KR20230094545A - Web realtime communication based viedo conferencing service method and system - Google Patents

Abstract

The present invention relates to a video conferencing service method and system based on web real-time communication. According to the present invention, a video conference service can be activated as a stable service with equal quality is possible for all peers based on the maximum number of video conference participants and the maximum network bandwidth.

Description

Video conference service method and system based on web real-time communication {WEB REALTIME COMMUNICATION BASED VIEDO CONFERENCING SERVICE METHOD AND SYSTEM}

The present invention relates to a video conferencing service method and system based on web real-time communication.

The method of handling video conference based on WebRTC, an open framework for the web that enables real-time communication without separate software in the Internet browser, is a P2P (or Mesh) method that transmits media traffic directly between peers, media traffic between peers There is a Selective Forwarding Unit (SFU) method in which a central server relays media traffic between peers, and a Multi-point Control Unit (MCU) method in which media traffic between peers is mixed or transcoded by a central server and transmitted.

Conventionally, real-time optimization for each downlink rather than the maximum allowable peer for video conferencing and the corresponding maximum allowable downlink network bandwidth (bit rate, resolution, frame rate when media traffic is transmitted through downlink and traffic transmission delay occurs As the number of peers increases, media traffic transmission support is highly likely to occur due to an increase in the load of the central server for adjusting the bit rate, resolution, and frame rate for each downlink.

In addition, as the uplink media traffic is individually set according to the PC environment of the peers who want to participate in the video conference, when a large number of peers attend, the overall quality of the video conference is degraded. Media traffic must be individually adjusted. there is In particular, the higher the quality of downlink media traffic, the higher the CPU usage for displaying it in the PC web browser, so that in the case of a low-end PC, a video conference quality deterioration problem occurs or participants must be restricted.

The present invention aims to address the aforementioned needs and/or problems.

In addition, peers opening a conference room set the maximum network bandwidth for uplink and downlink based on the total number of peers to attend the conference, and as the number of peers increases based on the maximum bandwidth, the uplink and downlink network bandwidth for each peer is increased in real time. Its purpose is to provide a web conferencing service method and system based on web real-time communication that can be assigned and changed.

According to one aspect of the video conferencing service method based on web real-time communication according to the present invention for achieving the above object, the maximum number of participants and Opening a conference room for transmitting and receiving media traffic between video conference participant terminals based on network bandwidth settings; requesting participation in a video conference from at least one other participant terminal according to a request to participate in a conference from the conference room opening request terminal in the web real-time communication central server; According to the number of participants in the conference room opened by the web real-time communication central server, uplink and downlink network bandwidth for each participant terminal is allocated within the range that does not exceed the set maximum network bandwidth setting value, and uplink network bandwidth for each participant terminal is allocated. adjusting the quality of media traffic in each participant terminal participating in the conference room based on link and downlink network bandwidth; and when the number of participants in the conference room opened by the web real-time communication central server increases, the sum of uplink and downlink network bandwidths per participant terminal does not exceed the set maximum network bandwidth setting value for each participant terminal. The method may include reassigning link and downlink network bandwidths and requesting a change of the uplink network bandwidth value to each participant terminal to the reassigned uplink and downlink network bandwidth value for each participant terminal.

When the number of participants in the conference room opened by the web real-time communication central server increases, the sum of the uplink and downlink network bandwidths for each participant terminal does not exceed the set maximum network bandwidth setting value for uplinks for each participant terminal. And after the step of reassigning the downlink network bandwidth and requesting a change of the uplink network bandwidth value to each participant terminal to the reassigned uplink and downlink network bandwidth value for each participant terminal, at the request of the web real-time communication central server Accordingly, the method may further include adjusting the quality of media traffic by changing in real time the uplink and downlink network bandwidth values for each participant terminal that are reassigned from each participant terminal participating in the conference room.

In the step of opening a conference room for transmitting and receiving media traffic between video conference participant terminals based on the maximum number of participants and the maximum network bandwidth setting value set when the conference room opening request terminal requests to open a conference room in the web real-time communication central server, The conference room opening request terminal may further include setting a maximum network bandwidth of uplink and downlink for each participant terminal based on the maximum number of participants set when requesting to open a conference room to the web real-time communication central server.

