KR100784110B1 - System and method for mobile massive conference call and mehtod for managing mobile massive conference call system - Google Patents

Abstract

A mobile massive conference call system, a conference call method, and an operation method for the mobile massive conference call system are provided to enable a DMB(Digital Multimedia Broadcasting)-combined mobile terminal to use a speech channel of the terminal during conference proposal and to use an EPG(Electronic Program Guide) channel of DMB when listening to a conference call, thereby conducting a multilateral conference call. A massive conference call system is constructed by using an EPG channel of DMB as a receiving passage and using a data speech path as a transmission passage while being in always on state during mobile communication. A gateway(309) is configured between a mobile communication network(301) and an Internet network(303). The Internet network(303) interworks with a DMB delivery server(311). A speaker's voice data is provided to the DMB delivery server(311). The server(311) encodes the speaker's data packets, and delivers the encoded packets to plural DMB-combined mobile terminals through the EPG channel. The DMB-combined mobile terminals listen to the speaker's voice by decoding the encoded packets.

Description

SYSTEM AND METHOD FOR MOBILE MASSIVE CONFERENCE CALL AND MEHTOD FOR MANAGING MOBILE MASSIVE CONFERENCE CALL SYSTEM}

1 and 2 is a block diagram showing a conventional multi-party call system.

3 is a block diagram showing a large conference call system according to the present invention.

4 is a flowchart for explaining the main operation of the present invention.

<Explanation of symbols for main drawings>

301: mobile communication network 303: Internet network

307: conference call server 309: gateway (G / W)

311: DM transmission server 313: satellite

315: speaker terminal

The present invention relates to a large-scale mobile conferencing system, and more particularly, by using a call channel of a terminal when a meeting is spoken in a DMB combined mobile terminal, and using an EPG channel of a DMB when listening to a meeting. The present invention relates to a mobile large conference call system, a conference call method, and a mobile large conference call system capable of performing a multi-party conference call.

Recently, with the improvement of communication-related services, the so-called conference call field, in which several users located in remote areas can conduct a series of multi-party calls in real time using a VoIP terminal and a mobile terminal, has also undergone rapid development. Repeatedly. Typically, under such a conventional conference call service system, as shown in Figs. 1 and 2, the host B holding the conference has his own relay VoIP terminal (e.g., PC, laptop, Internet phone, VoIP). Call a VoIP terminal (1,3) or mobile terminal (4,6) held by participant 1 (A), participant 2 (C), or the like using a mobile terminal (e.g., a mobile phone). In this way, a series of three-way call paths can be promptly formed, thereby guiding each participant to naturally participate in a series of conference calls.

At this time, the VoIP function modules 1a, 2a, 3a provided in each VoIP terminal 1, 2, 3, for example, a terminal control module, a communication circuit block, a memory, an application, etc., and each mobile terminal 4, 5, 6) The terminal function modules 4a, 5a, and 6a (for example, the terminal controller, the communication circuit block, the memory, the application, and the like) are in charge of the actual progress of the three-way conference call through communication data with each other. .

However, under such a conventional system, a network (eg, an IP network) through which the VoIP terminals 1, 2, and 3 can communicate, and a network through which the mobile terminals 4, 5, and 6 can communicate with each other. (E.g., a mobile communication network) is completely different in form, operation, etc., when using the VoIP terminal 1 as its communication means, the VoIP terminal 1 held by Participant 1 (A), for example, Unless a separate complicated procedure such as a network switching procedure is performed, a series of communication paths cannot be formed with the mobile terminal 5 on the participant side and the mobile terminal 6 on the participant 2, and eventually, participant 1 (A) Will not be able to participate normally in the conference call.

Of course, unlike Participant 2 (C), where Host (A) and Participant 1 (A) use VoIP terminals 1 and 2 as their means of communication, the mobile terminal 6 communicates with its own. Even when used as a means, the participant 2 cannot normally participate in the conference call. In short, under the conventional conference call service system, unless a separate action is taken, only participants (A, C), hosts (B), etc., all use the same communication device (VoIP terminal or mobile terminal), It is easy to hold a series of conference calls that they want.

Once in a while, Participant 1 (A) pays the network operator a high cost, goes through a complex network switching procedure, and calls a series of calls between his VoIP terminal (1) and the host relay mobile terminal (5). Even if a road is induced to be formed, Participant 1 (A) still suffers a problem in that a call path is not normally formed between its own VoIP terminal 1 and Participant 2 side mobile terminal 6.

