KR20090002699A - Video conference system and method for controlling video data quality based on screen dividing information - Google Patents

Abstract

A video conference system and method for controlling the quality of image data based on screen segmentation information are provided to deteriorate the quality of image data of a participant with low priority while maintaining the quality of image data of a participant observed by a terminal user. A video conference system having a function of controlling the quality of image data based on screen segmentation information includes a bandwidth measuring unit(110) for measuring network bandwidths of terminals participating in a video conference, a control unit(120) for controlling a quality controller(130) to control the quality of image data based on screen segmentation information of a corresponding terminal, the quality controller controlling the image data quality under the control of the control unit, and a transceiver(140) for receiving screen segmentation information from the terminals and transmitting the image data in quality controlled by the quality controller to the corresponding terminal.

Description

Video conference system and method for controlling video data quality based on screen division information {Video conference system and method for controlling video data quality based on screen dividing information}

The present invention relates to a videoconferencing system and a method having a video data quality control function based on screen division information, and more particularly, when a network based remote videoconferencing service is provided, a network bandwidth of an arbitrary terminal does not exceed a required bandwidth. The present invention relates to a videoconferencing system having a screen segmentation information-based image data quality adjusting function for acquiring the screen segmentation information of a corresponding terminal and adjusting the quality of the image data based thereon.

When a large number of people participate in the internet-based teleconference, video data of each participant must be simultaneously received and output in parallel. This may result in participants with poor reception and output depending on the limited network bandwidth and system performance.

Conventionally, a method for dealing with such a problem cannot be provided, and a method of allowing the reception and output to remain unstable or processing or controlling the quality of the participant's image data arbitrarily by the original processing / transmitting end is processed. It was common.

This conventional method has a problem in that it does not satisfy the preferences of video conferencing participants because it restricts the quality of the image data simply by relying only on the network bandwidth without reflecting each participant's preference in limiting the quality of the image data.

Moreover, this problem is inevitably aggravated because teleconferences based on the network environment of the Internet cannot always guarantee a constant transmission quality.

The present invention measures the network bandwidth of each videoconferencing terminal participating in the videoconferencing and acquires screen division information from the corresponding terminal as the terminal does not exceed the required bandwidth, and then adjusts the quality of the video data based thereon. A videoconferencing system and method are provided for reducing video data quality of a low-priority participant while maintaining the video data quality of a participant who is watching the user.

An apparatus of the present invention for solving the above problems, the video conferencing system having a video data quality control function based on the split screen information, network bandwidth measuring means for measuring the network bandwidth of each terminal participating in the video conference; Controlling the quality adjusting means to adjust the image data quality based on the screen division information of the terminal according to the network bandwidth of any terminal of the network bandwidth of each terminal measured by the network bandwidth measuring means does not exceed the required bandwidth Control means for; The quality adjusting means for adjusting the quality of the image data according to the control of the control means; And transmitting / receiving means for receiving the screen division information from each of the terminals and transmitting the image data whose quality is adjusted by the quality adjusting means to the corresponding terminal.

On the other hand, the method of the present invention, the method for adjusting the image data quality based on the screen division information, comprising the steps of: measuring the network bandwidth of each videoconferencing terminal participating in the videoconferencing; Checking whether there is a terminal that does not exceed a required bandwidth among the measured network bandwidths of the videoconferencing terminals; Acquiring screen division information from the videoconferencing terminal as the videoconferencing terminal does not exceed the required bandwidth; And a quality adjusting step of adjusting image data quality based on the obtained screen division information.

The foregoing problems, features, and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, whereby those skilled in the art may easily implement the technical idea of the present invention. will be. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

As described above, the present invention measures the network bandwidth of each videoconferencing terminal participating in the videoconferencing and thus obtains the screen segmentation information from the corresponding terminal as the terminal does not exceed the required bandwidth. By adjusting, there is an effect that the image data quality of the low-priority participants can be reduced while maintaining the image data quality of the participants that the terminal user watches.

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

1 is a configuration diagram of a videoconferencing system having a screen division information-based image data quality adjusting function according to the present invention.

