JP2013138311A - Telephone system, server device, and transfer control method used for server device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To certainly achieve a request transfer service.SOLUTION: The telephone system includes a call control server and a media relay server. The call control server includes storage means, determination means, and control means. The storage means stores a management table in which an end point ID for identifying an SIP end point is associated with information indicating permission/non-permission of UPDATE. The determination means, when transfer start operation is performed at a first end point, determines whether or not the media relay server is required on the basis of the management table. The control means, on the basis of a determination result, executes either one of first processing in which SDP information of the first end point is set to an INVITE message to be transmitted to the SIP end point of a transfer destination and second processing in which SDP information of a media relay resource of the media relay server is set to the INVITE message to be transmitted to the SIP end point of the transfer destination.

Description

  Embodiments described herein relate generally to a telephone system such as an IP (Internet Protocol) telephone system, a server apparatus, and a transfer control method used in the server apparatus.

  In recent years, IP telephone systems have begun to spread. In this IP telephone system, for example, an IP telephone terminal is connected to an IP network including a LAN (Local Area Network) and the Internet, and at the same time, protocol conversion and data format conversion are performed in a call control server on the IP network. Voice communication is enabled between telephone terminals and between an IP telephone terminal and a general telephone network. In this IP telephone system, SIP (Session Initiation Protocol) is widely used as the protocol.

  In outgoing processing using the SIP protocol, an early media session is established by a 180 Ringing message including SDP (Session Description Protocol) information or an 183 Session Progress message, and is supplied from the called party before responding to the Invite message. A ringing tone or announcement can be provided to the calling party. Further, the UPDATE message defined in RFC 3311 can be used to update the session parameters (for example, SDP information) before responding to the Invite message.

  Even in this type of system, a communication transfer service (hereinafter referred to as a request transfer service) that requests transfer to a department connected to an attendant, for example, which is implemented by a PBX (Private Branch Exchange) or a button telephone device. Called). In this request transfer service, when a transfer host terminal performs a transfer start operation during a call with a transferred terminal, the transferred terminal is put on hold and calls a transfer destination. If the transfer host terminal performs a call forwarding operation while the transfer host terminal is listening to the ringing sound, the call is transferred from the transfer host terminal to the transferred terminal, and the transferred terminal listens to the ringing sound.

JP 2011-49682 A JP 2008-311764 A JP 2010-124431 A

  By the way, there are SIP endpoints that establish early media sessions but do not support UPDATE messages. In the case of such a SIP endpoint, the media connection destination of the early media session cannot be changed using the UPDATE message.

  Conventionally, there is an IP telephone system that always uses a media relay server when connecting media between a SIP endpoint and an IP terminal. In such an IP telephone system, when communicating between the SIP end point and the IP terminal, a resource for media relay is used even during the transfer.

  An object of the present invention is to provide an update necessary for a transfer destination to change a connection destination of a media when executing a request transfer service when an early media session is established and a ring tone supplied from a SIP endpoint is being listened to. An object of the present invention is to provide a telephone system, a server apparatus, and a transfer control method used in the server apparatus that can surely realize a request transfer service even when the message is not supported.

  In addition, an object of the present invention is used in a telephone system, a server device, and a server device that can save resources for media relay by performing peer-to-peer connection without using media relay resources when media relay is not required. It is to provide a transfer control method.

  According to the embodiment, the telephone system includes a call control server and a media relay server. The call control server performs call connection between a plurality of endpoints including at least SIP endpoints connected to a communication network. The media relay server is connected to the communication network and relays a media signal including at least one of video, audio, and data communicated between the endpoints. The call control server includes a storage unit, a determination unit, and a control unit. The storage means includes a SIP endpoint ID that identifies a SIP endpoint or a group ID that identifies a group composed of a plurality of SIP endpoints, and when the SIP endpoint transmits to the SIP endpoint, SDP ( UPDATE availability information in which information indicating UPDATE non-permission is set when the SIP endpoint establishes an early media session by a provisional response message including Session Description Protocol) information and is a SIP endpoint that does not support the UPDATE message; Is stored in the management table. The determination unit analyzes the transfer destination information when the transfer start operation of the request transfer service in which the second endpoint is the transferee is performed at the first endpoint among the plurality of endpoints. Is a SIP endpoint, it is determined whether or not a media relay server is necessary based on the management table. The control means, based on the determination result by the determination means, first processing for setting the SDP information of the first endpoint in the INVITE message to be transmitted to the transfer destination SIP endpoint, and INVITE to be transmitted to the transfer destination SIP endpoint One of the second processes for setting the SDP information of the media relay resource of the media relay server in the message is executed.

1 is a schematic configuration diagram showing an IP telephone system according to a first embodiment. The block diagram which shows the structure of the call control server shown in FIG. The figure which shows an example of the memory content of the UPDATE availability determination part shown in FIG. The figure which shows an example of the memory content of the resource use status storage part for relay shown in FIG. The figure which shows an example of the memory content of the media relay information storage part shown in FIG. The sequence diagram which shows the operation | movement which establishes a communication session by peer-to-peer connection between IP terminals in 1st Embodiment. The signal sequence figure at the time of switching the communication other party of the IP terminal in the middle of a call in 1st Embodiment to the terminal on a public network. The figure which shows an example of the format of a SIP message. The flowchart which shows the control processing procedure of the call control server at the time of receiving a transfer starting request in 1st Embodiment. The flowchart which shows the control processing procedure of a call control server when a 180 Ringing message is received from the transfer destination in 1st Embodiment. The flowchart which shows the control processing procedure of the call control server at the time of receiving the transfer request during a call from the transfer sponsor terminal in the first embodiment. The flowchart which shows the control processing procedure of the call control server at the time of receiving 200OK from the transfer destination in 1st Embodiment. The signal sequence figure at the time of switching the communicating party of an IP terminal during a telephone call in 2nd Embodiment. The signal sequence figure at the time of switching the communication other party of an IP terminal during a telephone call in 3rd Embodiment.

  Hereinafter, embodiments will be described with reference to the drawings.

  In business telephone systems such as IP telephones, an early media session is established by a 180 Ringing message or 183 Session Progress message including SDP (Session Description Protocol) information sent to a SIP endpoint and supplied from the forwarding SIP endpoint. When the request transfer service is executed while listening to the ringing tone, the UPDATE message defined in RFC 3311 is transmitted to the transfer destination SIP endpoint, and the media connection destination is changed from the transfer source terminal to the transfer destination terminal. Was. As a result, the transferred terminal can listen to the ringing tone supplied from the transfer destination SIP end point after the request transfer. By the way, there are SIP endpoints that establish SIP early media sessions but do not support UPDATE messages. When the transfer destination is such a SIP endpoint, the media connection destination of the transfer destination SIP endpoint cannot be changed using the UPDATE message when executing the request transfer service.

(First embodiment)
FIG. 1 is a schematic configuration diagram showing an IP telephone system according to the first embodiment.

  This system has an IP (Internet Protocol) network 4. The IP network 4 is connected to a call control server 1, a media relay server 2, and a plurality of IP terminals 3-1 to 3-i (i is a natural number). Note that the IP terminals 3-1 to 3-i have a call processing function and a media information processing function.

  Further, SIP servers 5-1 to 5-j (j is a natural number) and SIP terminals 6-1 to 6-k (k is a natural number) are connected to the IP network 4. The SIP servers 5-1 to 5-j are SIP servers of Internet service providers that provide SIP trunk services. Note that the SIP terminals 6-1 to 6-k have a call processing function and a media information processing function.

  The call control server 1 includes, for example, SIP, Megaco, H.P. An exchange control function for establishing a session according to a predetermined protocol such as H.323 is provided. Then, voice communication is performed by transmitting and receiving RTP packets between the originating and terminating IP terminals using the established session. The media relay server 2 performs media signal relay processing including at least one of video, audio, and data in accordance with an instruction from the call control server 1.

