KR100937025B1 - Method and system for multi-person communication using IP terminal - Google Patents

Abstract

According to the present invention, if there is a new terminal to join the call in a call state in which a channel is formed with a first terminal and a second terminal connected to a network, a request is made to add a terminal to one of the first and second terminals. The host terminal mixing data of the channel formed with the first and second terminals, and when the terminal addition is requested from the host terminal, the channel is formed with the new terminal, and the data of the channel formed with the new terminal and the host terminal. A multi-party call system including at least one additional terminal for mixing and joining the new terminal to a multi-party call. The present invention relates to a multi-party call using only a data mixing function of an IP terminal without involvement of a SIP server. It is to provide a multi-party call service of three or more characters without load of the IP terminal.

Description

Multi-party call system and method using IP terminal {method and system for multi-person communication using IP terminal}

The present invention relates to a multi-party call system and method using an IP terminal, and more particularly, to establish a multi-party call using only the data mixing function of the IP terminal without the intervention of the SIP server, without the load of the SIP server and IP terminal The present invention relates to a multi-party call system and method using an IP terminal capable of providing a multi-party call service.

Currently, with the development of network and electronic technology, various services are provided through a network, for example, an internet protocol (IP) based wired / wireless internet, and in particular, voice through the Internet rather than a public switched telephone network (PSTN). There is a growing interest in telephony services.

Voice call service over the Internet is a voice call over the Internet, not the PSTN, so the call charges are lower than voice calls over the PSTN, and various additional services such as data communication, conference call, and video call are provided. Has the advantage of being available.

Voice over Internet Protocol (VoIP) for providing voice call service over the Internet includes Session Initiation Protocol (SIP), H.323, MGCP, Megaco / H.248, and voice based on simple text-based SIP. It provides call service.

Currently, an IP terminal capable of providing a voice call service to a subscriber by accessing the Internet network may provide a three-way call service.

1 is a network connection diagram illustrating a three-way call structure of a conventional IP terminal.

A IP terminal 10-1 shown in FIG. 1 is the presiding party of the three-way call, and B IP terminal 10-2 and C IP terminal 10-3 are participants in the three-way call. 10-1 establishes a call with another terminal while setting up a call with one of the B IP terminal 10-2 or the C IP terminal 10-3, thereby establishing a three-way call. do.

2 is a diagram for explaining an existing three-way call setting algorithm.

Referring to FIG. 2, when the A IP terminal 10-1 establishes a call with the B IP terminal 10-2 in an idle state where a call is not set, the A IP terminal 10-1 and B are connected. A two-way call is set up between the IP terminals 10-2, and the A IP terminal 10-1 holds a call with the B IP terminal 10-2 while the two-way call is set up (B). When the call is re-established with the B IP terminal 10-2 after Hold) and the call establishment with the C IP terminal 10-3 (C conn), the three-way call is established.

When the B IP terminal 10-2 or the C IP terminal 10-3 ends the call in the state in which the three-way call is set, the two-way call state occurs, and when one terminal terminates the call in the two-way call state. , The state becomes idle.

3 is a message flow diagram for providing a basic three-way call service.

Referring to FIG. 3, in order to establish a call with the B IP terminal 10-2 by the A IP terminal 10-1, which is the presiding party of the three-way call, an INVITE message (INVITE: B IP) which is a call request message according to SIP. Terminal) is transmitted to the B IP terminal 10-2 through the SIP server 20 (S 1, S 2).

Since the message is defined in the protocol of SIP, detailed description such as message structure and information included in the message is omitted.

When the INVITE is normally received, the B IP terminal 10-2 transmits a 200ok message that is a confirmation message to the A IP terminal 10-1 through the SIP server 20 (S 3 and S 4).

In addition, the A IP terminal 10-1 may request a Participant B to respond to a call request, for example, a handset, for example, a Real-time Transport Protocol (RTP) channel for a voice call with the B IP terminal 10-2. And exchange data for a voice call service (S 5).

On the other hand, when the host A IP terminal 10-1 wants to join the C participant in the call, the A IP terminal 10-1 sends an INVITEe Hold message which is a call hold message to the B IP terminal 10-2. Transfer to the B IP terminal 10-2 through the SIP server 20 (S 6, S 7), the B IP terminal 10-2 receives a 200 ok message, which is a confirmation message when a call hold message is normally received. It transmits to the A IP terminal 10-1 through the SIP server 20 (S 8, S 9).

When the A IP terminal 10-1 receives the confirmation message, the A IP terminal 10-1 disconnects the RTP channel with the B IP terminal 10-2 and switches the call state of the B IP terminal 10-2 to the hold state.

