JP2848608B2 - Video digital transmission system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial application field) The present invention relates to a video digital transmission system in which a video signal is digitized and transmitted by, for example, an optical transmission path.

(Prior Art) Conventionally, in this type of system, for example, a video signal is digitized on a transmission side at a clock frequency (for example, 4f _SC = 14.31818 MHz) synchronized with its color subcarrier frequency f _SC , and this digital video signal is separately digitized. After time-division multiplexing with the multiplexed video / audio signal, the signal is transmitted to a communication line at a transmission speed synchronized with the chrominance subcarrier frequency f _SC (for example, 40 f _SC = 143.1818 Mbps), and the clock frequency reproduced from the received signal on the receiving side. And performs inverse conversion of the received digital video signal to reproduce the original video signal and video / audio signal.

However, in such conventional transmission systems, the transmission speed of the communication line is set to a speed synchronized with the digitized clock frequency of the video signal. Must be used, for example, a digital tertiary group (transmission speed f ₀ = 32.064 Mbps)
And a general-purpose communication line such as a digital quaternary group (transmission speed f ₀ = 97.728 Mbps) cannot be used.

On the other hand, in order to solve this problem, a method of digitizing a video signal with a clock frequency synchronized with the transmission speed of a general-purpose communication line and transmitting this digital video signal through the general-purpose communication line has been considered. However, in such a system, the video signal cannot be properly digitized, so that there is a problem that the quality of the video signal is degraded, which is not suitable for practical use.

Also, in any of the above methods, the receiving side reproduces a clock from the received signal and performs reproduction processing of the video signal such as D / A conversion in synchronization with the reproduced clock. This has been affected by jitter, which has led to deterioration in the quality of reproduced video.

(Problems to be Solved by the Invention) As described above, the conventional transmission method has to sacrifice one of the versatility for the communication line and the quality of the video signal, and the jitter on the communication line has to be sacrificed. The present invention has a problem that the quality of the reproduced video signal tends to deteriorate due to the influence, and the present invention pays attention to this point, and it is possible to use a general-purpose digital communication line without deteriorating the quality of the video signal, and furthermore, It is an object of the present invention to improve the quality of a video signal by eliminating the influence of jitter and to provide a video digital transmission system that is resistant to burst errors.

[Configuration of the Invention] (Means for Solving the Problems) According to the present invention, after a video signal is digitized at a predetermined video clock frequency synchronized with the signal frequency on the transmission side, each horizontal signal is converted from the digital video signal. The vertical blanking period is deleted, and instead, each horizontal and vertical blanking signal is detected from the video signal, and video control information obtained by encoding the horizontal and vertical blanking signals is inserted. Then, the video clock frequency of the digital compressed video signal is converted to a transmission clock frequency synchronized with the transmission speed of the digital communication line, and the phase difference between the video clock frequency and the transmission clock frequency is added to the converted digital compressed video signal. A stuff bit for approaching zero is added, and stuff bit additional information indicating the stuff bit addition state is multiplexed with the digital compressed video signal and transmitted to a digital communication line. On the receiving side, the stuff bit additional information is separated from the multiplexed digital compressed video signal arriving from the transmitting side via the digital communication line, and a write clock for destuff is generated according to the stuff bit additional information. Generating a video clock having a predetermined frequency unique to the receiving side by a video clock generating means, writing the digital compressed video signal after separation of the stuff bit additional information into a buffer memory in synchronization with the write clock, and The stuff bit is removed, the digital compressed video signal is expanded, and the clock frequency of the digital video signal is converted by reading out from the buffer memory in synchronization with the digital compressed video signal. Based on the video control information detected from After inserting the blanking signal reproduced by converting an analog video signal by the video clock, in which so as to reproduce the video signal.

(Operation) As a result, the video signal is digitized at the clock frequency most suitable for the digitization, and is transmitted on the transmission line according to the transmission speed of the communication line. It is possible to digitally transmit a video signal using the communication line. In addition, the frequency conversion and D / A conversion from the transmission clock to the video clock on the receiving side are performed in synchronization with the stable video clock generated independently in the receiving device instead of the clock reproduced from the received video signal. In addition, the influence of the jitter of the communication line is eliminated, thereby improving the quality of the reproduced video.

In the present invention, for each horizontal and vertical blanking period, the blanking signal is detected and encoded to generate video control information, and this information is inserted and transmitted instead of the blankin period. . That is, the video control information obtained by encoding each of the horizontal and vertical blanking signals is distributed and transmitted in the corresponding horizontal and vertical blanking periods. For this reason, for example, even if a burst error occurs during transmission and video control information in a certain horizontal blanking period disappears, a portion where video is not reproduced can be limited to this horizontal line. Incidentally, a method of transmitting the video control information of each horizontal blanking signal collectively in the vertical blanking period is also conceivable, but in this system, for example, if the vertical blanking period disappears due to a burst error, the field or frame is lost. There is a possibility that the whole cannot be reproduced.

