JP5387151B2 - Relay device and call control message relay method - Google Patents

Description

  The present invention relates to a relay technique for call control messages exchanged between an IP telephone terminal and a call control server.

  Patent Document 1 discloses a technique for constructing an IP telephone system without specially installing a call control server. In this technique, each IP telephone terminal has a call control server function for processing call control such as outgoing / incoming call and transfer of each IP telephone terminal. Only a specific IP telephone terminal determined between the IP telephone terminals enables the call control server function and processes call control of all IP telephone terminals including the own IP telephone terminal. Thereby, an IP telephone system is constructed.

JP 2008-205699 A

  In the technology described in Patent Document 1, a specific IP telephone terminal is newly determined when the system is started or when a specific IP telephone terminal up to that point is linked down. There is sex. For this reason, when a general IP telephone terminal that needs to manually register the address of the call control server in advance is tried to participate in the IP telephone system described in Patent Document 1, a specific function that functions as a call control server is specified. Each time the IP telephone terminal is dynamically changed, the address of the call control server registered in the general IP telephone terminal must be changed manually, which is complicated.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a general IP telephone in which the address of the call control server needs to be registered in advance without making the change of the call control server conscious. An object of the present invention is to provide a technology capable of causing a terminal to participate in an IP telephone system.

  In order to solve the above problems, the present invention installs a relay device on the same network as the call control server and the IP telephone terminal, and registers the address of the relay device in the IP telephone terminal as the address of the call control server. . Then, the relay device manages the call control server in operation and relays the exchange of call control messages between the call control server and the IP telephone terminal.

For example, the present invention is a relay device that relays the exchange of call control messages between a call control server and an IP telephone terminal,
Server address management means for managing the address of the call control server in operation;
Terminal address management means for managing the address and telephone number of the IP telephone terminal using the relay device;
The destination address of the call control message received from the IP telephone terminal is converted from the address of the relay device to the address of the call control server managed by the server address management means, and the call control message is An upstream relay means for transmitting;
The destination address of the call control message received from the call control server is associated with the destination telephone number of the call control message from the address of the relay device, and is managed by the terminal address management means A downlink relay means for converting the telephone terminal address and transmitting the call control message;
Server activation notification receiving means for receiving a server activation notification that the call control server notifies at activation, and
The server address management means includes
The server activation notification receiving means manages the source address of the server activation notification received immediately before as the address of the active call control server.
Alternatively, the present invention is a relay device that relays the exchange of call control messages between the call control server and the IP telephone terminal,
Server address management means for managing the address of the call control server in operation;
Terminal address management means for managing the address and telephone number of the IP telephone terminal using the relay device;
The destination address of the call control message received from the IP telephone terminal is converted from the address of the relay device to the address of the call control server managed by the server address management means, and the call control message is An upstream relay means for transmitting;
The destination address of the call control message received from the call control server is associated with the destination telephone number of the call control message from the address of the relay device, and is managed by the terminal address management means A downlink relay means for converting the telephone terminal address and transmitting the call control message;
When a response to the attribution request transmitted to the address managed by the server address management means is not received within a predetermined time, an attribution request is transmitted to each predetermined address, and based on the presence or absence of the response And a server search means for searching for an active call control server,
The server address management means includes
The server search unit manages the address of the active call control server searched immediately before.
Alternatively, the present invention is a relay device that relays the exchange of call control messages between the call control server and the IP telephone terminal,
Server address management means for managing the address of the call control server in operation;
Terminal address management means for managing the address and telephone number of the IP telephone terminal using the relay device;
The destination address of the call control message received from the IP telephone terminal is converted from the address of the relay device to the address of the call control server managed by the server address management means, and the call control message is An upstream relay means for transmitting;
The destination address of the call control message received from the call control server is associated with the destination telephone number of the call control message from the address of the relay device, and is managed by the terminal address management means A downlink relay means for converting the address to a telephone terminal address and transmitting the call control message,
The terminal address management means includes
When the call control message is received from the IP telephone terminal, if the source telephone number of the call control message is not managed, the source telephone number and the source address of the call control message are It is managed as the address and telephone number of the IP telephone terminal that uses the device.

  Here, the relay device may be any one of the IP telephone terminals that construct the IP telephone system.

  According to the present invention, a general IP telephone terminal that needs to register the address of the call control server in advance can be allowed to participate in the IP telephone system without being aware of the change of the call control server.