  In the call control server 1, a SIP server 5-1 is set as a connection destination SIP server of the SIP trunk number 51. The IP terminals 3-1 to 3-i accommodated in the call control server 1 make a call to the terminal 8-1 accommodated in the public line network 7 using the SIP trunk service of the SIP server 5-1. Can do. Further, the SIP servers 5-1 to 5-j and the SIP terminals 6-1 to 6-k constitute a SIP endpoint 9 that is a transfer destination for the IP terminals 3-1 to 3-i.

  FIG. 2 is a block diagram showing a configuration of the call control server 1.

  The call control server 1 includes a control unit 21, a north bridge 22, a main memory 23, a south bridge 26, an HDD (Hard Disk Drive) 27, a multi drive 28, a LAN controller 29, an interface unit 30, a PC card controller 31, and a BIOS-ROM. (Basic Input / Output System ROM) 33, EC / KBC (Embedded Controller / Keyboard Controller) 34, power supply controller (PSC) 35, power supply unit 36, interface (I / F) 38, I / O controller 40, and the like.

The control unit 21 controls the entire call control server 1 mainly using (CPU: Central Processing Unit), and uses the main memory 23 as a work area and is loaded from the HDD 27 to the main memory 23. (OS) 23a, driver 23b, exchange program 23c, etc. are executed.
The north bridge 22 includes various controllers that perform bridge processing between the control unit 21 and the south bridge 26, control of the main memory 23, control of the video controller 24, and the like.
The south bridge 26 is connected to the north bridge 22 via a hub link, and various devices (EC / KBC 34, I / O controller, etc.) on an LPC (Low Pin Count) bus and a PCI (Peripheral Component Interconnect) bus. Various controllers for controlling the above various PCI devices (LAN controller 29, interface unit 30, PC card controller 31 and the like), IDE (Integrated Drive Electronics) compatible disk drives, USB devices and the like are provided.

  The HDD 27 is connected to the south bridge 26 as a device corresponding to the primary IDE, and is a built-in hard disk that stores various programs such as an OS and an exchange program, various data 23d, and the like. The multi-drive 28 is connected to the south bridge 26 as a device corresponding to the secondary IDE, and drives a CD-ROM, DVD-ROM, and CD-R / RW which are removable recording media.

The LAN controller 29 is connected to the south bridge 26 as a PCI device, has a communication function conforming to the specification of the wired LAN, and communicates with a communication apparatus having the same communication function.
The interface unit 30 is connected to the south bridge 26 as a PCI device, has a communication function conforming to the specifications of the LAN 1, and performs processing related to exchange of RTP packets.
The PC card controller 31 is connected to the south bridge 26 as a PCI device, and controls various PC cards in accordance with the specification of PCMCIA (Personal Computer Memory Card International Association). The BIOS-ROM 33 is connected to the LPC bus and stores a BIOS (Basic Input / Output System) that mainly performs setting processing for hardware in the call control server SV1 when the power is turned on. The EC / KBC 34 is connected to the LPC bus, and controls input devices such as the power controller 35 and the keyboard 37. The EC / KBC 34 is obtained by integrating an embedded controller (EC) that is an embedded controller and a keyboard controller.

  The power supply controller 35 is connected to the EC / KBC 34 via the I 2 C bus and controls the voltage supplied to each part in the call control server 1. The power supply unit 36 generates drive power and supplies it to each unit in the call control server 1. The interface 38 performs an interface for enabling connection of an input device such as a keyboard and a mouse. The I / O controller 40 is connected to the LPC bus, and performs input / output control of serial signals and parallel signals with the outside, and also performs input / output control with the mouse 39.

  In this call control server 1, under the control of the control unit 21, the exchange program 23c developed on the main memory 23 implements a predetermined exchange processing function in cooperation with the LAN controller 29 and the like. The call control server 1 loads a switching program 23c on a general-purpose computer server and executes the program to realize a switching function between telephone terminals. Similar to a general-purpose computer, the call control server 1 is a virtual storage system that makes it appear as if it is continuous when viewed from the software (process etc.) even if the data storage area is a physically discontinuous memory area. Is adopted.

  Incidentally, the HDD 27 is provided with an UPDATE availability storage unit 271, a relay resource use state storage unit 272, and a media relay information storage unit 273.

  FIG. 3 is a diagram illustrating an example of the contents stored in the UPDATE availability storage unit 271. As shown in FIG. 3, the UPDATE availability storage unit 271 includes a transfer destination SIP trunk number assigned to the SIP servers 5-1 to 5-j and the SIP terminals 6-1 to 6-k, and the transfer destination SIP trunk number. Transfer destination SIP servers as SIP endpoint IDs that identify the SIP servers 5-1 to 5-j belonging to, information indicating whether UPDATE is possible, and SIP terminals 6-1 to 6-k belonging to the transfer destination SIP trunk number A table representing a correspondence relationship with SIP URI as the specified SIP endpoint ID is stored. Note that UPDATE is a message defined in RFC 3311 in order to update session parameters (for example, SDP information) before responding to the Invite message.

  FIG. 4 is a diagram illustrating an example of the contents stored in the relay resource use state storage unit 272. The relay resource usage status storage unit 272 stores a table for managing the usage status of the relay resource of the media relay server 2 as shown in FIG. 4. As shown in FIG. A table indicating a correspondence relationship between a relay resource number for specifying a resource for use and a use state indicating that the relay resource is available / used is stored.

  FIG. 5 is a diagram illustrating an example of the contents stored in the media relay information storage unit 273. The media relay information storage unit 273 stores a table for managing the status of request transfer. As shown in FIG. 5, SIP call identification information, status, relay resource number, and transfer destination A table representing the correspondence between SDP (Session Description Protocol) information, information indicating the presence or absence of SDP connection, the terminal ID of the transfer host terminal, and the terminal ID of the transferred terminal is stored.

  Meanwhile, the control unit 21 includes a received message analysis unit 211, a media relay management unit 212, and a message transmission control unit 213. The received message analysis unit 211 analyzes the transfer destination information when, for example, a transfer activation operation is performed in the IP terminal 3-1.

  The media relay management unit 212 requires the media relay server 2 based on the SIP message sent from the SIP endpoint 9 that is the transfer destination, and the table stored in the UPDATE availability storage unit 271 and the relay resource usage state storage unit 272. It is determined whether or not. Further, the media relay management unit 212 manages the usage state of the relay resource based on the tables stored in the relay resource use state storage unit 272 and the media relay information storage unit 273.

  The message transmission control unit 213 communicates with the communication partner of the IP terminal 3-2 serving as the forwarded terminal based on the determination result by the received message analysis unit 211 and the use state of the relay resource managed by the media relay management unit 212. Is switched from the IP terminal 3-1 to the transfer destination SIP endpoint 9 by peer-to-peer connection, and the media relay server 2 is relayed to change the communication partner of the IP terminal 3-2 from the IP terminal 3-1 to the transfer destination SIP. One of the processes for switching to the endpoint 9 is executed. Further, the message transmission control unit 213 sets the SDP information of the IP terminal 3-1 in the INVITE message transmitted to the transfer destination SIP endpoint, and the media relay server 2 in the INVITE message transmitted to the transfer destination SIP endpoint. Any one of the processes for setting the SDP information of the media relay resource is executed.

  In addition, when the message transmission control unit 213 receives a 200 OK message from the SIP endpoint 9 of the transfer destination during execution of the relay process by the media relay server 2, the message transmission control unit 213 switches to the peer-to-peer connection using the Re-Invite message, The relay process by the media relay server 2 ends.