(Embodiment) FIG. 1 shows a configuration of a video transmission system to which a video digital transmission system according to an embodiment of the present invention is applied.
In the figure, reference numeral 1 denotes a transmitting device, and 3 denotes a receiving device connected to the transmitting device 1 via a communication line 2 such as an optical transmission line.

The transmission device 1 includes a blanking period detection unit (BKD) 11 that detects a blanking period of the video signal AS, and a video clock generation unit (BKD) that generates a video clock having a frequency of 4f _SC from the color subcarrier of the video signal AS. CLK) 12 and a video signal encoding unit (COD) 13. The video signal encoding unit 13 synchronizes the video signal A with the video clock 4f _SC.
S is encoded, and the resulting encoded video signal BS is introduced into the compression unit 15. The compression unit 15 deletes a blanking period from the coded video signal BS in accordance with the detection signal of the blanking period detection unit 11, and replaces the blanking period with a video control signal generation unit (VC
S) The video control information generated from 14, that is, the information obtained by coding the horizontal / vertical synchronization signal and the color synchronization signal included in the blanking period of the video signal AS is inserted, thereby obtaining the coded compressed video signal CS. Things. The device also has a buffer memory 16, a comparing unit 17, a stuff bit inserting unit 18, and an insertion control signal generating unit 19 as a circuit for asynchronously converting the CS clock frequency of the encoded compressed video signal. . Among the buffer memory 16, after written synchronously with the encoded compressed video signal CS to the video clock 4f _SC, in which read in synchronization with the clock f ₁ in synchronization with the transmission speed of the communication line 2, As a result, the encoded compressed video signal is asynchronously converted, and this signal is output to the multiplexing unit 20. Further, the comparison unit 17 calculates the video clock 4
by comparing the phase of the clock f ₁ in synchronism with the f _SC and transmission speed and outputs the inserted indication signal each time the phase difference is a constant value, thereby staff encoded compressed video signal with stuffing bits inserted portion 18 Insert a bit. The insertion control signal generator 19 generates a signal indicating the position where the stuff bit is inserted. The multiplexing unit 20 multiplexes the coded compressed video signal and the insertion control signal generated from the insertion control signal generation unit 19 and sends out the multiplexed video signal to the communication line 2. Reference numeral 21 denotes various clocks f ₀ ,
This is a timing generation circuit that generates f ₁ , f ₂ , and f ₃ .

On the other hand, the receiving device 3 includes a demultiplexing unit 32 for inputting multiplexed data arriving via the communication line 2 and predetermined clocks f ₀ , f ₁ , f ₂ , f ₃ required for reproducing a video signal from the multiplexed data. , And a separation section 32 separates the coded compressed video signal and the insertion control signal from the received data. In addition, the present apparatus includes a destuff control circuit 33, a control information detection unit 34 that detects video control information from the encoded compressed video signal, and a buffer memory 35 as circuits for asynchronously converting the encoded compressed video signal. , A video clock generator 36 for independently generating a video clock of a predetermined frequency (4f _SC ′), and a video frame generator 37. Among the destuffing control unit 33, the supplies as a write clock transmission clock f ₁ reproduced in the buffer memory 35 by the timing reproducing unit 31, the depending on the separate insertion control signal by the separation unit 32 This deletes a part of the write clock, thereby removing the stuff bit inserted in the encoded compressed video signal. The video frame generator 37 generates a video frame in synchronization with the detection timing of the video control information by the control information detector 34, and generates the video clock 4f _SC 'only during a period excluding the blanking period of the video frame. It is supplied to the buffer memory 35 as a read clock. The buffer memory 35 sequentially inputs and stores the encoded compressed video signal output from the separation unit 32 in synchronization with the write clock, and also outputs the encoded compressed video signal to the video clock 4f _SC 'output from the video frame generation unit 37. The encoded compressed video signal is read out in synchronism, and the writing and reading operations perform expansion and frequency conversion of the encoded compressed video signal. Further, the present device includes a blanking signal generator 38 and an OR gate 39. The blanking signal generator 38 generates and outputs a blanking signal in synchronization with the video frame generated by the video frame generator 37. The blanking signal is read from the buffer memory 35 by the OR gate 39. It is inserted in the blanking period of the output coded video signal. Reference numeral 40 denotes a video signal decoding unit (DEC) which converts the coded video signal output from the OR gate 39 into the video clock 4
Digital-to-analog conversion is performed in synchronism with f _SC ′, thereby reproducing a video signal.