FIG. 1 is a schematic diagram of an IP telephone system according to an embodiment of the present invention. FIG. 2 is a schematic configuration diagram of the IP telephone terminal 1 with a relay function. FIG. 3A is a diagram schematically illustrating an example of registered contents in the server address storage unit 151, and FIG. 3B is a diagram schematically illustrating an example of registered contents in the terminal address storage unit 155. is there. FIG. 4 is a flowchart for explaining the reception operation of the IP telephone terminal 1 with a relay function. FIG. 5 is a sequence diagram for explaining the belonging operation to the call control server of the IP telephone system shown in FIG. FIG. 6A is a sequence diagram for explaining an operation when there is an incoming call from WAN 5 with the telephone number of the normal IP telephone terminal 3 as a destination number in the IP telephone system shown in FIG. FIG. 6B is a sequence diagram for explaining the operation in the case where there is a call from the normal IP telephone terminal 3 using the telephone number on the WAN 5 side as the destination number in the IP telephone system shown in FIG. .

  Embodiments of the present invention will be described below.

  FIG. 1 is a schematic diagram of an IP telephone system according to an embodiment of the present invention.

  As shown in the figure, the IP telephone system according to the present embodiment includes an IP telephone terminal 1 with a relay function, a plurality of IP telephone terminals 2 with a server function, at least one normal IP telephone terminal 3, and a relay function. It has a LAN 4 that interconnects the IP telephone terminal 1, the server-equipped IP telephone terminal 2, and the normal IP telephone terminal 3, and a gateway 6 that connects the LAN 4 to the WAN 5.

  The IP telephone terminal with server function 2 has a call control server function for processing call control such as outgoing / incoming call and transfer of all the IP telephone terminals 1 to 3 constituting the IP telephone system. Only the IP telephone terminal 2 with a specific server function determined between the telephone terminals 2 enables the call control server function to process the call control of all the IP telephone terminals 1 to 3 constituting the IP telephone system. .

  Here, the specific IP telephone terminal 2 with a server function is newly determined when the IP telephone system is activated or when the specific IP telephone terminal 2 with a server function is linked down. For this reason, it may be changed dynamically. When the IP telephone terminal with a server function 2 is determined to be a specific IP telephone terminal with a server function 2, the server activation notification is multicast-transmitted on the LAN 4.

  As the IP telephone terminal with server function 2, for example, an IP telephone terminal (IP phone) described in Patent Document 1 can be used, and detailed description thereof is omitted.

  The normal IP telephone terminal 3 is a general IP telephone terminal that needs to register the address of the call control server in advance, for example, manually. In this embodiment, it is assumed that the address of the IP telephone terminal 1 with a relay function is registered in the normal IP telephone terminal 3 as the address of the control server. Note that since various existing IP telephone terminals can be used as the normal IP telephone terminal 3, detailed description thereof is omitted.

  The IP telephone terminal 1 with a relay function relays the exchange of call control messages between the IP telephone terminal 2 with a specific server function that functions as a call control server and the normal IP telephone terminal 3 in addition to the function as an IP telephone terminal. This is an IP telephone terminal having a function to

  FIG. 2 is a schematic configuration diagram of the IP telephone terminal 1 with a relay function.

  As shown in the figure, the IP telephone terminal 1 with a relay function includes a man-machine interface unit 11, a LAN interface unit 12, a communication control unit 13, an IP phone processing unit 14, and a relay processing unit 15.

  The man-machine interface unit 11 is an interface for a user to perform telephone calls and various operations, and includes an operation unit such as a handset and a dial key, and a display unit such as an LCD and an LED (not shown).

  The LAN interface unit 12 is an interface for connecting to the LAN 4.

  The communication control unit 13 controls communication with each device (the IP telephone terminal with server function 2, the normal IP telephone terminal 3, the gateway 6, etc.) connected to the LAN 4 via the LAN interface unit 12.

  The IP telephone processing unit 14 performs processing necessary to function as an IP telephone terminal. As shown in the figure, the IP telephone processing unit 14 includes a call control unit 141 and a call processing unit 142.

  The call control unit 141 establishes / releases a session by exchanging call control messages with a call partner via a call control server according to a predetermined call control protocol such as SIP (Session Initiation Protocol). Here, an address stored in a server address storage unit 151 described later is used as the address of the call control server.

  The call processing unit 142 transmits / receives call data to / from a call partner via a session established by the call control unit 141 according to a predetermined transmission protocol such as RTP (Realtime Transport Protocol). Specifically, a voice signal input by the user via the man-machine interface unit 11 is encoded into call data, transmitted to the call partner via the session, and received from the call partner via the session. Then, the call data is decoded into an audio signal and output from the man-machine interface unit 11 as audio.

  The relay processing unit 15 performs processing necessary for relaying a call control message exchanged between the specific IP telephone terminal 2 with a server function that functions as a call control server and the normal IP telephone terminal 3. As illustrated, the relay processing unit 15 includes a server address storage unit 151, a server activation notification reception unit 152, a server address management unit 153, an uplink relay unit 154, a terminal address storage unit 155, and a terminal address management unit. 156 and a downlink relay unit 157.