  Further, the received message analysis unit 211 corresponds to the transfer destination in the table stored in the UPDATE availability storage unit 271 when UPDATE is not included in the method list of the allow header field of the SIP message received from the transfer destination. The information is updated from “allowed” to “not allowed”.

  Next, the operation of the system configured as described above will be described. Here, the operation to be described will be described assuming the following case. First, it is assumed that the user of the IP terminal 3-2 accommodated in the call control server 1 wants to talk to the user of the terminal 8-1 accommodated in the SIP server 5-1 of the SIP network. At this time, it is assumed that the user of the IP terminal 3-2 does not directly call the terminal 8-1 but the user of the IP terminal 3-1 makes a call to the terminal 8-1 on behalf of the user. ing. For this reason, the rough order of operation is as follows, as shown in FIGS.

  (1) The user of the IP terminal 3-2 makes a call to the IP terminal 3-1.

  (2) The user of the IP terminal 3-1 makes a call to the SIP server 5-1 via the call control server 1.

  (3) The ringing tone from the SIP server 5-1 is relayed to the IP terminal 3-1.

  (4) The relay of the ringing tone from the SIP server 5-1 is changed to the IP terminal 3-2.

  (5) When the terminal 8-1 responds, the call state is switched between the IP terminal 3-2 and the SIP server 5-1 (or the terminal 8-1) in the peer-to-peer connection.

  Further, it is assumed that the SIP server 5-1 establishes an early media session by a 180 Ringing message including SDP information and supplies a ringing tone, but does not support the UPDATE message. The 180 Ringing message is one of provisional response messages. The provisional response message is a message defined in RFC3261, and is a 1xx response message. As the response message of 1xx units, 100, 180, and 183 are frequently used messages, and other messages are not often used. Therefore, in this embodiment, in the case of “180 Ringing message or 183 Session Progress message”. explain. However, in the present embodiment, the “provisional response message” includes not only 100, 180, and 183 but also other 1xx response messages.

  It is assumed that the SIP server 5-1 is previously set in the UPDATE availability storage unit 271 as UPDATE non-permitted.

Hereinafter, the operation will be described in detail.
(1) User of IP terminal 3-2 makes a call to IP terminal 3-1. First, an operation for establishing a communication session between IP terminal 3-1 and IP terminal 3-2 will be described. FIG. 6 is a sequence diagram showing an operation of establishing a communication session between the IP terminal 3-1 and the IP terminal 3-2.

  Now, as shown in FIG. 6, it is assumed that the user of the IP terminal 3-2 performs a call operation to the IP terminal 3-1 (FIG. 6 (1)). Then, the outgoing message is sent from the IP terminal 3-2 to the call control server 1 (FIG. 6 (2)).

  When receiving the outgoing message, the call control server 1 compares the codec information in the outgoing message with the codec information on the called side. In the case of a match in 711, the codec information of the message received from the calling side and the information for peer-to-peer connection are put on the incoming message and notified to the receiving side IP terminal 3-1 (FIG. 6 (4)). .

  Then, when the incoming IP terminal 3-1 responds (FIG. 6 (5)) and the response message is returned to the call control server 1 (FIG. 6 (6)), the call control server 1 sends the IP terminal 3 -2 transmits a response message (FIG. 6 (7)). Thereafter, the call control server 1 establishes a communication session between the IP terminals 3-1 and 3-2, for example, G. It is formed by peer-to-peer connection using 711 (FIG. 6 (8)).

  FIG. 7 shows a case where the communication partner of the IP terminal 3-2 is switched from the IP terminal 3-1 to the terminal 8-1 on the public line network 7 during a call between the IP terminal 3-1 and the IP terminal 3-2. It is an example of a signal sequence.

  (2) The user of the IP terminal 3-1 makes a call to the SIP server 5-1 via the call control server 1.

  Now, for example, as shown in FIG. 7, it is assumed that extension voice communication is performed between the IP terminals 3-1 and 3-2. In this state, it is assumed that the user performs a transfer start operation in the IP terminal 3-1, which dials the calling special number from the own terminal to the SIP trunk number 51 and the number of the terminal 8-1 (FIG. 7 (1)). Then, the IP terminal 3-1 transmits a transfer activation request to the call control server 1 ((2) in FIG. 7).

  When the call control server 1 receives the transfer activation request, the call control server 1 searches the UPDATE availability storage unit 271 for information indicating the availability of UPDATE based on the SIP trunk number 51 included in the transfer activation request. Here, since it is “non-permitted”, the call control server 1 captures the vacant media relay resources 2-1 and 2-2 from the relay resource use state storage unit 272 (FIG. 7 (3)). Then, an INVITE message including the SDP information of the media relay resource 2-1 to be used is sent to the transfer destination SIP server 5-1 to make a call (FIG. 7 (4)).

  FIG. 8 shows an example of the format of the INVITE message. The INVITE message is composed of a Request-Line, a message header, and a message body. In the Request-Line, the To header field in the message header includes information indicating the terminal 8-1 as destination information. SDP information is inserted into the message body. Further, since the call control server 1 supports the UPDATE message, the UPDATE message is inserted into the method list of the allow header field in the message header.

  The SIP server 5-1 analyzes the SDP information after receiving the INVITE message. At the same time, the SIP server 5-1 calls the terminal 8-1 on the public line network 7. Then, a 100 Trying message and a 180 Ringing message indicating that the incoming call notification is performed are returned to the call control server 1 (FIG. 7 (5)). This incoming call notification is performed by generating a sound or displaying an incoming call. The 180 Ringing message includes SDP information of the SIP server 5-1. Since the SIP server 5-1 does not support the UPDATE message, UPDATE is not included in the method list of the allow header field of the 180 Ringing message.

  (3) The ringing tone from the SIP server 5-1 is relayed to the IP terminal 3-1.

  When receiving 100 Trying and 180 Ringing from the SIP server 5-1, the call control server 1 transmits a transfer activation acceptance indicating that the transfer activation request has been correctly received to the IP terminal 3-1 (FIG. 7 (6)). Thereafter, the call control server 1 allocates the media relay resource 2-1 to the SIP server 5-1, and the media relay including the SDP information indicating that the media relay resource 2-2 is allocated to the IP terminal 3-1. A start instruction is transmitted to the media relay server 2 (FIG. 7 (7)).

  When the media relay server 2 receives the media relay start instruction, the media relay server 2 relays the media between the IP terminal 3-1 and the SIP server 5-1 using the media relay resources 2-1 and 2-2 (FIG. 7). (8)). Thus, the RTP packet is transmitted and received between the IP terminal 3-1 and the SIP server 5-1 via the media relay server 2, and the user of the IP terminal 3-1 receives the ringing tone from the SIP server 5-1. Listening is possible (FIG. 7 (9)).

  Further, the call control server 1 transmits a hold instruction to the IP terminal 3-2 serving as a transfer destination terminal (FIG. 7 (10)), and listens to the hold sound.

  (4) The relay of the ringing tone from the SIP server 5-1 is changed to the IP terminal 3-2.

  Assume that the user of the IP terminal 3-1 performs a call forwarding operation while listening to the ringing tone (FIG. 7 (11)). Then, the IP terminal 3-1 transmits a call forwarding request to the call control server 1 (FIG. 7 (12)).

  When receiving the transfer request during call, the call control server 1 transmits a media connection instruction including the SDP information of the media relay resource 2-2 to the IP terminal 3-2 (FIG. 7 (13)). Then, the call control server 1 transmits a media relay change instruction including SDP information indicating that the media relay resource 2-2 is allocated to the IP terminal 3-2 to the media relay server 2 (FIG. 7 (14)).

  Upon receiving the media relay change instruction, the media relay server 2 relays the media between the IP terminal 3-2 and the SIP server 5-1 using the media relay resources 2-1 and 2-2 (FIG. 7). (15)). Thus, the RTP packet is transmitted and received between the IP terminal 3-2 and the SIP server 5-1 via the media relay server 2, and the user of the IP terminal 3-2 receives the ringing tone from the SIP server 5-1. Listening is possible (FIG. 7 (16)).

