KR100738525B1 - APPARATUS AND METHOD FOR PROCESSING CALL IN VoIP SYSTEM - Google Patents

Abstract

The present invention relates to a call processing apparatus and method therefor in a VoIP (Voice over Internet Protocol) system, wherein a set location registration state in a network (for example, when a terminal is initially driven, or when a terminal is changed on a network). ), The address of one or more terminals is provided to the server to check and store the network addresses of the one or more terminals, and to the IP address of the terminal that requested the call connection according to the call connection request to any one of the one or more terminals. By directly requesting the call connection, it is possible to reduce the delay incurred in determining the network address (eg, the IP address) of the called terminal required for the call connection.

VoIP system, call processing, Session Initiation Protocol (SIP), SIP address, IP address

Description

Call processing apparatus and method thereof in VIO system {APPARATUS AND METHOD FOR PROCESSING CALL IN VoIP SYSTEM}

1 is a diagram illustrating an example of a connection configuration of a general VoIP system.

2 is a diagram illustrating an example of a call processing flow in a conventional VoIP system.

3 is a block diagram of a user agent (UA) according to one embodiment of the present invention;

4 is a block diagram of a registrar server according to an embodiment of the present invention.

5 is a diagram illustrating an example of a call processing flow in a VoIP system according to an embodiment of the present invention.

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

300: calling party UA 302: SIP address storage unit

304: address assembly unit 306: address analysis unit

308: table storage 400: registrar server

402: address processing unit 404: table generation unit

406: table storage unit

The present invention relates to call processing of a Voice over Internet Protocol (VoIP) system. More particularly, the present invention relates to a network address (eg, an IP address) of a called terminal required for a call connection between a calling terminal and a called terminal. The present invention relates to a call processing apparatus and method for reducing a delay in a VoIP system.

VoIP refers to Internet telephony technology for a set of facilities that use IP to deliver voice information. It is not a circuit-based protocol, such as a public switched telephone network (PSTN), but transmits voice information in digital form within discrete packets. It is.

The main advantage of VoIP or Internet telephony technology is to integrate voice call service using existing IP network so that telephone users can receive long distance and international call service in internet and intranet environment with only local call charge.

Signaling protocols for implementing VoIP include H.323, Session Initiation Protocol (SIP), Media Gateway Control Protocol (MGCP), and SIP, which is a simple text-based application layer control protocol. It is.

SIP is a simple text-based application layer control protocol for setting up and controlling sessions between terminals or users. One or more participants create and modify sessions together. Modifies and allows you to terminate.

Such sessions may include multimedia conferences, telephone calls, meetings, and instant message services using the Internet.

This SIP was developed by the Multi-party Multimedia Session Control (MMUSIC) working group of the Internet Engineering Task Force (IETF), which was published in March 1993 and the standard is defined in Request for Comments (RFC) 3261. have.

SIP is a client-server based request / response protocol. The request message consists of methods of INVITE, ACK, BYE, CANCEL, REGISTER, and OPTION, and the response message is indicated by status codes such as 1xx, 2xx, 3xx, 4xx, 5xx, and 6xx.

SIP network is composed of a user agent (hereinafter referred to as "UA"), a network server (Network Server), a registrar (Registrar) server, a diagram showing an example of a connection configuration for such a SIP network 1 is shown. That is, the description of the connection configuration of the VoIP system will be made using the connection configuration of the SIP network as an example. Here, the network server is composed of a proxy server and a redirect server. When the redirect server receives a call connection request message from the calling party UA, it informs the address of the server for connecting to the called party UA. By doing so, the originating UA can send the request message directly to the server. That is, the redirect server only performs a response function to the user's request and does not generate the request message by itself. The description of the proxy server will be made in the description of FIG. 1.

As shown in FIG. 1, the SIP network includes a UA 100, 102, a proxy server 104, a registrar server 106, and a location server 108.

The UA (100, 102) is a terminal system that allows a user to connect a call, and receives a call connection request with a user agent client (UAC) used to initiate a user's call connection request and sends a response from the user's point of view. It includes a user agent server (UAS). Hereinafter, for convenience of explanation, the UA 100 will be referred to as the calling party UA and the UA 102 will be referred to as the called party UA.

The proxy server 104 inquires the location server 108 of the location information of the destination UA 102 according to the call connection request from the originating UA 100, and the destination UA 102 provided by the location server 108. Call location request of the calling party UA (100) to the called party UA (102) using the location information. Here, the location information of the called party UA 102 is preferably an IP address where the called party UA 102 is located.

