JP2009017205A - Cooperation server apparatus and communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cooperation server apparatus with a relay function for connection between SIP (Session Initiation Protocol) servers which offer different services. <P>SOLUTION: The cooperation server apparatus carries out a telephone number solution in an IP (Internet Protocol) telephone service, and is provided with: a kind specifying means which specifies a server kind of the SIP server accommodating the originating terminal and a sever kind of the SIP server accommodating a terminating side terminal based on a telephone number of the originating side and a telephone number of the terminating side; and a relay means which connects between the originating side and the terminating side SIP servers by mutually converting and relaying messages transceived between the originating side and the terminating side SIP servers when a server kind of the SIP server accommodating the originating side terminal, and a server kind of the SIP server accommodating the terminating side terminal which are specified by the kind specifying means, are different. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a cooperative server device that cooperates between SIP servers that provide an IP telephone service, and a communication system that includes the cooperative server device.

Conventionally, IP (Internet Protocol) telephone connection services using SIP (Session Initiation Protocol) are known. Since the IP telephone connection service is connected by the SIP server, the services provided are diversified. For example, when an incoming call is received from a source IP phone in order to realize incoming call transfer of the IP phone without special cooperation with the source IP phone device or the forwarding destination IP phone device, the incoming call is held in the ringing state. An IP telephone device that makes a call to a transfer destination IP phone and relays and forwards voice by responding to an incoming call from a caller in a ringing state after the transfer destination responds to the call and establishes a call. Yes (see, for example, Patent Document 1).
JP 2007-049281 A

By the way, in the conventional IP telephone connection service, since the types of servers providing the service are increasing, the necessity for connecting terminals of different services is increasing.
However, the conventional SIP server has a problem that SIP servers for providing different services cannot be connected because the SIP interface for call connection differs if the server type is different.

  The present invention has been made in view of such circumstances, and provides a cooperation server device provided with a relay function for connecting between SIP servers that provide different services, and a communication system provided with this cooperation server. For the purpose.

  The present invention is a cooperative server apparatus for resolving a telephone number in an IP telephone service, wherein the server type of the SIP server that accommodates the calling terminal and the called terminal based on the calling telephone number and the called telephone number Type identifying means for identifying the server type of the SIP server that accommodates the server, the server type of the SIP server that accommodates the calling terminal identified by the type identifying means, and the server type of the SIP server that accommodates the called terminal And a relay means for connecting between the originating and terminating SIP servers by mutually converting and relaying messages transmitted and received between the originating and terminating SIP servers. It is characterized by.

  The determination means for determining whether or not the server type of the SIP server that accommodates the calling terminal identified by the type identifying means and the server type of the SIP server that accommodates the called terminal are the same. And redirection means for connecting between the originating and terminating SIP servers by redirection when the determining means determines that the server types of the originating and terminating SIP servers are the same. It is characterized by.

  The present invention is a communication system for performing telephone number resolution in an IP telephone service, which is transmitted from a SIP server that accommodates a calling terminal, a SIP server that accommodates a called terminal, and a SIP server that accommodates the calling terminal. The server type of the SIP server that accommodates the calling terminal and the server type of the SIP server that accommodates the called terminal are identified based on the calling phone number and the called phone number included in the connection request, Messages sent and received between the originating and terminating SIP servers when the server type of the SIP server that accommodates the identified originating terminal is different from the server type of the SIP server that accommodates the terminating terminal And a relay server that connects the originating and destination SIP servers by mutual conversion and relaying.

  According to the present invention, when the server type of the SIP server that accommodates the calling terminal is different from the server type of the SIP server that accommodates the called terminal, the message is transmitted and received between the calling and called SIP servers. Therefore, it is possible to connect SIP servers that provide different services. Further, when the server type of the SIP server that accommodates the calling terminal is the same as the server type of the SIP server that accommodates the called terminal, the SIP server on the calling side and the called side are connected by redirection. Therefore, it is possible to reduce the resource consumption in the cooperation server as compared with the case where SIP servers providing the same service are connected by relay.