In the step of opening a conference room for transmitting and receiving media traffic between video conference participant terminals based on the maximum number of participants and the maximum network bandwidth setting value set when the conference room opening request terminal requests to open a conference room in the web real-time communication central server, The method may further include storing and managing a conference room name, a maximum number of participants in the conference room, and a maximum network bandwidth setting value when the conference room is opened in the web real-time communication central server.

On the other hand, according to one aspect of the web real-time communication-based video conferencing service system according to the present invention for achieving the above object, a request to open a conference room is made by setting the maximum number of participants in the conference room and the maximum network bandwidth. terminal; And a web real-time communication central server that opens a conference room for transmitting and receiving media traffic between video conference participant terminals based on the maximum number of participants and the maximum network bandwidth setting value set when the conference room opening request terminal requests to open a conference room, , The web real-time communication central server requests at least one or more other participant terminals to participate in the video conference according to the conference participation request from the conference room opening request terminal, and according to the number of participants in the conference room opened, the set maximum network Allocate uplink and downlink network bandwidth for each participant terminal within the range that does not exceed the bandwidth setting value, and quality of media traffic in each participant terminal participating in the conference room based on the allocated uplink and downlink network bandwidth for each participant terminal adjust the

If the number of participants in the conference room increases, the uplink and downlink network bandwidths for each participant terminal are reset again within the range where the sum of the uplink and downlink network bandwidths for each participant terminal does not exceed the maximum network bandwidth setting value set above. After allocating, it is possible to request a change of the uplink network bandwidth value to each participant terminal to the uplink and downlink network bandwidth values for each participant terminal that has been allocated again.

Each participant terminal participating in the conference room can adjust the quality of media traffic by changing the real-time uplink and downlink network bandwidth values for each participant terminal that have been reassigned according to a request of the web real-time communication central server.

The conference room opening request terminal may set the maximum network bandwidth of uplink and downlink for each participant terminal based on the maximum number of participants set when requesting the central web real-time communication server to open a conference room.

The web real-time communication central server may store and manage a conference room name, a maximum number of participants in the conference room, and a maximum network bandwidth set value when the conference room is opened.

Effects according to an embodiment of the present invention are described as follows.

According to the present invention, a video conference service can be activated as a stable service with equal quality is possible for all peers based on the maximum number of video conference participants and the maximum network bandwidth.

In addition, in order to support video conferences in low-end PCs and environments with low network bandwidth, stable video conference services are possible without introducing or developing a multi-point control unit (MCU) method, thereby reducing investment costs.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included as part of the detailed description to aid understanding of the present invention, provide examples of the present invention and, together with the detailed description, describe the technical features of the present invention.
1 is a diagram illustrating an example of a uniform quality assurance scenario based on maximum video conference participants and network bandwidth according to an embodiment of the present invention.

Hereinafter, the embodiments disclosed in the present invention will be described in detail with reference to the accompanying drawings, but the same or similar components are given the same reference numerals regardless of reference numerals, and redundant description thereof will be omitted. The suffixes "module" and "unit" for components used in the following description are given or used together in consideration of ease of writing the specification, and do not have meanings or roles that are distinct from each other by themselves. In addition, in describing the embodiments disclosed in the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the embodiments disclosed in the present invention, the detailed description will be omitted. In addition, the accompanying drawings are only for easy understanding of the embodiments disclosed in the present invention, the technical idea disclosed in the present invention is not limited by the accompanying drawings, and all changes included in the spirit and technical scope of the present invention , it should be understood to include equivalents or substitutes.

Terms including ordinal numbers, such as first and second, may be used to describe various components, but the components are not limited by the terms. These terms are only used for the purpose of distinguishing one component from another.

It is understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, but other elements may exist in the middle. It should be. On the other hand, when an element is referred to as “directly connected” or “directly connected” to another element, it should be understood that no other element exists in the middle.

Singular expressions include plural expressions unless the context clearly dictates otherwise.

In this application, terms such as "comprise" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

1 is a diagram illustrating an example of a uniform quality assurance scenario based on maximum video conference participants and network bandwidth according to an embodiment of the present invention.

As shown, participant terminal 1 (Peer1) 100 may request to open a conference room to the web real-time communication (WebRTC) central server 200 . At this time, the participant terminal 1 (Peer1) 100 may request to open a conference room by setting the maximum number of participants to participate in the conference room and the maximum network bandwidth when requesting the conference room opening.

