KR101220948B1 - Matrix-typed conference video display method for video conference system - Google Patents

Abstract

PURPOSE: A matrix typed screen display method for a video conference system is provided to prevent data overload caused from individually transmitting separate image information by combining duplicated image information into one duplicated image and transmitting the combined image to a corresponding client. CONSTITUTION: A video conference system produces combination images from multiple separate images(S120). The system produces duplicated images from the combination images(S130). The system transmits one duplicated image which is duplicated in a corresponding client from the multiple duplicated images to each client(S140). The system produces a conference image by the combination of the collected separate images from the corresponding client(S150). The system outputs the conference image to the corresponding client(S160). [Reference numerals] (S110) Individual image input step; (S120) Combination image generation step; (S130) Duplicated image generation step; (S140) Image transmission step; (S150) Conference image generation step; (S160) Conference image output step

Description

Matrix-type display for video conferencing system {Matrix-typed conference video display method for video conference system}

The present invention relates to a matrix output method for a video conferencing system. More specifically, after combining individual image information overlapping for each client unit among individual image information of each client into a duplicate image for each block unit, Transmitting the duplicated image to each client, but transmitting the duplicated image together with the individual image information of another client that is not duplicated in the client, and combining the duplicated image and the individual image information of the other client and the individual image information of the client in each client As meeting video is generated and outputted, it is possible to minimize the video data transmitted from the server to the client to prevent overload of the system and network so that the system can be operated more stably. It relates to a method.

[Patent 1] Domestic Patent Publication No. 10-2012-0006675, published on January 19, 2012.

[Patent 2] Korean Patent Publication No. 10-1998-0055120, published on September 25, 1998.

[Document 3] Domestic Patent Registration No. 10-0332224, registered on March 28, 2002.

[Document 4] Domestic Patent Registration No. 10-0311398, registered on September 25, 2001.

As the image processing technology for processing digital images together with the communication technology for transmitting and receiving data has been developed at the same time, a reminiscent conferencing system has been developed in which a plurality of people at a remote site conduct a meeting while watching a mutual image displayed on a monitor screen.

Such a video conferencing system is composed of a plurality of client terminals and one or more server terminals connected to a network as in Documents 1 to 4.

This means that a plurality of video data collected through a camera and a microphone connected to each client terminal are input to a server terminal through a network, and a plurality of individual image information input to the server terminal are transmitted to each client terminal through a network. The plurality of individual video information transmitted to each of the client terminals is combined and output as one conference video.

Therefore, the plurality of conference attendees can proceed with the meeting in the same state of meeting in the same space while watching and hearing the combined video data of all conference attendees output through the monitor and the speaker of each client terminal.

Thus, the video conferencing system is very convenient and economically efficient by eliminating time and space constraints at once, even though the meeting participants are located at the same time at the same time.

However, the conventional video conferencing system such as Documents 1 to 4 mentioned above has a transmission overload on a network and a system by separately transmitting a plurality of individual video information input from each client terminal to each client terminal in a server terminal. Due to this, the performance of the network is reduced and the stable operation of the system is difficult.

The present invention has been invented to solve the above problems, and blocks a plurality of individual video information that is duplicated for each client without separately transmitting a plurality of individual video information collected at each client and input to the server. It is a matrix display method for video conferencing system that prevents network performance degradation and system instability due to transmission overload in the network and system by transmitting individual video information that is not overlapped with the overlapped video combined in units. Its purpose is to provide.

개의 클라이언트에서 수집되어 서버로 입력되는

개의 개별 영상을 조합한 후 각각의 클라이언트로 출력하여 화상 회의를 진행하는 온라인 화상 회의 시스템에 있어서, 상기

개의 개별 영상을 서버에 입력하는 단계; 상기

개의 개별 영상을 매트릭스 형태로 배치하여

의 매트릭스 형태를 갖는 조합 영상을 생성하는 단계; 상기 조합 영상에서

개의 클라이언트 단위로 상호 중복되는

개의 개별 영상을

의 블록 형태를 갖는

개의 중복 영상을 생성하는 단계; 각각의 클라이언트에 상기

개의 중복 영상 중에서 해당 클라이언트에서 중복되는 하나의 중복 영상을 전송하는 단계; 및 각각의 클라이언트에 전송된 상기 중복 영상과 해당 클라이언트에서 수집된 개별 영상을 조합하여

의 매트릭 형태를 갖는 회의 영상을 생성하는 단계; 상기 회의 영상을 해당 클라이언트로 출력하는 단계;를 포함하여 구성됨을 특징으로 한다. 상기 중복 영상을 전송하는 단계는, 상기 해당 클라이언트에서 중복되지 않는

개의 개별 영상과 함께 전송하고, 상기 회의 영상을 생성하는 단계는, 상기 해당 클라이언트에서 중복되지 않는

개의 개별 영상을 더 추가로 조합하는 것을 특징으로 한다. In order to achieve the above object, a matrix-type screen output method for a videoconferencing system according to the present invention may have a square root of an integer.

