JP2012129934A - Ip telephone terminal and session establishment method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a session establishment technique capable of suppressing a performance required of a call control server and communication traffic to be low.SOLUTION: IP telephone terminals 1-2 and 1-3 with an SIP server function of a call destination and a call origin acquire IP addresses of each other by transmitting and receiving an INVITE message and a 302 Redirect message through an IP telephone terminal 1-1 with the SIP server function functioning as an SIP server (S102-S108). Then, the IP telephone terminals 1-2 and 1-3 with the SIP server function of the call destination and the call origin directly transmit and receive an SIP message without interposing the IP telephone terminal 1-1 with the SIP server function functioning as the SIP server by using the IP addresses of each other and thus execute an SIP sequence to establish a session between the IP telephone terminals 1-2 and 1-3 (S109-S118).

Description

  The present invention relates to an IP telephone terminal, and more particularly to a technique for establishing a session between IP telephone terminals.

  Patent Document 1 discloses a technique for reducing the time required to establish a session between IP telephone terminals that have made a call with each other. In this technique, the source and destination IP telephone terminals that have never talked to each other perform a call control sequence via the call control server to establish a session and acquire the other party's IP address. Thereafter, when the own IP address is changed, the other party's IP address is managed by notifying the other party of the new IP address. In the subsequent call control sequence, a session is established by directly transmitting / receiving a call control message using the IP addresses of the other party managed by each other without going through the call control server.

  According to this technique, in a call control sequence between IP telephone terminals that have made a call with each other, the call control message relay process in the call control server is omitted, and thus the time required for session establishment can be shortened. it can.

JP 2009-272944 A

  However, in the technique described in Patent Document 1, a call control sequence is executed via a call control server in order to establish a session between IP telephone terminals that have never talked to each other. Since there is a possibility that a call control sequence may be simultaneously performed between a plurality of IP telephone terminals that have not talked to each other, a high processing capability is required for the call control server in preparation for such a case.

  In addition, each time the IP phone terminal is changed, the IP phone terminal must notify each IP phone terminal that has acquired an IP address that has made a call so far of its latest IP address, Communication traffic increases.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a session establishment technique capable of suppressing processing capacity and communication traffic required for a call control server.

  In order to solve the above-described problem, in the present invention, the source IP telephone terminal transmits a connection request to the destination IP telephone terminal via the call control server, and the destination IP telephone terminal receives the call from the call control server. The address of the source IP telephone terminal is acquired from the received connection request, and the address notification of the own terminal is transmitted to the source IP telephone terminal via the call control server. Then, the source IP telephone terminal acquires the address of the destination IP telephone terminal from the address notification received from the call control server. Then, the source and destination IP telephone terminals execute the call control sequence by transmitting and receiving a call control message without going through the call control server, using the acquired mutual addresses. Establish.

For example, the present invention is an IP telephone terminal that transmits and receives call data to and from the partner terminal via a session established with the partner terminal.
In response to a connection request for the own terminal received from the counterpart terminal via the call control server, an address notification transmission means for sending an address notice of the own terminal to the counterpart terminal via the call control server;
Address notification receiving means for receiving an address notification of the partner terminal from the partner terminal via the call control server as a response to the connection request transmitted to the partner terminal via the call control server;
Call control by transmitting / receiving a call control message to / from the partner terminal without using the call control server, using the IP address of the partner terminal specified by the connection request to the terminal or the address notification of the partner terminal Call control procedure execution means for executing a sequence and establishing the session.

  According to the present invention, processing capacity and communication traffic required for a call control server can be kept low.

FIG. 1 is a schematic diagram of an IP telephone system according to an embodiment of the present invention. FIG. 2 is a sequence diagram for explaining the operation when a session is established between IP telephone terminals 1 with SIP server function in the IP telephone system according to the present embodiment. FIG. 3 is a schematic functional configuration diagram of the IP telephone terminal 1 with the SIP server function. 4A is a flowchart for explaining the outgoing call operation of IP telephone terminal 1 with SIP server function, and FIG. 4B is for explaining the incoming call operation of IP telephone terminal 1 with SIP server function. 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 a plurality of IP telephone terminals 1-1 to 1-n with SIP (Session Initiation Protocol) server functions (hereinafter simply referred to as IP telephone terminals 1 with SIP server functions). Are connected to the LAN 3. The LAN 3 is connected to the WAN 4 via a GW (gateway) 2. The WAN 4 is connected to at least one IP telephone terminal 5, SIP server 6, and the like.

