to distinguish first frame and difference, and data length is the byte number after the beam data compression; Transmit leg is the scrambler of encoding board, and reciever is the demoder of decoding deck; Reciever is according to verification and judge whether transmission course makes mistakes, if make mistakes, demoder is positioned at the main communication controller of decoding deck immediately with the interrupt mode notice, and main communication controller is to this wave beam echo data of communication controller request repeat that is positioned on the encoding board; Be provided with RAM between scrambler and the communication controller, be used to back up beam data;

5) subchannel adopts the half-duplex mode communication, has two communication controllers of first, second to lay respectively on decoding deck and the encoding board, receives and dispatches the role between the two and coordinates encoding board and demoder communication request by token;

The subchannel host-host protocol: condition code+data length+transmission content+verification and; Determine the transmission content by condition code;

Operation control code from operation bench is set up reciever separately; When the echo data that decoding deck is received was made mistakes, the first communication controller was to the second communication controller request repeat data that are positioned on the encoding board; Therefore the communication of main channel is not interrupted, and demoder is abandoned the beam data of makeing mistakes, and backs up this beam properties data, after all the other beam data are handled in the frame, handles the beam data that retransmits through subchannel;

Subchannel transmission content: from the sign indicating number of controlling of command car, beam properties sign indicating number, the beam data of makeing mistakes.

2. the compressed and decompressed transmission method of radar video data in real time as claimed in claim 1 is characterized in that the relation between described main channel and the subchannel is:

(1), on encoding board, be provided with SRAM and the bus controller that is used for the storage backup beam data between scrambler and the second communication controller, scrambler constantly refreshes the SRAM content, and communication controller obtains the backup beam data from SRAM after receiving the request of autonomous communication controller.Obtain control with handshake by bus controller between the two to SRAM;

(2), on decoding deck, except the SRAM and bus controller of storage backup beam data, demoder can also hard interrupt mode notice first communication controller between demoder and the first communication controller, the request repeat beam data of makeing mistakes; Demoder only just detects the first communication controller and whether SRAM is refreshed end after sending request repeat signal, if finish, read beam data with dma mode from SRAM immediately, obtains control to SRAM with handshake by bus controller between the two;

(3), the first communication controller is also undertaken from operation bench and is read the task of controlling order; The reciever that links to each other with operation bench provides data in the parallel data mode to the first communication controller.

Images