As shown in FIG. 1, the videoconferencing system having the image data quality control function based on the screen division information according to the present invention measures the network bandwidth of each terminal participating in the videoconference, and then selects the network bandwidth of the arbitrary videoconferencing terminal. The videoconferencing server 100 for acquiring the screen split information from the videoconferencing terminal and adjusting the video data quality based on the videoconferencing terminal as the required bandwidth is not exceeded, and the videoconferencing server 100 is connected to the videoconferencing server. And transmit the screen division information set by the user to the videoconferencing server 100 to reduce the video data quality of the low priority participants while maintaining the video data quality of the participant watching. To provide video conferencing service to users with optimal transmission quality while satisfying preference It includes a video conferencing terminal 200.

Here, the video conferencing server 100, the network bandwidth measuring unit 110 for measuring the network bandwidth of each terminal participating in the video conference, the network bandwidth of each terminal measured by the network bandwidth measuring unit 110 The control unit 120 and the control unit 120 for controlling the quality control unit 130 to adjust the image data quality based on the screen split information of the terminal as the network bandwidth of the terminal does not exceed the required bandwidth Receives screen division information from the quality control unit 130 and the respective terminals for controlling the quality of the image data according to the control, and transfers the image data whose quality is adjusted by the quality control unit 130 to the corresponding terminal. Transmitting and receiving unit 140 for transmission.

In addition, the videoconferencing terminal 200 receives image data from the videoconferencing server 100, and a transmission / reception unit 210 for transmitting screen division information from the control unit 230 to the videoconferencing server 100. ), A screen output unit 220 for dividing / arranging and outputting the image data received by the transceiver 210 according to a user's request, and a screen division according to the screen output state of the screen output unit 220. It includes the controller 230 for transmitting information to the transceiver 210.

In this case, the screen division information includes the size and arrangement information of the output image of each video conference participant.

In addition, the videoconferencing terminal user can set the division / arrangement of another terminal user image participating in the videoconferencing on the screen of the terminal via an input unit (not shown in the figure).

In addition, a device such as a filter, a decoder, or the like necessary for outputting image data may not obscure the subject matter of the present invention as a well-known technique, and thus the detailed description thereof will not be provided.

On the other hand, the required bandwidth is shown in Equation 1 below.

Required bandwidth = number of videoconferencing terminals x average quality of each video data

At this time, since the own image data is not passed through the network, the actual bandwidth required is expressed by Equation 2 below.

The required bandwidth is = (number of participants in video conference-1) × average quality of each image data

In addition, the priority means the order according to the degree of interest of the user, that is, the characteristic of centering or centering the image of a participant with a lot of interest.

This will be described with reference to FIGS. 2 and 3.

As shown in FIG. 2, a screen output method generally includes an equally divided screen output method 21, an output method 22 focused on a central speaker, and a free screen output method 23. In this case, the output method 22 focusing on the central speaker may output the priority by the image order of the participant selected by the user rather than the central speaker.

The video conferencing participant arranges the images of other participants on their terminal screens. For example, when the participant's screen is output in an output method focused on the central speaker, as shown in FIG. 3, participant A occupies more than other participants. Since the space is large, the highest priority is given, and for Participant D and Participant E who have the same size, Participant D is located more centrally than Participant E. For Participant D and Participant B, Participant D is centered over Participant E, giving Participant D a higher priority.

In addition, for Participant B and Participant E having the same size, Participant B is placed above Participant E, so Participant B has higher priority than Participant E and Participant C. Because it is centrally located, it gives Participant B a high priority.

That is, the highest priority is given to Participant A with the largest size, and the lowest priority is given to Participants C, F, and I located at each corner of the small size. In this case, the participants located at each corner are participants outside the interest of the terminal user, and since the priority of the participants is not meaningful, the quality may be arbitrarily selected.

As a result, the priority setting criteria places the highest priority on the large screen, and then ranks the highest priority in the order from the top to the bottom except for the center and each corner as the arrangement position. At this time, each corner is given the lowest priority.

When the priority is determined as described above, the image data quality is changed one by one in the reverse order of priority so as to satisfy the participant's network and system environment conditions. Perform.

If the display layout information is changed, the priority should be recalculated as described above, and accordingly, if an incorrect quality application state is applied, that is, a participant with a higher priority is lower than a participant's quality level lower than that of the participant. The redeployment work must be carried out so that the overall image data quality can be changed again.

In conclusion, the present invention periodically performs this process in the course of video conferencing so that it can cope with the progress in real time.