  In the IP telephone system according to the present embodiment, only one of the IP telephone terminals with SIP server function 1 determined according to a predetermined rule enables the SIP server function and all SIP servers including its own terminal 1 The function-equipped IP telephone terminal 1 is placed under control. Further, when a session is established between the IP telephone terminal 1 with SIP server function, the IP telephone terminal 1 with SIP server function of the transmission source and the transmission destination is the SIP server (with the SIP server function enabling the SIP server function). A connection request and an address notification as a response to the connection request are transmitted / received via the IP telephone terminal 1) to acquire each other's IP address. Then, the call control sequence is executed by directly transmitting / receiving the SIP message without using the SIP server, using the IP addresses of the counterpart terminals 1 acquired from each other.

  FIG. 2 is a sequence diagram for explaining the operation when a session is established between IP telephone terminals 1 with a SIP server function in the IP telephone system according to the present embodiment. Here, a case where the IP telephone terminal with SIP server function 1-2 makes a call to the IP telephone terminal with SIP server function 1-3 will be described as an example. It is assumed that the SIP server function-added IP telephone terminal 1-1 has enabled the SIP server function.

  When the IP telephone terminal with SIP server function 1-2 accepts a call operation with designation of the telephone number of the destination (IP telephone terminal with SIP server function 1-3) from the operator (S101), the telephone number is transmitted. INVITE message with designation of the IP address (source IP address) of the own terminal 1-2 with the destination telephone number and the telephone number of the own terminal (IP telephone terminal with SIP server function 1-2) as the source telephone number (Connection request) is generated. Then, this INVITE message is transmitted to the IP telephone terminal with SIP server function 1-1 functioning as a SIP server (S102).

  In response to this, the IP telephone terminal with SIP server function 1-1 relays the INVITE message received from the IP telephone terminal with SIP server function 1-2 to the IP telephone terminal with SIP server function 1-3 by the SIP server function. (S103).

  When receiving the INVITE message from the IP phone terminal with SIP server function 1-1 functioning as a SIP server, the IP phone terminal with SIP server function 1-3 receives the caller telephone number (SIP server function) specified in the INVITE message. The telephone number of the attached IP telephone terminal 1-2 is referred to, and it is confirmed that the caller is another IP telephone terminal with SIP server function 1-2 (S104). Then, the source IP address (IP address of the IP telephone terminal with SIP server function 1-2) is acquired from this INVITE message (S105). Then, the IP telephone terminal 1-3 with the SIP server function generates a 302 Redirect message (address notification) in which the IP address of the own terminal 1-3 is described as a response to the INVITE message, and this 302 Redirect message is It is transmitted to the IP phone terminal with SIP server function 1-1 functioning as a SIP server (S106).

  In response to this, the IP telephone terminal with SIP server function 1-1 uses the SIP server function to convert the 302 Redirect message received from the IP telephone terminal with SIP server function 1-3 into the SIP server function that is the source of the INVITE message. Relay to the attached IP phone terminal 1-2 (S107).

  When receiving the 302 Redirect message from the IP telephone terminal with SIP server function 1-1 functioning as a SIP server, the IP telephone terminal with SIP server function 1-2 receives the IP address (SIP server function) specified in the 302 Redirect message. IP address of attached IP telephone terminal 1-3) is acquired as the destination IP address (S108).

  Then, the IP telephone terminal 1-2 with the SIP server function generates again an INVITE message in which the telephone number designated by the outgoing call operation is the destination telephone number, and the telephone number of the own terminal 1-2 is the source telephone number. . Then, using the destination IP address acquired from the 302 Redirect message, the IP phone terminal with SIP server function 1-3 is directly connected to the IP phone terminal with SIP server function without passing through the IP phone terminal with SIP server function functioning as the SIP server. An INVITE message is transmitted (S109).

  When the IP phone terminal with SIP server function 1-3 receives an INVITE message from other than the IP phone terminal with SIP server function 1-1 functioning as an SIP server, the caller telephone number (SIP server) specified in the INVITE message is received. The telephone number of the IP telephone terminal with function 1-2) is referred to, and it is confirmed that the caller (IP telephone terminal with SIP server function 1-2) is another IP telephone terminal with SIP server function 1 (S110). . Then, a 180 Ringing message (provisional response) is sent to the IP telephone terminal with SIP server function 1-1, which functions as a SIP server, to the IP telephone terminal with SIP server function 1-2 that is the source of this INVITE message. It transmits directly without making it (S111) and starts ringing (S112).

