JPH02305283A - Video encoding device - Google Patents

Abstract

PURPOSE:To follow up the wide change of the transmission speed by processing an inputted video signal as prescribed by a preprocessing part, selecting an optimum encoding algorithm based on the transmission speed and compressing the information volume in accordance with the encoding compression algorithm. CONSTITUTION:Information of the transmission speed of a transmission line is inputted to a compression ratio control part 7 from a transmission speed input terminal 8, and this control part 7 selects an optimum compression ratio based on the inputted transmission speed. This information is inputted to an encoding algorithm control part 10 from an input terminal 11, and this control part 10 selects an optimum encoding algorithm based on the inputted transmission speed. A compressing signal processing part 4 to which the optimum compression ratio selected by the compression ratio control part 7 and the optimum encoding algorithm selected by the control part 10 are inputted performs encoding compression in accordance with these selected compression ratio and encoding algorithm.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a video encoding device, and particularly to a video encoding device that controls encoding and compression based on a transmission rate.

[Prior Art] Fig. 2 is a block diagram showing the configuration of a conventional video encoding device. This is an A/D converter that converts into a video signal.

In addition, (3) is a preprocessing unit that performs filter linking, blocking, etc. on the digitized video signal, and (4) is an encoded compressed signal that encodes and compresses the digital video signal processed by the preprocessing unit (3). This is the processing section.

Further, (5) is a variable-length encoding unit that variable-length encodes the digital video signal encoded and compressed by the encoded and compressed signal processing unit (4), and (6) is a variable-length encoding unit that encodes the digital video signal encoded and compressed by the encoded and compressed signal processing unit (4). Long? This is a transmission framing unit that frames encoded video data for transmission.

(7) is a compression ratio control unit of the encoded compression signal processing unit (4) that controls the encoding compression ratio according to the transmission rate;
8) is a transmission speed input terminal for inputting transmission speed information;
) is the transmission line interface.

Next, the operation will be explained.

The analog video signal input from the input terminal (1) is A/D.
The converter (2) converts it into a digital video signal, and the A/
The digital video signal converted by the D converter (2) is subjected to predetermined filtering processing, time division multiplexing processing of the luminance signal and color signal, block processing for coding compression, etc. by the preprocessing section (3).

Then, the video signal processed by the pre-processing section (3) is compressed in information amount by a predetermined encoding/compression algorithm in an encoding/compression signal processing section (4).

At this time, information on the transmission speed of the transmission path is input to the compression ratio control section (7) from the transmission speed input terminal (8), and the most suitable compression ratio in terms of image quality is selected based on the input transmission speed. Compressed signal processing is controlled by the compression ratio.

For example, when the transmission speed is high, the compression ratio is reduced to transmit data as close to the original image as possible, and when the transmission speed is low, the compression ratio is increased.

The video signal compressed by the encoded compression signal processing unit (4) is further compressed by variable length encoding by the variable length encoding unit (5), and the variable length encoded video data is The transmission framing section (6) performs framing for transmission, and the transmission line interface (9)
is output to the transmission line.

In general, NTSC video signals have an amount of information greater than OOMbits, and are compatible with the lowest transmission speeds such as video telephones, 64 kbps -1-, video conference codecs with transmission speeds of 5 Mbps, and even 3゜Mbps. There are broadcast codecs that support higher transmission speeds. In the future, it will be used as a codec for HDTV with a transmission speed of 100 Mbps or more.

In this way, codecs for various speed ranges exist, or each codec has an encoding algorithm that is most suitable for the transmission speed band of the particular speed range, and each codec has an encoding algorithm that is most suitable for the transmission speed band of the particular speed range, When the transmission rate changes, the compression ratio is changed to cope with the change in the transmission rate, as in the conventional video encoding apparatus shown in FIG.

[Problem to be solved by the invention] Currently, ATM (Asyncj+ronous T
A switching network with a low bit rate in which the transmission speed can be freely changed has been considered as a transmission mode (transfer mode), but when trying to keep up with such a wide range of transmission speeds with a conventional video encoding device as shown in Figure 2, the code Since the conversion algorithm is fixed, there is a problem that the image quality may be unreasonable.

This invention was made in order to solve the above-mentioned problems, and it is possible to create a video that can be encoded and compressed using the best encoding algorithm at all times up to a transmission speed of 200 bps or higher. The target is to destroy the No. 1 conversion device.

[Means for Solving the Problems] A video encoding device according to the present invention includes a preprocessing unit that performs filtering, blocking, etc. on a video signal, and an encoding compression unit that encodes and compresses the video signal processed by the preprocessing unit. a signal processing section; a compression ratio control section that controls the encoding compression ratio of the encoding compression signal processing section according to the transmission speed; and a compression ratio control section that controls the encoding compression ratio of the encoding compression signal processing section; a transmission framing unit that converts the video signal variable-length encoded by the variable length encoding unit into a transmission framing unit; and an encoding algorithm control unit that selects an optimal encoding algorithm based on the transmission speed. It is equipped with Then, encoded and compressed signal processing is performed using an optimal encoding algorithm.