At this time, the A IP terminal 10-1 generates an INVITE Hold message, which is a call hold message, by setting the media attribute of SDP information of the INVITE message to inactive, thereby generating the INVITE Hold message. In step 10-2, the B IP terminal 10-2 checks the media characteristic of the INVTE Hold message and is set to inactive, and thus is in a hold state.

The A IP terminal 10-1 transmits the INVITE message to the C IP terminal 10-3 through the SIP server 20 (S 10 and S 11), and the C IP terminal 10-3 normally operates. When the INVITE message is received, 200 ok, which is a confirmation message, is transmitted to the A IP terminal 10-1 through the SIP server 20 (S 12 and S 13).

A IP terminal 10-1 forms an RTP channel for voice call with C IP terminal 10-3 and exchanges data (S 14).

The A IP terminal 10-1 transmits an INVITE message, which is a call request message, to the B IP terminal 10-2 through the SIP server 20 while the R IP channel is formed with the C IP terminal 10-3. (S 15, S 16), when the B IP terminal 10-2 normally receives the INVITE message, and transmits a confirmation message to the A IP terminal 10-1 through the SIP server 20 (S 17, S 18).

The A IP terminal 10-1 re-establishes an RTP channel with the B IP terminal 10-2, which is in a held state, and then mixes data exchanged through two RTP channels to provide a three-way call service. (S 19).

4 is a diagram for explaining mixing of data exchanged between RTP channels by a UE.

Referring to FIG. 4, the terminal mixes data exchanged through a first RTP channel to be transmitted through a second RTP channel.

For example, in order for the presiding officer to listen to the C participant's voice, the A IP terminal 10-1 receives the data received from the B IP terminal 10-2 and the C IP terminal 10-3. And mix to be transmitted to the formed RTP channel.

Therefore, the A participant's voice is transmitted to the C IP terminal 10-3 while the A IP terminal 10-1 receives the voice of the B participant, so that two people participating in the three-way call can hear the voice of the other.

However, in general, the voice processing processor, for example, the codec, which is embedded in the terminal, processes the data exchanged with the RTP channel and mixes two or more RTP channels because it supports mixing for two RTP channels. It is a difficult reality to provide.

That is, a method of providing a multi-party call service can be largely divided into a first method in which a terminal mixes data of an RTP channel and a second method of mixing data of an RTP channel in the SIP server 20.

First, in case of the first method, since it is limited to two RTP channels that can be mixed according to the load of the CPU of the terminal and the performance of the codec, it is difficult to provide three or more characters of call service, thereby improving the performance of the CPU and the codec. Even in the case of implementing the mixing of data of two or more RTP channels, since a plurality of communication paths, that is, RTP channels must be formed, the terminal is likely to cause data loss.

In addition, since the data to be mixed in the terminal increases, the load of a digital signal processor (DSP) increases, so that the quality of service provided by the terminal may decrease, and the manufacturing cost of the terminal also increases.

That is, when one terminal is implemented to mix two or more RTP channels, the network load and data received through the two or more RTP channels need to receive data through two or more RTP channels on the network. In order to mix at high speed, the high speed processor needs to be mounted, thereby adversely affecting the performance of the terminal by the high speed processor and increasing the manufacturing cost of the terminal by mounting the expensive high speed processor.

On the other hand, in the second method, since the SIP server 20 is responsible for data mixing of the RTP channel formed between a plurality of terminals, a high capacity server (data mixing processing server) is additionally required, thereby causing equipment cost. By doing so, it is difficult for existing operators to bear the additional cost of equipment, and there is a problem of renovating the entire system that is already installed.

The present invention is proposed to supplement the above problems according to the prior art,

If the SIP server is in charge of data mixing for the conference, it costs a lot to accommodate a large number of subscribers and excessive load on the SIP server, so that each terminal participating in the conference handles the data mixing. The purpose of the present invention is to provide a multi-party call system and method using an IP terminal capable of providing a multi-party call service of more than two characters, thereby releasing excessive load and additional installation cost of the SIP server.

 In addition, the present invention does not implement a high-speed high-speed processor of the terminal, and by using the data mixing of the two RTP channels currently supported by the terminal by providing more than three multi-party call service without increasing the manufacturing cost of the terminal An object of the present invention is to provide a multi-party call system using the IP terminal and a method thereof.

In addition, an object of the present invention is to provide a multi-party call system and a method using an IP terminal that can provide three or more multi-party call service using the data mixing function of the terminal itself without the intervention of the SIP server.