Therefore, when the network bandwidth of the videoconferencing terminal does not exceed the required bandwidth, the present invention degrades the quality of the image data, but grasps the user's preferences and lowers the quality from the image data of the low-priority participants. Even if the network environment deteriorates, videoconferencing services can be provided while satisfying the preferences of each participant.

For this reason, the present invention collects each participant's reception and output processing capability and visual arrangement information of the video conference output separately in the process of internet-based teleconference, and is suitable for the capability based on the arrangement information of the video data screen output. By varying the quality step by step, each participant is guaranteed the best quality from a visual point of view as a whole.

In addition, since the actual video conferencing system has a function of setting a minimum network bandwidth for providing a video conferencing service and preventing a terminal that does not meet the minimum network bandwidth from joining the meeting, priority is given to all images. It is possible to provide a smooth video conferencing service by simply degrading the quality of images located at the corners in the order of the smallest size without ranking. In this case, the minimum network bandwidth refers to a bandwidth capable of providing the lowest quality image data for the maximum video conference participants.

4 is a flowchart illustrating a method of adjusting image data quality based on screen division information according to the present invention.

First, the video conference server 100 measures the network bandwidth of each video conference terminal participating in the video conference (401).

Then, it is checked whether there is a terminal that does not exceed the required bandwidth among the measured network bandwidths of the videoconferencing terminals (402).

Thereafter, as the videoconferencing terminal does not exceed the required bandwidth, screen division information is obtained from the videoconferencing terminal (403). In this case, the screen division information may be obtained periodically from each videoconferencing terminal regardless of whether the required bandwidth is exceeded.

Thereafter, the image data quality is adjusted based on the obtained screen division information and transmitted to the corresponding video conference terminal (404).

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form. Since this process can be easily carried out by those skilled in the art will not be described in detail any more.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

1 is a configuration diagram of a videoconferencing system having a screen division information-based image data quality adjustment function according to the present invention;

2 is a diagram illustrating a screen output method of each participant according to a general video conference;

3 is an explanatory diagram illustrating a process of calculating screen division information based priority according to the present invention;

4 is a flowchart illustrating a method of adjusting image data quality based on screen division information according to the present invention.

* Explanation of symbols for the main parts of the drawings

100: video conferencing server 110: network bandwidth measurement unit

120: control unit 130: quality control unit

140: transceiver 200: video conference terminal

Claims (6)

In a video conferencing system having a screen segmentation-based image data quality control function, Network bandwidth measuring means for measuring network bandwidth of each terminal participating in the video conference; Controlling the quality adjusting means to adjust the image data quality based on the screen division information of the terminal according to the network bandwidth of any terminal of the network bandwidth of each terminal measured by the network bandwidth measuring means does not exceed the required bandwidth Control means for; The quality adjusting means for adjusting the quality of the image data according to the control of the control means; And Receiving means for receiving screen division information from each terminal, and transmitting the image data whose quality is adjusted by the quality control means to the corresponding terminal Video conferencing system having a screen partition information-based image data quality control function comprising a. The method of claim 1, The screen split information, And a video segmentation quality-based image data quality adjusting function of the video conference participant which is output on the screen of the terminal. The method of claim 2, The control means, The highest priority is given to a large sized image, and the same sized image is given a high priority from an image located close to the center, and then the quality is adjusted in a stepwise manner from the image of a low priority participant. A videoconferencing system having a screen division information-based image data quality adjustment function characterized by controlling means. In the split image information-based image data quality control method, Measuring network bandwidth of each videoconferencing terminal participating in the videoconference; Checking whether there is a terminal that does not exceed a required bandwidth among the measured network bandwidths of the videoconferencing terminals; Acquiring screen division information from the videoconferencing terminal as the videoconferencing terminal does not exceed the required bandwidth; And Quality control step of adjusting the image data quality based on the obtained screen division information Method of controlling the image data quality based on the split screen information. The method of claim 4, wherein The screen split information, And the image size and arrangement information of each video conference participant output on the screen of the terminal. The method of claim 4, wherein The quality control step, The highest priority is given to a large sized image, and the same sized image is given a high priority from an image located close to the center, and then the quality of the participant having a lower priority is gradually reduced. Method of adjusting image data quality based on screen division information.

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