  The call control server 1 transmits a call forwarding acceptance indicating that the call forwarding request has been correctly received to the IP terminal 3-1 (FIG. 7 (17)), and a communication session with the IP terminal 3-1. Is cut (FIG. 7 (18)).

  (5) When the terminal 8-1 responds, the call state is switched between the IP terminal 3-2 and the SIP server 5-1 (or the terminal 8-1) in the peer-to-peer connection.

  When the user of the terminal 8-1 responds to the incoming call notification (FIG. 7 (19)), the SIP server 5-1 transmits a response message (200 OK) to the call control server 1 (FIG. 7 (20)). ).

  When receiving the response message (200 OK), the call control server 1 transmits ACK to the SIP server 5-1 (FIG. 7 (21)). Then, in order to execute the peer-to-peer connection of the media between the IP terminal 3-2 and the SIP server 5-1, first, a media connection instruction including the SDP information of the SIP server 5-1 is transmitted to the IP terminal 3-2 (see FIG. 7 (22)). Then, the call control server 1 transmits a Re-INVITE message including the SDP information of the IP terminal 3-2 to the SIP server 5-1 (FIG. 7 (23)), and issues a media relay end instruction to the media relay server 2. Then, the media relay resources 2-1 and 2-2 are released (FIG. 7 (24)).

  Upon receiving the media relay end instruction, the media relay server 2 ends the media relay process (FIG. 7 (26)).

  After receiving the Re-INVITE message, the SIP server 5-1 analyzes the SDP information, and returns a 100 Trying message and 200 OK to the Re-INVITE message to the call control server 1 (FIG. 7 (27)). Then, the call control server 1 transmits an ACK to the SIP server 5-1 ((28) in FIG. 7), whereby the media between the IP terminal 3-2 and the SIP server 5-1 are peer-to-peer connected ( FIG. 7 (29)).

  Thus, the communication destination of the IP terminal 3-2 is switched from the IP terminal 3-1 to the terminal 8-1 on the public network 7, and the user of the IP terminal 3-2 subsequently continues with the user of the terminal 8-1. It is possible to make a call.

  The control procedure of the call control server 1 in the above operation will be described with reference to FIG. 9, FIG. 10, FIG.

  FIG. 9 is a flowchart showing a control processing procedure of the call control server 1 when a transfer activation request is received.

  When the call control server 1 receives the transfer activation request from the IP terminal 3-1 serving as the transfer sponsor terminal (step ST8a), the call control server 1 analyzes the transfer destination information by the received message analysis unit 211 and determines that the transfer is to the SIP trunk number 51. (Step ST8b).

  The call control server 1 determines from the UPDATE availability storage unit 271 that the SIP trunk number 51 is UPDATE non-permitted, so that media relay is necessary. Therefore, the call control server 1 moves from step ST8c to step ST8d and determines whether the resource can be used by using the relay resource use state storage unit 212. When the resource can be used (Yes), the call control server 1 captures the relay resource (step ST8e). Then, the call control server 1 stores the SIP call identification information, the captured relay resource number, the information of the transfer host terminal and the transferred terminal in the media relay information storage unit 273, and sets the status to “transfer activation requesting”. Update (step ST8f). Then, the call control server 1 causes the message transmission control unit 213 to transmit an INVITE message in which the SDP information of the captured relay resource is set to the SIP server 5-1 to which the SIP trunk number 51 is connected (step ST8g). ).

  If it is determined in step ST8c that media relay is not necessary (unnecessary), the call control server 1 transmits an INVITE message in which the SDP information of the IP terminal 3-1 is set to the SIP server 5-1. The media between the terminal 3-1 and the SIP server 5-1 is peer-to-peer connected (step ST8h). If it is determined in step ST8d that there is no free media relay resource (No), the call control server 1 notifies the IP terminal 3-1 serving as a transfer host terminal of a message indicating that transfer is impossible. (Step ST8i).

  FIG. 10 is a flowchart showing a control processing procedure of the call control server 1 when a 180 Ringing message is received from the SIP server 5-1.

  When the call control server 1 receives the 180 Ringing message from the SIP server 5-1 as the transfer destination (step ST9a), the received message analysis unit 211 determines whether the received message includes SDP information (step ST9b). . Here, when SDP information is not included (none), the call control server 1 transmits a transfer activation acceptance without SDP information to the IP terminal 3-1 in order to listen to the tone generated by the terminal itself (step ST9c). ), A hold instruction message is transmitted to the IP terminal 3-2 (step ST9d), and the media relay management unit 212 "transfers" information indicating "status" corresponding to the Call-ID "1111" in the media relay storage unit 273. Update to “calling host terminal” (step ST9e).

  On the other hand, when SDP information is included (present), the call control server 1 determines whether or not UPDATE is included in the method list of the Allow header field of the received message (step ST9f). Here, when UPDATE is included (present), since the call control server 1 can use the UPDATE message, the UPDATE message including the SDP information of the IP terminal 3-1 is transmitted to the SIP server 5-1. (Step ST9g), the SDP information of the SIP server 5-1 is stored in the media relay storage unit 273 in association with the Call-ID “1111” (Step ST9h), and the Call-ID “1111” of the media relay storage unit 273 is stored. The information indicating the “state” corresponding to is updated to “during UPDATE” (step ST9i). Thereafter, when receiving a 200 OK message for UPDATE from the SIP server 5-1, the call control server 1 transmits a transfer activation acceptance message including the SDP information of the SIP server 5-1, to the IP terminal 3-1. Conventional processing that transmits a hold instruction message to the terminal 3-2, releases the media relay resources 2-1 and 2-2, updates the status of the media relay storage unit 273 to “empty”, and does not perform media relay thereafter. The same processing is performed.

  On the other hand, if UPDATE is not included in step ST9f (none), the call control server 1 transmits a transfer activation acceptance message including the SDP information of the media relay resource 2-2 to the IP terminal 3-1 (step ST9f). ST9j), a media relay start instruction message is transmitted to the media relay server 2 (step ST9k), a hold instruction message is transmitted to the IP terminal 3-2 (step ST91), and the SIP server 5-1 is sent to the media relay storage unit 273. The SDP information is stored (step ST9m), the presence / absence of SDP connection is updated (step ST9n), and the state of the media relay storage unit 273 is updated to “calling transfer terminal being called” (step ST9o). As a result, the IP terminal 3-1 is in a state of listening to a ringing tone from the SIP server 5-1, and the IP terminal 3-2 is in a state of listening to a hold sound generated by the terminal itself.

  FIG. 11 is a flowchart showing a control processing procedure of the call control server 1 when a call transfer request is received from the IP terminal 3-1 serving as a transfer sponsor terminal.

  When receiving the call forwarding request from the IP terminal 3-1 (step ST10a), the call control server 1 determines whether or not the media relay storage unit 273 has an SDP connection (step ST10b). Here, if none (No), the call control server 1 transmits a ringing tone listening instruction message to the IP terminal 3-2 in order to cause the terminal to be transferred to listen to the ringing tone generated by the terminal itself (step ST10c). A call transfer acceptance message is transmitted to IP terminal 3-1 (step ST 10 d), and information indicating “state” corresponding to Call-ID “1111” in media relay storage unit 273 is updated to “calling forwarded terminal”. (Step ST10e).

  On the other hand, when there is SDP connection presence / absence (Yes), the call control server 1 transmits a media connection instruction including the SDP information of the media relay resource 2-2 to the IP terminal 3-2 (step ST10f), and the media relay server 2 transmits a media relay change instruction (step ST10g), transmits a call forwarding acceptance message to the IP terminal 3-1 (step ST10h), and the “state” corresponding to the Call-ID “1111” of the media relay storage unit 273 "Is updated to" calling forwarded terminal "(step ST10i). As a result, the IP terminal 3-2 enters a state in which a ringing tone is being heard from the SIP server 5-1, and the IP terminal 3-1 enters an idle state.