The multi-party call system according to an aspect of the present invention, if there is a new terminal to participate in the call in the state of the channel with the first and second terminals connected to the network, one of the first and second terminals Requests the terminal to add a terminal, and mixes data of the channel with the first and second terminals, the host terminal, and when the terminal is added from the host terminal, forms a channel with the new terminal, and the new terminal. And at least one additional terminal for mixing the data of the host with the host terminal to join the new terminal in a conference call.

If there is another new terminal to participate in the multi-party call in which the new terminal participates, the presenter terminal selects an additional terminal by searching for a terminal in which one channel is set and data mixing is possible among the terminals participating in the call. And, it manages the phone number for each terminal participating in the multi-party call, the number of channels formed and whether data mixing is possible.

If the adder terminal is requested to add a terminal from the presenter terminal, after holding a channel formed with the presenter terminal, the adder terminal forms a channel with the new terminal, and reconfigures the held channel to form the presenter terminal and the new terminal. And mix the data of the formed channel.

Each terminal of the multi-party call system is connected in series in a cascade manner to form one or two channels.

According to another aspect of the present invention, a terminal providing a multi-party call service includes a channel forming unit forming a channel with a first or second terminal connected to a network, and when two channels are formed through the channel forming unit, If there is a data processing unit for mixing data of the channel and a new terminal to join the call in a call state in which two channels are formed through the channel forming unit, one of the first and second terminals is set, and data mixing Selecting this possible terminal as an additional terminal, and includes a call processing unit for requesting the addition of the terminal to the additional terminal.

The terminal of the multi-party call system further includes a message processing unit for generating a call request message, a confirmation message, a call hold message, and a terminal addition message according to a Session Initiation Protocol (SIP).

The message processor generates the call hold message by setting a media attribute of an SDP (Session Description Protocol) field of an INVITE message according to SIP to inactive, and based on the 'MESSAGE' method of SIP. A terminal addition message is generated and a telephone number of the new terminal is set in the SDP field of the terminal addition message.

When the terminal addition message is received through the network, the call processor detects the telephone number of the new terminal from the terminal addition message and transmits a call request message to the new terminal.

When the terminal addition message is received, the call processing unit transmits a call request message to the new terminal after holding a channel formed by transmitting a call hold message to the presenter terminal that has transmitted the terminal addition message. When the channel is formed, the call channel is transmitted to the host terminal to reconfigure the held channel.

According to another aspect of the present invention, there is provided a method for providing a multi-party call service, wherein a host terminal forms a channel with a first terminal and a second terminal, and mixes data of a channel formed with the first terminal and the second terminal to make a call. Setting, and if the host terminal has a new terminal to participate in the call, selecting one of the first or second terminals as an adder terminal and requesting addition of the terminal; Holding a channel formed with the host terminal, the subscriber terminal requesting a call to the new terminal to form a channel, the subscriber terminal reconfiguring a channel held with the host terminal, and And mixing the channel formed with the new terminal and the data of the channel formed by the host terminal and joining the new terminal to the call.

The method for providing a multi-party call service may further include managing, by the host terminal, a phone number for each terminal participating in the call, the number of channels formed, and whether data mixing is possible.

The requesting of the terminal addition may include selecting one terminal from among terminals participating in the call, searching for a terminal capable of data mixing, and selecting the terminal as an additional terminal, and based on the 'MESSAGE' method of SIP. Generating and transmitting a terminal addition message including a telephone number of the new terminal in a field.

In the holding of the channel formed with the host terminal, the adder terminal generates a call hold message in which the media characteristic of the SDP field of the INVITE message according to the SIP is set to be deactivated, and transmits the call hold message to the host terminal.

In the requesting of the new terminal to form a channel, the additional terminal transmits a call request message to the new terminal, and when a confirmation message is received, forms a channel with the new terminal.

Re-establishing a channel held with the host terminal, transmitting a call request message to the host terminal in the state where the channel with the new terminal is formed, and if a confirmation message is received, forms a channel with the host terminal.

As described above, according to the present invention, an additional server is added to accommodate a large number of subscribers while reducing the load of the SIP server by setting up a multi-party call using only the data mixing function of the terminal without intervention of the SIP server. No configuration is necessary.

In addition, according to the present invention, since a simple software implementation of each terminal participating in the multi-party call can have a distributed effect of the data mixing function, the load on the terminal can be reduced.

In addition, according to the present invention, the host of the call can manage the state of all terminals participating in the multi-party call, and since each terminal forms only two RTP channels to perform data mixing, compared to the case of increasing the RTP channel TRP It is possible to prevent the disconnection or noise of the channel, not to degrade the call quality, as well as each terminal connected to the network in phase, thereby minimizing network data delay.

In addition, according to the present invention, since each terminal applies a message according to the standard SIP, software implementation is simple and no additional message is generated.