Next, a video transmission system according to the present embodiment will be described based on the above configuration. When a video signal AS as shown in FIG. 2 is input from a video device or a video playback device (not shown),
The transmitting apparatus 1 first generates an encoding clock 4f _SC synchronized with the chrominance subcarrier of the video signal AS by the video clock generator 12, and the video signal encoder 13 according to the clock 4f _SC as shown in FIG. The video signal AS is encoded.
At the same time, the blanking period detector 11 detects the video signal AS
, The position of the blanking period, the horizontal / vertical synchronization signal and the color synchronization signal included in the blanking period are detected, and these synchronization signals are coded by the video control signal generator 14 to obtain video control information. Then, the compression section 15 deletes the blanking period from the coded video signal BS, and inserts the video control information in place of the blanking period, whereby the compressed coding signal as shown in FIG. Obtain a compressed video signal.

When the encoded compressed video signal CS is obtained, the transmitting device 1 then changes the clock frequency of the encoded compressed video signal CS from the video clock 4f _SC by the buffer memory 16 to the clock frequency f synchronized with the transmission speed of the communication line 2. Convert to ₁ ,
In addition, a stuff bit is inserted by the stuff bit insertion unit 18 in accordance with the phase difference between the video clock frequency 4f _SC and the clock frequency f ₁ synchronized with the transmission speed, so that encoding compression suitable for transmission over a general-purpose communication line is performed. Obtain a video signal. Then, the coded compressed video signal is multiplexed with the stuff bit insertion control signal by the multiplexing unit 20 and transmitted to the communication line 2 as video information.

On the other hand, when video information arrives from the transmission device 1 via the communication line 2, the reception device 3 first reproduces various clocks f ₀ , f ₁ , f ₂ , f ₃ synchronized with the transmission speed from the video information. At the same time, the video information is introduced into the separation unit 32, where it is separated into an encoded compressed video signal and an insertion control signal. The destuff control unit 33 generates a destuff write clock in response to the insertion control signal, and sequentially writes the coded compressed video signal into the buffer memory 35 in synchronization with the write clock. Therefore,
The stuff bits inserted into the encoded compressed video signal are removed when writing to the buffer memory 35.

On the other hand, in the receiving apparatus 3, the control information detecting section 34 detects video control information from the encoded compressed video signal, and the video frame generating section 37 generates a video frame in synchronization with the detection timing. Then, a read clock is generated in accordance with this video frame during a period excluding the blanking period of the coded compressed video signal, and the coded video information is read from the buffer memory 35 in synchronization with the read clock. Therefore, the encoded compressed video signal is stored in the buffer memory 35.
, The data is expanded as shown in FIG. 2 DS to set a blanking period. The coded video signals at the same time this time is frequency converted into a video clock 4f _SC 'from a clock f ₁ in synchronism with the transmission rate. Thus, an encoded video signal having a frequency suitable for decoding the video signal is obtained. Further, in the method of this embodiment, the video clock generated independently by the receiving device is used as the read clock.
f _SC ′ is used. For this reason, the frequency-converted decoded video signal is completely free from the influence of jitter generated in the communication line 2.

When the asynchronously converted coded video signal is obtained in this manner, the receiving device 3 synchronizes with the video frame generated by the video frame generating unit 37 and generates a blanking signal.
Then, a blanking signal is generated as shown in FIG. 2 ES, and this blanking signal is inserted by the OR gate 39 into the blanking period of the coded video signal. Thus, the encoded video signal BS 'before compression is reproduced. Then, the coded video signal BS 'is introduced to the video signal decoding unit 40, where the video clock 4f generated from the video clock generation unit 36 is output.
_Decrypt according to _SC ′. Thus, an analog video signal as shown in FIG. 2A 'is reproduced.

As described above, according to the video digital transmission system of the present embodiment, after the video signal AS is encoded on the transmission side in accordance with the clock 4f _SC synchronized with the color subcarrier frequency, the blanking period of the encoded video signal is deleted. Instead, the blanking signal is compressed by inserting coded video control information, and the coded compressed video signal is stuffed and transmitted to the communication line 2, and the reverse process is performed on the receiving side. The video signal is reproduced by performing the following steps: encoding and decoding of the video signal are performed by a clock synchronized with the color subcarrier frequency of the video signal; It is performed at a bit rate synchronized with the speed. Therefore, the video signal can be transmitted using a general-purpose communication line without deteriorating the quality of the video signal, and a high-quality and versatile video transmission system can be provided. In addition, the video clock 4f _SC ′ used for frequency conversion on the receiving side is not generated from the received video information, but is generated independently in the receiving apparatus. And reproduce a high quality video signal.

The present invention is not limited to the above embodiment,
For example, the configuration of the video signal compression / expansion means and the asynchronous conversion means, the value of the video clock frequency, and the like can be variously modified without departing from the scope of the present invention.