  The server address storage unit 151 stores the address of the call control server. FIG. 3A is a diagram schematically illustrating an example of registered contents in the server address storage unit 151. As shown in the figure, a record 1510 having a field 1511 for registering the address (server address) of the call control server and a field 1512 for registering the update date and time of the server address is stored in the server address storage unit 151. be registered.

  The server activation notification receiving unit 152 receives, via the LAN interface unit 12 and the communication control unit 13, a server activation notification multicast-transmitted from the specific IP telephone terminal with server function 2 functioning as a call control server.

  The server address management unit 153 manages the address of the call control server. Specifically, when the server activation notification receiving unit 152 newly receives a server activation notification, the server address registered in the field 1511 of the record 1510 stored in the server address storage unit 151 is newly received. Updated to the source address of the server start notification.

  When the uplink relay unit 154 receives a call control message from the normal IP telephone terminal 3 via the LAN interface unit 12 and the communication control unit 13, the uplink telephone unit 154 sets the transmission destination address of the call control message to the IP telephone terminal 1 with the relay function. To the server address registered in the field 1511 of the record 1510 stored in the server address storage unit 151. Further, the source address of the call control message is converted from the address of the normal IP telephone terminal 3 to the address of the IP telephone terminal 1 with the relay function. Then, this call control message is sent out on the LAN 4 via the communication control unit 13 and the LAN interface unit 12.

  The terminal address storage unit 155 stores the telephone number and address of the normal IP telephone terminal 3. FIG. 3B is a diagram schematically illustrating an example of registered contents in the terminal address storage unit 155. As illustrated, a record 1550 is registered in the terminal address storage unit 155 for each normal IP telephone terminal 3. The record 1550 includes a field 1551 for registering the telephone number (terminal number) of the normal IP telephone terminal 3, a field 1552 for registering the address (terminal address) of the normal IP telephone terminal 3, and the update date / time of the record 1550 Field 1553 for registering.

  The terminal address management unit 156 manages the address and telephone number of the normal IP telephone terminal 3. Specifically, when receiving the call control message from the normal IP telephone terminal 3, the terminal address management unit 156 searches the record 1550 from the terminal address storage unit 155 using the call source message telephone number as a key. To do. If the record 1550 can be retrieved, the terminal address registered in the field 1552 of the record 1550 is updated to the transmission source address of this call control message. On the other hand, if the record 1550 cannot be retrieved, a record 1550 in which the source telephone number and source address of this call control message are registered in the fields 1551 and 1552 is newly registered in the terminal address storage unit 155.

  When the downlink relay unit 157 receives a call control message from the specific IP telephone terminal with server function 2 functioning as a call control server via the LAN interface unit 12 and the communication control unit 13, the downlink relay unit 157 transmits the call control message. The record 1550 is retrieved from the terminal address storage unit 155 using the destination telephone number as a key. Then, the transmission destination address of this call control message is converted from the address of the IP telephone terminal with relay function 1 to the terminal address registered in the field 1552 of this record 1550. Further, the source address of the call control message is converted from the address of the specific IP telephone terminal with server function 2 functioning as a call control server to the address of the IP telephone terminal with relay function 1. Then, this call control message is sent out on the LAN 4 via the communication control unit 13 and the LAN interface unit 12.

  Next, the operation of the IP telephone terminal 1 with a relay function will be described.

  FIG. 4 is a flowchart for explaining the reception operation of the IP telephone terminal 1 with a relay function. This flow is started when the LAN interface unit 12 receives a frame from the LAN 4.

  First, the communication control unit 13 analyzes the type of packet stored in the received frame (S101). If the packet stores the server activation notification (“server activation notification” in S101), the process proceeds to S102. If the packet stores the call data (“call data” in S101), the process proceeds to S103 and stores the call control message. If it is a packet (“call control message” in S101), the process proceeds to S104.

  In S <b> 102, the communication control unit 13 extracts a server activation notification from the packet stored in the received frame, and passes this server activation notification to the server activation notification receiving unit 152. When receiving the server activation notification from the communication control unit 13, the server activation notification receiving unit 152 notifies the server address management unit 153 of the transmission source address of the server activation notification as a new server address. In response to this, the server address management unit 153 updates the server address registered in the field 1511 of the record 1510 stored in the server address storage unit 151 to the new server address received from the server activation notification reception unit 152. At the same time, the update date and time registered in the field 1512 of the record 1510 is updated to the current date and time. If the new server address received from the server activation notification receiving unit 152 matches the server address registered in the field 1511 of the record 1510 stored in the server address storage unit 151, the field 1511 is displayed. , 1512 need not be updated.