Hereinafter, a multi-party call system and a method using an IP terminal according to the present invention will be described in detail with reference to the accompanying drawings, and will not obscure the main technical gist of the present invention or a detailed description of known technical contents.

5 is a network connection diagram for explaining a connection structure between IP terminals of a multi-party call system according to the present invention.

As shown in FIG. 5, when a plurality of IP terminals are cascaded and cascaded, and the host of the multi-party call is A IP terminal 100-1, B IP terminal 100-2 and C IP are connected. When the call is established with the terminal 100-3, the B IP terminal 100-2 and the C IP terminal 100-3 become participants.

And, if the A IP terminal 100-1 wants to additionally join the IP terminal in the state in which the three-way call is set, the B IP terminal 100-2 or C IP terminal 100-3, which is a participant, For example, by adding an IP terminal addition message to the B IP terminal 100-2, the IP terminal addition request is requested, and the B IP terminal 100-2 is configured to add the IP terminal from the A IP terminal 100-1. When the request is made, a call is requested to an additional participant N IP terminal 100-n to join the N IP terminal 100-n to the conference call.

That is, in the multi-party call system according to the present invention, an A participant A IP terminal 100-1 is an additional participant in a state in which two B IP terminal 100-2 and a C IP terminal 100-3 and an RTP channel are set. If you want to participate in the conference call, request to add the IP terminal to the B IP terminal 100-2 which is a participant, and the B IP terminal 100-2 adds an IP terminal from the A IP terminal 100-1. If requested, it becomes an adder and forms an RTP channel with another IP terminal, N IP terminal 100-n, to join the N IP terminal 100-n in the conference call.

Accordingly, in the multi-party call system according to the present invention, one presiding member, two participants (B IP terminal 100-2 and N + 1 IP terminal 100-n + 1) and a plurality of additional members are included. The conference call is more than characters.

6 is a view for explaining the algorithm of the multi-party call setup according to the present invention.

Referring to FIG. 6, when an IP terminal 100-1, which is the host, establishes a call with a B IP terminal 100-2 in an idle state where a call is not set, the A IP terminal 100-1 is set. A two-way call is established between the B IP terminal 100-2 and the A IP terminal 100-1 holds a call with the B IP terminal 100-2 while the two-way call is set. After resetting the call with the B IP terminal 100-2 after (B Hold) and the call establishment with the C IP terminal 100-3 (C conn), the three-way call is established.

When the A IP terminal 100-1 requests the IP terminal addition to the B IP terminal 100-2 which is the participant in the state in which the three-way call is set, the B IP terminal 100-2 becomes the adder, and the currently set call After holding the call and resetting the held call after establishing a call with the N IP terminal 100-n, the N IP terminal 100-n joins the conference. Thus, multi-party calls of three or more characters are established.

That is, when the host A IP terminal 100-1 connects a call with the B IP terminal 100-2 through the SIP server 200, the A IP terminal 100-1 and the B IP terminal 100-2 are connected. When the two-party call state, and the A IP terminal 100-1 connects the call of the C IP terminal 100-3 in the two-way call state, A IP terminal 100-1, B IP terminal 100 -2) and the C IP terminal 100-3 is in a three-way call state.

In order to additionally connect the IP terminal from the A IP terminal 100-1 in the three-way call state, since an A IP terminal 100-1 has already established a call through two RTP channels, one RTP channel is formed. Since the N IP terminal 100-n can be added through the B IP terminal 100-2 or the C IP terminal 100-3, the A IP terminal 100-1 is the B IP terminal 100-2. Request to add the IP terminal, the B IP terminal 100-2 becomes an adder, establishes a call with the N IP terminal 100-n, and participates in the conference.

Therefore, A IP terminal 100-1, B IP terminal 100-2, C IP terminal 100-3,... A multi-party call in which the N IP terminal 100-n and the N + 1 IP terminal 100-n + 1 participates is established.

7 is a view for explaining data mixing of each IP terminal according to the present invention.

Referring to FIG. 7, each of the IP terminals connected in the structure shown in FIG. 5 is a participant C IP terminal 100-3 and an N + 1 IP terminal 100-n + 1, each of which has an adjacent IP terminal and one RTP channel. Is formed, and each of the IP terminals excluding the participant is formed because two RTP channels are formed in the A IP terminal 100-1 as the presiding person and the B IP terminal 100-2 as the adder and the N IP terminal 100-n, respectively. Mixes the data exchanged over the two formed RTP channels.

Therefore, since each IP terminal only performs data mixing for two RTP channels, an additional high speed processor is not required, and three or more conferences can be established without implementing a separate data mixing function.

8 is a block diagram illustrating an IP terminal according to the present invention.