[Operation] The video encoding device according to the present invention performs predetermined processing on a manually generated video signal by a preprocessing section, and an encoding algorithm control section selects an optimal encoding algorithm based on the transmission speed. The amount of information is compressed using the optimal initial coding compression algorithm selected by the compressed signal processing unit.

At this time, the most suitable compression ratio in terms of image quality is selected based on the information on the transmission speed of the transmission path, and the compressed signal processing is controlled by the compression ratio.

[Example 1 An embodiment of the present invention will be described below with reference to the drawings.

In FIG. 1, (1) is an analog video input terminal that inputs an analog video signal, and (2) is an A/D converter that converts the analog video signal into a digital video signal.

In addition, (3) is a preprocessing unit that performs filtering, blocking, etc. on the digitized video signal, and (4) is an encoding compression signal processing unit that encodes and compresses the digital video signal processed by the preprocessing unit (3). Department.

Further, (5) is a variable-length encoding unit that variable-length encodes the digital video signal encoded and compressed by the encoded and compressed signal processing unit (4), and (6) is a variable-length encoding unit that encodes the digital video signal encoded and compressed by the encoded and compressed signal processing unit (4). This is a transmission framing unit that frames long-initial encoded video data for transmission.

(7) is a compression ratio control unit that controls the encoding compression ratio of the encoded compression signal processing unit (4) according to the transmission rate;
) is a transmission speed input terminal for inputting broadband transmission speed change information, and (9) is a transmission line interface.

In addition, (10) is an initial coding algorithm control unit that selects an optimal coding algorithm based on the transmission speed, (:+-
1,) is a transmission rate input terminal for inputting broadband transmission rate change information to the encoding algorithm control unit (10).

Next, the operation of this embodiment will be explained.

The analog video signal input manually from the input terminal (1) is A/D.
The converter (2) converts it into a digital video signal, and the A/
The digital video signal converted by the D converter (2) is subjected to predetermined filtering processing, time division multiplexing processing of the luminance signal and color signal, block processing for coding compression, etc. by the preprocessing section (3). The signal is input to the encoded compressed signal processing section (4).

At this time, information on the transmission speed of the transmission line is input from the transmission speed large horn terminal (8) to the compression ratio control section (7), and the compression ratio control section (7) selects the most suitable transmission speed based on the input transmission speed. Select the compression ratio, and information on the transmission speed of the transmission path can be obtained from the input terminal (
11) is input to the encoding algorithm control unit (10), and the ? ] The code naturalization algorithm control unit (10) selects the most suitable encoding algorithm for the input transmission rate.

Then, the manually operated compressed signal processing section (4) selects the most suitable compression ratio selected by the compression ratio control section (7) and the most suitable encoding algorithm selected by the encoding algorithm control section (10). Perform naturalization compression using the compression ratio and encoding algorithm.

The video signal compressed by the encoded compression signal processing unit (4) is further compressed by variable length encoding by the variable length encoding unit (5), and is variable-Q-length encoded. The video data is sent to the transmission framing section (6
) is used for framing for transmission, and output to the transmission line from the transmission line interface (9).

In the above embodiment, the output of the encoding algorithm control unit (10) is output only to the compressed signal processing unit (4), or may be output to other units depending on the encoding algorithm. It is also possible to control that part.

Furthermore, in the above embodiments, an analog signal is used as the input video signal, but a digital video signal may also be used. In this way, the A/D converter can be omitted.

[Effects of the Invention] As described above, according to the present invention, the encoding algorithm control unit is configured to select the optimal encoding algorithm based on the transmission speed, so that encoding is always performed using the best encoding algorithm at a low bit rate. It has the effect of being able to follow changes in broadband transmission speed without constantly deteriorating image quality.

[Brief explanation of drawings]

FIG. 1 shows a video encoding device according to an embodiment of the present invention (
FIG. 2 is a block diagram showing the configuration of a conventional video encoding device. In the figure, (3) is a preprocessing section, (4) is an encoded compression signal processing section, (5) is a variable length initial coding section, (6) is a transmission framing section, (7) is a compression ratio control section, (10) is an encoding algorithm control section. Note that the same reference numerals in the figures indicate the same or corresponding parts.

Claims (1)

[Claims] A preprocessing unit that filters and blocks the video signal, an encoding compression signal processing unit that encodes and compresses the video signal processed by the preprocessing unit, and the encoding compression ratio of the encoding compression signal processing unit is the transmission speed. a compression ratio control unit that controls the compression ratio by the encoded compression signal processing unit, a variable length encoding unit that variable length encodes the video signal encoded and compressed by the encoded compression signal processing unit, and a video signal variable length encoded by the variable length encoding unit. A video encoding device comprising a transmission framing unit that frames a signal for transmission, and an encoding algorithm control unit that selects an optimal encoding algorithm based on the transmission rate, and performs encoded compressed signal processing using the optimal encoding algorithm. A video encoding device characterized by performing the following.