  In S <b> 103, the communication control unit 13 extracts call data from the packet stored in the received frame, and passes this call data to the call processing unit 142. In response to this, the call processing unit 142 processes the call data, decodes it into an audio signal, and outputs the audio from the man-machine interface unit 11.

  In S104, the communication control unit 13 extracts the call control message from the packet stored in the received frame, and whether or not the transmission source address of this call control message is registered in the server address storage unit 151, that is, this call control. It is determined whether or not the message transmission source is a specific server function-attached IP telephone terminal 2 functioning as a call control server.

  When the transmission source address of the call control message does not match the server address registered in the server address storage unit 151 (NO in S104), the communication control unit 13 determines that the transmission source of the call control message is a normal IP telephone terminal 3, the call control message is passed to the uplink relay unit 154 and the terminal address management unit 156.

  In response to this, the terminal address management unit 156 searches the terminal address storage unit 155 for the record 1550 using the transmission source telephone number of the call control message as a key. Thereby, it is determined whether or not the transmission source telephone number is managed (S105). When the source telephone number is managed, that is, when the record 1550 can be retrieved from the terminal address storage unit 155 (YES in S105), the terminal address management unit 156 is registered in the field 1552 of the record 1550. The terminal address is updated to the transmission source address of the call control message, and the update date and time registered in the field 1553 of the record 1550 is updated to the current date and time (S106). If the source address of this call control message matches the terminal address registered in the field 1552 of this record 1550, the registered contents in the fields 1552 and 1553 need not be updated. On the other hand, when the source telephone number is not managed, that is, when the record 1550 cannot be retrieved from the terminal address storage unit 155 (NO in S105), the terminal address management unit 156 transmits the call control message source telephone. A record 1550 in which the number, source address, and current date and time are registered in the fields 1551, 1552, and 1553, respectively, is newly registered in the terminal address storage unit 155 (S107).

  Further, when the uplink relay unit 154 receives the call control message from the communication control unit 13, the destination address of the call control message is stored in the server address storage unit 151 from the address of the IP telephone terminal 1 with the relay function. To the server address registered in the field 1511 of the record 1510. Further, the source address of the call control message is converted from the address of the normal IP telephone terminal 3 to the address of the IP telephone terminal 1 with the relay function (S108). Then, the uplink relay unit 154 sends this call control message on the LAN 4 via the communication control unit 13 and the LAN interface unit 12 (S109).

  On the other hand, when the source address of the call control message extracted from the packet stored in the received frame is registered in the server address storage unit 151, that is, the source of the call control message functions as a call control server. If the IP telephone terminal 2 has a specific server function (YES in S104), the communication control unit 13 uses the telephone number to which the destination telephone number of the call control message is assigned to the IP telephone terminal 1 with the relay function. It is determined whether or not the number is present (S110).

  When the destination telephone number of the call control message is the telephone number assigned to the IP telephone terminal 1 with the relay function (YES in S110), the communication control unit 13 determines that the call control message is an IP with the relay function. It is determined that the call control message is addressed to the telephone terminal 1, and this call control message is passed to the call control unit 141. In response to this, the call control unit 141 executes processing for the call control message (S111).

  If the destination telephone number of the call control message is not the telephone number assigned to the IP telephone terminal 1 with the relay function (NO in S110), the communication control unit 13 determines that the call control message is a normal IP telephone terminal. 3, the call control message is transferred to the downlink relay unit 157.

  In response to this, the downlink relay unit 157 searches the terminal address storage unit 155 for the record 1550 using the destination telephone number of the call control message as a key (S112). Next, the downlink relay unit 157 converts the transmission destination address of the call control message from the address of the IP telephone terminal 1 with the relay function to the terminal address registered in the field 1552 of the record 1550. The source address of this call control message is converted from the specific IP telephone terminal with server function 2 functioning as a call control server to the address of the IP telephone terminal with relay function 1 (S113). Then, the downlink relay unit 157 sends this call control message onto the LAN 4 via the communication control unit 13 and the LAN interface unit 12 (S114).

  Next, an operation example of the IP telephone system shown in FIG. 1 will be described.

  FIG. 5 is a sequence diagram for explaining the belonging operation to the call control server of the IP telephone system shown in FIG. Here, in order to distinguish each IP telephone terminal 2 with a server function, the branch number is attached | subjected to the code | symbol.

  First, a specific server in which the IP telephone terminal with server function 2-1 functions as a call control server due to the activation of the IP telephone system or the link down of the IP telephone terminal with a specific server function until then. It is assumed that the function-equipped IP telephone terminal 2-1 is newly determined.