  When receiving the 180 Ringing message from the IP phone terminal with SIP server function 1-3, which is the destination of the INVITE message, the IP phone terminal with SIP server function 1-2 starts outputting an RBT (Ringing Back Tone) (S113). .

  On the other hand, when receiving the response operation from the operator (S114), the IP telephone terminal with SIP server function 1-3 stops ringing (S115), and the IP telephone terminal with SIP server function 1 that is the source of the INVITE message -2 is directly transmitted without passing through the IP telephone terminal with SIP server function 1-1 functioning as a SIP server (S116).

  When the SIP server function-equipped IP telephone terminal 1-2 receives the 200 OK message from the SIP server function-equipped IP telephone terminal 1-3, which is the destination of the INVITE message, it stops outputting the RBT (S117).

  As a result, a session is established between the IP telephone terminal with SIP server function 1-2 and the IP telephone terminal with SIP server function 1-3, and a call between the terminals 1-2 and 1-3 becomes possible. (S118).

  Next, details of the IP telephone terminal 1 with the SIP server function will be described.

  FIG. 3 is a schematic functional configuration diagram of the IP telephone terminal 1 with the SIP server function.

  As shown in the figure, the IP phone terminal with SIP server function 1 includes a man-machine interface unit 10, a LAN interface unit 11, a communication control unit 12, a SIP server function unit 13, a server function control unit 14, and a call process. Unit 15 and call control unit 16.

  The man-machine interface unit 10 is an interface for an operator to make a phone call, and includes an operation panel having dial keys and the like, a display panel such as an LCD, a handset, a speaker, and the like.

  The LAN interface unit 11 is an interface for connecting to the LAN 3.

  The communication control unit 12 controls communication with the other IP telephone terminal with SIP server function 1, the IP telephone terminal 5, the SIP server 6, and the like via the LAN interface unit 11.

  The SIP server function unit 13 executes processing necessary as a SIP server.

  The server function control unit 14 is configured so that only one SIP server function unit 13 of the IP phone terminal with SIP server function 1 among the IP phone terminals with SIP server function 1 is connected to the LAN 3 in accordance with a predetermined rule. The activation / deactivation of the SIP server function unit 13 is controlled so as to be effective.

  For example, when the SIP server function unit 13 is in operation, the server function control unit 14 transmits a response packet to the transmission source of this packet each time a server search packet is received from another IP telephone terminal with SIP server function 1 . On the other hand, when the SIP server function unit 13 is stopped, the server search packet is periodically multicasted to the LAN 3. Then, the IP telephone terminal with SIP server function 1 that is the source of the response packet for the server search packet is set in the call control unit 16 as an SIP server. Here, when a response packet to the server search packet is not received within a predetermined time, the server activation packet is received from another IP telephone terminal with SIP server function 1 until a time randomly determined using a random number or the like has elapsed. Wait to receive. When the server activation packet is received, the IP telephone terminal with SIP server function 1 that is the transmission source of the server activation packet is set in the call control unit 16 as an SIP server. On the other hand, if the server activation packet is not received, the SIP server function unit 13 of the own terminal 1 is activated, the own terminal 1 is set as the SIP server in the call control unit 16, and the server activation packet is multicast transmitted to the LAN 3 To do.

  In addition, as a technology for enabling only the SIP server function unit 13 of any one IP telephone terminal with SIP server function 1 among a plurality of IP telephone terminals with SIP server function 1, JP-A-2008-205699 Can be used.

  The call processing unit 15 transmits / receives call data to / from a partner terminal through a session established by the call control unit 16 in accordance with RTP (Realtime Transport Protocol). Then, the call data received from the partner terminal is decoded into a voice signal and output from the man-machine interface unit 10, and the voice signal input to the man-machine interface unit 10 is encoded into the call data and transmitted to the partner terminal.

  The call control unit 16 controls session establishment with the counterpart terminal. As illustrated, the call control unit 16 includes a server information storage unit 161, an address notification transmission unit 162, an address notification reception unit 163, and a call control procedure execution unit 164.

  In the server information storage unit 161, information of the IP telephone terminal 1 with the SIP server function that functions as the SIP server is stored by the server function control unit 14.

  The address notification transmission unit 162 describes the IP address of its own terminal 1 as a response to the INVITE message received via the IP telephone terminal 1 with the SIP server function functioning as the SIP server in accordance with the instruction of the call control procedure execution unit 164. A 302 Redirect message is transmitted to the IP telephone terminal 1 with the SIP server function that functions as the SIP server.