  FIG. 12 is a flowchart showing a control processing procedure of the call control server 1 when 200 OK is received from the SIP server 5-1.

  When receiving 200 OK from the SIP server 5-1 (step ST11a), the call control server 1 transmits an ACK to the SIP server 5-1 (step ST11b), and determines the state of the media relay storage unit 273 (step ST11c). ). Here, when the state is “calling transfer host terminal”, since the call control server 1 has not yet received the call transfer request message from the IP terminal 3-1, the call control server 1 sends the IP terminal 3-1 to the SIP server 5-1. A Re-Invite message including SDP information of the server is transmitted (step ST11d), and a media connection instruction message including SDP information of the SIP server 5-1 is transmitted to the IP terminal 3-1 (step ST11d). Moves from step ST11f to step ST11g, transmits a media relay end instruction message to the media relay server 2 here, releases the media relay resources 2-1 and 2-2 (step ST11h), and the media relay storage unit 273 Is updated to an empty state (step ST11i). After receiving 200 OK for the Re-INVITE message from the SIP server 5-1, the IP terminal 3-1 enters a call state with the SIP server 5-1. The subsequent processing is the same as the conventional processing.

  On the other hand, if the state of the media relay storage unit 273 is “calling transferee” in step ST11c, the call control server 1 sends a Re-INVITE message including the SDP information of the IP terminal 3-2 to the SIP server 5-1. Is transmitted (step ST11j), and a media connection instruction message including the SDP information of the SIP server 5-1 is transmitted to the IP terminal 3-2 (step ST11k). When the media is being relayed, the media relay is terminated to the media relay server 2. An instruction message is transmitted, the media relay resources 2-1 and 2-2 are released, and the media relay storage unit 273 is updated to an empty state. After receiving 200 OK for Re-INVITE from the SIP server 5-1, the IP terminal 3-2 is in a call state with the SIP server 5-1.

  As described above, in the first embodiment, the call control server 1 stores in the UPDATE availability storage unit 271 a table in which the SIP trunk number of the transfer destination is associated with information indicating whether the UPDATE message is permitted or not. When the transfer activation operation is performed in the IP terminal 3-1 that is making a call connection with the IP terminal 3-2, the SIP of the transfer destination in the table stored in the UPDATE availability storage unit 271. It is determined whether the UPDATE availability information corresponding to the trunk number is information indicating UPDATE non-permission, and the UPDATE non-permission, that is, the transfer destination establishes an early media session by a 180 Ringing message or 183 Session Progress message including the SDP information. If you do not support Until the response is received from the SIP server 5-1 as the transfer destination, the media between the IP terminal 3-1 as the transfer start terminal and the SIP server 5-1 or the IP terminal 3- 2 and the SIP server 5-1 are connected via the media relay server 2.

  Therefore, without sending an UPDATE message to the transfer destination, the user of the IP terminal 3-1 serving as the transfer host terminal and the IP terminal 3-2 serving as the transferred terminal can listen to the ringing tone supplied from the transfer destination.

  Further, according to the first embodiment, when the media relay server 2 performs relay processing, UPDATE is included in the method list in the allow header field of the SIP message received from the SIP server 5-1 as the transfer destination. In addition, since the UPDATE message is used to switch the IP terminal 3-1 serving as the transfer activation terminal and the media of the SIP server 5-1 serving as the transfer destination to the peer-to-peer connection, it is possible to save media relay resources. Further, since a media relay server is used as necessary when the transfer is started, when a small number of media relay resources 2-1 to 2-5 are used by a large number of IP terminals 3-1 to 3-i, media relay is performed. The effective utilization rate of the resources 2-1 to 2-5 can be increased.

  In the first embodiment, when a response message is received from the transfer destination after the call transfer operation is performed at the IP terminal 3-1 after the relay process by the media relay server 2, Using the Re-Invite message including the SDP information of the IP terminal 3-2 serving as the terminal, the media connection destination of the transfer destination is switched from the media relay server 2 to the IP terminal 3-2, and the relay processing by the media relay server 2 is terminated. The example to do was demonstrated. However, the present invention is not limited to this. When a response message is received from the transfer destination after the relay processing by the media relay server 2 and before the call transfer operation is performed at the IP terminal 3-1, the IP terminal 3- The transfer destination media connection destination is switched from the media relay server 2 to the IP terminal 3-1 using the Re-Invite message including the SDP information of 1, and the relay processing by the media relay server 2 is terminated.

(Second Embodiment)
In the second embodiment, a request transfer operation is executed when UPDATE is permitted in the SIP trunk but UPDATE is not permitted in the SIP URI.

  FIG. 13 shows that the communication partner of the IP terminal 3-2 is switched from the IP terminal 3-1 to the SIP terminal 6-1 via the SIP server 5-2 during a call between the IP terminal 3-1 and the IP terminal 3-2. It is an example of the signal sequence at the time.

  Now, for example, as shown in FIG. 13, it is assumed that extension voice communication is performed between the IP terminals 3-1 and 3-2. In this state, it is assumed that in IP terminal 3-1, the user performs a transfer activation operation for dialing the calling special number from the own terminal to SIP trunk number 52 and the number of SIP terminal 6-1 (FIG. 13 (1)). Then, the IP terminal 3-1 transmits a transfer activation request to the call control server 1 (FIG. 13 (2)).

  When receiving the transfer activation request, the call control server 1 searches the UPDATE availability storage unit 271 for information indicating whether or not UPDATE is possible based on the SIP trunk number 52 included in the transfer activation request. Here, although it is “permitted”, since the SIP URI of the SIP terminal 6-1 is “non-permitted”, the call control server 1 makes the media relay resource 2- vacant from the relay resource usage state storage unit 272. 1 and 2-2 are captured (FIG. 13 (3)), and an INVITE message including the SDP information of the media relay resource 2-1 to be used is transmitted to the transfer destination SIP server 5-2 to make a call ( FIG. 13 (4)).

  The SIP server 5-2 analyzes the SDP information after receiving the INVITE message. At the same time, the SIP server 5-2 calls the SIP terminal 6-1 (FIG. 13 (4-1)). The SIP terminal 6-1 returns a 100 Trying message indicating that the incoming call notification is being performed and a 180 Ringing message including the SDP information of the SIP terminal 6-1 to the SIP server 5-2 (FIG. 13 (5-1)). . Since the SIP terminal 6-1 does not support the UPDATE message, UPDATE is not included in the method list of the allow header field of the 180 Ringing message.

  The SIP server 5-2 returns a 100 Trying message and a 180 Ringing message indicating that an incoming call notification is being made to the call control server 1 (FIG. 13 (5)). This incoming call notification is performed by generating a sound or displaying an incoming call. This 180 Ringing message includes the SDP information of the SIP terminal 6-1, and the method list of the allow header field does not include UPDATE.

  When receiving 100 Trying and 180 Ringing from the SIP server 5-2, the call control server 1 transmits a transfer activation acceptance indicating that the transfer activation request has been correctly received to the IP terminal 3-1 (FIG. 13 (6)). Thereafter, the call control server 1 allocates the media relay resource 2-1 to the SIP server 5-2 and media relay including SDP information indicating that the media relay resource 2-2 is allocated to the IP terminal 3-1. A start instruction is transmitted to the media relay server 2 (FIG. 13 (7)).