  In response to this, the IP telephone terminal with server function 2-1 enables the call control server function (S201) and multicasts a server activation notice on the LAN 4 (S202).

  Upon receiving the server activation notification, the other IP telephone terminal with server function 2-2 and IP telephone terminal with relay function 1 register the source address of this server activation notification as the address of the call control server (S203, S204). . On the other hand, it is necessary to register the address of the call control server in advance in the normal IP telephone terminal 3, and the address of the call control server is not updated by this server activation notification. As described above, in the normal IP telephone terminal 3, the address of the IP telephone terminal with relay function 1 is registered in advance as the address of the call control server.

  For example, the IP telephone terminal with server function 2-2 periodically transmits an attribution request (RESISTER) to the IP telephone terminal with server function 2-1 registered as a call control server (S205). In response to this, the IP telephone terminal with server function 2-1 registers the telephone number and address of the IP telephone terminal with server function 2-2 as the telephone number and address of the terminal belonging to the call control server (S206). ), A response (200 OK) is returned to the IP telephone terminal with server function 2-2 (S207).

  Similarly, the IP telephone terminal with a relay function 1 periodically transmits an attribution request (RESISTER) to the IP telephone terminal with a server function 2-1 registered as a call control server, for example (S208). In response, the IP telephone terminal with server function 2-1 registers the telephone number and address of the IP telephone terminal with relay function 1 as the telephone number and address of the terminal belonging to the call control server (S209). A response (200 OK) is returned to the IP telephone terminal 1 with a relay function (S210).

  Further, the normal IP telephone terminal 3 periodically transmits an attribution request (RESISTER) to the IP telephone terminal 1 with a relay function registered as a call control server, for example (S211). The IP telephone terminal 1 with a relay function receives the transmission destination address and the source address of the attribution request received from the normal IP telephone terminal 3 from the address of the IP telephone terminal 1 with a relay function and the address of the normal IP telephone terminal 3, respectively. The address is converted into the address of the IP telephone terminal with server function 2-1 registered as the call control server and the address of the IP telephone terminal with relay function 1 (S212), and this attribution request is converted into the server registered as the call control server. Relay to the function-equipped IP telephone terminal 2-1 (S213).

  Upon receiving this, the IP telephone terminal with server function 2-1 registers the telephone number of the normal IP telephone terminal 3 and the address of the IP telephone terminal with relay function 1 as the telephone number and address of the terminal belonging to the call control server. Then (S214), a response (200 OK) is returned to the IP telephone terminal 1 with a relay function (S215). The IP telephone terminal with relay function 1 uses the transmission destination address and the source address of the response received from the IP telephone terminal with server function 2-1 registered as the call control server, respectively. The address and address of the IP telephone terminal 2-1 with server function are converted into the address of the normal IP telephone terminal 3 and the address of the IP telephone terminal 1 with relay function (S216), and this response is relayed to the normal IP telephone terminal 3 (S217).

  Now, the IP telephone terminal with server function 2-1 is linked down (S218), and the IP telephone terminal with server function 2-2 is newly established as a specific IP telephone terminal with server function 2-2 that functions as a call control server. It shall be decided.

  In response to this, the IP telephone terminal with server function 2-2 validates the call control server function (S219) and multicasts a server activation notice on the LAN 4 (S220).

  When receiving the server activation notification, the IP telephone terminal with relay function 1 registers the source address of this server activation notification as the address of the call control server (S221). On the other hand, in the normal IP telephone terminal 3, as described above, the address of the call control server is not updated by the server activation notification.

  For example, the IP telephone terminal with relay function 1 periodically transmits an attribution request (RESISTER) to the IP telephone terminal with server function 2-2 registered as a call control server (S222). In response, the IP telephone terminal with server function 2-2 registers the telephone number and address of the IP telephone terminal with relay function 1 as the telephone number and address of the terminal belonging to the call control server (S223). A response (200 OK) is returned to the IP telephone terminal 1 with a relay function (S224).

  Also, the normal IP telephone terminal 3 periodically transmits an attribution request (RESISTER) to the IP telephone terminal 1 with a relay function registered as a call control server, for example (S225). The IP telephone terminal 1 with a relay function receives the transmission destination address and the source address of the attribution request received from the normal IP telephone terminal 3 from the address of the IP telephone terminal 1 with a relay function and the address of the normal IP telephone terminal 3, respectively. The address of the IP telephone terminal with server function 2-2 registered as a call control server is converted to the address of the IP telephone terminal with relay function 1 and the address of the IP telephone terminal 1 with relay function (S226). Relay to the function-equipped IP telephone terminal 2-2 (S227).