Referring to FIG. 8, the IP terminal according to the present invention outputs an electric voice signal to the keypad 110 and a keypad unit 110 that provides a key signal that is selected and implemented by a plurality of keys, for example, a 4 × 3 array of keys. The voice input / output unit 120 converts the input voice into an electrical voice signal, a display unit 140 implemented as a liquid crystal display (LCD), a flash memory 151 or an SDRAM 152 (synchronous). The memory unit 150, which implements a storage means such as dynamic RAM), an interface unit 130 interworking with the Internet, and a main processor 160 for setting up a conference call through the interface unit 130.

Hereinafter, a detailed description of the present invention describes a case in which an IP terminal sets up a multi-party call. For example, a multi-party voice call will be described. However, the same case may be applied to exchanging multi-media media data of three or more characters. have.

The main processor 160 establishes a voice call by forming an RTP channel with one or two IP terminals through the interface unit 130 according to a key signal input through the keypad unit 110, and identifies identification information of the set conference. And outputs the host identification information through the display 140.

The main processor 160 participates in a multi-party call, mixes data (voice data) exchanged with an IP terminal on which an RTP channel is formed, converts the received data into a voice signal, and processes the voice input / output unit 120. Output through

The main processor 160 is an IP terminal capable of additionally forming an RTP channel among neighboring IP terminals in which the current RTP channel is configured, when a request for participation of the third IP terminal is requested while two RTP channels are currently formed. Request addition (if the IP terminal is the presenter).

On the other hand, when the addition of the IP terminal is requested, the main processor 160 forms an RTP channel with the third IP terminal after holding the currently formed RTP channel, and forms the held RTP channel again to form the third IP terminal. Join the conference (if the IP terminal is an adder).

9 is a diagram illustrating a main processor of an IP terminal according to the present invention.

Referring to FIG. 9, the main processor 160 includes a message processor 163, a call processor 164, a channel forming unit 161, and a data processor 162.

In the detailed description of the present invention, for convenience of description, a case in which the message processing unit 163, the call processing unit 164, the channel forming unit 161, and the data processing unit 162 is implemented in the main processor 160 will be described. The same applies to a separate processor or software implementation.

The channel forming unit 161 forms one or two RTP channels through the Internet interworking through the interface unit 130.

When two RTP channels are formed through the channel forming unit 161, the data processor 162 processes a DSP function of mixing data exchanged through each RTP channel, and processes received data to process a voice input / output unit. Output through 120.

The message processing unit 163 generates a message according to the SIP of the VoIP, transmits the message to the counterpart IP terminal, or extracts the information from the message when the message is received through the interface unit 130.

The call processing unit 164 manages the telephone number for each IP terminal participating in the conference call, the number of RTP channels formed, and the data mixing capability through the call management table.

Table 1 below is for explaining the call management table.

Phone number Caller Count (RTP Channel Count) DSP capable (data mixing possible) Tel #B 2 Y Tel #C One N Tel #D 2 Y … … … Tel #N 2 Y Tel # N + 1 One Y

As shown in Table 1, the call processing unit 164 as a call list table, the telephone number for each IP terminal participating in the multi-party call, the number of callers connected to the current RTP channel is formed, and whether or not data mixing is possible. Administrate.

Such a call list table may be stored in the flash memory 151 which is a nonvolatile memory of the memory unit 150.

In the case of managing the call list table as shown in Table 1 above, the call processor 164 of the A IP terminal 100-1 that is the presenter wants the third IP terminal to participate in the conference call. And requesting the addition of the IP terminal by searching for the IP terminal having DSP availability of Y (yes), and allowing the third IP terminal to participate in the conference call by establishing a call between the corresponding IP terminal and the third IP terminal. .

At this time, the C IP terminal 100-3 having the telephone number Tel #C has a number of callers, but since DSP availability is N (no), a call cannot be additionally established with a third IP terminal. The terminal 100-3 finally becomes a participant.

The call processing unit 164 generates a message through the message processing unit 163 and establishes a multi-party call with the IP terminal corresponding to the telephone number input through the keypad unit 110, and transmits the message to the counterpart IP terminal, and the three-way call. In order to additionally join the IP terminal in the set state with reference to the call management table stored in the meibori 150, request the addition of the IP terminal to the IP terminal that can form additional RTP channel (IP terminal is If you are the host).

On the other hand, when the IP processor is requested to add the IP terminal, after holding the currently set RTP channel, the call request to the additional requested IP terminal to form an RTP channel, and again to form the held RTP channel, Join the IP terminal to the conference (if the IP terminal is an adder).