  Upon receiving the media relay start instruction, the media relay server 2 relays the media between the IP terminal 3-1 and the SIP terminal 6-1 using the media relay resources 2-1 and 2-2 (FIG. 13). (8)). Thus, the RTP packet is transmitted and received between the IP terminal 3-1 and the SIP terminal 6-1 via the media relay server 2, and the user of the IP terminal 3-1 receives the ringing tone from the SIP terminal 6-1. Listening is possible (FIG. 13 (9)).

  Further, the call control server 1 transmits a hold instruction to the IP terminal 3-2 serving as a transfer destination terminal (FIG. 13 (10)), and listens to the hold sound.

  Assume that the user of the IP terminal 3-1 performs a call forwarding operation while listening to the ringing tone (FIG. 13 (11)). Then, IP terminal 3-1 transmits a call forwarding request to call control server 1 (FIG. 13 (12)).

  When receiving the call forwarding request, the call control server 1 transmits a media connection instruction including the SDP information of the media relay resource 2-2 to the IP terminal 3-2 (FIG. 13 (13)). Then, the call control server 1 transmits a media relay change instruction including SDP information indicating that the media relay resource 2-2 is allocated to the IP terminal 3-2 to the media relay server 2 (FIG. 13 (14)).

  When receiving the media relay change instruction, the media relay server 2 relays the media between the IP terminal 3-2 and the SIP server 5-2 using the media relay resources 2-1 and 2-2 (FIG. 13). (15)). Thus, the RTP packet is transmitted and received between the IP terminal 3-2 and the SIP terminal 6-1 via the media relay server 2, and the user of the IP terminal 3-2 receives the ringing tone from the SIP terminal 6-1. Listening is possible (FIG. 13 (16)).

  The call control server 1 transmits a call forwarding acceptance indicating that the call forwarding request has been correctly received to the IP terminal 3-1 (FIG. 13 (17)), and a communication session with the IP terminal 3-1. Is cut (FIG. 13 (18)).

  When the user of the SIP terminal 6-1 responds to the incoming call notification (FIG. 13 (19)), the SIP terminal 6-1 transmits a response message (200 OK) to the SIP server 5-2 (FIG. 13 ( 20-1)). The SIP server 5-2 transmits a response message (200 OK) to the call control server 1 (FIG. 13 (20)).

  When receiving the response message (200 OK), the call control server 1 transmits ACK to the SIP server 5-2 (FIG. 13 (21)). In addition, the SIP server 5-2 transmits ACK to the SIP terminal 6-1 (FIG. 13 (21-1)). The call control server 1 first issues a media connection instruction including the SDP information of the SIP terminal 6-1 to the IP terminal 3-2 in order to perform peer-to-peer connection of the media between the IP terminal 3-2 and the SIP terminal 6-1. It transmits (FIG. 13 (22)).

  Then, the call control server 1 transmits a Re-INVITE message including the SDP information of the IP terminal 3-2 to the SIP server 5-2 (FIG. 13 (23)), and issues a media relay end instruction to the media relay server 2. Then, the media relay resources 2-1 and 2-2 are released (FIG. 13 (25)).

  Upon receiving the media relay end instruction, the media relay server 2 ends the media relay process (FIG. 13 (26)).

  After receiving the Re-INVITE message, the SIP server 5-2 analyzes the SDP information and transmits the Re-INVITE message to the SIP terminal 6-1 (FIG. 13 (23-1)). Then, the SIP terminal 6-1 returns a 100 Trying message and 200 OK to the Re-INVITE message to the SIP server 5-2 (FIG. 13 (27-1)). In addition, the SIP server 5-2 returns a 100 Trying message and 200 OK to the Re-INVITE message to the call control server 1 (FIG. 13 (27)). Then, the call control server 1 transmits ACK to the SIP server 5-2 (FIG. 13 (28)). Furthermore, the SIP server 5-2 transmits ACK to the SIP terminal 6-1 (FIG. 13 (28-1)). As a result, the media between the IP terminal 3-2 and the SIP terminal 6-1 is peer-to-peer-connected (FIG. 13 (29)).

  Thus, the communication destination of the IP terminal 3-2 is switched from the IP terminal 3-1 to the SIP terminal 6-1, and thereafter the user of the IP terminal 3-2 continues to make a call with the user of the SIP terminal 6-1. Is possible.

  As described above, in the second embodiment, the UPDATE availability storage unit 271 stores not only information indicating whether the UPDATE message is allowed / not allowed in association with the SIP trunk number, but also the SIP terminal 6-1. By storing information indicating whether the UPDATE message is allowed / not allowed in association with the SIP URI of ˜6-k, for example, to the SIP terminals 6-1 to 6-k via the SIP trunk that supports the UPDATE message. When request transfer is performed, some of the SIP terminals 6-1 to 6-k establish an early media session by a 180 Ringing message including SDP information and supply a ringing tone, but support the UPDATE message. Even if there is no terminal, it can be determined whether or not the media relay server 2 is necessary. You can perform the requested transfer to.

(Third embodiment)
In the third embodiment, when a 180 Ringing message that includes SDP information and does not include UPDATE in the method list of the allow header field is sent to the SIP terminal via the SIP trunk, whether or not UPDATE is possible The update process of the memory | storage part 271 is performed.

  FIG. 14 shows a request transfer start operation in which the user of the IP terminal 3-1 uses the SIP terminal 6-5 as the transfer destination via the SIP server 5-4 during the call between the IP terminal 3-1 and the IP terminal 3-2. It is an example of the signal sequence at the time of performing.

  It is assumed that the SIP server 5-4 and the SIP terminal 6-5 are not set as UPDATE non-permitted in the UPDATE availability storage unit 271. However, it is assumed that the SIP terminal 6-5 is a terminal that establishes an early media session with a 180 Ringing message including SDP information and supplies a ringing tone but does not support the UPDATE message.

  Now, for example, as shown in FIG. 14, it is assumed that extension voice communication is performed between the IP terminals 3-1 and 3-2. In this state, it is assumed that in IP terminal 3-1, the user performs a transfer activation operation for dialing the calling special number from the own terminal to SIP trunk number 54 and the number of SIP terminal 6-5 (FIG. 14 (1)). Then, the IP terminal 3-1 transmits a transfer activation request to the call control server 1 (FIG. 14 (2)).

  When receiving the transfer activation request, the call control server 1 searches the UPDATE availability storage unit 271 for information indicating whether or not UPDATE is possible based on the SIP trunk number 54 included in the transfer activation request. Here, since it is “permitted” and the SIP URI of the SIP terminal 6-5 is not set to “non-permitted”, the call control server 1 does not capture the media relay resource (FIG. 14 (3)), A call is made by transmitting an INVITE message including the SDP information of the IP terminal 3-1 to the transfer destination SIP server 5-4 (FIG. 14 (4)).

  The SIP server 5-4 analyzes the SDP information after receiving the INVITE message. At the same time, the SIP server 5-4 calls the SIP terminal 6-5 by sending an INVITE message (FIG. 14 (5)). Then, the SIP terminal 6-5 returns a 100 Trying message and a 180 Ringing message indicating that the incoming call notification is being performed to the SIP server 5-4 (FIG. 14 (6)). Then, the SIP server 5-4 returns a 100 Trying message and a 180 Ringing message to the call control server 1 (FIG. 14 (7)). By the way, it is assumed that this 180 Ringing message includes SDP information and UPDATE is not included in the method list of the allow header field.

  When receiving 180 Ringing from the SIP server 5-4, the call control server 1 determines that the SDP information is included and the UPDATE is not included in the method list of the allow header field. The SIP URI of 6-5 is set to “UPDATE non-permitted” ((8) in FIG. 14), indicating that the transfer start request has been correctly received to the IP terminal 3-1, including the SDP information of the SIP terminal 6-5 A transfer start acceptance is transmitted (FIG. 14 (9)).

