KR100549925B1 - Method for Multi-Channeled Synthesis in Internet Conference System - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a multi-channel voice merging method in a multi-party conference system.

2. The technical problem to be solved by the invention

The present invention provides a voice merging method for maximizing the number of users who can participate in a session in an Internet conference system using a server-intensive DSP processing module and maximizing the total participants of the entire session. To do so.

3. As the number of DSP chips increases between the server-intensive DSP processing modules of the present invention, each DSP chip is arranged in a broadcast format between the DSP chips. Characterized by switching between each other.

4. Important uses of the invention

The present invention is used for a multi-party conference system through the Internet or a general telephone network.

Conference, VoIP, DSP, Voice Processing, Voice Merge

Description

Method for Multi-Channeled Synthesis in Internet Conference System             

1 is an exemplary configuration diagram of a multi-party conference system to which the present invention is applied;

2 is a diagram illustrating an embodiment of a broadcasting speech merging method according to the present invention;

3 is an exemplary diagram illustrating a pipeline speech merging method according to the present invention.

* Explanation of symbols for the main parts of the drawings

101: VoIP access board 102: DS chipset

103: voice processing board 111: call setup

112: change data 113: voice merge

114: voice transmission

The present invention relates to a voice merging method for merging a multi-channel voice that can be attended by a large number of participants in an internet conference system and guarantees excellent sound quality.

In general, the problem with a multi-party conferencing system is how many users are involved in a session and how many participants are in the session.

Recently, in the part of researching a multi-party conferencing system in software, the number of users participating in a session is limited, so it is studied in a peer-to-peer manner to increase the total number of users. Although many problems are not solved in the limitation of speech synthesis and transmission of synthesized results, it is difficult for more than 4 participants to participate in a WAN.

These limitations cannot be used for many applications such as education, broadcasting, chatting, and games by using a multi-party conference system. Therefore, it is difficult to use them except for personal entertainment. Especially in the case of commercialization using multi-party conferences, a large number of users participating in one session are essential. .

Services related to internet multi-party conferences are mainly used in the form of Internet video conferences including video, and video chats that are popular in game rooms and Internet plazas are also related services.

In the case of Internet video conferencing, a virtual network for multicast called MBON is constructed on the Internet, thereby enabling video conferencing through multicast of audio and video data. However, since it operates only on the Internet, it cannot accommodate ordinary telephone users, and the quality of service is still low due to the limitation of the network bandwidth.

In the case of video chat, text chatting via video is mainly used, and a service capable of accommodating multiple people while simultaneously supporting video and voice is not activated. This also allows only users over the Internet to receive the service.

In addition, there are many multi-party conference services using the Internet, but people using regular telephones cannot accommodate them.

The present invention has been proposed to solve the above problems, and maximizes the number of users who can participate in one session in the Internet conference system using a server intensive DSP processing module and at the same time, the entire session. The aim is to provide a voice merge method that maximizes the total number of participants.

That is, the present invention provides a voice merging method that can efficiently reduce the voice merging process by using a broadcast voice merging method and a pipeline voice merging method in order to ensure excellent voice quality while allowing a large number of participants to attend. There is this.
Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

In the method of the present invention for achieving the above object, in the voice merging method of a multi-party conference system, the number of DSP chips are increased between the DSP-intensive modules of the server-intensive method, respectively. It is characterized by switching between the DSP chips by arranging them in a broadcast format.

In addition, another method of the present invention, in the voice consolidation method of the multi-party conferencing system, between the server-intensive DSP processing modules, each pipe between the DSP chips as the number of DSP chips increases. It is characterized in that each of the DSP chips (switching) by arranging in a line (pipeine) form.

Meanwhile, the present invention is a multi-party conference system using a server-intensive DSP processing module, which can accommodate both Internet telephones and general telephones, and is designed to effectively support real-time voice merging for multi-party voice processing. .

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

1 is an exemplary configuration diagram of a multi-party conference system to which the present invention is applied.

In the figure, "101" denotes a Voice over Internet Protocol (VoIP) connection board, "DSP chip set," and "103" denote a voice processing board, respectively.

The multiparty conference system is composed of a VoIP connection board 101, a DSP chipset 102, and a voice processing board 103.

The voice input to the multi-party conference system is a multi-party conference via the VoIP connection board 101, DSP chipset 102, the voice processing board 103.

The processing of speech is as follows.

In a terminal such as an Internet telephone or a general telephone, the voice data is compressed to G.723 in consideration of traffic on the IP, and transmitted to the gateway of the multiparty conference system, and when the H.323 call setup 111 is performed, The compressed voice data is transmitted in packet form to RTP and RTCP ports.