The proxy server 104 provides the calling party UA 100 with the calling party UA 100 when there is a response to the call connection request of the calling party UA 100 from the called party UA 102. The call is to be connected between the UA (102).

The registrar server 106 according to the location registration request from the originating UA 100, the current location information of the originating UA 100, that is, the IP address where the originating UA 100 is located and the originating UA 100. Maps and stores the SIP addresses in the location server 108. The same applies to the case of the called party UA 102. That is, the registrar server 106, according to the location registration request from the called party UA 102, indicates the current location information of the called party UA 100, that is, the IP address and the called party UA (where the called party UA 102 is located). The SIP address of 102 is mapped and stored in the location server 108.

Call processing performed in such a SIP network will be described with reference to FIG. 2.

FIG. 2 is a diagram illustrating an example of a call processing flow performed in a SIP network. The originating UA 100 transmits a REGISTER message including its SIP address and an IP address where it is currently located. It provides to (S106).

The registrar server 106 provides a '200 OK' message to the calling party UA 100 in response to receiving the register message (S202), and sends the SIP address and IP address of the calling party UA 100 to the location server 108. Stored in (S204). By doing so, the location registration of the calling party UA 100 is completed. On the other hand, it is assumed that the destination UA 102 is also registered with the location server 108.

Then, the calling party UA 100 provides the proxy server 104 with an INVITE message including the SIP address of the called party UA 102 in response to a call connection request from the user to the called party UA 102 ( S206). Here, the calling party UA 100 should store the SIP address information of the called party UA 102.

Accordingly, the proxy server 104 provides a '100 Trying' message to the calling party UA 100 to know that the call connection request is made to the called party UA 102 (S208), and the destination server 108 is called. The SIP address information of the side UA 102 is provided to request the determination of the IP address of the called side UA 102 (S210). That is, the proxy server 104 requests the location server 108 to locate the destination UA 102 by providing the SIP address information of the destination UA 102 to the location server 108.

The proxy server 104 indicates that there is a call connection request from the source UA 100 to the IP address of the destination UA 102 as the IP address information of the destination UA 102 is provided from the location server 108. The INVITE message is provided to the called party UA 102 (S212, S214). The destination UA 102 generates and provides a '180 Ringing' response message to the proxy server 104 in response to the reception of the invite message from the proxy server 104 (S216). A 180 Ringing 'response message is provided to the calling party UA 100 (S218). Thereafter, the called party UA 102 generates a '200 OK' message according to the reception of the PRACK message from the calling party UA 100 within the set time, and passes through the proxy server 104 to the calling party UA 100. Provided (S220, S222). Here, the frag message is a message for notifying the reception of the '180 Ringing' response message of the calling party UA 100 and stopping the continuous retransmission of the '180 Ringing' message of the called party UA (102).

The calling party UA 100 generates an ACK message in response to the '200 OK' message and transmits it to the called party UA 102 (S224). In this way, a call is established between the calling party UA 100 and the called party UA 102. That is, the user of the calling party UA 100 and the user of the called party UA 102 make a call with each other through the established call (S226).

As described above, the originating UA 100 provides an INVITE message to the proxy server 104 when it wants to connect a call with the called party UA 102, whereby the proxy server 104 has a location. The server 108 requests the server 108 to determine the IP address of the called party UA 102. The proxy server 104 then provides an invite message of the calling party UA 100 to the IP address of the called party UA 102 provided at the location server 108. That is, in order for the calling party UA (100) to connect the call with the called party UA (102), the process of determining the IP address of the called party UA (102) must be performed first. This is because most UAs use dynamic IP addresses rather than static IP addresses in consideration of mobility and lack of IP addresses.

However, in order for the calling party UA 100 to connect the call with the called party UA 102, a process of determining the IP address of the called party UA 102 is performed first, so that a predetermined delay occurs. Delay is a disadvantage in voice calls that require real time. In addition, this delay is a problem that occurs every call.

Accordingly, the present invention has been made to solve the above problems, and the call processing apparatus of the VoIP system that reduces the delay caused to determine the IP address of the destination UA for the call connection between the originating UA and the destination UA and its The purpose is to provide a method.

According to an aspect of a call processing apparatus of a VoIP system including a database storing address information of at least one terminal according to the present invention for achieving the above object, at least one terminal in the case of a corresponding location registration state in the network A terminal for requesting confirmation of a network address of at least one terminal by providing an address of the server and storing a network address of at least one terminal identified by the server, and corresponding to the address of the at least one terminal in address information of the at least one terminal. It includes a server for checking the network address to provide to the terminal.