Collected from clients and entered into the server

An online video conferencing system which combines two separate videos and outputs them to respective clients to conduct a video conference.

Inputting two individual images to a server; remind

Individual images in a matrix

Generating a combined image having a matrix form of; In the combination image

Overlapping each other

Individual videos

Having a block form of

Generating two duplicate images; Remind each client

Transmitting one duplicated image duplicated in the corresponding client among the duplicated images; And combining the duplicated image transmitted to each client and the individual image collected from the client.

Generating a conference image having a metric shape of; And outputting the conference video to a corresponding client. The transmitting of the duplicated image may not be duplicated in the corresponding client.

And transmitting the individual video together and generating the conference video, do not overlap in the corresponding client.

Further combining the individual images.

개의 개별 영상과 함께 전송하고, 상기 회의 영상을 생성하는 단계는 상기 해당 클라이언트에서 중복되지 않는

개의 개별 영상을 더 추가로 조합하는 것을 특징으로 한다.
The transmitting of the duplicated image may not be duplicated in the corresponding client.

And transmitting the video together with the individual video, and generating the conference video is not duplicated in the corresponding client.

Further combining the individual images.

According to the present invention by the above configuration, a plurality of individual image information that is overlapped with each other by a certain number of client units without overlapping each of the plurality of individual image information collected by the client and input to the server individually By combining the images and transmitting them to the corresponding clients, the system can be more stably operated by eliminating the conventional problem of causing data overload caused by the individual transmission of individual image information on the network and the system.

1 is a configuration diagram schematically showing a video conferencing system.
2 is a flowchart showing step by step a matrix screen output method for a video conferencing system of the present invention;
3 is a conceptual diagram schematically illustrating a process of generating and outputting a conference video according to an exemplary embodiment of the present invention.

According to an embodiment of the present invention, a method of outputting a screen in a matrix form for a video conferencing system may be performed by combining a plurality of individual video information collected from a plurality of clients in a video conferencing system and input to a server into a single conference video. It's a way.

In particular, the matrix output screen output method for a video conferencing system according to the present invention operates more stably by preventing overload on a network and a system by separately transmitting a plurality of individual video information from a server to each client. Characterized in that it can be.

This feature is combined with individual images that do not overlap after combining individual image information that is duplicated for a certain number of clients into one duplicate image without separately transmitting a plurality of individual image information input to the server to each client. This is accomplished by transmitting and combining the video with individual video information of the client and outputting the video as one video.

Therefore, by minimizing the number of images transmitted from the server to each client by minimizing the number of images to prevent data overload caused by the image transmission to solve the conventional problem that the network is not smooth and the system is not stable.

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

FIG. 1 is a block diagram schematically showing a video conferencing system, and FIG. 2 is a flowchart showing step by step a matrix screen output method for a video conferencing system of the present invention, and FIG. 3 is a preferred embodiment of the present invention. It is a conceptual diagram schematically showing the configuration and output process of the meeting video according to.

According to an embodiment of the present invention, a matrix-type screen output method for a video conferencing system may include an individual image input step S110, a combined image generation step S120, and a duplicate image generation step S130. ), An image transmission step (S140), a conference image generation step (S150), and a conference image output step (S160).

개의 클라이언트(110)로부터 수집된

개의 개별 영상 정보를 입력하는 단계이다. First, the individual video input step (S110), the video conferencing system 100

Collected from two clients 110

Inputting individual image information.

은 제곱근이 정수가 되는 수로 한정한다. In other words, the client 110 collects image data of the user of the client and inputs the image data to the server 120 through the network N. However, the above

Is limited to a number whose square root is an integer.

In this case, it is preferable that the individual video information includes audio data together with video data for video conferencing. For this purpose, each client includes a video input device for collecting video data and a voice input device for collecting audio data. It is preferable.

개의 개별 영상 정보가 네트워크(N)를 통해서 서버(120)로 입력된다. Accordingly, when the individual video input step (S110) is passed, the video input device and the audio input device of each client 110 are collected.