The message processing unit 163 generates an INVITE message as a call request message, a 200 ok message as a confirmation message, an INVITE Hold message as a call hold message, and an IP terminal addition message according to the SIP, and transmits them to the destination IP terminal.

The message processing unit 163 generates an INVITE Hold message, which is a call hold message, by setting the media attribute of the Session Description Protocol (SDP) field of the INVITE message to inactive, and based on the SIP 'MESSAGE' method. Generates an IP terminal addition message.

Hereinafter, the case in which the IP terminal is the presenter or the adder will be described in more detail.

When the IP terminal is the presenter, the call processing unit 164 generates / manages a call list table as shown in Table 1 above.

When the call processing unit 164 enters the telephone number of the third IP terminal (for example, N IP terminal 100-n) to participate in the conference call through the keypad unit 110 in the state where two RTP channels are formed, In the call list table, the IP number of the callers is 1 and the DSP availability is Y (yes). For example, the case where the number of callers of B IP terminal 100-2 is 1 and DSP availability is Y is demonstrated.

The call processing unit 164 generates and transmits an IP terminal addition message through the message processing unit 163 to request the N IP terminal 100-n to the B IP terminal 100-2 retrieved from the call list table. The IP terminal addition request message is generated based on the 'MESSAGE' method of the SIP, and the telephone number of the N IP terminal 100-n may be included in the SDP field.

That is, the host A IP terminal 100-1 additionally selects the B IP terminal 100-2 capable of forming an RTP channel as an adder and requests the addition of the N IP terminal 100-n.

On the other hand, when the IP terminal is an adder, the message processing unit 163 receives the IP terminal addition message received from the IP terminal as the host, and the call processing unit 164 adds the N IP terminal 100 to be added from the received IP terminal addition message. -n) get the phone number.

Then, the call processor 164 transmits a call hold message to the A IP terminal 100-1 in which the RTP channel is already formed, and when the confirmation message is received, holds the RTP channel formed with the A IP terminal 100-1. .

The call processing unit 164 transmits an INVITE message, which is a call request message, to the N IP terminal 100-n to be added, forms an RTP channel with the N IP terminal 100-n when a confirmation message is received, and is held. A IP terminal 100-1 is formed with the RTP channel, thereby allowing the N IP terminal 100-n to participate in the conference call.

10 is a message flow diagram of a multi-party call system according to the present invention.

Referring to FIG. 10, the host A IP terminal 100-1 forms an RTP channel through a two-way call setup process with the B IP terminal 100-2 (S 100 and S 110).

In the two-way call setup process, the A IP terminal 100-1 transmits the INVITE message, which is a call request message, to the B IP terminal 100-2 through the SIP server 200 according to the SIP, and the B IP terminal 100-100. 2) includes a series of processes for transmitting the 200ok message, which is a confirmation message, to the A IP terminal 100-1 through the SIP server 200 when the INVITE is normally received.

On the other hand, if the host A IP terminal (100-1) wants to join the C participant in the call, and forms a RTP channel with the C IP terminal (100-3) through a three-way call setup process (S 120, S 130).

In the three-way call setup process, the A IP terminal 100-1 transmits an INVITE Hold message, which is a call hold message, to the B IP terminal 100-2 to the B IP terminal 100-2 through the SIP server 200. When the call hold message is normally received, the B IP terminal 100-2 transmits a 200 ok message, which is a confirmation message, to the A IP terminal 100-1 through the SIP server 200, and thus, the A IP terminal 100-2. Hold the RTP channel between 1) and B IP terminal (100-2).

In addition, the A IP terminal 100-1 transmits the INVITE message to the C IP terminal 100-3 through the SIP server 200, and the C IP terminal 100-3 checks when the INVITE message is normally received. It includes a series of processes for transmitting the message 200 ok to the A IP terminal 100-1 through the SIP server 200.

The A IP terminal 100-1 transmits an INVITE message, which is a call request message, to the B IP terminal 100-2 through the SIP server 200 in a state where an RTP channel is formed with the C IP terminal 100-3; S 140 and S 150, when the B IP terminal 100-2 normally receives an INVITE message, transmits a confirmation message to the A IP terminal 100-1 through the SIP server 200 (S 160 and S 170). ).

The A IP terminal 100-1 provides a three-way call service by mixing data exchanged through two RTP channels after re-establishing an RTP channel with the B IP terminal 100-2 which was in a hold state. (S 180).

On the other hand, the host A IP terminal (100-1) is a call list to manage as shown in Table 1, if you want to set up a multi-party call by participating in the N IP terminal 100-n in addition to the three-way call is set up In the table, an IP terminal capable of additionally configuring an RTP channel, for example, B IP terminal 100-2 is selected as an adder, and an IP terminal addition message (MESSAGE: N IP terminal 100-n) is added to the SIP server. Through the step 200, it transmits to the BIP terminal (S 190, S 200).

