JPH0730884A - Digital multiplex transmission system for picture signal - Google Patents

Abstract

PURPOSE:To efficiently transmit plural picture signals in the system transmitting plural picture signals via a digital transmission line whose transmission capacity is limited. CONSTITUTION:A multiplex control section 11 selects a coder 3i (i=31-m) depending on required transmission quality and controls the coder 3i with a control signal Ai and controls a changeover section 2 to give a transmission picture signal to the coder 3i. A multiplexer 4 forms a transmission multiplex frame according to a control signal 1b and multiplexes multiplex format information, a coded parameter Ai and switching information and sends the result to a transmission line 300. A demultiplexer section 5 receives reception data from the transmission line 300 and demultiplexes the multiplex format information and demultiplexes a coded picture signal corresponding to each coder 3i and gives the result to a decoder 7i. The decoder 7i decodes the received code data into a decoded picture signal based on a decoding parameter Bi and a changeover section 8 sends the decoded picture signal to a predetermined output terminal VOUTi according to switching information 6a.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multiplex transmission system for efficiently transmitting a plurality of image signals.

[0002]

2. Description of the Related Art When an image signal is transmitted via a digital transmission line, data compression may be performed by various high-efficiency coding in order to improve transmission efficiency (for example, Japanese Patent Laid-Open No. 63-2.
99588 publication). However, the transmission image signal may be deteriorated due to the difference in the high-efficiency coding method and the transmission speed (compression rate). In addition, the degree of deterioration varies depending on the characteristics of the image signal to be transmitted, even if the same high-efficiency encoding method and transmission rate (compression rate) are used.

When transmitting an image signal through a digital transmission line, a high-efficiency coding system and a transmission speed are determined by the line used.

[0004]

As described above,
When a conventional digital transmission line is used for image signal transmission, the transmission efficiency (speed) and transmission speed are determined by the transmission line (line) used, and depending on the nature of the image signal to be transmitted, it will compensate for unnecessarily high quality. However, there may be cases where the user pays for the expensive line usage. Also, excessive data compression,
The required transmission quality may not be compensated.

As described above, in the conventional transmission method, it is not possible to select a transmission method suitable for the property of the image signal to be transmitted.
There is a problem of poor transmission efficiency.

Further, the conventional high-efficiency coding apparatus as disclosed in Japanese Patent Laid-Open No. 63-299588 deals with only one image signal and makes no mention of transmitting a plurality of image signals. .

Therefore, it is an object of the present invention to provide a system capable of efficiently transmitting a plurality of image signals in a system for transmitting a plurality of image signals via a digital transmission line having a transmission capacity defined. It is in.

[0008]

A digital multiplex transmission system for image signals according to the present invention is a system for transmitting a plurality of image signals via a digital transmission line having a transmission capacity defined, and in advance for each transmission image signal. It is characterized in that a predetermined image signal transmission quality is designated, and a plurality of image signals are multiplexed and transmitted with a transmission quality equal to or higher than the transmission quality designated for each transmission image signal.

According to the first aspect of the present invention, n (n is 2
In a multiplexing system that encodes and multiplexes (transmits) the transmission image signals (integer number above) and transmits the signals, m (m Is an integer of 2 or more), and multiplex control means for inputting control data indicating a transmission request and required transmission quality of n input image signals and outputting switching information and the encoding parameter. Depending on the switching information, the switching means for connecting the n transmission image signals to the coding means corresponding to the required transmission quality, the coded image signals from the m coding means, the switching information and the coding parameters are provided. A multiplexing system is provided, which comprises: multiplexing means for multiplexing and transmitting a multiplexed image signal.

According to a second aspect of the present invention, in the separation system for separating and decoding the multiplexed image signal transmitted from the above-mentioned multiplexing system, the multiplexed image signal is coded image signal, switching information and code. Separation means for separating into encoded parameters, separation control means for generating decoding parameters from encoding parameters, m decoding means for decoding encoded image signals according to decoding parameters, and these m
And a means for outputting the decoded image signal from each decoding means to a predetermined output terminal according to the switching information.

[0011]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing a digital multiplex transmission system for image signals according to an embodiment of the present invention. The illustrated digital multiplex transmission system is a multiplex system 100.
, The separation system 200, and the transmission line 3 connecting them.
It consists of 00 and.

The multiplexing system 100 includes a multiplexing controller 1 and
A switching unit (SW) 2, m (m is an integer of 2 or more) encoders (CODs) 31, 32, ..., 3m, and a multiplexing unit (M).
UX) 4.

The separation system 200 includes a separation unit (DMU).
X) 5, separation control unit 6, and m decoders (DEC) 7
, 72 m, and a switching unit (SW) 8.

In the multiplex system 100, the switching section 2 has n input terminals V _IN1 , V _IN2 , V _IN3 and V.
N transmission image signals are input from _IN4 , V _IN5 , ..., V _INn . In addition, the multiplex control unit 1 has n control terminals CO
From NT ₁ , CONT ₂ , ..., CONT _n , the transmission request of the corresponding transmission image signal and the requirement / quality data indicating the required transmission quality are input. The request / quality data is bidirectional data, and the multiplex control unit 1 returns a transmission permission signal to the transmission request source in response to the transmission request, and the transmission request source sends the transmission image signal to the switching unit 2 in accordance with the transmission permission signal. In this way, the transmission of the image signal is controlled.