  In response to this, the IP telephone terminal with server function 2-2 registers the telephone number of the normal IP telephone terminal 3 and the address of the IP telephone terminal with relay function 1 as the telephone number and address of the terminal belonging to the call control server. Then, a response (200 OK) is returned to the IP telephone terminal 1 with a relay function (S229). The IP telephone terminal with relay function 1 uses the transmission destination address and the source address of the response received from the IP telephone terminal with server function 2-2 registered as a call control server, respectively. The address and the address of the IP telephone terminal with server function 2-2 are converted into the address of the normal IP telephone terminal 3 and the address of the IP telephone terminal 1 with a relay function (S230), and this response is relayed to the normal IP telephone terminal 3 (S231).

  FIG. 6A is a sequence diagram for explaining the operation when there is an incoming call from WAN 5 with the telephone number of normal IP telephone terminal 3 as the destination number in the IP telephone system shown in FIG.

  In the IP telephone system shown in FIG. 1, the gateway 6 receives the server activation notification and registers its source address, thereby allowing the specific IP telephone terminal with server function 2 functioning as a call control server. It shall be managed.

  First, the gateway 6 transfers the connection request (INVITE) received from the WAN 5 to the specific IP telephone terminal 2 with a server function (S251).

  In response to this, the specific IP telephone terminal with server function 2 transmits this connection request to the IP telephone terminal with relay function 1 managed in association with the destination telephone number of this connection request (S252). ). The IP telephone terminal with relay function 1 uses the destination address and the source address of the connection request received from the specific IP telephone terminal with server function 2 registered as the call control server, respectively. The address and the address of the specific IP telephone terminal 2 with server function are converted into the address of the normal IP telephone terminal 3 and the address of the IP telephone terminal 1 with relay function (S253), and this connection request is sent to the normal IP telephone terminal 3 Relay (S254).

  Next, when receiving a response operation such as off-hook from the user, the normal IP telephone terminal 3 returns a response (200 OK) to the IP telephone terminal 1 with a relay function (S255). The IP telephone terminal with relay function 1 calls the transmission destination address and the source address of the response received from the normal IP telephone terminal 3 from the address of the IP telephone terminal with relay function 1 and the address of the normal IP telephone terminal 3, respectively. The address of the IP telephone terminal 2 with a specific server function registered as the control server and the address of the IP telephone terminal 1 with a relay function are converted (S256), and this response is added with the specific server function registered as the call control server. Relay to IP telephone terminal 2 (S257). The specific IP telephone terminal with server function 2 transmits the response received from the IP telephone terminal with relay function 1 to the transmission source of the connection request via the gateway 6 (S258).

  As a result, a communication path is formed between the normal IP telephone terminal 3 and the communication partner via the gateway 6 and the specific IP telephone terminal 2 with a server function functioning as a call control server, and a call is started. (S259, S260).

  FIG. 6B is a sequence diagram for explaining the operation in the case where there is a call from the normal IP telephone terminal 3 using the telephone number on the WAN 5 side as the destination number in the IP telephone system shown in FIG. .

  First, the normal IP telephone terminal 3 transmits a connection request (INVITE) to the IP telephone terminal 1 with a relay function registered as a call control server (S271). The IP telephone terminal 1 with a relay function receives the transmission destination address and the source address of the connection request received from the normal IP telephone terminal 3 from the address of the IP telephone terminal 1 with a relay function and the address of the normal IP telephone terminal 3, respectively. The address of the specific IP telephone terminal 2 with server function registered as the call control server and the address of the IP telephone terminal 1 with relay function are converted (S272), and this connection request is converted into the specific server registered as the call control server. Relay to the function-equipped IP telephone terminal 2 (S273).

  The specific server function-equipped IP telephone terminal 2 transmits this connection request to the gateway 6 (S274). In response to this, the gateway 6 transmits this connection request to a call control server (not shown) on the WAN 5.

  Next, when the gateway 6 receives a response (200 OK) from a call control server (not shown) on the WAN 5, the gateway 6 transfers it to the specific IP telephone terminal 2 with a server function functioning as a call control server ( S275).

  In response to this, the specific IP telephone terminal with server function 2 transmits this response to the IP telephone terminal with relay function 1 (S276). The IP telephone terminal with relay function 1 uses the transmission destination address and the source address of the response received from the specific IP telephone terminal with server function 2 registered as the call control server, as the address of the IP telephone terminal with relay function 1, respectively. Then, the address of the IP telephone terminal 2 with the specific server function is converted into the address of the normal IP telephone terminal 3 and the address of the IP telephone terminal 1 with the relay function (S277), and this response is relayed to the normal IP telephone terminal 3 (S277). S278).

  As a result, a communication path is formed between the normal IP telephone terminal 3 and the communication partner via the gateway 6 and the specific IP telephone terminal 2 with a server function functioning as a call control server, and a call is started. (S279, S280).

