JP3081425B2 - Video coding device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video coding apparatus for coding by reducing the amount of information contained in a video (moving picture) signal. And a video encoding device for relaying video communication between the two terminals.

[0002]

2. Description of the Related Art In recent years, effective utilization of image information is expected due to the development of high-speed digital signal processing, LSI technology therefor, and image processing technology. In particular, in the field of communications, ISDN (Integrated Services Digita
l Network: With the development and spread of digital networks represented by service integrated digital networks, video communication services such as videophone and videoconferencing services have already been put into practical use. Furthermore, with the aim of upgrading services,
A multi-point video conference service that allows communication between terminals at three or more points, and a non-real-time video communication service that temporarily stores information in a center device such as video distribution using e-mail or a database are being studied. ing.

FIGS. 5A and 5B are diagrams showing examples of communication forms of a video communication service (non-real time service).
5A shows a multipoint video conference service, and FIG. 5B shows a video distribution (database) service. In the figure, 21a to 21c are video conference terminals, 22 is a multipoint conference control unit (MCU), 23a to 23c are video conference terminals, 24a to 24c are video communication terminals, 25 is a video distribution center device, and 26 is a database. .

In general, since the amount of information contained in video information is very large, it is not practical to handle video signals as they are. However, since a video signal contains a great deal of redundancy in its information amount, it is possible to reduce the information amount by removing this redundancy. Therefore, in order to handle video information efficiently, video (compression) encoding technology is very important. As a typical video coding method, a method defined in ITU-T Recommendation H.261 is widely used in video communication.

There are various types of video communication terminals according to the resolution (video format), frame rate, transmission speed, and the like of video that the terminal can handle. However, in the case of one-to-one communication such as a videophone call or a video conference, even for terminals of different types, a communication mode common between the terminals is determined by using a negotiation procedure or the like at the start of communication. Video communication. However, in a multipoint video conference service as shown in FIG. 5 (a), when following the same procedure as in the point-to-point communication, each terminal is required to guarantee communication between all conference participants. Communication must be performed in a communication mode that matches the terminal with the lowest capability, and serviceability is reduced. In a video distribution service as shown in FIG. 5B, a terminal that transmits video information to a center such as a database may know in advance what type of terminal will receive the video information later. Therefore, there may be a case where video information cannot be received by a terminal of a type different from the terminal that transmitted the video information.

Therefore, in order to solve these problems and guarantee the interoperability between various types of terminals, FIG.
Terminal 21a with the multipoint video conference service in
The terminals 24a to 24c can be received by the multipoint conference control unit (MCU) 22 that relays communication with the terminals 21a and 21a and 23a to 23c, the video distribution center device 25 of the video distribution service in FIG. It is necessary to provide a function for converting the video information into a video image. However, as mentioned above,
Since video information transmitted in video communication is encoded, it is not easy to directly convert an encoded video signal. Therefore, the multipoint conference control unit 22 and the video distribution center device 25 once decode the encoded video information received from the terminal to restore the video information, and then perform necessary conversion such as conversion of the video format. , The terminal re-encodes the data in a receivable mode and sends it.

FIG. 6 shows a multipoint conference control unit (MC).
U) and a configuration diagram of a conventional video encoding device having a re-encoding function used as a video distribution center device.
31 is a line controller, 32 is a transmission decoder, 33 is a video decoder, 34 is a video format converter, 35 is a video encoder, 36 is a transmission encoder, and 37 is a line controller.

The line control unit 31 performs line connection control according to a procedure specified by a communication network to which the video encoding device is connected, establishes a transmission path with the terminal,
The information signal transmitted from the terminal is received and transmitted to the transmission decoding unit 32. The information signal received from the terminal has a multiplexed coded audio signal, coded video signal, and other data signals, and has been subjected to error correction coding to protect the information signal from transmission errors. Have been. Therefore, the transmission decoding unit 32 separates the multiplexed information signal, performs error correction decoding processing, and the like, extracts an encoded video signal, and sends it to the video decoding unit 33.