  Thus, RTP packets are transmitted and received between the IP terminal 3-1 and the SIP terminal 6-5 by p2 peer, and the user of the IP terminal 3-1 can listen to the ringing tone from the SIP terminal 6-5. (FIG. 14 (10)).

  Further, the call control server 1 transmits a hold instruction to the IP terminal 3-2 serving as a transfer destination terminal (FIG. 14 (11)) and listens to a hold sound (FIG. 14 (12)).

  Assume that the user of the IP terminal 3-1 performs a call forwarding operation while listening to the ringing tone (FIG. 14 (13)). Then, the IP terminal 3-1 transmits a call forwarding request to the call control server 1 (FIG. 14 (14)).

  When the call control server 1 receives the transfer request during calling, the media relay resource is unused, the IP terminal 3-1 that is the transfer activation terminal and the transfer destination medium are already connected, and the transfer destination allows Since the SIP message that does not include UPDATE in the header field method list is received, it is determined that the UPDATE message cannot be transmitted to the transfer destination (FIG. 14 (15)). Since the media connection cannot be changed, the call control server 1 transmits a call forwarding rejection to the IP terminal 3-1 (FIG. 14 (16)).

  As described above, in the third embodiment, the SIP terminal 6 in the table stored in the UPDATE availability storage unit 271 uses the SIP message such as the 180 Ringing message received from the transfer destination in the call control server 1. By automatically setting the SIP URI 5 to “UPDATE non-permitted”, it is possible to reduce time and effort for the user or maintenance personnel to set data in the UPDATE availability storage unit 271.

  In the third embodiment, the call transfer is rejected at the time when the call transfer operation is performed. Thereafter, the user of the IP terminal 3-1 stops the transfer operation and the IP terminal 3-2. The SIP terminal in the table stored in the UPDATE availability storage unit 271 is restored when the transfer activation operation for dialing the special number for calling the SIP trunk number 54 and the number of the SIP terminal 6-5 is performed again. Since the SIP URI of 6-5 is set to “UPDATE non-permitted”, transfer during a call can be performed.

(Other embodiments)
In each of the above embodiments, the UPDATE availability storage unit 271 stores an example of storing “permitted / non-permitted” of UPDATE in association with the SIP trunk number or SIP URI. For example, in the SIP servers 5-1 to 5-3, UPDATE “permitted / non-permitted” may be stored in association with the group number of the group to be configured.

  In the third embodiment, the example in which the table stored in the UPDATE availability storage unit 271 is updated using the 180 Ringing message sent from the transfer destination has been described. However, the 183 Session Progress message is used. There may be.

  In the third embodiment, the example in which the table stored in the UPDATE availability storage unit 271 is updated using the 180 Ringing message sent from the transfer destination at the time of transfer activation is described. Stored in the UPDATE availability storage unit 271 when a SIP message that includes SDP information and does not include UPDATE in the method list of the allow header field is sent from the called party at the time of transmission to the SIP endpoint. Updated tables may be updated.

  Further, in each of the above embodiments, the SIP trunk number is used as an index of the table, but a table using the SIP URI as an index without using the SIP trunk number may be used.

  In each of the above embodiments, the call control server 1 manages the relay resource usage state. However, the media relay server 2 manages the resource usage state, and the call control server 1 receives resources from the media relay server 2. May be captured. In addition, the UPDATE availability storage unit includes a table set by the maintenance person and a table to be updated when a SIP message including SDP information from the SIP endpoint and not including UPDATE in the method list of the allow header field is received. It may be determined that media relay is necessary when UPDATE is not permitted in any table.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 1 ... Call control server, 2 ... Media relay server, 3-1 to 3-i ... IP terminal, 4 ... IP network, 5-1 to 5-j ... SIP server, 6-1 to 6-k ... SIP terminal, DESCRIPTION OF SYMBOLS 7 ... Public network, 8-1 ... Terminal, 9 ... SIP end point, 21 ... Control part, 22 ... North bridge, 23 ... Main memory, 26 ... South bridge, 27 ... Hard disk drive (HDD), 28 ... Multi Drive, 29 ... LAN controller, 30 ... interface unit, 31 ... PC card controller, 211 ... received message analysis unit, 212 ... media relay management unit, 213 ... message transmission control unit, 271 ... UPDATE availability memory unit, 272 ... for relay Resource usage state storage unit, 273... Media relay information storage unit.

Claims (24)