When the IP terminal 100-2, which is the adder, normally receives the IP terminal addition message, transmits the confirmation message to the A IP terminal 100-1 through the SIP server 200, and then A IP terminal 100-1. ) And a call hold message (INVITE: Hold A IP terminal 100-1) for holding the formed RTP channel to the A IP terminal 100-1 through the SIP server 200. Hold the RTP channel with 1) (S 210, S 220).

Then, the B IP terminal 100-2 grasps the telephone number of the N IP terminal 100-n to be added from the IP terminal addition message and calls the N IP terminal 100-n through the SIP server 200. The request message (INVITE: N IP terminal 100-n) is transmitted (S 230, S 240).

When the N IP terminal 100-n normally receives the call request message, the N IP terminal 100-n transmits a 200 ok message, which is a confirmation message, to the B IP terminal 100-2 through the SIP server 200 (S 250 and S 260).

When the B IP terminal 100-2 receives the confirmation message from the N IP terminal 100-n, the B IP terminal 100-2 forms an RTP channel with the N IP terminal 100-n (S270).

In addition, when the B IP terminal 100-2 forms an RTP channel with the N IP terminal 100-n, the B IP terminal 100-2 reconstructs an RTP channel with the held A IP terminal 100-1 again. 100-1) transmits a call request message (INVITE: A IP terminal 100-1) through the SIP server 200 (S 280, S 290), and the A IP terminal 100-1 normally receives an INVITE message. If received, and transmits a confirmation message to the A IP terminal 100-1 via the SIP server 200 (S 300, S 310).

When the B IP terminal 100-2 receives the confirmation message from the A IP terminal 100-1, the B IP terminal 100-2 again forms an RTP channel with the A IP terminal 100-1 and is formed with the A IP terminal 100-1. The data exchanged through the RTP channel and the RTP channel formed with the N IP terminal 100-n are mixed (S320).

The A IP terminal 100-1 mixes data exchanged through the RTP channel formed with the B IP terminal 100-2 and the RTP channel formed with the C IP terminal 100-3.

11 is a flowchart for explaining a method for providing a multi-party call service according to the present invention.

Referring to FIG. 11, the A-IP terminal 100-1, which is the presenter, establishes a three-way call by forming an RTP channel with the B IP terminal 100-2 and the C IP terminal 100-3, which are participants (S). 400).

In addition, the A IP terminal 100-1 manages a phone number for each IP terminal participating in a call, the number of RTP channels formed, and data mixing available through the call management table (S410).

On the other hand, when the IP terminal 100-1 wants to join another additional IP terminal in a state in which a three-way call is set, that is, when a telephone number of a new IP terminal is input from the host, a call list table is displayed. An adder capable of additionally setting an RTP channel, for example, B IP terminal 100-2 is selected as the adder (S420).

In addition, the A IP terminal 100-1 transmits the IP terminal addition message to the B IP terminal 100-2 selected as the adder (S430).

When the IP terminal 100-2 selected as an adder receives an IP terminal addition message, the IP terminal 100-2 selected as the adder has a single RTP channel formed with the host A IP terminal 100-1, and thus the N IP terminal 100-n and the RTP. In order to form a channel, it holds the RTP channel formed with the A IP terminal 100-1 (S440).

The B IP terminal 100-2 transmits a call request message to the N IP terminal 100-n to form an RTP channel with the N IP terminal 100-n (S450).

When the B IP terminal 100-2 forms an RTP channel with the N IP terminal 100-n, the B IP terminal 100-2 again forms an RTP channel with the held A IP terminal 100-1 (S460). The data exchanged through the RTP channel formed with the A IP terminal 100-1 formed with the 100-1 and the RTP channel formed with the N IP terminal 100-n are mixed (S470).

Although the present invention has been described in detail through the representative embodiments, those skilled in the art to which the present invention pertains can make various modifications without departing from the scope of the present invention. I will understand. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

1 is a network connection diagram illustrating a three-way call structure of a conventional IP terminal.

FIG. 2 is a diagram for explaining an existing three-way call setting algorithm. FIG.

3 is a message flow diagram for providing a basic three-way call service.

4 is a diagram for explaining mixing of data exchanged between RTP channels by a terminal;

5 is a network connection diagram for explaining the terminal-to-terminal connection structure of the multi-party call system according to the present invention.

6 is a diagram for explaining an algorithm of multiparty call setup according to the present invention;

7 is a view for explaining data mixing of each IP terminal according to the present invention.

8 is a block diagram illustrating an IP terminal according to the present invention.