  The embodiment of the present invention has been described above.

  In the present embodiment, in the normal IP telephone terminal 3, the address of the IP telephone terminal 1 with a relay function is registered in advance as the address of the call control server. The IP telephone terminal 1 with a relay function manages an IP telephone terminal 2 with a specific server function that functions as a call control server, and an IP telephone with a specific server function that functions as a normal IP telephone terminal 3 and a call control server. It relays the exchange of call control messages with the terminal 2. For this reason, even if the server function-equipped IP telephone terminal 2 that functions as a call control server is changed, there is no need to change the setting of the call control server on the normal IP telephone terminal 3 side. Can participate in a telephone system. Therefore, according to the present embodiment, for example, even with the normal IP telephone terminal 3 that needs to manually register the address of the call control server in advance, the IP with a specific server function that functions as the call control server It becomes possible to participate in the IP telephone system without making the user aware of the change of the telephone terminal 2.

  In the present embodiment, the IP telephone terminal 1 with a relay function is a server activation notification transmitted from the IP telephone terminal 2 with a server function determined to be a specific IP telephone terminal 2 with a server function that functions as a call control server. , And the server address storage unit 151 stores the source address of the server activation notification. Therefore, according to the present embodiment, even when the specific IP telephone terminal with server function 2 is changed, it can be automatically managed.

  In this embodiment, when the IP telephone terminal 1 with a relay function receives a call control message from the normal IP telephone terminal 3, the transmission source telephone number of the call control message is stored in the terminal address storage unit 155. If not, the source telephone number is stored in the terminal address storage unit 155 together with the source address of the call control message. Therefore, according to the present embodiment, it is not necessary to register in advance information on the normal IP telephone terminal 3 that uses the IP telephone terminal with relay function 1 in the IP telephone terminal with relay function 1. For this reason, a user's effort can be reduced.

  In addition, this invention is not limited to said embodiment, Many deformation | transformation are possible within the range of the summary.

  For example, in the above embodiment, the IP telephone terminal 1 with a relay function relays the call control message between the IP telephone terminal 2 with a specific server function that functions as a call control server and the normal IP telephone terminal 3. The case has been described as an example. However, the present invention is not limited to this. In place of the IP telephone terminal 1 with a relay function, a dedicated relay device is provided that relays a call control message between a specific IP telephone terminal 2 with a server function that functions as a call control server and the normal IP telephone terminal 3. May be.

  In the above embodiment, an example is given in which any one of the plurality of IP telephone terminals with server function 2 is determined to be a specific IP telephone terminal with server function 2 to enable the call control server function. Explained. However, the present invention is not limited to this. For example, instead of the plurality of server-equipped IP telephone terminals 2, a plurality of call control servers having a redundant configuration may be provided, and one of these call control servers may operate as an active system.

  Note that the IP telephone terminal 1 with a relay function can manage an active call control server based on a server activation notification transmitted when the call control server becomes an active system. However, a redundant configuration may be formed by a call control server that does not have the server activation notification transmission function. In this case, the IP telephone terminal 1 with a relay function manages a call control server that is operating in the following manner.

  That is, in the IP telephone terminal 1 with a relay function, a server search unit in which addresses of the call control servers forming the redundant configuration are registered is provided instead of the server activation notification receiving unit 152. The server search unit periodically transmits an attribution request to the server address stored in the server address storage unit 151 and confirms the response, so that the call control server having this server address is in operation. Determine whether or not. If a response is not received within a predetermined time after sending the attribution request, it is determined that the call control server having this server address is not in operation, and the address of another call control server forming a redundant configuration is determined. Send the attribution request in turn and check the response. Then, the server address management unit 153 is notified of the source address of the received response. In this way, it is possible to manage the call control server operating as the active system.

  In the above embodiment, the functional configuration of the IP telephone terminal 1 with a relay function shown in FIG. 2 is realized by an integrated logic IC such as ASIC (Application Specific Integrated Circuit) or FPGA (Field Programmable Gate Array). It may be implemented by a computer such as a DSP (Digital Signal Processor). Alternatively, in a general-purpose computer such as a PC (Personal Computer) equipped with an auxiliary storage device such as a CPU, memory, HDD, DVD-ROM, and a communication interface such as a NIC (Network Interface Card) and a modem, the CPU executes a predetermined program. It may be realized by loading from an auxiliary storage device onto a memory and executing it.