  Hereinafter, a cooperation server device according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the embodiment. In this figure, reference numeral 1 indicates routing by resolving the telephone number (obtaining the IP address of the target SIP server from the telephone number) in order to link the SIP servers 21, 22, and 23 that provide the IP telephone service. It is a cooperation server that performs. Each of the SIP servers 21, 22, and 23 accommodates a plurality of terminals. Here, only one terminal 31, 32, and 33 is illustrated for each of the SIP servers 21, 22, and 23. Reference numeral 4 denotes a gateway for connecting to a general landline telephone. In the following description, the SIP server 21 and the SIP server 22 provide the same IP telephone service (referred to as service A), and the SIP server 23 has an IP telephone service (service different from the SIP servers 21 and 22). B)). The services provided by the SIP servers 21, 22, 23 include, for example, a voice-only service, a voice and video service, a service for individuals with only an external connection and no extension connection, and a corporation with an extension and external connection There are services.

  Reference numeral 11 denotes a number information database in which telephone number information to be referred to for solving a telephone number is stored in advance. Reference numeral 12 denotes a routing determination unit that refers to the number information database 11 and determines the routing between the terminal 31 on the calling side and the terminal 33 on the called side. Reference numeral 13 denotes a relay unit that relays an SIP message (hereinafter simply referred to as a message) transmitted and received between the originating terminal 31 and the terminating terminal 33. Reference numeral 14 denotes a message in which the correspondence between messages for each service is defined and stored in advance when conversion of a message transmitted and received between the originating terminal 31 and the terminating terminal 33 is necessary. It is a conversion database.

  Next, the operation of the routing determination unit 12 shown in FIG. 1 will be described with reference to FIG. FIG. 2 is a flowchart illustrating an operation in which the routing determination unit 12 determines the routing between the calling terminal 31 and the called terminal 33. First, when receiving a connection request from the calling-side SIP server 21, the routing determination unit 12 extracts a called telephone number and a calling telephone number included in the connection request (step S1). Then, the routing determination unit 12 searches the number information database 11 to determine whether or not the called telephone number is registered in the telephone number management table (step S2). If the result of this determination is that the called telephone number is registered in the telephone number management table, the routing determining unit 12 extracts the server logical number of the SIP server that accommodates the called terminal. At this time, the routing determination unit 12 also extracts the server logical number of the SIP server that accommodates the calling terminal from the calling telephone number (step S3).

  On the other hand, if the called telephone number is not registered in the telephone number management table, the routing determination unit 12 extracts the server logical number of the gateway server to be connected with reference to the GW selection table. At this time, the routing determination unit 12 also extracts the server logical number of the SIP server that accommodates the calling terminal from the calling telephone number (step S4). Subsequently, the routing determination unit 12 refers to the server information management table, extracts the server type of the SIP server to which the extracted server logical number is assigned (Step S5), and specifies the destination IP address (Step S5). S6). As a result, the server type of the originating and terminating SIP servers and the IP address of the terminating SIP server are obtained. The routing determination unit 12 delivers the server types of the originating and terminating SIP servers and the IP address of the terminating SIP server obtained here to the relay unit 13. The relay operation performed by the relay unit 13 will be described later.

  Here, with reference to FIG. 3, the operation shown in FIG. 2 will be described with a specific example. FIG. 3 is a diagram showing a table structure of the number information database 11 shown in FIG. As shown in FIG. 3, the number information database 11 includes three tables: a telephone number management table, a server information management table, and a GW (gateway) selection table. Here, it is assumed that the calling party telephone number is “03-yyyy-cccc” and the called party telephone number is “03-xxx-aaaa”.

  First, the routing determination unit 12 refers to the telephone number management table and determines whether or not the incoming telephone number (03xxxaaaa) is registered in this table. As a result of this determination, if the incoming phone number is not registered, the server logical number (for example, “03” if “03” is applied) corresponds to the server logical number with reference to the GW selection table. Extract). On the other hand, if the called telephone number is registered in the telephone number management table, the server logical number associated with the corresponding telephone number is extracted. If the called telephone number is “03xxxxaaa”, the server logical number “000001” is extracted. The routing determination unit 12 also extracts the server logical number “000002” associated with the calling telephone number “03yyyycccc” at the same time.