  As a response to the INVITE message transmitted to the other terminal via the SIP server function-equipped IP telephone terminal 1 functioning as the SIP server, the address notification receiving unit 163 receives the 302 Redirect message from the SIP server function-provided IP telephone terminal 1 serving as the SIP server. Receive. Then, this 302 Redirect message is notified to the call control procedure execution unit 164.

  The call control procedure execution unit 164 executes a call control sequence according to SIP and establishes a session with the counterpart terminal.

  Here, the call control procedure execution unit 164 is designated by an outgoing operation received from the operator via the man-machine interface unit 10, or received from the IP telephone terminal with SIP server function 1 functioning as a SIP server. If the telephone number of the partner terminal specified by the message or its number system is registered in advance as the telephone number of the other IP telephone terminal with SIP server function 1 or its number system, it functions as a SIP server. Using the IP address of the partner terminal specified by the 302 Redirect message or the INVITE message received from the IP telephone terminal 1 with the SIP server function, directly without passing through the IP telephone terminal 1 with the SIP server function functioning as the SIP server, Remote terminal and SIP By sending and receiving messages, performs call control sequence. On the other hand, when the telephone number of the partner terminal or its number system is not registered in advance as the telephone number or other number system of the other IP telephone terminal with SIP server function 1, the IP telephone with SIP server function that functions as a SIP server A call control sequence is executed by transmitting / receiving an SIP message to / from the counterpart terminal via the terminal 1.

  FIG. 4A is a flowchart for explaining the call origination operation of the IP telephone terminal 1 with the SIP server function. This flow is started when the call control unit 16 receives a call operation from the operator via the man-machine interface unit 10.

  First, the call control procedure execution unit 164 designates the IP address (source IP address) of the local terminal 1 using the telephone number of the partner terminal as the destination telephone number and the telephone number of the local terminal 1 as the source telephone number. Generate an INVITE message with Then, this INVITE message is transmitted to the IP telephone terminal with SIP server function 1 (IP telephone terminal with SIP server function 1 functioning as an SIP server) registered in the server information storage unit 161 (S201). Then, it waits to receive a message from the partner terminal from the IP telephone terminal 1 with SIP server function (S202).

  Next, when the call control procedure execution unit 164 receives the message of the partner terminal from the IP telephone terminal with SIP server function 1 registered in the server information storage unit 161 (YES in S202), the call control procedure execution unit 164 It is checked whether the message is a 180 Ringing message or a 302 Redirect message (S203).

  When the message of the partner terminal is a 180 Ringing message (“180 Ringing” in S203), the call control procedure execution unit 164 communicates with the partner terminal via the IP telephone terminal with SIP server function 1 registered in the server information storage unit 161. The outgoing call sequence according to SIP is continued to establish a session with the partner terminal (S204).

  On the other hand, when the message of the partner terminal is a 302 Redirect message (“302 Redirect” in S203), the call control procedure execution unit 164 determines the partner terminal (an IP telephone terminal 1 with other SIP server function) from the 302 Redirect message. The IP address is acquired as the destination IP address (S205). Then, the call control procedure execution unit 164 directly transmits / receives the SIP message to / from the partner terminal 1 without using the IP telephone terminal 1 with the SIP server function functioning as the SIP server by using the destination IP address. Executes the SIP outgoing sequence (INVITE message transmission, 180 Ringing message reception and RBT output start, and 200 OK message reception and RBT output stop) to establish a session with the partner terminal 1 (S206).

  FIG. 4B is a flowchart for explaining the incoming operation of the IP telephone terminal 1 with the SIP server function. This flow is started when the call control unit 16 receives an INVITE message from the IP telephone terminal with SIP server function 1 functioning as an SIP server via the LAN interface unit 11 and the communication control unit 12.

  First, the call control procedure execution unit 164 matches the source number specified in the INVITE message or the number system thereof that is registered in advance as the telephone number or number system of the other IP telephone terminal with SIP server function 1 It is determined whether or not to perform (S301).

  When the caller telephone number specified in the INVITE message or its number system does not match the telephone number or number system of the other IP telephone terminal with SIP server function 1 (NO in S301), the call control procedure execution unit 164 Send / receive SIP messages to / from a partner terminal identified by the caller telephone number via the IP telephone terminal 1 with SIP server function registered in the server information storage unit 161 (IP telephone terminal with SIP server function 1 functioning as a SIP server) In this manner, the incoming call sequence according to SIP (transmission of 180 Ringing message and start of incoming ringing, stop of incoming ringing by accepting response operation and transmission of 200 OK message) is executed, and a session is established with the other terminal. Is established (S302).