  1: IP telephone terminal with relay function, 2: IP telephone terminal with server function, 3: Normal IP telephone terminal, 4: LAN, 5: WAN, 6: Gateway, 11: Man-machine interface unit, 12: LAN interface unit, 13: Communication control unit, 14: IP telephone processing unit, 15: Relay processing unit, 141: Call control unit, 142: Call processing unit, 151: Server address storage unit, 152: Server activation notification receiving unit, 153: Server address Management unit 154: Uplink relay unit 155: Terminal address storage unit 156: Terminal address management unit 157: Downlink relay unit

Claims (6)

A relay device that relays exchange of call control messages between a call control server and an IP telephone terminal,
Server address management means for managing the address of the call control server in operation;
Terminal address management means for managing the address and telephone number of the IP telephone terminal using the relay device;
The destination address of the call control message received from the IP telephone terminal is converted from the address of the relay device to the address of the call control server managed by the server address management means, and the call control message is An upstream relay means for transmitting;
The destination address of the call control message received from the call control server is associated with the destination telephone number of the call control message from the address of the relay device, and is managed by the terminal address management means A downlink relay means for converting the telephone terminal address and transmitting the call control message;
Anda server start notification receiving means for receiving the server start notification the call control server notifies the startup,
The server address management means includes
The relay apparatus characterized by managing the source address of the server activation notification received immediately before by the server activation notification receiving means as the address of the call control server in operation. A relay device that relays exchange of call control messages between a call control server and an IP telephone terminal,
Server address management means for managing the address of the call control server in operation;
Terminal address management means for managing the address and telephone number of the IP telephone terminal using the relay device;
The destination address of the call control message received from the IP telephone terminal is converted from the address of the relay device to the address of the call control server managed by the server address management means, and the call control message is An upstream relay means for transmitting;
The destination address of the call control message received from the call control server is associated with the destination telephone number of the call control message from the address of the relay device, and is managed by the terminal address management means A downlink relay means for converting the telephone terminal address and transmitting the call control message;
When a response to the attribution request transmitted to the address managed by the server address management means is not received within a predetermined time, an attribution request is transmitted to each predetermined address, and based on the presence or absence of the response anda server searching means for searching for a call control server in operation Te,
The server address management means includes
The relay apparatus characterized by managing the address of the active call control server searched immediately by the server search means. A relay device that relays exchange of call control messages between a call control server and an IP telephone terminal,
Server address management means for managing the address of the call control server in operation;
Terminal address management means for managing the address and telephone number of the IP telephone terminal using the relay device;
The destination address of the call control message received from the IP telephone terminal is converted from the address of the relay device to the address of the call control server managed by the server address management means, and the call control message is An upstream relay means for transmitting;
The destination address of the call control message received from the call control server is associated with the destination telephone number of the call control message from the address of the relay device, and is managed by the terminal address management means A downlink relay means for converting the address to a telephone terminal address and transmitting the call control message,
The terminal address management means includes
When the call control message is received from the IP telephone terminal, if the source telephone number of the call control message is not managed, the source telephone number and the source address of the call control message are A relay device, wherein the relay device is managed as an address and a telephone number of the IP telephone terminal that uses the device. An IP telephone terminal comprising the relay device according to any one of claims 1 to 3 . A call control message relay method for relaying a call control message exchange between the call control server and the IP telephone terminal using a relay apparatus installed on a network to which the call control server and the IP telephone terminal are connected. And
The IP telephone terminal
The address of the relay apparatus, to register as an address of the call control server,
The relay device is
When managing the address and telephone number of the IP telephone terminal that uses this relay device, and when receiving the server activation notification that the call control server notifies at the time of activation, the source address of the server activation notification is in operation As the address of the call control server
The destination address of the call control message received from the IP telephone terminal is converted from the address of the relay device to the address of the call control server in operation managed by the relay device, and the call control message Send
The IP telephone terminal that is managed by the relay apparatus in association with the transmission destination address of the call control message received from the call control server from the address of the relay apparatus in association with the transmission destination telephone number of the call control message The call control message relay method , wherein the call control message is transmitted after being converted to the address of the call control message .   A call control message relay method for relaying a call control message exchange between the call control server and the IP telephone terminal using a relay apparatus installed on a network to which the call control server and the IP telephone terminal are connected. And
  The IP telephone terminal
  Register the address of the relay device as the address of the call control server;
  The address and telephone number of the IP telephone terminal that uses the relay device are managed, an attribution request is transmitted to each predetermined address, and the source address of the response is the address of the active call control server Manage as
  The destination address of the call control message received from the IP telephone terminal is converted from the address of the relay device to the address of the active call control server managed by the relay device, and the call control message Send
  The IP telephone terminal that is managed by the relay apparatus in association with the transmission destination address of the call control message received from the call control server in association with the transmission destination telephone number of the call control message from the address of the relay apparatus And send the call control message
  A call control message relay method characterized by the above.

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