  Next, the routing determination unit 12 refers to the server information management table, and determines each server type (“service A”, “service A”, and destination) associated with the server logical numbers on the calling side and the called side. The IP address (“xy 0.1”) associated with the server logical number on the side is extracted, where the service type is identification information that can identify the type of IP telephone service Thus, by referring to the number information database 11, the server logical numbers of the calling and called SIP servers and the IP address of the called SIP server are obtained from the calling and called phone numbers. The phone number is resolved when the IP phone is connected.

  Next, the operation of the entire system shown in FIG. 1 will be described with reference to FIG. FIG. 4 is a sequence diagram showing the operation of the entire system shown in FIG. Here, it is assumed that the terminal 31 is a calling terminal and the terminal 33 is a called terminal. First, when the telephone number of the terminal 33 is dialed from the terminal 31, a connection request message is transmitted from the terminal 31 to the SIP server 21 (step S11). In response to this, the SIP server 21 returns a provisional response to the terminal 31 (step S12) and transmits a connection request message to the cooperation server 1 (step S13). This connection request message includes the calling number and the called number.

  The cooperation server 1 that has received this connection request message returns a provisional response to the SIP server 21 (step S14). Then, when the routing determination unit 12 performs the telephone number resolution process by the above-described operation, the server type of the originating and terminating SIP servers and the IP address of the terminating SIP server are transferred to the relay unit 13. Become. The relay unit 13 determines whether the types of services provided by the originating and terminating SIP servers are the same. As a result of this determination, if the service types on the calling side and the called side are not the same, the relay unit 13 refers to the message conversion database 14 and converts the message received from the SIP server 21 (here, the connection request message). Is executed (step S15). For example, when a connection request message is sent from a service that can use both an external line and an internal line to a service that can use only an external line, an error occurs if information used only by the internal line is included, so it is used only by the internal line The message conversion is performed so that the information to be deleted is deleted and the information indicating the external line connection is obtained.

  FIG. 5 shows a table structure of the message conversion database 14 shown in FIG. In the message conversion database 14, in order to perform message conversion between different services, a message used in one service and a message used in the other service are associated with each other and stored in advance. Since the SIP server 21 uses the service A and the SIP server 23 uses the service B, the message conversion database 14 is referred to, and the connection request message for the service A is sent to the connection request for the service B. Convert to message. Then, the relay unit 13 transmits the converted connection request message to the IP address passed from the routing determination unit 12 (step S16). On the other hand, if the service types of the calling side and the called side are the same, message conversion is not performed, and the connection request message received from the SIP server 21 is transmitted to the IP address passed from the routing determination unit 12 (step S16). ).

  Upon receiving the connection request message from the cooperation server 1, the SIP server 23 returns a provisional response to the cooperation server 1 (step S17) and transmits the received connection request message to the terminal 33 (step S18). The terminal 33 returns a provisional response to the SIP server 23 (step S19) and transmits a ringing instruction message (step S20). This ringing instruction message is transmitted to the originating terminal 31 via the SIP server 23, the cooperation server 1, and the SIP server 21 (steps S21, S22, S23). Subsequently, the terminal 33 on the called side transmits a connection acceptance message as a response to the connection request message to the SIP server 23 (step S24). The SIP server 23 transmits this connection approval message to the cooperation server 1 (step S25).

  Next, the relay unit 13 refers to the message conversion database 14 and converts the connection acceptance message received from the SIP server 23 (step S26). As a result, the connection approval message for service B is converted into a connection approval message for service A. For example, if a connection acceptance message is sent from a service that can only be used for an external line to a service that can be used for both an external line and an internal line, an error will occur if the information used only for the internal line is not included. Perform message conversion to add information indicating the connection. The relay unit 13 transmits the converted connection acceptance message to the SIP server 21 (step S27). In response to this, the SIP server 21 transmits this connection approval message to the terminal 31 (step S28). The terminal 31 that has received the connection acceptance message returns a confirmation response to the SIP server 21 (step S29). This confirmation response is transmitted to the called terminal 33 via the SIP server 21, the cooperation server 1, and the SIP server 23 (steps S30, S31, S32). As a result, a call line is established between the calling terminal 31 and the called terminal 33, and the call becomes possible (step S33).