The video decoder 33 decodes the coded video signal and restores the video signal sent from the terminal. When video processing such as video format conversion is required, the video signal decoded by the video decoding unit 33 is sent to a video format conversion unit 34 and subjected to appropriate conversion processing. Sent to the unit 35. When the conversion process of the video signal is unnecessary, the video signal is directly sent from the video decoding unit 33 to the video encoding unit 35. The video encoding unit 35
Then, the video signal is appropriately encoded according to the capability of the receiving terminal, and the encoded video signal is output.

In the transmission encoding section 36, the transmission decoding section 3
2 is performed in a reverse manner, that is, the coded video signal output from the video coding unit 35 is subjected to error correction coding and multiplexing with a coded audio signal and other signals. Send to control unit 37. The line control unit 37 controls the line connection with the communication network in the same manner as the line control unit 31, establishes a transmission path with the terminal, and transmits the information signal from the transmission coding unit 36 to the other receiving terminal. I do.

[0011]

However, as described above, in the conventional video coding apparatus, after the received coded video signal is once decoded to restore the video signal, the video signal is re-coded. Although the encoding process is performed, the encoded video quality after encoding is degraded compared to the video quality before encoding due to the reduction in the amount of information in the encoding process, and therefore, is output from the video encoding device. The encoded video quality is
There is a problem that the quality of the received coded video is further degraded by the quality degradation due to re-encoding being further added.

The present invention has been made in view of such circumstances, and when decoding an encoded video signal, monitors and stores encoding parameters, and encodes the restored video signal again. The object of the present invention is to provide a video encoding device capable of reducing degradation of video quality due to re-encoding by performing encoding control with reference to the stored encoding parameters when performing the encoding. is there.

[0013]

According to the present invention, there is provided a transmission / decoding means for extracting coded video information from input information, and the coded video information extracted by the transmission / decoding means. Video decoding means for decoding video restored by decoding video, video encoding means for re-encoding the video restored by the video decoding means, and an information format suitable for transmitting the encoded video information by the video encoding means. And transmission encoding means for converting the input encoded video information into a video format, a frame rate, and a bit rate of the input encoded video information.
In the video encoding apparatus outputs the encoded video information converted bets, quantization steps in decoding by the video decoding unit, a coding parameter management means for storing the coding parameters of the motion vector, the Re-encoding control means for controlling the encoding parameters in the video encoding means with reference to the encoding parameters stored by the encoding parameter management means, wherein the encoding parameter management means The encoding parameter of each screen used for decoding information is stored for each unit encoding area,
The re-encoding control unit reads out the encoding parameter of each screen stored in the encoding parameter management unit, and refers to the encoding parameter to specify an encoding parameter to instruct the video encoding unit. It is characterized in that it is determined.

[0014]

The video decoding means decodes the coded video signal to restore the video signal, and outputs coding parameters such as a motion vector and a quantization step size for decoding for each unit coding area. The encoding parameter management means includes :
The coding parameters of each screen used for decoding video information;
Data is stored for each unit coding area. The re-encoding control means refers to the information stored in the encoding parameter management means and determines and instructs the encoding parameters in the video encoding means. The video encoding unit re-encodes the video signal according to the encoding parameter instructed by the re-encoding control unit, thereby reducing degradation of the video quality due to the re-encoding.

[0015]

Embodiments will be described below with reference to the drawings. FIG. 1 is a configuration diagram for explaining an embodiment of a video encoding device according to the present invention, in which 11 is a line control unit,
12 is a transmission decoder, 13 is a video decoder, 14 is a video format converter, 15 is an encoding parameter manager, 16
Is a re-encoding control unit, 17 is a video encoding unit, 18 is a transmission encoding unit, and 19 is a line control unit.

The line control unit 11 is connected to an external communication line and performs a communication connection process with a terminal. The transmission decoder 12 is connected to the line controller 11 and extracts encoded video information from the received information. The video decoding unit 13 is connected to the transmission decoding unit 12 and decodes the coded video information to restore the video. The video format conversion unit 14 is a video decoding unit 1
3 and performs video processing such as conversion of a video format. The coding parameter management unit 15 is connected to the video decoding unit 13 and stores coding parameters for decoding.

The re-encoding control section 16 is connected to the encoding parameter management section 15 and controls the re-encoding parameters with reference to the stored encoding parameters. The video encoding unit 17 is connected to the re-encoding control unit 16, the video format conversion unit 14, and the video decoding unit 13, and encodes the video signal again. The transmission encoding unit 18 is connected to the video encoding unit 17 and converts the encoded video information into an information format suitable for transmission. The line controller 19 is provided with the transmission encoder 18.
Is connected to an external communication line to perform communication connection processing with the terminal.