Of course, in order to solve the problem of the participant 1 (A) side, the VoIP terminal (1) side call path and the mobile terminal (6) side call path to the relay (B) side mobile terminal (5) holding the conference call. Expensive hardware chips that can flexibly switch are inevitably installed, and as a result, the host is forced to bear various burdens. Therefore, it is necessary to establish a multi-party conference call system using the existing infrastructure.

The present invention has been made to solve the above problems, and an object of the present invention is to implement a mobile conference call system, a conference call method and a mobile conference call system that can implement a multi-party conference call system using a mobile communication network currently used. In providing a method of operation.

In addition, another object of the present invention can realize a large-scale conference call by using the data call path as the outgoing channel while waiting for Always On in the mobile communication network, and using the EPG channel of DMB as the incoming call channel. Mobile large conference call system, conference call method and mobile large conference call system operation method.

The mobile large-scale conference call system according to the first aspect of the present invention for achieving the above object, in a large-scale conference system using a DMB (DMB) combined mobile communication terminal, while always waiting on the mobile communication (Always On) It uses a data call path as a Tx passage and uses a DMB EPI channel as an Rx passage to build a large conference system.

According to a preferred embodiment of the present invention, the large-scale conference system comprises a gateway (G / W) between the mobile communication network and the Internet network, the Internet network interworking with a DMB transmission server, and the voice data of the speaker is Provided to the DM transmission server, the DM transmission server encrypts a data packet of a speaker, and transmits the encrypted packet to a plurality of DM combined mobile terminals through an EPG channel, and the DM combined mobile terminal transmits the encrypted packet. And decoding to listen to the speaker's voice.

The EPG channel may be an event information table (EIT) of an electronic program guide (EPG), and the EIT may be allocated to one or more EITs corresponding to a margin at a maximum value.

On the other hand, the mobile large-scale conference call method according to the second aspect of the present invention for achieving the above object, in a large-scale conference method using a DMB (DMB) combined mobile communication terminal, a) Tx path to the data call path in the mobile communication Transmitting voice data of the speaker using a voice message; b) transmitting the speaker's voice data using an EPG channel of a satellite broadcasting system; And c) receiving the voice data using an EPG channel of the DMB as an Rx path.

According to a preferred embodiment of the present invention, the step a) includes: a-1) maintaining a terminal of a speaker in a data dormant state; a-2) transitioning a speaker's terminal to an active state when the speaker speaks; And a-3) packetizing the speaker's voice data and uploading it on a mobile communication.

The voice data packet may be any one of a voice VoIP packet, an image packet, and a file data packet.

The step b) may further include b-1) encrypting the voice data through a known key code.

On the other hand, the mobile large-scale conference call system operating method according to the third aspect of the present invention for achieving the above object,

A method for operating a large scale conference system using a DMB combined mobile communication terminal, the method comprising: a) providing a key code to a user terminal attending a large conference; b) the user terminal maintaining a data dormant state and transitioning to a data active state when a speaker speaks; c) the user terminal packetizing voice data of a speaker in a data active state; d) encrypting the voice data with the key code; e) transmitting the encrypted voice data using an EPG channel of the DMB; f) receiving the encrypted voice data through the EPG channel at the user terminal in the Data Dormant state; And g) extracting the voice data of the speaker by decrypting the encrypted voice data using the key code.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, the present invention is implemented to perform a conference or a voice command between a large number of people. For example, it can be applied when a military commander simultaneously delivers voice commands to dozens or hundreds of soldiers and wants to receive voice questions on the fly. To this end, in the present invention, the voice of the speaker is received using the EPG channel among the DMB channels, and the speaker transmits the voice using VoIP or data packets. Here, the speaker's voice is encrypted.

The aforementioned EPG represents electronic program information (PSIP) and includes current time information, channel number, channel name, channel description, time zone contents, and the like. In addition, VCT, ETT-V, EIT, etc. are configured, and the EIT provides information every 3 hours and displays at least 12 hours of information. Therefore, the EIT is classified into EIT-0, EIT-1, EIT-2 ..., etc., every three hours, and has a maximum of 128 EITs. The EIT has a sufficient margin, and the voice of the speaker applied in the present invention uses the EIT information provided as a margin. In other words, the voice packet of the speaker and the predetermined encryption key are encoded with the spare EIT information and provided as encrypted information.

3 is a block diagram showing the entire system of the present invention.

As shown in the drawing, a plurality of DM combined mobile terminals are included, and gateways 309 and G / W are configured between the mobile communication network 301 and the Internet network 303. The Internet network 303 is interworked with the DMB transmission server 311, and the DMB transmission server 311 encrypts the data packet of the speaker with the satellite 313, and encrypts the encrypted packet through the EIT of the EPG channel. It is sent to a number of DM combined mobile terminals. The DMB combined mobile terminal includes a speaker terminal 315 and a listener terminal.