The transmitted data is converted to G.711 type data for excellent call quality and transmitted to H.110 bus, which is a multi-thread CCT bus for real-time speech synthesis without delay. do.

The data transmitted in this way is transmitted to the users who are connected to the voice merger 113 in a form other than their own voice through the dedicated voice synthesis DSP chip set 102 so that multiple users can effectively participate in the multi-party conference. Do.

Currently, the implementation of a multi-party conference system is largely implemented using a DS chip, which is an ultra-fast real time processing device.

Users between each DSP are also implemented to enable multi-party conferences.

For example, suppose there are two DSP chips capable of processing 60 people, and let each of the DSP chips be A and B.

Since the voice merging of the multi-party conference is basically to be synthesized except for the user's voice, it is as follows.

A0.out = A1.in + A2.in + ... + A59.in + B0.in + ... + B59.in

A1.out = A0.in + A2.in + ... + A59.in + B0.in + ... + B59.in

B0.out = A0.in + A1.in + ... + A59.in + B1.in + ... + B59.in

B1.out = A0.in + A1.in + ... + A59.in + B0.in + ... + B59.in

By implementing as described above, it is possible to have a conference through effective multi-party speech synthesis.

Therefore, a large number of speech synthesis must be made as in the above equation, but each ring chip is implemented in a ring method, so that one ring synthesis is as follows.

A.ASUM.out = A0.in + A1.in + ... + A59.in

B.BSUM.out = B0.in + B1.in + ... + B59.in

As a result,

A0.out = A1.in + A2.in + ... + A59.in + B.BSUM.in

A1.out = A0.in + A2.in + ... + A59.in + B.BSUM.in

B0.out = A.ASUM.in + B1.in + ... + B59.in

B1.out = A.ASUM.in + B0.in + ... + B59.in

Since one ring synthesis is performed as described above, the synthesis process is omitted a lot and more users can be processed in one session.

In order to extend concurrent users, the present invention implements a broadcasting scheme and a pipeline scheme.

2 is a diagram illustrating an embodiment of a broadcasting speech merging method according to the present invention.

First, the broadcasting model extends the method described above and assumes that data exchange occurs between each DSP chip.

For example, assuming that there are four DSP chips, the synthesis between each DSP is the same as described above, and switching between them is performed.

Synthesis on each DSP chip is as follows.

A.ASUM.out = A0.in + A1.in + ... + A59.in

B.BSUM.out = B0.in + B1.in + ... + B59.in

C.CSUM.out = C0.in + C1.in + ... + C59.in

D.DSUM.out = D0.in + D1.in + ... + D59.in

Their synthesis results are as follows.

A.ASUM.out = B.ASUM.in + C.ASUM.in + D.ASUM.in

B.BSUM.out = A.BSUM.in + C.BSUM.in + D.BSUM.in

C.CSUM.out = A.CSUM.in + B.CSUM.in + D.CSUM.in

D.DSUM.out = A.DSUM.in + B.DSUM.in + C.DSUM.in

3 is an exemplary diagram illustrating a pipeline speech merging method according to the present invention.

The second method is the Pipeline model.

The speech synthesis process in each DSP chip is the same, but there are differences with regard to switching.

Theoretically, it is implemented by moving each DSP chip side by side.

The synthesis on each DSP chip is as follows.

A.ASUM.right = A0.in + A1.in + ... + A59.in

B.BSUM.right = B.left.in + B0.in + B1.in + ... + B59.in

This pipeline can be effective for multi-party conferencing within one DSP chip or two DSP chips.

However, if there are N channels per DSP, a delay of (N-1) * 8ms occurs.

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.

As described above, the present invention is an efficient voice merging and transmission method for maximizing simultaneous users in implementing a multi-party conference system. The present invention is based on the number of users participating in one session and the number of DSP chips included in one session. Therefore, it is possible to automatically select a broadcast model or a pipeline model and configure an effective multi-party conference through effective voice synthesis.

Claims (3)

In the voice merging method of a multiparty conference system, As the number of DSP chips between server-intensive digital signal processor (DSP) processing modules increases, each DSP chip is arranged in a broadcast format between the DSP chips. Merge method, characterized in that for switching (switching). In the voice merging method of a multiparty conference system, As the number of DSP chips among server-intensive DSP processing modules increases, each DSP chip is arranged in a pipeline format between the DSP chips to switch between the DSP chips. Voice merge method characterized in that. The method according to claim 1 or 2, The negative merge method, The voice merging method can be selected automatically according to the number of users participating in one session and the number of DSP chips included in one session.

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