Pieces of individual image information are input to the server 120 via the network N.

As shown in FIG. 3, when applied to a video conferencing system including nine clients and one server, the first individual video information A1, the second individual video information A2, Three individual image information (A3), fourth individual image information (A4), fifth individual image information (A5), sixth individual image information (A6), seventh individual image information (A7), eighth individual image information ( A8) and nine pieces of individual image information including the ninth individual image information A9 are input to the server.

개의 개별 영상 정보를 하나의 영상을 이루도록 매트릭스 형태로 배치하여

의 매트릭스 형태를 갖는 조합 영상을 생성하는 단계이다. Next, the combined image generation step (S120), the

Individual image information is arranged in a matrix to form a single image

Generating a combination image having a matrix form.

개의 개별 영상 정보를 서버(120)에서 매트릭스 형태로 배치하여 조합 영상을 생성하는 단계이다. 따라서 상기 조합영상생성단계(S120)를 거치게 되면 서버(120)에서는

의 조합 영상이 생성된다. That is, each client 110 is individually input to the server 120

Generating individual images by arranging the individual pieces of individual image information in a matrix form in the server 120. Therefore, when the combined image generation step (S120) passes through the server 120

Combination images of are generated.

As shown in FIG. 3, in the server 120, the first individual image information A1, the second individual image information A2, the third individual image information A3, the fourth individual image information A4, and the fifth The individual image information A5, the sixth individual image information A6, the seventh individual image information A7, the eighth individual image information A8, and the ninth individual image information A9 are 3x3 matrix forms. Are combined to generate a combined image (B).

개의 클라이언트 단위별로 중복되는

개의 개별 영상 정보를

의 블록 형태를 갖는

개의 중복 영상을 생성하는 단계이다. Next, the overlapping image generation step (S130), the combination image of the matrix form

Duplicates per client

Individual video information

Having a block form of

Generating duplicate images.

개의 동일한 개별 영상 정보가 중복되는 클라이언트를

개의 그룹으로 구분하여 각 그룹에서 동일하게 중복되는 상기

개의 개별 영상 정보를

의 블록 형태로 중복 영상을 생성한다. 따라서 상기 중복영상생성단계(S130)를 거치게 되면, 서버(120)에서는

개의 중복 영상이 생성된다. That is, before outputting the conference video from each client 110

Clients with the same individual video information

The same overlap in each group by dividing into groups

Individual video information

Create duplicated images in the form of blocks. Therefore, when the duplicate image generation step (S130) is passed, the server 120

Duplicate images are generated.

As shown in FIG. 3, a first group, a first individual image including a first client, a second client, and a third client in which the fourth individual image information A4 to the ninth individual image information A9 overlap. A second client including a fourth client, a fifth client, and a sixth client, in which information A1 to third individual image information A3 and seventh individual image information A7 to ninth individual image information A9 overlap; And a third group including a seventh client, an eighth client, and a ninth client, in which the first individual image information A1 to the sixth individual image information A6 overlap.

In addition, the first duplicated image C1 combining the fourth individual image information A4 to the ninth individual image information A9 overlapped in the first group in the form of a 2 × 3 block, and the first overlapped image in the second group Second duplicate image C2 combining individual image information A1 to third individual image information A3 and seventh individual image information A7 to ninth individual image information A9 in a 2 × 3 block form. The third overlapping image C3 is generated by combining the first individual image information A1 to the sixth individual image information A6 overlapping each other in a 3 × group in the form of 2 × 3 blocks.

개의 중복 영상 중에서 해당 클라이언트에서 중복되는 하나의 중복 영상을 전송하는 단계이다. Next, the image transmission step (S140) is the client 110 to the

It is the step of transmitting one duplicated video duplicated in the client among the duplicated video.

That is, the step of transmitting the duplicate image generated for each group to the client 110 belonging to each group.

개의 개별 영상 정보도 함께 전송하는 것이 바람직하다. At this time, when the server 120 transmits a duplicate image to the client 110, the server 120 of the other client of the same group that does not overlap each client 110 in each group

It is also preferable to transmit the individual image information.

개의 개별 영상 정보가 전송된다. Therefore, when the image transmission step (S140) is passed, the server 120 of the client that does not overlap with the duplicate image in each client 110

Individual image information is transmitted.