The location registration state set in the network may be any of when the terminal is initially driven and the terminal is changed in position on the network.

The address of the one or more terminals is a Session Initiation Protocol (SIP) address, the network address of the terminal is an Internet Protocol (IP) address, and the address information of the one or more terminals includes any one of a SIP address and an IP address of the terminal. do.

The terminal requests a call connection to an IP address of a terminal for which call connection is requested according to a call connection request to any one of the one or more terminals.

Meanwhile, according to an aspect of a call processing method of a terminal in a call processing apparatus of a VoIP system including at least one terminal and a server storing address information of at least one terminal according to the present invention, Checking whether it corresponds to a set location registration state, requesting confirmation of a network address of at least one terminal by providing an address of at least one terminal to a server when it corresponds to a set location registration state in the network, and at the server Storing the network addresses of the at least one terminal identified.

The call processing method according to the present invention comprises the steps of checking whether there is a call connection request to any one of the one or more terminals, the call to the IP address of the call connection request terminal according to the call connection request to the arbitrary terminal Requesting a connection further.

Hereinafter, a call processing apparatus and a method of a VoIP system according to the present invention will be described in detail with reference to the accompanying drawings.

In addition, it should be noted that the same reference numerals are given to the same elements, although belonging to different drawings for convenience of understanding.

A description of the connection configuration of the VoIP system to which the present invention is applied will be given by taking the connection configuration of the SIP network as shown in FIG. 1 as an example.

In the connection configuration of the SIP network shown in FIG. 1, the part whose operation is changed for the call processing of the VoIP system according to the present invention includes the configuration and operation of the calling party UA 100, the registrar server 106, and the location server 108. ) Operation is different, the rest of the configuration is equally applicable to the present invention. Therefore, the description of the present invention will be made centering on the originating side UA and the registrar server, which is a configuration that is different from the prior art, and descriptions of other configurations will be omitted. First, the originating UA will be described, and then the registrar server will be described.

3 is a diagram illustrating a block configuration of an originating UA according to an embodiment of the present invention.

As shown in FIG. 3, the originating UA 300 according to the present invention includes a SIP address storage unit 302, an address assembly unit 304, an address interpreter 306, and a table storage unit 308. have.

The SIP address storage unit 302 stores the SIP address of the UA which is the call partner of at least one user.

The address assembly unit 304 registers the SIP address and IP address of the calling party UA 300 and the SIP address of the UA, which is the call partner of one or more users, stored in the SIP address storage unit 302 as the set location registration state occurs. Include in the (REGISTER) message to request registration of the location to the registrar server (400). Here, the set location registration state may be any one of the case where the originating UA 300 is initially driven and there is a change in the location of the originating UA 300.

Accordingly, the registrar server 400 performs an operation according to the location registration request from the address assembly unit 304 of the originating UA 300, which will be described in more detail with reference to FIG.

4 is a block diagram of a registrar server according to an embodiment of the present invention.

As shown in FIG. 4, the registrar server 400 according to the present invention includes an address processor 402, a table generator 404, and a table storage 406.

The address processing unit 402 provides the location server 108 with the SIP address of one or more call partners included in the register message provided from the address assembly unit 304 in the originating UA 300 to the location server 108 to provide the IP of the call partner UA. A request is made to determine the address, and a pair of SIP addresses of UAs corresponding to the call partner corresponding to the IP address of the UA as the call partner provided by the location server 108 is generated and provided to the calling party UA 300.

The table generator 404 generates a table using a pair of at least one IP address of the UA as the call partner and the SIP address of the UA as the call partner, and stores the generated table in the table storage unit 406. .

On the other hand, the address resolution unit 306 in the originating side UA 300 generates a table using a pair of IP addresses and SIP addresses of the UA as the call partner provided by the address processing unit 402 in the registrar server 400, and generates the table. The stored table in the table storage unit 308.

Hereinafter, a call processing performed in a SIP network according to the present invention will be described with reference to FIG.

5 is a view showing an example of a call processing flow in the SIP network according to the present invention, the address assembly unit 304 in the originating side UA (300) is the originating side UA (300) as the set location registration state occurs; SIP address, IP address and SIP address of one or more user's call partners stored in the SIP address storage unit 302 are included in the REGISTER message to request registration of the registrar server 400 (S500). ).