The mobile communication network 301 generates and provides a key code to a DMB mobile terminal participating in a large conference call, and includes a VoIP packet or an image and a file data packet for a voice provided from the speaker terminal 315. And a conference call server 307 for transmitting the key code to the DM transmission server 311. The key code may be provided randomly or may be generated according to a predetermined rule. In addition, the mobile communication network 301 includes a packet data service node 305 (PDSN) for delivering a voice packet of the speaker terminal 315 to the conference call server 307.

Meanwhile, the satellite 313 is applied in a satellite DMB system, and in the case of a terrestrial DMMB system, voice packets are transmitted to a plurality of DM-compatible mobile terminals via a terrestrial transmission antenna instead of the satellite 313.

4 is a flowchart for explaining the main operation of the present invention. This process represents a process for transmitting the speaker's voice (Tx) and receiving a speaker's voice (Rx) during a large meeting. Here, the speaker may be a plurality of speaker terminals 315 as one or more speakers. In addition, the receiving process represents a plurality of receiving terminals configured on a large scale, and each receiving terminal has a key code for grouping.

First, a user terminal to attend a large conference is a DMB combined mobile phone terminal, and is a terminal registered as a member. In step S401, the attendees who have joined as members access their user terminals through the mobile communication network 301. This is to connect to the conference call server 307 based on the preset call number.

In step S403, the conference call server 307 generates a predetermined key code for providing to all user terminals. The key codes can be generated randomly or according to any rule. In step S405, the conference call server 307 downloads the key code to all user terminals. The key codes are stored in the internal memory of all user terminals, and the terminals have a decryption algorithm for the previously stored key codes. In addition, all user terminals transition to a data dormant state.

Enter the step S407. This is a step for any one or more of the user terminals to speak. In step S409, the user terminal used by the speaker, that is, the speaker terminal 315, uses a specific key button of the terminal. When a specific key button is operated, the speaker terminal 315 switches to a data active state. The speaker performs the conference speech through the speaker terminal 315.

In step S411, the speaker terminal 315 converts the speaker's voice into a voice VoIP packet, an image, a file data packet, and the like, and uploads the packet to the conference call server 307 through the packet data serving node (PDSN) 305. . The voice VoIP packet can be used protocols such as H.323, H.324m, SIP. The conference call server 307 encrypts the voice data packet of the speaker in step S415 and transmits the voice data packet to the DM transmission server 311 through the gateway 309.

On the other hand, if any one or more terminals of the user terminal does not speak in step S407 described above, that is, if you want to listen to the meeting speaking, and enters to step S415. The DM transmission server 311 encrypts the voice data packet of the speaker provided by the conference call server 307 in an event information table (EIT). The EIT is for periodically recording program information for each channel in an EPG (Electronic Program Guide). The EIT provides information every 3 hours and displays at least 12 hours of information. That is, the EIT classifies EPG's time zone programs as EIT-0, EIT-1, EIT-2, etc. in units of three hours, and has a maximum of 128 EITs.

The EIT has a sufficient capacity for the program guide, and the DM transmission server 311 loads the speaker's voice data packet with an extra portion of the EIT, for example, EIT-127. Loading the voice data packet in the EIT is to prevent the broadcast viewing of existing broadcast users from being disturbed when the voice packet is loaded on the channel through which the broadcast is transmitted. Therefore, only members who attend large conferences will be able to listen to the speaker.

The voice data packet is encrypted with the key code provided by the conference server 307. Encryption can be a plurality of types of encryption, in the present invention, the key code and voice data packet is achieved through an XOR logical operation as an example. In step S417, the DM transmission server 311 transmits the voice data packet of the speaker encrypted by the EIT to the satellite 313. The satellite 313 is used when the DMB receiving system of the user terminal uses the satellite DMB, and when the user terminal receives the ground DMB, it may pass through the DMB transmission tower of the ground if necessary.

As described above, the satellite 313 provides the speaker's voice data packet to a plurality of user terminals. The user terminal receives the DMB signal in step S419, and the terminal extracts the EIT information from the DMB signal. In operation S421, the user terminals decode the currently received EIT information. Decryption is performed based on the key code provided by the conference call system 307, and the decryption method will be selected according to the encryption method of the DM transmission server 311. Accordingly, in step S423, the voice packet of the speaker is converted into an analog signal in the EIT information decoded by the user terminal, so that the user hears the speaker's voice.