개의 영상 정보가 개별적으로 전송되지 않고

개의 영상 정보만이 개별적으로 전송됨에 따라, 네트워크(N) 및 화상 회의 시스템(100)의 과부하를 방지하게 된다. That is, from server 120 to each client 110

Video information is not transmitted separately

Since only the video information is individually transmitted, overload of the network N and the video conferencing system 100 is prevented.

As shown in FIG. 3, the first duplicated image C1 generated in the first group is transmitted to the first client to the third client, and the second duplicated image C2 generated in the second group is the fourth client. To the sixth client, and the third duplicated image C3 generated in the third group is transmitted to the seventh to eighth clients.

At the same time, the second individual image information A2 and the third individual image information A3 which are not duplicated in the first group together with the first duplicated image C1 are transmitted to the first client, and the second client is transmitted to the first client. The first individual image information A1 and the third individual image information A3, which are not duplicated in the first group, together with the first duplicate image C1, are transmitted, and the third client together with the first duplicate image C1. The first individual image information A1 and the second individual image information A2, which are not duplicated in the first group, are transmitted.

The fifth individual image information A5 and the sixth individual image information A6 which are not duplicated in the second group together with the second duplicated image C2 are transmitted to the fourth client, and the second duplicated image is transmitted to the fifth client. Along with the image C2, the fourth individual image information A4 and the sixth individual image information A6, which are not duplicated in the second group, are transmitted, and the sixth client receives the second duplicate image C2 together with the second duplicate image C2. The fourth individual image information A4 and the fifth individual image information A5 which are not duplicated in the group are transmitted.

The eighth individual image information A8 and the ninth individual image information A9 which are not duplicated in the third group together with the third duplicated image C3 are transmitted to the seventh client, and the third duplicated image is transmitted to the eighth client. Along with the image C3, the seventh individual image information A7 and the ninth individual image information A9, which are not duplicated in the third group, are transmitted, and the third client together with the third duplicated image C3 is transferred to the ninth client. The seventh individual image information A7 and the eighth individual image information A8, which are not duplicated in the group, are transmitted.

의 매트릭 형태를 갖는 회의 영상을 생성하는 단계이다. Next, the meeting image generating step (S150), by combining the duplicated image transmitted to each client 110 and the individual image information collected by the client 110

Step of generating a conference video having a metric form.

의 블록 형태를 가진 중복 영상과 함께 해당 클라이언트(110)에서 수집한 개별 영상 정보를

의 매트릭 형태로 조합하여 회의 영상을 생성하는 단계이다. That is, as a step made in each client 110, received from the server 120

The individual image information collected by the client 110 together with the overlapped image having a block shape of

Steps to generate a meeting video by combining in a metric form.

개의 개별 영상 정보를 상기 중복 영상 및 해당 클라이언트(110)에서 수집한 개별 영상 정보와 함께

의 매트릭 형태로 조합하여 회의 영상을 생성하는 것이 바람직하다. At this time, each client 110 of the other client 110 that does not overlap in the same group received from the server 120

Individual image information together with the duplicated image and the individual image information collected by the client 110

It is preferable to generate a conference video by combining in a metric form.

개의 개별 영상 정보가

의 회의 영상으로 생성된다. 그리고 해당 클라이언트(110)에서 수집한 개별 영상 정보는 서버(120)로부터 별도로 전송받지 않고 자체적으로 그대로 이용하게 된다. Therefore, when the conference video generation step (S150) is passed, each client 110 collected from the other client and the corresponding client

Individual video information

It is generated as a video of the meeting. The individual image information collected by the client 110 is used as it is, without being separately transmitted from the server 120.

As shown in FIG. 3, in the first client, the first duplicated image C1, the second individual image information A2, the third individual image information A3, and the first image individual information A1 are combined. A 3 × 3 first time image D1 is generated, and the second client separates the first duplicated image C1, the first individual image information A1, the third individual image information A3, and the second image separately. A 3 × 3 second conference image D2 is generated in which the information A2 is combined, and the third client C1, the first individual image information A1 and the second individual image information A2 are generated by the third client. ), And a 3 × 3 third time image D3 in which the first image individual information A3 is combined.

In the fourth client, the 3 × 3 first meeting image in which the second duplicated image C2, the fifth individual image information A5, the sixth individual image information A6, and the fourth image individual information A4 are combined. (D4) is generated, and the fifth client 3 combines the second duplicated image C2, the fourth individual image information A4 and the sixth individual image information A6, and the fifth image individual information A5. The first meeting image D5 of × 3 is generated, and the sixth client includes the second duplicated image C2, the fourth individual image information A4 and the fifth individual image information A5, and the sixth image individual information. A 3 × 3 first time image D6 in which (A6) is combined is generated.

