KR0138866B1 - Audio processing module of multipoint control unit using analog audio switching and synthesizing technigue - Google Patents

Abstract

The present invention relates to a multi-point control apparatus for implementing a video conferencing system used in a high-speed communication network environment. In particular, the present invention relates to a multi-point control apparatus, and in particular, a first process of receiving compressed image information from a network termination apparatus and recovering the digital image information. A second step of converting the digital data reconstructed in step 1 into analog data, a third step of receiving analog image information converted in the second step and generating switching and synthesis information; And a fifth process of converting the information into digital data and a fifth process of compressing the digital data converted in the fourth process and then transmitting the digital data to a corresponding network termination device. Provided a method for processing the processing module in an analog manner and a device according to it is a commercially available The boards for the image processing of the T-media terminal can be used as it is, and by only producing the analog image switching and composition part, the image processing module in the multi-point controller can be developed.

Description

Method and apparatus for analog image processing of image disease and synthesis processing module in multipoint controller

1 is a block diagram using a multi-point control device for multi-party video conferencing.

2 is a block diagram of a multi-point control device.

3 is a block diagram of a conventional image processing module in a multi-point controller.

4 is a block diagram of an image processing module in a multi-point control apparatus according to the present invention.

5 is a block diagram of an image processing unit in a videoconferencing communication terminal.

* Description of the symbols for the main parts of the drawings *

10A to N: Network connection part 31A to N: Video decoder

32 A to N: D / A converter 33: Image processing unit

34A ~ N: A / D Converter 35A ~ N: Video Encoder

The present invention relates to a multi-point controller for implementing a video conferencing system used in a high-speed communication network environment, and more particularly, to a method and apparatus for analog-processing an image switching and composition processing module in a multi-point controller. .

In general, the future network will be replaced by a high-speed integrated information network, and the commercialization of the global computer industry flow chart multimedia is expected to accelerate.

In particular, as high-speed network technology is specified, multimedia services based on voice, audio, data, image, and video are expected to form the main axis through a single network. This change is ultimately integrated with communication, broadcasting, home appliances, and computers. Will be deployed.

In such an environment, the video conferencing system can perform multi-party video conferencing through the configuration as shown in the attached FIG. 1 as one of the representative services. It is a multipoint controller shown in FIG.

In addition, the video terminal mainly provides a video conferencing service by connecting to the video phone and the multi-point control device between the two.

Briefly, the video conferencing system described above requires that terminals be logically interconnected in order to implement multiple video conferencing using a multimedia communication terminal, and a centralized method and a distributed method are used to implement the connection between the terminals. There is a configuration method of FIG. 1 described above, which is a centralized type, and uses a multipoint controller for connection between terminals.

That is, the multi-point video conferencing can be implemented through the multi-point control device, and the multimedia communication terminal can be implemented regardless of the number of participants in the video conferencing.

As shown in FIG. 2, the multi-point controller includes a network connection unit 10, an audio processing unit 20, an image processing unit 30, and a data processing unit 40. As shown in FIG.

The main functions of the multi-point control device configured as described above are three or more communication terminal interconnection functions, current presenter identification function, sound signal mixing function, video switching function for current presenter, video mixing function, and the terminal. It is a function of signal exchange and control, multiplexing and demultiplexing of video, sound, data and control signals, and interlace function of communication network.

The image processing unit 30 performing the dual image processing function among the functions of the multi-point controller as described above will be briefly described as follows.

The function of dual image processing will be briefly described as follows.

The synthesis in the image processor 30 takes the form of spatial multiplexing in the form of a split screen. For this purpose, the input signal requires a considerable amount of preprocessing. As the video combining process is quite complicated, the next best option is to adopt a video switching function in which the presenter receives the presenter's screen and all other terminals receive the presenter's screen.

In this case, in order to avoid too frequent screen changes due to coughing, mic tapping, etc., a delay of 2 seconds is given to the change, and one person may decide the most suitable screen by his judgment.

In addition, a delay compensation circuit should be added when the difference in time delay between the image processor 30 and the audio processor 20 is large.

Looking at the operation with reference to Figure 3 attached to the prior art to implement the image processing module in the multi-point control device as described above, the compressed image information input from each network connection is transmitted to the respective image decoder The image decoding unit receives the compressed image information from the network termination device and restores the digital image information.

In this case, the reconstructed digital information is input to an image processing unit that performs digital image switching and synthesis function, and the image processing unit receives a plurality of digital image information, generates switching and synthesis information, and outputs them to each image encoder.

Each video encoder compresses the digital video information and outputs the same to the network termination device.

However, since the image processing module in the conventional multi-point control apparatus as described above uses an analog method as a board for image processing of a commercially available multimedia terminal, it is difficult to match data, and thus a new system of appetizers must be produced. There is a cost problem.