FIGS. 2 and 3 are flowcharts for explaining the operation of the video encoding apparatus according to the present invention. Hereinafter, the steps will be sequentially described. First, in the video encoding device, the line control unit 11 performs a line connection with a video communication terminal to which video information is to be transmitted according to a procedure specified by a communication network (step 1). When the transmission path with the terminal is established, the line control unit 11 executes a negotiation procedure to confirm the type and capability of the transmission video communication terminal (step 2), determines a communication mode, and starts communication (step 3). . When the video communication is started, the line control unit 11 performs a receiving process of the information signal transmitted from the terminal (step 4), and sends the information signal to the transmission decoding unit 12. The transmission decoding unit 1
In step 2, the coded video signal is separated from the received signal in which information such as video and audio is multiplexed (step 5), and the coded video signal is extracted by performing error correction decoding processing (step 5).
6).

In parallel with this, in the line control unit 19, a line connection is made with the receiving video communication terminal in accordance with the procedure specified by the communication network, similarly to the line control unit 11 (step 7). . When the transmission path with the terminal is established, the line controller 19 executes a negotiation procedure to confirm the type and capability of the receiving video communication terminal (step 8),
The communication mode is determined and communication is started (step 9).

If the receiving terminal can receive the information signal according to the communication mode from the communication terminal (step 10), the coded video signal output from the transmission decoding unit 12 is transmitted to the transmission coding unit 18 as it is. Sent. In the transmission coding unit 18, in contrast to the processing in the transmission decoding unit 12, error correction coding (step 11) for the coded video signal and multiplexing processing with the coded audio signal and the like are performed. It is sent to the line controller 19 (step 12). The multiplexed information signal is transmitted from the line control unit 19 to the receiving video communication terminal through the communication line (step 13).

On the other hand, when the types of the transmitting terminal and the receiving terminal are different and the receiving terminal cannot receive the coded video signal from the transmitting terminal, a re-encoding process is performed (step 1).
0). The encoded video signal from the transmission decoding unit 12 is sent to the video decoding unit 13 to perform decoding processing, and the video signal transmitted from the terminal is restored (step 14). At this time, the coding parameters obtained at the time of decoding are sent to the coding parameter management unit 15 and stored for each unit coding area (step 18). Further, when video processing such as converting the decoded video signal into a video format that can be handled by the receiving terminal is required (step 15), the video signal is subjected to an appropriate conversion process in the video format conversion unit 14. After that (step 16), it is sent to the video encoding unit 17 (step 1).
7). If video signal conversion is not required (step 1
5) The video signal from the video decoding unit 13 is directly sent to the video encoding unit 17 (step 17).

The re-encoding control section 16 reads out the encoding parameters stored in the encoding parameter management section 15 for each corresponding unit encoding area (step 19), and refers to the encoding parameters. Video encoding unit 1
7 are determined (step 20). The video encoding unit 17 appropriately encodes the video signal according to the re-encoding parameters instructed by the re-encoding control unit 16 (step 17), and outputs the encoded video signal. The encoded video signal is subjected to error correction encoding (st
ep11), after undergoing multiplexing processing (step 12), transmitted to the receiving video communication terminal via the line control unit 19 (step 1).
3).

FIG. 4 is a flowchart showing an operation example of a main part in the video encoding apparatus according to the present invention. Hereinafter, the steps will be sequentially described. The operation of the main part includes the video decoding unit 13 and the encoding parameter management unit 1
5, the re-encoding control unit 16 and the video encoding unit 17 perform re-encoding operations.

The coded video signal includes a motion vector representing motion between video frames in the motion compensation inter-frame predictive coding, and a quantization step size (quantum) at a quantization stage for reducing (compressing) the amount of information. The parameters used for encoding necessary for decoding, such as encoding width, are included together with information on the encoded video itself (step 1). These encoding parameters are determined for each unit area represented by a rectangular area having a predetermined size during encoding (step 2). The video decoder 13 decodes the video information itself while decoding and referring to the coding parameters included in the coded video signal (step 3) (step 4).
~ 7). The encoding parameters at this time are stored in the encoding parameter management unit 15 for each corresponding unit encoding area (step 8). The re-encoding control unit 16 reads from the encoding parameter management unit 15 an encoding parameter at the same position as the unit encoding area to be encoded at present (steps 9 and 10).