The above-mentioned large conference call method is the most desirable model when very few people speak and the rest of the members listen, but multiple people speak simultaneously by using a large number of EIT information carrying voice data packets. Of course you can.

As described above, the mobile large-scale conference call system and method according to the present invention may be used when a large number of members make a conference call and a small number of the main members speak, and most of the members only listen to, for example, an army or an election. In a campaign, a large conference hall, etc., users corresponding to the audience listen to the speaker's speech while always waiting for the terminal in Always On, thereby preventing unnecessary waste of resources of the mobile telephone network.

In addition, the present invention can implement a large-scale conference using a mobile communication network, there is an effect of maximizing the utilization range of communication system resources.

While the invention has been shown and described with respect to specific preferred embodiments thereof, the invention is not limited to the embodiments described above, and is commonly used in the art to which the invention pertains without departing from the spirit of the invention as claimed in the claims. Anyone with knowledge will be able to make various variations.

Claims (14)

In a large-scale conference system using a DMB combined mobile communication terminal, It is always on standby in mobile communication and uses data communication path as Tx channel, and establishes a large conference system by using DMB's EPG channel as Rx channel. A gateway (G / W) is formed between the mobile communication network and the Internet network, the Internet network interworks with a DMB transmission server, voice data of a speaker is provided to the DM transmission server, and the DM transmission server is a speaker of the speaker. Encrypts the data packet and sends the encrypted packet to a plurality of DM combined mobile terminals through an EPG channel, wherein the DM combined dual mobile terminal decrypts the encrypted packet and listens to the speaker's voice. Conference Call System. delete The method of claim 1, wherein the EPG channel, An event information table (EIT) of an electronic program guide (EPG), wherein the EIT is allocated to one or more EITs corresponding to a margin at a maximum value. The method of claim 1, wherein the mobile communication network, Generate and provide a key code to the DM combined mobile terminal participating in a large conference call, and transmit the key code to the DM transmission server including a VoIP packet, an image, and a file data packet for a voice provided from a speaker terminal. A mobile large conference call system comprising a conference call server for transmitting. In a large-scale conference system using a DMB combined mobile communication terminal, Generate and provide a key code to a DMB mobile terminal participating in a large conference call, and transmit the key code through a satellite system including a VoIP packet or an image and a file data packet for a voice provided from a speaker terminal. And a conference call server instructing to transmit the message to the DM combined mobile terminal, wherein the DM combined mobile terminal decrypts the packet based on the key code. The satellite system according to claim 5, A mobile large-scale conference call system, characterized by encrypting a speaker's voice data packet and transmitting the encrypted packet to a plurality of DM combined mobile terminals through an EPG channel. The method of claim 6, wherein the EPG channel, An event information table (EIT) of an electronic program guide (EPG), wherein the EIT is allocated to one or more EITs corresponding to a margin at a maximum value. In a large-scale conference method using a DMB combined mobile communication terminal, a) transmitting voice data of a speaker using a data call path as a Tx path in mobile communication; b) transmitting the speaker's voice data using an EPG channel of a satellite broadcasting system; And c) receiving the voice data using an EPG channel of a DMB as an Rx path, Step a) is a-1) maintaining a speaker's terminal in a data dormant state; a-2) transitioning a speaker's terminal to an active state when the speaker speaks; And a-3) packetizing the speaker's voice data and uploading the voice data on a mobile communication. delete The method of claim 8, wherein b) is b-1) encrypting the voice data through a known key code, wherein the encryption performs an XOR logical operation on the key code and the voice data. The method of claim 10 wherein the EPG channel, Event Information Table (EIT) of the Electronic Program Guide (EPG), wherein the EIT is assigned to one or more EIT corresponding to the margin at the maximum, mobile large conference call method. In the large-scale conference system operating method using a DMB (DMB) combined mobile communication terminal, a) providing a key code to a user terminal attending a large conference; b) recognizing a data active state of a speaker's terminal and packetizing voice data received from the speaker's terminal; c) encrypting the voice data with the key code; And d) transmitting the encrypted voice data to a user terminal using an EPG channel of the DMB. The method of claim 12, wherein the user terminal, Receiving the encrypted voice data through the EPG channel in a data dormant state, and extracting the voice data of a speaker by decrypting the encrypted voice data using the key code. How to operate a mobile large conference system. The method of claim 12 or 13, wherein the voice data, Method for operating a large-scale conferencing system, characterized in that any one of the VoIP packet, image, or file data packet for voice.

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