A call control server for performing call connection between a plurality of endpoints including at least SIP endpoints connected to a communication network;
A media relay server connected to the communication network and relaying a media signal including at least one of video, audio and data communicated between the endpoints;
The call control server
A SIP endpoint ID that identifies the SIP endpoint or a group ID that identifies a group composed of a plurality of SIP endpoints, and when the SIP endpoint originates to the SIP endpoint, the SDP (Session Description Protocol ) Associating UPDATE availability information in which information indicating UPDATE non-permission is set when the SIP endpoint establishes an early media session by a provisional response message including information and does not support the UPDATE message. Storage means for storing the management table;
When the transfer start operation of the request transfer service in which the second endpoint is the transferee is performed at the first endpoint among the plurality of endpoints, the transfer destination information is analyzed, and the transfer destination is the SIP end. In the case of a point, based on the management table, determination means for determining whether the media relay server is necessary,
A first process for setting SDP information of the first endpoint in an INVITE message to be transmitted to the transfer destination SIP endpoint based on a determination result by the determination means; and an INVITE to be transmitted to the transfer destination SIP endpoint A telephone system comprising: control means for executing any one of second processes for setting SDP information of media relay resources of the media relay server in a message. The determination unit determines that the media relay server is necessary based on the management table when the UPDATE availability information corresponding to a transfer destination SIP endpoint or group is information indicating UPDATE non-permission,
When it is determined that the media relay server is necessary, the control means connects the first endpoint and the transfer destination to the media relay server, and sends the ringing tone of the transfer destination to the first endpoint. And the first endpoint is disconnected from the media relay server when the call transfer activation operation is performed at the first endpoint in response to the supply of the ringing tone, and the second endpoint is disconnected. The telephone system according to claim 1, wherein the transfer destination is connected to the media relay server.   When the control means transmits an INVITE message to the SIP endpoint and then receives a provisional response message from the SIP endpoint that includes SDP information and does not include UPDATE in the method list of the allow header field. The telephone system according to claim 1, wherein information indicating UPDATE non-permission is stored in the UPDATE availability information in association with a transfer destination SIP endpoint ID in the management table from the received message.   The control means sets the SDP information of the first endpoint when UPDATE is included in the method list of the allow header field in the SIP message received from the transfer destination after the execution of the second process. The telephone according to claim 1, wherein the UPDATE message is transmitted to the transfer destination to switch the media connection destination of the transfer destination from the media relay server to the first endpoint, and the relay processing by the media relay server is terminated. system.   When the control means receives a response message from the transfer destination after performing the transfer activation operation during call after the execution of the second process, the control means includes a Re-Invite message including SDP information of the second endpoint. The telephone system according to claim 2, wherein the media connection destination of the transfer destination is switched from the media relay server to the second endpoint using, and the relay processing by the media relay server is terminated.   When the control means receives a response message from the transfer destination after the execution of the second process and before a call transfer activation operation is performed, the control means includes Re-Invite including SDP information of the first endpoint. The telephone system according to claim 1, wherein the media connection destination of the transfer destination is switched from the media relay server to the first endpoint using a message, and the relay processing by the media relay server is terminated. The storage means includes a fixed management table set by a maintenance person, an update management table that is updated when a provisional response message that includes SDP information and does not include UPDATE in the method list of the allow header field is received. And remember
In the case where the determination means is the UPDATE availability information corresponding to the SIP endpoint or group of the transfer destination stored in either the fixed management table or the update management table is information indicating the UPDATE non-permission The telephone system according to claim 1, wherein the media relay server determines that it is necessary. The storage means stores the UPDATE availability information for each SIP trunk, stores the UPDATE availability information for each SIPURI,
The telephone system according to claim 1, wherein the determination unit determines that the media relay server is necessary when one of the SIP trunk and SIP URI UPDATE availability information is information indicating UPDATE non-permission. In a server device that performs call connection between a plurality of endpoints including at least SIP endpoints connected to a communication network,
Connection means for connecting a media relay server that relays a media signal including at least one of video, audio and data communicated between the endpoints;
A SIP endpoint ID that identifies the SIP endpoint or a group ID that identifies a group composed of a plurality of SIP endpoints, and when the SIP endpoint originates to the SIP endpoint, the SDP (Session Description Protocol ) Associating UPDATE availability information in which information indicating UPDATE non-permission is set when the SIP endpoint establishes an early media session by a provisional response message including information and does not support the UPDATE message. Storage means for storing the management table;
When the transfer start operation of the request transfer service in which the second endpoint is the transferee is performed at the first endpoint among the plurality of endpoints, the transfer destination information is analyzed, and the transfer destination is the SIP end. In the case of a point, based on the management table, determination means for determining whether the media relay server is necessary,
A first process for setting SDP information of the first endpoint in an INVITE message to be transmitted to the transfer destination SIP endpoint based on a determination result by the determination means; and an INVITE to be transmitted to the transfer destination SIP endpoint A server device comprising: control means for executing any one of second processes for setting SDP information of media relay resources of the media relay server in a message. The determination unit determines that the media relay server is necessary based on the management table when the UPDATE availability information corresponding to a transfer destination SIP endpoint or group is information indicating UPDATE non-permission,
When it is determined that the media relay server is necessary, the control means connects the first endpoint and the transfer destination to the media relay server, and sends the ringing tone of the transfer destination to the first endpoint. And the first endpoint is disconnected from the media relay server when the call transfer activation operation is performed at the first endpoint in response to the supply of the ringing tone, and the second endpoint is disconnected. The server device according to claim 9, wherein the transfer destination is connected to the media relay server.   When the control means transmits an INVITE message to the SIP endpoint and then receives a provisional response message from the SIP endpoint that includes SDP information and does not include UPDATE in the method list of the allow header field. The server apparatus according to claim 9, wherein information indicating UPDATE non-permission is stored in the UPDATE availability information in association with a transfer destination SIP endpoint ID in the management table from the received message.   The control means sets the SDP information of the first endpoint when UPDATE is included in the method list of the allow header field in the SIP message received from the transfer destination after the execution of the second process. 10. The server according to claim 9, wherein by transmitting the UPDATE message to the transfer destination, the media connection destination of the transfer destination is switched from the media relay server to the first endpoint, and the relay processing by the media relay server is terminated. apparatus.   When the control means receives a response message from the transfer destination after performing the transfer activation operation during call after the execution of the second process, the control means includes a Re-Invite message including SDP information of the second endpoint. The server apparatus according to claim 10, wherein the media connection destination of the transfer destination is switched from the media relay server to the second endpoint using, and the relay processing by the media relay server is terminated.   When the control means receives a response message from the transfer destination after the execution of the second process and before a call transfer activation operation is performed, the control means includes Re-Invite including SDP information of the first endpoint. The server device according to claim 9, wherein a media connection destination of a transfer destination is switched from the media relay server to the first endpoint using a message, and the relay processing by the media relay server is ended. The storage means includes a fixed management table set by a maintenance person, an update management table that is updated when a provisional response message that includes SDP information and does not include UPDATE in the method list of the allow header field is received. And remember
In the case where the determination means is the UPDATE availability information corresponding to the SIP endpoint or group of the transfer destination stored in either the fixed management table or the update management table is information indicating the UPDATE non-permission The server device according to claim 9, wherein the media relay server is determined to be necessary. The storage means stores the UPDATE availability information for each SIP trunk, stores the UPDATE availability information for each SIPURI,
The server device according to claim 9, wherein the determination unit determines that the media relay server is necessary when one of the SIP trunk and SIP URI UPDATE availability information is information indicating UPDATE non-permission. In a transfer control method used in a server device that performs call connection between a plurality of endpoints including at least SIP endpoints connected to a communication network,
Connecting a media relay server that relays a media signal including at least one of video, audio and data communicated between the endpoints;
A SIP endpoint ID that identifies the SIP endpoint or a group ID that identifies a group composed of a plurality of SIP endpoints, and when the SIP endpoint originates to the SIP endpoint, the SDP (Session Description Protocol ) Associating UPDATE availability information in which information indicating UPDATE non-permission is set when the SIP endpoint establishes an early media session by a provisional response message including information and does not support the UPDATE message. Store the management table in memory,
When the transfer start operation of the request transfer service in which the second endpoint is the transferee is performed at the first endpoint among the plurality of endpoints, the transfer destination information is analyzed, and the transfer destination is the SIP end. In the case of a point, based on the management table, determine whether the media relay server is necessary,
Based on the determination result, a first process for setting SDP information of the first endpoint in an INVITE message to be transmitted to the SIP endpoint of the transfer destination, and an INVITE message to be transmitted to the SIP endpoint of the transfer destination A transfer control method for executing any one of the second processes for setting SDP information of media relay resources of a media relay server. The determination determines that the media relay server is necessary when the UPDATE availability information corresponding to the transfer destination SIP endpoint or group is information indicating UPDATE non-permission based on the management table;
The executing means connecting the first endpoint and the transfer destination to the media relay server and calling the transfer destination to the first endpoint when it is determined that the media relay server is necessary. When a call forwarding activation operation is performed at the first end point in response to the ringing tone supply, the first end point is disconnected from the media relay server, and the second end point is supplied. The transfer control method according to claim 17, wherein the point and the transfer destination are connected to the media relay server.   The execution is performed after an INVITE message is transmitted to the SIP endpoint and then a provisional response message including SDP information and not including UPDATE in the method list of the allow header field is received from the SIP endpoint. 18. The transfer control method according to claim 17, wherein information indicating UPDATE non-permission is stored in the UPDATE availability information in association with a transfer destination SIP endpoint ID in the management table from the received message.   The execution includes the SDP information of the first endpoint when UPDATE is included in the method list of the allow header field in the SIP message received from the transfer destination after the execution of the second process. 18. The relay process by the media relay server is terminated by switching the media connection destination of the transfer destination from the media relay server to the first endpoint by transmitting the set UPDATE message to the transfer destination. Transfer control method.   The execution includes a Re-Invite including SDP information of the second endpoint when a response message is received from the transfer destination after a call transfer activation operation is performed after the execution of the second process. 19. The transfer control method according to claim 18, wherein the media connection destination of the transfer destination is switched from the media relay server to the second endpoint using a message, and the relay processing by the media relay server is ended.   When the response message is received from the transfer destination after the execution of the second process and before the call transfer activation operation is performed, the Re- including the SDP information of the first endpoint is performed. 18. The transfer control method according to claim 17, wherein the media connection destination of the transfer destination is switched from the media relay server to the first endpoint using an Invite message, and the relay processing by the media relay server is terminated. The storing is an update management that is updated when a provisional response message that includes a fixed management table set by a maintenance person, SDP information, and does not include UPDATE in the method list of the allow header field is received. Remember table and
The determination is information indicating that the UPDATE availability information corresponding to the SIP endpoint or group of the transfer destination stored in either the fixed management table or the update management table indicates the UPDATE non-permission. The transfer control method according to claim 17, wherein the media relay server determines that the media relay server is necessary. The storing stores the UPDATE availability information for each SIP trunk, stores the UPDATE availability information for each SIPURI,
The transfer control method according to claim 17, wherein the determination is that the media relay server determines that the UPDATE availability information of one of the SIP trunk and SIP URI is information indicating UPDATE non-permission.

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