As for the motion vector information among the coding parameters, it is better to use the same one as the coded video signal received at the time of re-encoding because the coding efficiency is higher. (Step 11). The quantization step size is obtained by the video decoding unit 13 because the information amount of the coded video signal after re-encoding needs to be changed from the information amount of the received coded video signal. The same value as the quantization step size cannot be used in the video encoding unit 17. Therefore, the quantization step size is modified according to the target information amount after re-encoding (step 1).
2), an instruction is given to the video encoding unit 17 (step 13).

At this time, the distribution relation of the quantization step size for each unit coding area stored in the coding parameter management unit 15 is maintained as it is, and the quantization step size is maintained at a constant rate over the entire video frame. By changing the size, degradation of video quality due to encoding can be minimized. The video encoding unit 17 encodes and encodes the video signal using the encoding parameters for each unit encoding area to be encoded which are determined and indicated by the re-encoding control unit 16. Output video signal.

[0027]

As is apparent from the above description, according to the present invention, when a video signal is re-encoded, the encoding parameters obtained at the time of decoding are stored, and the stored encoding parameters are stored. , It is possible to reduce the degradation of video quality due to re-encoding by performing encoding control with reference to, and to obtain better encoded video quality in a multipoint video conference system, video distribution service, etc. Can be. Further, by applying the present invention, it becomes possible to accommodate various types of video communication terminals in a video communication system, and it is expected that the service range of the system will be expanded.

[Brief description of the drawings]

FIG. 1 is a configuration diagram for explaining an embodiment of a video encoding device according to the present invention.

FIG. 2 is a flowchart (part 1) for explaining the operation of the video encoding device according to the present invention.

FIG. 3 is a flowchart (part 2) for explaining the operation of the video encoding device according to the present invention.

FIG. 4 is a flowchart showing an operation example of a main part in the video encoding device according to the present invention.

FIG. 5 is a diagram illustrating an example of a communication form of a conventional video communication service.

FIG. 6 is a configuration diagram of a conventional video encoding device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 11 ... Line control part, 12 ... Transmission decoding part, 13 ... Video decoding part, 14 ... Video format conversion part, 15 ... Encoding parameter management part, 16 ... Re-encoding control part, 17 ... Video encoding part, 18 ... Transmission encoding unit, 19: line control unit.

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hirotaka Nakano 1-1-6 Uchisaiwaicho, Chiyoda-ku, Tokyo Nippon Telegraph and Telephone Corporation (72) Osamu Nakamura 1-1-6 Uchisaiwaicho, Chiyoda-ku, Tokyo Japan (56) References JP-A-5-207259 (JP, A) JP-A-5-199495 (JP, A) JP-A-6-70178 (JP, A) JP-A-6-343156 ( JP, A) (58) Field surveyed (Int. Cl. ⁷ , DB name) H04N ^7/ 24-7/68 JICST file (JOIS)

Claims (1)

(57) [Claims] 1. A transmission decoding unit for extracting encoded video information from input information, a video decoding unit for decoding the encoded video information extracted by the transmission decoding unit to restore a video, and a video decoding unit. Video encoding means for re-encoding the video restored by the means, and transmission encoding means for converting the encoded video information by the video encoding means into an information format suitable for transmission and outputting the information. Video format, frame rate, bit rate of encoded video information
In the video encoding apparatus outputs the encoded video information converted bets, quantization steps in decoding by the video decoding unit, a coding parameter management means for storing the coding parameters of the motion vector, the Re-encoding control means for controlling the encoding parameters in the video encoding means with reference to the encoding parameters stored by the encoding parameter management means, wherein the encoding parameter management means The encoding parameter of each screen used for decoding information is stored for each unit encoding area,
The re-encoding control unit reads the encoding parameter of each screen stored in the encoding parameter management unit, and refers to the encoding parameter to specify an encoding parameter to instruct the video encoding unit. A video encoding device characterized by determining.