  Next, when the call ends and a disconnection operation is performed at the terminal 31, the terminal 31 transmits a disconnection request message to the SIP server 21 (step S34). This disconnection request message is transmitted to the called terminal 33 via the SIP server 21, the cooperation server 1, and the SIP server 23 (steps S35, S36, S37). In response to this, the terminal 33 transmits a disconnection approval message to the SIP server 23 as a response to the disconnection request (step S38). This disconnection approval message is transmitted to the calling terminal 31 via the SIP server 23, the cooperation server 1 and the SIP server 21 (steps S39, S40, S41), and the calling terminal 31 and the called terminal 33 The call line between will be disconnected.

  In the sequence shown in FIG. 4, an example in which message conversion is applied only to the connection request message and the connection approval message is shown. However, conversion is also necessary for other messages (for example, ringing instruction messages and disconnection approval messages). If there is, mutual conversion between the service A and the service B may be performed with reference to the message conversion database 14.

  In this way, the linkage server 1 resolves the telephone number and relays a message transmitted / received to connect between the terminal on the calling side and the terminal on the calling side. Thus, it becomes possible to connect terminals under different IP telephone services.

  Next, with reference to FIG. 6, a modified example will be described in the cooperation server 1 shown in FIG. The cooperation server 1 shown in FIG. 6 is different from the cooperation server 1 shown in FIG. 1 in that the services provided by the SIP server that accommodates the originating and terminating terminals are the same, and the originating and terminating terminals are the same. A redirection unit 15 that connects the terminals by redirection, and a routing control unit 16 that selects and controls whether to connect between the terminal on the calling side and the called side by redirection or by relay that performs message conversion are newly provided. It is a point. Here, the connection by redirection means that upon receiving a connection request from the originating SIP server 21, the cooperation server 1 sends the IP address of the terminating SIP server 22 obtained by the number resolution to the SIP server 21. The SIP server 21 directly sends a connection request to the SIP server 22 and makes a connection between the SIP server 21 and the SIP server 22 without going through the cooperation server 1. In the connection by redirection, since the cooperation server 1 only performs number resolution, the resource consumption in the cooperation server 1 can be minimized, and the cooperation server 1 transmits and receives between the two SIP servers 21 and 22. It is possible to reduce resource consumption in the cooperation server 1 as compared with the case of relaying a message to be transmitted.

  Next, the operation of the routing determination unit 12a shown in FIG. 6 will be described with reference to FIG. FIG. 7 is a flowchart illustrating an operation in which the routing determination unit 12a determines the routing between the originating terminal 31 and the terminating terminal 33. The operations in steps S1 to S5 shown in FIG. 7 are the same as the operations in steps S1 to S5 shown in FIG. 2, so detailed description thereof will be omitted here, and only operations after server type extraction (step S5) will be omitted. explain. When the server type is extracted, the routing determination unit 12a refers to the routing method determination table and selects and determines one of the routing methods for connection by redirection or connection by relay (step S5b). ). As a result, the IP address of the called SIP server and the routing method are specified (step S6b). The routing determination unit 12 transfers the IP address of the destination SIP server obtained here, the routing method, and the routing control unit. The operations of the routing control unit 16 and the redirection unit 15 will be described later.

  Here, with reference to FIG. 8, the operation shown in FIG. 7 will be described with a specific example. FIG. 8 is a diagram showing a table structure of the number information database 11a shown in FIG. As shown in FIG. 8, the number information database 11a includes four tables: a telephone number management table, a server information management table, a GW (gateway) selection table, and a routing method determination table. Here, it is assumed that the calling party telephone number is “03-yyyy-cccc” and the called party telephone number is “03-xxx-aaaa”.

  First, the routing determination unit 12a refers to the telephone number management table and determines whether or not the incoming telephone number (03xxxxaaaa) is registered in this table. As a result of this determination, if the incoming phone number is not registered, the server logical number (for example, “03” if “03” is applied) corresponds to the server logical number with reference to the GW selection table. Extract). On the other hand, if the called telephone number is registered in the telephone number management table, the server logical number associated with the corresponding telephone number is extracted. If the called telephone number is “03xxxxaaa”, the server logical number “000001” is extracted. The routing determination unit 12 also extracts the server logical number “000002” associated with the calling telephone number “03yyyycccc” at the same time.