  On the other hand, when the source number specified in the INVITE message or the number system thereof matches the telephone number or number system of the other IP telephone terminal with SIP server function 1 (YES in S301), the call control procedure execution unit 164 The source IP address is acquired from the INVITE message (S303), and the address notification transmission unit 162 is instructed to notify the address. In response, the address notification transmission unit 162 generates a 302 Redirect message in which the IP address of the terminal 1 is described as a response to the INVITE message. Then, this 302 Redirect message is transmitted to the IP telephone terminal with SIP server function 1 functioning as a SIP server (S304).

  Then, the call control procedure execution unit 164 does not go through the SIP server function-equipped IP telephone terminal 1 functioning as a SIP server, but identifies the other terminal (an IP telephone with other SIP server function) specified by the acquired source IP address. The terminal 1) waits for an INVITE message to arrive directly (S305).

  Next, when the call control procedure execution unit 164 directly receives the INVITE message from the counterpart terminal 1 specified by the acquired source IP address (YES in S305), the call control procedure execution unit 164 uses the source IP address as the SIP server. By directly sending / receiving SIP messages to / from the partner terminal 1 without going through the functioning IP telephone terminal 1 with SIP server function, an incoming call sequence according to SIP (transmission of 180 Ringing message, start of incoming ringing, acceptance of response operation) Stop the ringing by 200 and send the 200 OK message) to establish a session with the partner terminal 1 (S306).

  The embodiment of the present invention has been described above.

  In this embodiment, when establishing a session between IP telephone terminals 1 with SIP server function, the IP telephone terminal with SIP server function 1 functions as an SIP server. By transmitting / receiving an INVITE message and a 302 Redirect message via 1, the mutual IP addresses are acquired. Then, the IP telephone terminal 1 with SIP server function of the transmission destination and the transmission source directly transmits and receives the SIP message without using the IP telephone terminal 1 with SIP server function functioning as the SIP server, using the mutual IP addresses. Thus, the SIP sequence is executed to establish a session between the two.

  Therefore, according to the present embodiment, the SIP server involvement (the number of SIP message relays) can be reduced as compared to the normal case (when the SIP server relays all SIP messages). The processing capability of the unit 13 can be kept low. Thereby, as in the IP telephone system according to the present embodiment, the cost when an IP telephone system is constructed with a plurality of IP telephone terminals with SIP server function 1 can be reduced.

  Further, since the involvement of the SIP server can be reduced, when the IP telephone terminal 1 with the SIP server function that functions as the SIP server goes down, a session may not be established between the IP telephone terminals 1 with the SIP server function. Can be lowered.

  In the present embodiment, each time the IP address of the SIP server function-added IP telephone terminal 1 is changed, each of the IP telephone terminals 1 with the SIP server function having acquired an IP address that has been talked so far. It is not necessary to notify the latest IP address of itself. Therefore, according to this embodiment, it is possible to prevent communication traffic on the LAN 3 from increasing.

  In the present embodiment, the IP telephone terminal with SIP server function 1 is registered in advance with the telephone number of the connection request received from the IP telephone terminal with SIP server function 1 functioning as the SIP server or its number system. When the telephone number or numbering system of the other IP server terminal with SIP server function 1 is set, the SIP sequence that does not pass through the IP telephone terminal with SIP server function 1 functioning as a SIP server is executed, If the telephone number or the number system of the IP telephone terminal with SIP server function 1 is not the same, the normal SIP sequence via the IP telephone terminal with SIP server function 1 functioning as a SIP server is executed.

  Therefore, according to the present embodiment, an IP telephone system can be constructed by mixing IP telephone terminals based on a normal SIP sequence in which all SIP messages are relayed to the SIP server. In addition, a session can be established with an external terminal (IP telephone terminal 5 in FIG. 1) that does not support the present invention.

  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 SIP server function-equipped IP telephone terminal 1 (IP telephone with SIP server function in FIG. 2) that has transmitted the INVITE message to the partner terminal via the SIP server function-equipped IP telephone terminal 1 functioning as a SIP server. The terminal 1-2) acquires the IP address of the partner terminal from the 302 Redirect message received from the partner terminal via the IP telephone terminal with SIP server function 1 functioning as the SIP server, and directly uses this IP address to the partner terminal. The INVITE message is transmitted, and the SIP sequence that does not pass through the IP telephone terminal 1 with the SIP server function that functions as the SIP server is executed. However, the present invention is not limited to this.