Subsequently, the web real-time communication central server 200 may open a conference room for a video conference according to a conference room opening request from the participant terminal 1 (Peer1) 100 . At this time, the web real-time communication central server 200 may create and manage table information about the maximum number of participants who can participate in the conference room and the maximum network bandwidth value as shown in Table 1 below.

[Table 1]

For example, as shown in Table 1 above, the maximum number of participants who can participate in a conference room opened by the web real-time communication central server 200 may be set to 64, and the maximum network bandwidth value may be set to 4 Mbps. In this case, up to 64 people can participate in the opened conference room, and uplink and downlink media traffic can be transmitted and received between the participants at the maximum network bandwidth value of 4Mbps.

That is, as shown in Table 2 below, the web real-time communication central server 200 can manage the video conference room name, the maximum number of conference room participants set by peers, and the maximum allowable network bandwidth (sum of uplink and downlink). .

[Table 2]

Subsequently, when a conference room for video conference is opened in the web real-time communication central server 200, participant terminal 1 (Peer1) 100 is a video conference participant terminal to participate in the conference room opened by the web real-time communication central server 200 ( Peer2,..., PeerN) can request participation in the meeting.

Subsequently, the web real-time communication central server 200 may request participation in the video conference from the video conference participant terminals Peer2, ..., PeerN according to the request of the participant terminal 1 (Peer1) 100.

Then, when participating in the conference room opened by participant terminal 2 (Peer2) 300 according to the request of the web real-time communication central server 200, participant terminal 1 (Peer1) 100 and participant terminal 2 (Peer2) 300 may transmit/receive uplink and downlink media traffic through relaying of the web real-time communication central server 200. In this case, the maximum network bandwidth for transmission and reception of uplink and downlink media traffic for each participant may be maintained at 4 Mbps within the maximum number of participants of 64.

For example, participant terminal 1 (Peer1) 100 can transmit FHD media traffic to participant terminal 2 (Peer2) 300 through the web real-time communication central server 200 with a network bandwidth of 2 Mbps occupied by the uplink, FHD media traffic of 2 Mbps network bandwidth occupied by the downlink from participant terminal 2 (Peer2) 300 may be received through the web real-time communication central server 200 .

In addition, participant terminal 2 (Peer2) 300 can transmit FHD media traffic to participant terminal 1 (Peer1) 100 through the web real-time communication central server 200 with a network bandwidth of 2 Mbps occupied by the uplink, and the participant terminal FHD media traffic of 2Mbps network bandwidth occupied by the downlink from Peer1 (100) can be received through the web real-time communication central server (200).

Subsequently, the web real-time communication central server 200 transmits FHD media traffic to at least one web real-time communication central server 200 through the web real-time communication central server 200 with the 2 Mbps network bandwidth occupied by the uplink when the participant terminal 3 (Peer3) 400 participates in the conference room. In the case of transmission to other participant terminals above, a situation may occur in which the sum of the uplink and downlink network bandwidth exceeds the maximum network bandwidth setting value of 4 Mbps.

Subsequently, the web real-time communication central server 200 controls the participant terminal 1 (Peer1) 100 to the participant terminal 3 (Peer3) 400 so that the sum of the uplink and downlink network bandwidth does not exceed the maximum network bandwidth of 4 Mbps. ), the network bandwidth for transmitting uplink media traffic can be requested to be changed to 1.3 Mbps. Accordingly, participant terminal 1 (Peer1) 100 to participant terminal 3 (Peer3) 400 may change the network bandwidth for transmitting uplink media traffic to 1.3 Mbps according to the request of the web real-time communication central server 200. there is. That is, in the present invention, when the sum of uplink and downlink network bandwidths for each participant exceeds the maximum network bandwidth, all conference room participant terminals are notified so that the uplink bandwidth can be adjusted, so that all conference room participant terminals adjust the quality of media traffic. Downlink traffic can be delivered without

That is, in the present invention, the web real-time communication central server 200 calculates only the uplink bandwidth and requests it to the terminal when the terminal adjusts the media traffic quality within the limited bandwidth and sends the media traffic through the uplink. (200) can reduce the load of the web real-time communication central server 200 by directly transmitting media traffic to the corresponding receiving terminal without separate traffic adjustment. As a result, since the central server changes the image quality in consideration of traffic, it is possible to compensate for the disadvantage of the prior art in which the load of the central server was serious.