  Next, the routing determination unit 12a refers to the server information management table, and determines each server type (“service A”, “service A”, and destination) associated with the server logical number on the calling side and the called side. The IP address (“xy 0.1”) associated with the server logical number on the side is extracted, and the routing determination unit 12a refers to the routing method determination table and obtains the server type obtained. The routing method (“redirect”) related to the combination of “service A” and “service A” is extracted in this way, by referring to the number information database 11a, From the telephone number, it is possible to obtain the server logical number of the originating and terminating SIP servers, the server type, and the IP address of the terminating SIP server. By routing method is determined from a combination of the type of server originating and destination side, so that the telephone number resolution when IP telephone connection is made.

  Next, the operation of the entire system shown in FIG. 6 will be described with reference to FIG. FIG. 4 is a sequence diagram showing the operation of the entire system shown in FIG. Here, it is assumed that the terminal 31 is the calling terminal and the terminal 33 is the called terminal, and when the calling server and the called server type are the same, the connection between the calling and called SIP servers by redirection is performed. Will be explained. Note that, when the server types on the calling side and the called side are different, the operation when the relay unit 13 connects by relay processing is the same as the operation shown in FIG.

  First, when the telephone number of the terminal 33 is dialed from the terminal 31, a connection request message is transmitted from the terminal 31 to the SIP server 21 (step S51). In response, the SIP server 21 returns a provisional response to the terminal 31 (step S52) and transmits a connection request message to the cooperation server 1 (step S53). This connection request message includes the calling number and the called number. The cooperation server 1 that has received this connection request message returns a provisional response to the SIP server 21 (step S54). Then, when the routing determination unit 12a performs the telephone number resolution process by the above-described operation, the routing method information to be applied and the IP address of the destination SIP server are delivered to the routing control unit 16.

  If the routing method information passed from the routing determination unit 12a is “redirect”, the routing control unit 16 outputs the IP address of the called SIP server to the redirection unit 15, and the routing method information is “relay”. If so, the IP address of the called SIP server is output to the relay unit 13. When the IP address of the destination SIP server is output from the routing control unit 16 to the relay unit 13, the relay unit 13 performs, for example, between the SIP server 22 and the SIP server 23 by the operation illustrated in FIG. 4 described above. Connection is made by converting a message to be transmitted and received.

  On the other hand, when the IP address of the destination SIP server is output from the routing control unit 16 to the redirection unit 15, the redirection unit 15 transmits a redirect destination notification message to the calling side SIP server 21 (step S 30). S55). The redirect destination notification message includes the IP address of the called SIP server (here, the SIP server 22) received from the routing control unit 16. In response to this, the SIP server 21 returns a confirmation response to the cooperation server 1 (step S56), and also responds to the IP address of the called SIP server (IP address of the SIP server 22) received from the cooperation server 1. Then, a connection request message is transmitted (step S57). This connection request message includes the calling number and the called number.

  The SIP server 22 that has received this connection request message returns a provisional response to the SIP server 21 (step S58), and transmits the received connection request message to the terminal 32 (step S18). The terminal 32 returns a provisional response to the SIP server 22 (step S60) and transmits a ringing instruction message (step S61). This ringing instruction message is transmitted to the originating terminal 31 via the SIP server 22 and the SIP server 21 (steps S62 and S63). Subsequently, the terminal 33 on the called side transmits a connection acceptance message as a response to the connection request message to the SIP server 22 (step S64). The SIP server 22 transmits this connection acceptance message to the SIP server 21 (step S65).

  In response to this, the SIP server 21 transmits this connection approval message to the terminal 31 (step S66). The terminal 31 that has received the connection acceptance message returns a confirmation response to the SIP server 21 (step S67). This confirmation response is transmitted to the called terminal 32 via the SIP server 21 and the SIP server 22 (steps S68 and S69). As a result, a call line is established between the calling terminal 31 and the called terminal 32, and the call becomes possible (step S70).