In the fourth client, the 3 × 3 first meeting image in which the second duplicated image C2, the fifth individual image information A5, the sixth individual image information A6, and the fourth image individual information A4 are combined. (D4) is generated, and the fifth client 3 combines the second duplicated image C2, the fourth individual image information A4 and the sixth individual image information A6, and the fifth image individual information A5. The first meeting image D5 of × 3 is generated, and the sixth client includes the second duplicated image C2, the fourth individual image information A4 and the fifth individual image information A5, and the sixth image individual information. A 3 × 3 first time image D6 in which (A6) is combined is generated.

In the seventh client, a 3 × 3 first meeting image in which the third duplicated image C3, the eighth individual image information A8 and the ninth individual image information A9, and the seventh image individual information A7 are combined. (D7) is generated, and the third client combines the third duplicated image C3, the seventh individual image information A7 and the ninth individual image information A9, and the eighth image individual information A8. The first meeting image D8 of x3 is generated, and the ninth client receives the third duplicated image C3, the seventh individual image information A7 and the eighth individual image information A8, and the ninth image individual information. A 3 × 3 first time image D9 including (A9) is generated.

Finally, the conference image output step (S160) is a step of outputting the conference image generated by each client 110 to the corresponding client 110.

의 회의 영상을 출력하여 화상 회의를 진행하도록 하는 단계이다. That is, combining the individual image information of the other client 110 that is not duplicated with the duplicate image in each client 110 and the individual image information collected from the client 110

The video conferencing step is to output a video conference.

Therefore, when the conference image output step (S160) is passed, the individual image information collected by the other client 110 along with the individual image information collected by the client 110 through the monitor and the speaker of each client 110 It is output at the same time.

As shown in FIG. 3, a first meeting image D1 is performed by the first client, a second meeting image D2 is arranged by the second client, a third meeting image D3 is located by the third client, and a fourth client is located by the fourth client. Conference video (D4), fifth client video (D5) on the fifth client, sixth video (D6) on the sixth client, seventh video (D7) on the seventh client, eighth video on the eighth client (D8) and the ninth client outputs the ninth image D9.

As described above, the matrix-type screen output method for a video conferencing system according to the present invention minimizes the number of video information transmitted from a server to each client, thereby effectively preventing an overload on the network and system generated during the transmission process. By making the video conferencing system operate stably, the reliability of the video conferencing system can be further increased.

The above embodiments are merely exemplary, and those having ordinary skill in the art may have other embodiments modified in various ways.

Therefore, the true technical protection scope of the present invention should include not only the above embodiment but also various other embodiments modified by the technical spirit of the invention described in the claims below.

100: video conferencing system 110: client
120: server N: network
S110: individual image input step S120: combination image generation step
S130: duplicate image generation step S140: image transmission step
S150: video generating step S160: video output step
A1: First individual image information A2: Second individual image information
A3: Third Individual Image Information A4: Fourth Individual Image Information
A5: fifth individual image information A6: sixth individual image information
A7: Seventh individual image information A8: Eighth individual image information
A9: 9th individual video information B: Combination video
C1: first duplicate image C2: second duplicate image
C3: Third Duplicate Video D1: First Meeting Video
D2: Second Video D3: Third Video
D4: Fourth Video D5: Fifth Video
D6: Sixth Conference D7: Seventh Conference
D8: 8th Conference D9: 9th Conference

Claims (2)

Square root becomes an integer

Collected from clients and entered into the server

In an online video conferencing system which combines two separate videos and outputs them to each client for video conference,
remind Inputting two individual images to a server;
remind

Individual images are arranged in a matrix to form a single image

Generating a combined image having a matrix form of;
In the combination image

Overlapping each other

Individual videos

Having a block form of

Generating two duplicate images;
Remind each client

Transmitting one duplicated image duplicated in the corresponding client among the duplicated images; And
By combining the duplicated image sent to each client and the individual image collected from the client

Generating a conference image having a metric shape of;
Outputting the conference video to a corresponding client; and outputting the conference video to a matrix type screen for a video conference system.
The method of claim 1,
The transmitting of the duplicated image may include:
Not duplicated on the corresponding client

Along with the individual videos,
Generating the conference video,
Not duplicated on the corresponding client

A matrix-type screen output method for a video conferencing system, characterized by further combining the two individual images.

Images