Subsequently, participant terminal 1 (Peer1) 100 can transmit FHD media traffic to participant terminal 2 (Peer2) 300 through the web real-time communication central server 200 with a network bandwidth of 1.3Mbps occupied by the uplink, and the participant terminal 2 (Peer2) 300 FHD media traffic of 1.3 Mbps network bandwidth occupied by the downlink from Terminal 2 (Peer2) 300 can be received through the web real-time communication central server 200 . In addition, participant terminal 2 (Peer2) 300 can transmit FHD media traffic to participant terminal 1 (Peer1) 100 through the web real-time communication central server 200 with a network bandwidth of 1.3 Mbps occupied by the uplink. FHD media traffic of 1.3 Mbps network bandwidth occupied by the downlink from Terminal 1 (Peer1) 100 can be received through the web real-time communication central server 200 .

Subsequently, participant terminal 3 (Peer3) 400 may transmit FHD media traffic to participant terminal 1 (Peer1) 100 through the web real-time communication central server 200 with a network bandwidth of 1.3 Mbps occupied by the uplink, Participant terminal 1 (Peer1) 100 may receive FHD media traffic of 1.3 Mbps network bandwidth occupied by downlink from participant terminal 3 (Peer3) 400 through the web real-time communication central server 200, and the participant terminal 2 (Peer2) 300 may receive FHD media traffic of 1.3 Mbps network bandwidth occupied by downlink from participant terminal 3 (Peer3) 400 through the web real-time communication central server 200.

Subsequently, participant terminal 3 (Peer3) 400 may receive FHD media traffic of 1.3 Mbps network bandwidth occupied by the downlink from participant terminal 1 (Peer1) 100 through the web real-time communication central server 200, FHD media traffic of 1.3Mbps network bandwidth occupied by the downlink from participant terminal 2 (Peer3) 300 may be received through the web real-time communication central server 200 .

Meanwhile, when the network bandwidth of a video conference participant (peer) is lowered according to the network environment, media traffic quality for each link of uplink and downlink may be adjusted. That is, media traffic quality for each link can be adjusted by adjusting the bit rate, resolution, and frame rate.

As described above, the present invention provides a video conferencing service based on a web real-time communication (WebRTC) Selective Forwarding Unit (SFU) in real time according to peer participants based on the maximum allowable peer for video conferencing and the maximum allowable uplink and downlink network bandwidth accordingly. It can control uplink and downlink media traffic. That is, a peer opening a video conferencing conference room sets the maximum network bandwidth for uplink and downlink based on the total number of peers to attend the conference, and based on the maximum bandwidth, as the number of peers increases, the uplink and downlink network bandwidth for each peer. can be assigned and changed in real time.

In this way, a peer opening a conference room sets the maximum network bandwidth of uplink and downlink based on the total number of peers to attend the conference, stores the contents in the web real-time communication central server 200, and determines the maximum network bandwidth. As the number of peers increases, the uplink and downlink network bandwidth for each peer can be allocated and changed in real time.

In the present invention, when providing a video conferencing service based on the SFU method, the maximum allowable peer (video conference participant), uplink (connection for transmitting my video / audio media traffic), and downlink (video / media of conference participants other than myself) Connection to receive traffic) Network bandwidth is set in advance and media traffic is adjusted in real time so that media traffic transmission delay does not occur due to an excessive increase in network bandwidth occupied by downlinks as the number of peers increases.

The above-described present invention can be implemented as computer readable code on a medium on which a program is recorded. The computer-readable medium includes all types of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable media include Hard Disk Drive (HDD), Solid State Disk (SSD), Silicon Disk Drive (SDD), ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage device, etc. , and also includes those implemented in the form of a carrier wave (eg, transmission over the Internet). Accordingly, the above detailed description should not be construed as limiting in all respects and should be considered illustrative. The scope of the present invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the present invention are included in the scope of the present invention.