[Effects of the Invention] As described in detail above, the present invention provides a transmitter that digitizes a video signal at a predetermined video clock frequency synchronized with the signal frequency, and then converts the digital video signal into horizontal and vertical signals from the digital video signal. Each of the ranking periods is deleted, and instead, the horizontal and vertical blanking signals are detected from the video signal, and video control information obtained by encoding the horizontal and vertical blanking signals is inserted. Then, the video clock frequency of the digital compressed video signal is converted to a transmission clock frequency synchronized with the transmission speed of the digital communication line, and the phase difference between the video clock frequency and the transmission clock frequency is added to the converted digital compressed video signal. A stuff bit for approaching zero is added, and stuff bit additional information indicating the stuff bit addition state is multiplexed with the digital compressed video signal and transmitted to a digital communication line. On the receiving side, the stuff bit additional information is separated from the multiplexed digital compressed video signal arriving from the transmitting side via the digital communication line, and a write clock for destuff is generated according to the stuff bit additional information. Generating a video clock having a predetermined frequency unique to the receiving side by a video clock generating means, writing the digital compressed video signal after separation of the stuff bit additional information into a buffer memory in synchronization with the write clock, and The stuff bit is removed, the digital compressed video signal is expanded, and the clock frequency of the digital video signal is converted by reading out from the buffer memory in synchronization with the digital compressed video signal. Based on the video control information detected from After inserting the blanking signal reproduced by converting an analog video signal by the video clock, in which so as to reproduce the video signal.

Therefore, according to the present invention, a general-purpose digital communication line can be used without deteriorating the quality of the video signal, and the quality of the video signal can be improved without the influence of the jitter of the communication line, and the video can be resistant to burst errors. A digital transmission scheme can be provided.

[Brief description of the drawings]

FIG. 1 is a circuit block diagram showing a configuration of a video digital transmission system to which a video digital transmission system according to an embodiment of the present invention is applied, and FIG. 2 is a diagram showing signal waveforms of main parts of the video digital transmission system. DESCRIPTION OF SYMBOLS 1 ... Transmission device, 2 ... Digital communication line, 3 ... Reception device,
11: Blanking period detector (BKD), 12: Video clock generator (CLK) on the transmitting side, 13: Video signal encoder (CO
D), 14: Video control information generator (VCS), 15: Compressor, 1
6,35 ... buffer memory, 17 ... comparator, 18 ... inserter, 19 ...
Insertion control signal generation unit, 20 multiplexing unit, 21 timing generation unit, 31 timing reproduction unit, 32 demultiplexing unit, 33 destuff control unit (DSC), 34 video control information detection unit (VCD), 36
... video clock generator on the receiving side, 37 ... video frame generator (VFS), 38 ... blanking signal generator (BKS), 39 ...
OR gate, 40 ... Video signal decoding unit (DEC).

──────────────────────────────────────────────────続 き Continued on the front page (58) Fields investigated (Int.Cl. ⁶ , DB name) H04N 7/10 H04N 7/00-7/088 H04J 3/00 H04N 7/24-7/68

Claims (1)

(57) [Claims] In a digital video transmission system for digitizing a video signal and transmitting the digital signal via a digital communication line having a predetermined transmission speed, a transmitting side transmits the video signal at a predetermined video clock frequency synchronized with the signal frequency. Analog-to-digital conversion means for digitizing; blanking signal coding means for detecting and coding each of the horizontal and vertical blanking signals from the video signal to obtain a video control signal; output from the analog-to-digital conversion means A signal compression unit for deleting each horizontal and vertical blanking period from the digital video signal thus obtained, and inserting the corresponding video control information obtained by the blanking signal encoding unit instead, and an output from the signal compression unit. The video clock frequency of the digital compressed video signal transmitted through the digital communication line. Clock frequency conversion means for converting a transmission clock frequency synchronized with the clock frequency and adding a stuff bit for bringing the phase difference between the video clock and the transmission clock closer to zero to the digital compressed video signal after the conversion; Multiplexing means for multiplexing the stuff bit addition information indicating the stuff bit addition state to the digital compressed video signal output from the conversion means and transmitting the stuff bit addition information to the digital communication line. Write clock generating means for separating the stuff bit additional information from the multiplexed digital compressed video signal arriving from the transmitting side, and generating a destuffing write clock in accordance with the stuff bit additional information; A video clock generating means for generating a video clock Blanking signal reproducing means for detecting video control information from the digital compressed video signal and reproducing a blanking signal based on the information; and writing the digital compressed video signal after the stuff bit additional information separation in synchronization with the write clock. A buffer memory for removing a stuff bit, expanding a digitally compressed video signal, and converting the clock frequency of the digital video signal by reading the video signal in synchronization with the video clock; and a digital video signal output from the buffer memory. And a digital / analog converting means for converting a digital video signal output from the blanking signal inserting means into an analog video signal by the video clock. Characterized video digital transmission system.