  The IP telephone terminal 1 with SIP server function (IP telephone terminal with SIP server function 1-3 in FIG. 2) that has received the INVITE message from the partner terminal via the IP telephone terminal 1 with SIP server function that functions as a SIP server is As the address notification of 1, a 302 Redirect message in which the IP address of the terminal 1 is described is transmitted to the partner terminal via the SIP phone function-equipped IP telephone terminal 1 functioning as a SIP server, and the partner terminal IP is also transmitted from the INVITE message. An IP phone terminal 1 with SIP server function that functions as a SIP server by acquiring an address and directly sending an INVITE message to the other terminal (IP telephone terminal with SIP server function 1-2 in FIG. 2) using this IP address A SIP sequence that does not pass through the URL may be executed.

  In the above embodiment, the IP telephone terminal 1 with the SIP server function performs address notification of the own terminal 1 using the 302 Redirect message. However, the present invention is not limited to this. As a response to the INVITE message, the address notification of the own terminal 1 may be performed using another SIP message.

  In the above embodiment, the IP telephone system is constructed without providing a dedicated SIP server by using a plurality of IP telephone terminals 1 with SIP server functions, but the present invention is not limited to this. By providing a dedicated SIP server on the LAN 3, the SIP server functions (SIP server function unit 13 and server function control unit 14) are omitted from each IP phone terminal with SIP server function 1 constituting the IP telephone system. Also good.

  In the above embodiment, the functional configuration of the IP telephone terminal 1 with the SIP server function shown in FIG. 3 is realized by an integrated logic IC such as ASIC (Application Specific Integrated Circuit) and FPGA (Field Programmable Gate Array). Alternatively, it may be realized by a computer such as a DSP (Digital Signal Processor). Alternatively, in a general-purpose computer such as a CPU (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.

  In the above embodiment, the case where SIP is used as the call control sequence has been described as an example. The present invention is also applicable when other call control sequences such as H.323 are used.

  1: IP telephone terminal with SIP server function, 2: GW, 3: LAN, 4: WAN, 5: IP telephone terminal, 6: SIP server, 10: man-machine interface unit, 11: LAN interface unit, 12: communication control Unit: 13: SIP server function unit, 14: server function control unit, 15: call processing unit, 16: call control unit, 161: server information storage unit, 162: address notification transmission unit, 163: address notification reception unit, 164 : Call control procedure execution unit

Claims (3)

An IP telephone terminal that transmits and receives call data to and from the partner terminal via a session established with the partner terminal;
In response to a connection request for the own terminal received from the counterpart terminal via the call control server, an address notification transmission means for sending an address notice of the own terminal to the counterpart terminal via the call control server;
Address notification receiving means for receiving an address notification of the partner terminal from the partner terminal via the call control server as a response to the connection request to the partner terminal transmitted to the partner terminal via the call control server;
Call control by transmitting / receiving a call control message to / from the partner terminal without using the call control server, using the IP address of the partner terminal specified by the connection request to the terminal or the address notification of the partner terminal Call control procedure execution means for executing a sequence and establishing the session. The IP telephone terminal according to claim 1,
The address notification transmission means includes:
When the telephone number of the partner terminal specified in the connection request to the terminal or the number system thereof is a predetermined telephone number or number system, the address notification of the terminal is transmitted.
The call control procedure executing means includes
When the telephone number of the partner terminal or the number system thereof is the predetermined telephone number or number system, the IP address of the partner terminal specified by the connection request to the terminal or the address notification of the partner terminal is used. The call control sequence is executed by transmitting / receiving the call control message to / from the counterpart terminal without going through the call control server, and the telephone number of the counterpart terminal or its number system is the predetermined telephone number or number system If not, an IP telephone terminal characterized in that the session is established by executing a call control sequence by transmitting / receiving a call control message to / from the counterpart terminal via the call control server. A method for establishing a session between IP telephone terminals,
The source IP telephone terminal sends a connection request to the destination IP telephone terminal via the call control server,
The destination IP telephone terminal obtains the IP address of the source IP telephone terminal from the connection request received from the call control server, and automatically transmits to the source IP telephone terminal via the call control server. Send a device address notification,
The source IP telephone terminal obtains the IP address of the destination IP telephone terminal from the address notification received from the call control server,
The source IP telephone terminal and the destination IP telephone terminal execute a call control sequence by transmitting and receiving a call control message without using the call control server, using the acquired mutual IP addresses. A session establishment method characterized by establishing a session between both parties.

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