  Next, when the call ends and a disconnection operation is performed at the terminal 31, the terminal 31 transmits a disconnection request message to the SIP server 21 (step S71). This disconnection request message is transmitted to the called terminal 32 via the SIP server 21 and the SIP server 23 (steps S72 and S73). In response to this, the terminal 32 transmits a disconnection approval message to the SIP server 22 as a response to the disconnection request (step S74). This disconnection acknowledgment message is transmitted to the calling terminal 31 via the SIP server 22 and the SIP server 21 (steps S75 and S76), and the call line between the calling terminal 31 and the called terminal 32 is established. Will be disconnected.

  As described above, when the server type of the SIP server that accommodates the calling terminal is different from the server type of the SIP server that accommodates the called terminal, messages transmitted and received between the calling and called SIP servers Since SIPs are relayed after mutual conversion, SIP servers that provide different services can be connected. In addition, when the server type of the SIP server that accommodates the calling terminal is the same as the server type of the SIP server that accommodates the called terminal, the calling server and the called SIP server are connected by redirection. Therefore, it becomes possible to reduce the resource consumption in the cooperation server as compared to the case where SIP servers providing the same service are connected by relay.

  Note that a program for realizing the functions of the processing unit in FIG. 1 is recorded on a computer-readable recording medium, and the program recorded on this recording medium is read into a computer system and executed between SIP servers. You may perform a cooperation process (telephone number solution process). Here, the “computer system” includes an OS and hardware such as peripheral devices. The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Further, the “computer-readable recording medium” refers to a volatile memory (RAM) in a computer system that becomes a server or a client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In addition, those holding programs for a certain period of time are also included.

  The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line. The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, and what is called a difference file (difference program) may be sufficient.

It is a block diagram which shows the structure of one Embodiment of this invention. It is a flowchart which shows operation | movement of the routing determination part 12 shown in FIG. It is explanatory drawing which shows the table structure of the number information database 11 shown in FIG. It is a sequence diagram which shows operation | movement of the whole system shown in FIG. It is explanatory drawing which shows the table structure of the message conversion database 14 shown in FIG. It is a block diagram which shows the structure of the modification of the cooperation server 1 shown in FIG. It is a flowchart which shows operation | movement of the routing determination part 12a shown in FIG. It is explanatory drawing which shows the table structure of the number information database 11a shown in FIG. It is a sequence diagram which shows operation | movement of the whole system shown in FIG.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Cooperative server 11, 11a ... Number information database, 12, 12a ... Routing determination part, 13 ... Relay part, 14 ... Message conversion database, 15 ... Redirection part, 16 ... Routing controller, 21, 22 ... SIP server (service A), 23 ... SIP server (service B), 31, 32, 33 ... Terminal, 4 ... Gateway

Claims (3)

A linked server device for resolving a telephone number in an IP telephone service,
A type specifying means for specifying the server type of the SIP server that accommodates the calling side terminal and the server type of the SIP server that accommodates the called side terminal based on the telephone number on the calling side and the telephone number on the called side;
When the server type of the SIP server that accommodates the calling terminal identified by the type identifying means is different from the server type of the SIP server that accommodates the called terminal, between the calling and called SIP servers A linkage server device comprising: relay means for connecting between the originating and destination SIP servers by mutually converting and relaying messages to be transmitted and received. Determining means for determining whether or not the server type of the SIP server that accommodates the calling terminal identified by the type identifying means and the server type of the SIP server that accommodates the called terminal;
Redirection means for connecting between the originating and terminating SIP servers by redirection when the determining means determines that the server types of the originating and terminating SIP servers are the same. The linkage server device according to claim 1. A communication system for resolving a telephone number in an IP telephone service,
A SIP server that accommodates the originating terminal;
A SIP server that accommodates the called terminal;
Accommodates the server type of the SIP server accommodating the originating terminal and the terminating terminal based on the originating telephone number and the terminating telephone number contained in the connection request transmitted from the SIP server accommodating the originating terminal. When the server type of the SIP server that accommodates the identified calling terminal is different from the server type of the SIP server that accommodates the called terminal, the calling side and A communication system comprising: a cooperation server that connects between the originating and terminating SIP servers by mutually converting and relaying messages transmitted and received between the terminating SIP servers.

Images