The address processing unit 402 in the registrar server 400 stores the SIP address and IP address of the originating UA 300 in the location server 108 (S502), and the address assembly unit 304 in the originating UA 300. In step S504, the SIP server of the at least one call partner included in the register message is provided to the location server 108 to determine the IP address of the call partner.

 The location server 108 grasps the IP address of the call partner UA corresponding to the SIP address of the call partner UA and provides it to the registrar server 400 (S506).

The address processing unit 402 in the registrar server 400 generates a pair of IP addresses of the UAs corresponding to the call counterparts corresponding to the SIP addresses of the UAs provided in the location server 108 in a '200 OK' message. Included and provided to the calling party UA (300) (S508).

Meanwhile, the table generator 404 in the registrar server 400 generates a table using a pair of at least one IP address of the UA as a call partner and a SIP address of the UA as a call partner, and generates the table. Store in the storage unit 406.

The address resolving unit 306 in the originating UA 300 generates a table using the IP address and SIP address pair of the UA that is the call partner provided by the address processing unit 402 in the registrar server 400, and generates the table. The data is stored in the table storage unit 308.

Thereafter, the calling party UA 300 reads the IP address information of the selected UA from the table storage unit 308 when there is a selection of the UA to be called from the user, and directly sends the selected UA to the IP address of the selected UA (INVITE). The message is transmitted (S510). Here, the UA selected by the user is called destination UA 102. That is, the calling party UA 300 transmits an invite message to the called party UA 102 selected by the user.

 The called party UA 102 generates a '180 Ringing' response message according to the reception of the invite message from the calling party UA 300 and provides it to the calling party UA 300 (S512). Thereafter, the called party UA 102 generates a '200 OK' message according to the reception of the PRACK message from the calling party UA 100 within the set time and provides the called party UA 102 to the calling party UA 300 (S514).

The originating UA 300 generates an ACK message in response to the '200 OK' message and transmits it to the called party UA 102 (S516). In this way, a call is established between the calling party UA 300 and the called party UA 102. That is, the user of the calling party UA (300) and the user of the called party UA (102) make a call to each other through the established call (S518).

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various modifications and changes are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims.

As described above, according to the call processing apparatus and method thereof in the VoIP system according to the present invention, the location registration state set in the network (for example, when the terminal is initially driven, the terminal is changed in the position on the network, etc.) In this case, the address of one or more terminals is provided to the server to confirm and store the network address of the one or more terminals, and the call is made to the IP address of the terminal that requested the call connection according to the call connection request to any one or more terminals. By directly requesting the connection, there is an advantage in reducing the delay incurred in determining the network address (eg, IP address) of the receiving terminal required for call connection.

Claims (8)

In the call processing apparatus of the VoIP system including a database that stores the address information of one or more terminals, A terminal for requesting confirmation of a network address of at least one terminal by providing an address of at least one terminal to a server when it corresponds to a set location registration state in a network, and storing the network address of at least one terminal identified in the server; Call processing apparatus of the VoIP system comprising a server for checking the network address corresponding to the address of the at least one terminal from the address information of the at least one terminal and providing the terminal. The method of claim 1, The location registration state set in the network is And the terminal is initially driven, wherein the terminal is any one of a case where the position on the network is changed. The method of claim 1, The address of the one or more terminals is a Session Initiation Protocol (SIP) address, the network address of the terminal is an Internet Protocol (IP) address, and the address information of the one or more terminals includes any one of a SIP address and an IP address of the terminal. Call processing device of the VoIP system. The method of claim 1, The terminal, Call processing apparatus of the VoIP system for requesting a call connection to the IP address of the terminal requesting a call connection in response to a call connection request to any one of the one or more terminals. In the call processing method of the terminal of the VoIP system including at least one terminal, the server storing the address information of at least one terminal, Checking whether it corresponds to a set location registration state in a network; Requesting confirmation of a network address of at least one terminal by providing an address of at least one terminal to a server when the location registration state is set in the network; Call processing method comprising the step of storing the network address of the at least one terminal identified in the server. The method of claim 5, The location registration state set in the network is And when the terminal is initially driven, wherein the terminal is changed in position on a network. The method of claim 5, The address of the one or more terminals is a Session Initiation Protocol (SIP) address, the network address of the terminal is an Internet Protocol (IP) address, and the address information of the one or more terminals includes any one of a SIP address and an IP address of the terminal. Call handling method. The method of claim 5, Checking whether there is a call connection request to any one of the one or more terminals, The call processing method further comprises the step of requesting a call connection to the IP address of the terminal requesting the call connection according to the call connection request to any terminal.

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