9 is a view for explaining the main processor of the IP terminal according to the present invention.

10 is a message flow diagram of a conference system in accordance with the present invention.

11 is a flowchart for explaining a method for providing a multi-party call service according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: IP terminal 110: keypad unit

120: voice input / output unit 130: interface unit

140: display unit 150: memory unit

151 flash memory 152 SDRAM

161: channel forming unit 162: data processing unit

163: message processing unit 164: call processing unit

Claims (17)

In a conference system, If there is a new terminal to participate in the call in a call state in which a channel is formed with the first and second terminals connected to the network, a request is made to add one of the terminals to the one of the first and second terminals. A host terminal for mixing data of a channel formed with the second terminal, At least one additional terminal configured to form a channel with the new terminal, and to mix the data of the new terminal and the channel formed with the host terminal by joining the new terminal with the new terminal. Including, The presenter terminal, If there is another new terminal to participate in the multi-party call participating the new terminal, one of the terminals participating in the call is set, the multi-party call system to search for the terminal capable of data mixing, and to select the additional terminal. delete The method of claim 1, wherein the host terminal, And a telephone number for each terminal participating in the multi-party call, the number of channels formed, and whether data mixing is possible. The method of claim 1, wherein the additional terminal, When the terminal addition is requested from the host terminal, after holding a channel formed with the host terminal, a channel is formed with the new terminal, and the held channel is reformed to form data of the channel formed with the host terminal and the new terminal. Multi-party call system, characterized in that mixing. According to claim 1, wherein each terminal, A cascade system, which is connected in series to form one or two channels. In the terminal providing a multi-party call service, A channel forming unit forming a channel with a first or second terminal connected with a network; When two channels are formed through the channel forming unit, a data processor for mixing data of each channel; If there is a new terminal to join the call in a call state in which two channels are formed through the channel forming unit, one channel is selected from the first or second terminals, and the terminal capable of data mixing is selected as an additional terminal. And a call processing unit for requesting the addition of the terminal to the additional terminal. The method of claim 6, And a message processing unit configured to generate a call request message, an acknowledgment message, a call hold message, and a terminal addition message according to a Session Initiation Protocol (SIP). The method of claim 7, wherein the message processing unit, And generating the call hold message by setting a media attribute of a session description protocol (SDP) field of an INVITE message according to SIP to inactive. The method of claim 7, wherein the message processing unit, A terminal addition message is generated based on the 'MESSAGE' method of SIP, and the terminal of the multi-party call system, characterized in that for setting the telephone number of the new terminal in the SDP field of the terminal addition message. The method of claim 6, wherein the call processing unit, When the terminal addition message is received through the network, the terminal of the multi-party call system characterized in that the phone number of the new terminal is identified from the terminal addition message and the call request message is transmitted to the new terminal. The method of claim 10, wherein the call processing unit, When the terminal addition message is received, a call request message is transmitted to the new terminal after holding a channel formed by transmitting a call hold message to the presenter terminal that has transmitted the terminal addition message. And reconstructing the held channel by transmitting a call request message to the host terminal. In the method for providing a conference call service, The host terminal establishes a channel with the first and second terminals, mixes data of the channel formed with the first and second terminals, and establishes a call; If the host terminal has a new terminal to participate in the call, selecting one of the first or second terminals as an adder terminal and requesting to add the terminal; Holding, by the adder terminal, a channel formed with the host terminal; Forming a channel by the additional terminal requesting a call to the new terminal; Reconfiguring, by the adder terminal, a channel held with the host terminal; And mixing the channel formed with the new terminal and the data of the channel formed with the host terminal and joining the new terminal to the call. The method of claim 12, And managing, by the host terminal, a phone number for each terminal participating in the call, the number of channels formed, and whether data mixing is possible. The method of claim 12 or 13, wherein the requesting the terminal addition is performed. Selecting one terminal from among terminals participating in the call and searching for a terminal capable of data mixing; And generating and transmitting a terminal addition message including the telephone number of the new terminal in the SDP field based on the 'MESSAGE' method of the SIP. The method of claim 12, wherein the holding of the channel formed with the host terminal comprises: And adding, by the adder terminal, a call hold message in which the media characteristic of the SDP field of the INVITE message according to SIP is set to be inactivated and transmitted to the host terminal. The method of claim 12, wherein forming a channel by requesting a call to the new terminal comprises: And the adder terminal transmits a call request message to the new terminal, and when a confirmation message is received, forms a channel with the new terminal. The method of claim 12, wherein the reforming of the held channel with the host terminal comprises: And transmitting a call request message to the host terminal in a state where a channel is formed with the new terminal, and when a confirmation message is received, a channel is formed with the host terminal.

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