100: participant terminal 1 (Peer1)
200: web real-time communication central server
300: participant terminal 2 (Peer2)
400: participant terminal 3 (Peer3)

Claims (8)

As a video conference service method based on web real-time communication,
Opening a conference room for transmitting/receiving media traffic between video conference participant terminals based on a maximum number of participants and a maximum network bandwidth set when a conference room opening request is made from a conference room opening request terminal in a web real-time communication central server;
requesting participation in a video conference from at least one other participant terminal according to a request to participate in a conference from the conference room opening request terminal in the web real-time communication central server;
According to the number of participants in the conference room opened by the web real-time communication central server, uplink and downlink network bandwidth is allocated for each participant terminal within the range that does not exceed the set maximum network bandwidth setting value, and uplink network bandwidth for each participant terminal is allocated. adjusting the quality of media traffic in each participant terminal participating in the conference room based on link and downlink network bandwidth; and
When the number of participants in the conference room opened by the web real-time communication central server increases, the sum of the uplink and downlink network bandwidths for each participant terminal does not exceed the maximum network bandwidth set value for the uplink for each participant terminal. and reallocating the downlink network bandwidth and requesting to each participant terminal to change the uplink network bandwidth value to the reassigned uplink and downlink network bandwidth values for each participant terminal. .
The method of claim 1,
When the number of participants in the conference room opened by the web real-time communication central server increases, the sum of the uplink and downlink network bandwidths for each participant terminal does not exceed the set maximum network bandwidth setting value for uplinks for each participant terminal. And after the step of re-allocating the downlink network bandwidth and requesting to each participant terminal to change the uplink network bandwidth value to the re-allocated uplink and downlink network bandwidth value for each participant terminal,
The step of adjusting the quality of media traffic by changing in real time the uplink and downlink network bandwidth values for each participant terminal that are reassigned from each participant terminal participating in the conference room according to a request from the web real-time communication central server. Web real-time communication-based video conferencing service method.
The method of claim 1,
In the step of opening a conference room for transmitting and receiving media traffic between video conference participant terminals based on the maximum number of participants and the maximum network bandwidth setting value set when the conference room opening request terminal requests to open a conference room in the web real-time communication central server,
The conference room opening request terminal further comprises setting a maximum network bandwidth of uplink and downlink for each participant terminal based on the maximum number of participants set when requesting to open a conference room to the web real-time communication central server. Web real-time communication-based video conferencing service method.
The method of claim 1,
In the step of opening a conference room for transmitting and receiving media traffic between video conference participant terminals based on the maximum number of participants and the maximum network bandwidth setting value set when the conference room opening request terminal requests to open a conference room in the web real-time communication central server,
The video conferencing service method based on web real-time communication, characterized in that it further comprises the step of storing and managing the conference room name, the maximum number of participants in the conference room, and the maximum network bandwidth setting value when the conference room is opened in the web real-time communication central server.
As a web real-time communication-based video conferencing service system,
a conference room opening request terminal requesting opening of a conference room by setting a maximum number of participants in the conference room and a maximum network bandwidth; and
A web real-time communication central server for opening a conference room for transmitting and receiving media traffic between video conference participant terminals based on the maximum number of participants and the maximum network bandwidth setting value set when requesting the conference room establishment request from the conference room establishment request terminal,
The web real-time communication central server,
In accordance with the conference participation request from the conference room opening request terminal, at least one or more other participant terminals are requested to participate in the video conference, and the range does not exceed the maximum network bandwidth setting value set above according to the number of participants in the conference room opened. allocates uplink and downlink network bandwidth for each participant terminal within the network, and adjusts the quality of media traffic at each participant terminal participating in the conference room based on the allocated uplink and downlink network bandwidth for each participant terminal;
If the number of participants in the conference room increases, the uplink and downlink network bandwidths for each participant terminal are reset again within the range in which the sum of the uplink and downlink network bandwidths for each participant terminal does not exceed the maximum network bandwidth setting value set above. A video conferencing service system based on web real-time communication that allocates and requests to change the uplink network bandwidth value to each participant terminal to the uplink and downlink network bandwidth value for each participant terminal that has been allocated again.
The method of claim 5,
Each participant terminal participating in the conference room adjusts the quality of media traffic by changing in real time the uplink and downlink network bandwidth values for each participant terminal that are reassigned according to a request of the web real-time communication central server to adjust the quality of the media traffic. Communication-based video conferencing service system.
The method of claim 5,
The conference room opening request terminal,
Web real-time communication-based video conferencing service system, characterized in that for setting the maximum network bandwidth of uplink and downlink for each participant terminal based on the maximum number of participants set when requesting to open a conference room with the web real-time communication central server.
The method of claim 5,
The web real-time communication central server,
A video conferencing service system based on web real-time communication, characterized in that when the conference room is opened, the conference room name, the maximum number of participants in the conference room, and the maximum network bandwidth settings are stored and managed.

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