An object of the present invention for solving the above problems is a method for analog processing the image switching and synthesis processing module in the multi-point control device to be able to apply both analog terminals and digital terminals. And providing the apparatus.

A feature of the present invention for achieving the above object is a method of implementing an image processing module in a multi-point control apparatus for implementing a video conferencing system used in a high-speed communication network environment, comprising the input of the compressed image information from the network termination device A first process of receiving and restoring the digital image information, a second process of converting the digital data restored in the first process into analog data, and converting and synthesizing information by receiving analog image information converted in the second process. A third process of generating, a fourth process of converting the information generated in the third process into digital data, and a fifth process of compressing the digital data converted in the fourth process and then transmitting the compressed digital data to the network termination apparatus. It is.

Another feature of the present invention for achieving the above object is a device for implementing an image processing unit in a multi-point control device for implementing a video conferencing system used in a high-speed communication network environment, one-to-one through the network connection from the network termination device A plurality of image decoding means for receiving the compressed image information connected to and reconstructing the digital image information, a plurality of D / A conversion means for converting the digital data input from the image decoding means into analog data, and the D / Analog image processing means for receiving a plurality of analog image information input from the A conversion means and generating conversion and synthesis information, A / D conversion means for converting the information generated by the analog image processing means into digital data and the A Compresses the digital data input from the / D conversion means and transfers it to the network termination device through the network connection. The transmission includes the video encoding means.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

4 is a block diagram of the image processing module in the multi-point control apparatus according to the present invention, and the compressed image information is connected one-to-one through the network connection (10A ~ N) from the network termination device (not shown) Image decoding units 31A to N for receiving and restoring digital image information, D / A converters 32A to N for converting digital data input from the image decoding units 31A to N into analog data, and An image processor 33 for receiving a plurality of analog image information input from the D / A converters 32A to N and generating switching and synthesis information, and converting the information generated by the image processor 33 into digital data. Image encoder 35A for compressing digital data input from A / D converters 34A to N and the A / D converters 34A to N and then transmitting them to the network termination device through the corresponding network connection units 10A to N. N).

Referring to the operation of the image processing module in the multi-point control apparatus according to the present invention configured as described above, this method can be used when the image processing module in the multi-point control apparatus is configured with the image processing modules of the existing multimedia terminal. It handles audio synthesis and switching in an analog way.

That is, the compressed image information input through each of the network connection units 10A to N is transmitted to the respective image decoders 31A to N, and the network connection units 10A to N of the image decoders 31A to N are transmitted. The digital image information is restored by receiving the compressed image information from the connected network termination device.

In this case, when the restored digital image information is converted into an analog image through the D / A converters 32A to N connected to the corresponding image decoder, the digital image information is inputted to the image processing unit 33 that performs image path switching and synthesis functions. The image processing unit 33 is connected to a network termination device that determines that data is needed by receiving a plurality of analog image information through all the D / A converters 32A to N connected thereto to make switching and synthesis information. To the A / D converters 34A to N.

Each of the A / D converters 34A to N converts the analog information input from the image processor 33 into digital image information and outputs the same to the image encoders 35A to N connected thereto.

Each video encoder 35A-N compresses this digital video information and outputs it to the network termination device.

The present invention provides a method and an apparatus for analog image processing of a video switching and composition processing module in a multi-point control apparatus according to the present invention operating as described above. Instead of developing or manufacturing, there is an effect that the image processing module in the multi-point controller can be developed using the image processing module of the existing multimedia terminal having the configuration as shown in FIG.

That is, the boards for image processing of a commercially available multimedia terminal can be used as it is, and by only producing analog image switching and synthesis parts, an image processing module in a multipoint controller can be developed.

Claims (2)

An implementation method of an image processing module in a multipoint control apparatus for implementing a video conferencing system used in a high speed communication network environment, the method comprising: a first step of receiving compressed image information from a network termination device and recovering the digital image information; A second step of converting the digital data recovered in the first step into analog data; A third step of receiving the analog image information converted in the second step and generating switching and synthesis information; A fourth step of converting the information generated in the third step into digital data; And And a fifth process of compressing the digital data converted in the fourth process and then transmitting the digital data to a corresponding network termination device. An image processing unit in a multi-point controller for implementing a video conferencing system used in a high-speed communication network environment, comprising: receiving digital video information by receiving one-to-one compressed video information from a network termination device through a corresponding network connection unit A plurality of video decoding means for restoring the video data; A plurality of D / A conversion means for converting the digital data input from the video decoding means into analog data; Analog image processing means for receiving a plurality of analog image information input from the D / A conversion means and generating switching and synthesis information; A / D conversion means for converting the information generated by the analog image processing means into digital data; And And a video encoding means for compressing the digital data inputted from the A / D conversion means and transmitting the digital data to the network termination device through the corresponding network connection unit. Device for processing with