The multiplex control section 1 also includes control terminals CONT _1-
Request / quality data is received from CONT _{n, a} suitable encoder 3i (i = 1 to m) is selected from various high-efficiency encoding schemes according to the required transmission quality, and the encoding parameters of the encoder 3i are selected. The transmission rate is controlled by the control signal A _i , the switching unit 2 is controlled by the switching information 1a, and the transmission image signal from the input terminal V _INj (j = 1 to n) is connected to the compatible encoder 3i. Further, the multiplexing controller 1
The multiplexing unit 4 is controlled by the control signal 1b so that the multiplexing unit 4 configures a transmission multiplex frame structure suitable for the transmission rate of each encoder 3i. The multiplexing unit 4 forms a transmission multiplex frame according to the control signal 1b from the multiplexing control unit 1, multiplexes the multiplex format information, the coding parameter A _i of each encoder 3i, and the switching information 1a of the switching unit 2 into a multiplexed image. The signal is sent to the transmission path 300.

In the demultiplexing system 200, the demultiplexing unit 5 receives the multiplexed image signal from the transmission line 300 as received data, establishes frame synchronization, demultiplexes multiplex format information, and various information and each encoder 3i according to the information. The encoded image signals corresponding to are separated and sent to the decoder 7i. In the separating unit 5, each of the separated encoders 3
The encoding parameter of i and the switching information of the switching unit 2 are sent to the separation control unit 6. The separation control unit 6 determines each decoder 7i based on the received encoding parameter of each encoder 3i.
The decoding parameter B _i is sent to each decoder 7i, and the switching information 6a of the switching unit 2 is sent to the switching unit 8. The decoder 7i uses the specified decoding parameter B _i
In response to this, the received code data (encoded image signal) is decoded into a decoded image signal and sent to the switching unit 8. The switching unit 8 which has received the decoded image signal, according to the switching information 6a,
Decoded image signals are output to predetermined output terminals V _OUT1 , V _OUT2 , V
_{, OUT3} , V _OUT4 , V _OUT5 , ..., V _OUTn .

The encoders 31 to 3m perform encoding by various high-efficiency encoding systems which are different for each encoder 3i. For example, various high-efficiency coding schemes include a PCM coding scheme, an intraframe predictive coding scheme, an interframe predictive coding scheme, a transform coding scheme, a hybrid coding scheme, and the like.
The transmission quality also varies depending on the given transmission rate. The sender will select a predetermined coding method and transmission rate according to the nature of the image signal to be transmitted.

For example, an image signal having a small amount of motion or an image signal whose quality deterioration is allowed can be transmitted at a transmission rate of 64 kbps, and when broadcast quality is required, about 50 Mbps to 100 Mbps. Need a transmission speed of.

By collecting and transmitting a large number of image signals having different properties, the efficiency can be improved by the swarm effect.

Although the present invention has been described with reference to the embodiments, the present invention is not limited to the embodiments and various modifications / modifications can be made without departing from the spirit of the present invention. . For example, although the number of transmission lines is one in this embodiment, by using many multiplexing units and demultiplexing units,
It can be easily analogized that a transmission system having a larger capacity is formed by using a plurality of transmission lines.

[0022]

As described above, when the digital multiplex transmission system of the image signal of the present invention is used, the high efficiency encoding system and the transmission rate can be selected according to the property of the image signal to be transmitted, It is possible to compensate for the quality according to the quality and use the line efficiently.

[Brief description of drawings]

FIG. 1 is a block diagram showing a digital multiplex transmission system of image signals according to an embodiment of the present invention.

[Explanation of symbols]

 100 Multiplexing system 200 Separation system 300 Transmission line 1 Multiplexing control part 2 Switching part (SW) 31-3m Encoder (COD) 4 Multiplexing part (MUX) 5 Separation part (DMUX) 6 Separation control part 71-7m Decoder (DEC) ) 8 Switching unit (SW)

Claims (3)

[Claims] 1. In a system for transmitting a plurality of image signals via a digital transmission line having a determined transmission capacity, a predetermined image signal transmission quality is designated for each transmission image signal, and each transmission image signal is designated. A digital multiplex transmission system for image signals, wherein a plurality of image signals are multiplexed and transmitted with a transmission quality that is equal to or higher than the transmission quality specified in. 2. A multiplexing system for encoding n (n is an integer of 2 or more) transmission image signals, multiplexing and transmitting the same, and a signal input means for inputting the n transmission image signals, and various high efficiency codes. The switching information and the above-mentioned switching information are input by inputting m (m is an integer of 2 or more) coding means for executing coding according to a coding parameter, and control data indicating a transmission request and a required transmission quality of n input image signals. From the m coding means, a multiplexing control means for outputting a coding parameter, a switching means for connecting the n transmission image signals to a coding means corresponding to a required transmission quality according to the switching information, 6. A multiplexing system comprising: the coded image signal, the switching information, and the coding parameter that are multiplexed and transmitted in the multiplexed image signal. 3. A separation system for separating and decoding the multiplexed image signal transmitted from the multiplexing system according to claim 2, wherein the multiplexed image signal is the encoded image signal, the switching information and the encoding. Separation means for separating into parameters, separation control means for generating decoding parameters from the coding parameters, m decoding means for decoding the coded image signal according to the decoding parameters, and m decoding means Means for outputting the decoded image signal from the decoding means to the predetermined output terminal according to the switching information.