JP5063530B2 - Method and system for accessing non-SIP compliant server via IMS network - Google Patents

Description

The present invention relates to SIP (Session) via an IMS (IP Multimedia Subsystem) network.
The present invention relates to a method and system for accessing a non-compliant server.

  IMS is a service control method standardized to provide multimedia applications such as voice, video, and data on an IP (Internet Protocol) based network. This is a core technology that realizes the next generation mobile phone network or NGN (Next Generation Network). The fixed network and the mobile network are integrated to realize all-IP communication in which all terminals communicate on an IP basis.

  SIP is a protocol used for call control over IP, and controls negotiation of IP addresses, port numbers, encoding, etc., outgoing calls, incoming calls, etc. necessary for communication between terminals. On the other hand, the IMS executes allocation of network resources necessary for communication, gate control, and the like based on the SIP information.

  FIG. 1 is a system configuration diagram of an IMS.

  According to FIG. 1, the system includes an IMS network 1, an access network 4, and an IP network 5 connected to each other. A gateway 6 interconnecting the access network 4 and the IMS network 1 performs gate open / close and resource control.

  The access network 4 is, for example, a mobile phone network, a wireless / wired broadband network, or the like. When the terminal 2 is a SIP compatible terminal, the terminal 2 connects to the gateway 6 via the access network 4. The gateway 6 operates in response to a gate control and resource control instruction from the IMS network 1. By establishing a call session via the IMS network, the gateway 6 opens a gate for the counterpart communication device, and data communication becomes possible.

  The IMS network 1 includes a call session control function (CSCF) server and a subscriber information server (HSS (Home Subscriber Server)) 13. According to FIG. 1, a plurality of P-CSCF (Proxy-CSCF) servers 11 and an S-CSCF (Serving-CSCF) 12 are provided as call session control function servers.

  The P-CSCF 11 is a SIP server that is directly accessed from the SIP compatible terminal 2 via the access network 4, extracts media session information for each session, and performs gate control and resource control for the gateway 6 when the session is established. Instruct. The P-CSCF 11 is assigned at the time of user registration, and establishes an IPsec tunnel, which is a secure communication path, with the SIP compatible terminal 2. The SIP message received from the SIP compatible terminal 2 is transferred to the S-CSCF 12.

  The S-CSCF 12 is a central SIP server for service execution and session control. Specifically, it manages network connection information between terminals and user information for user authentication or location registration. Further, the S-CSCF 12 is connected to the HSS 13 and can acquire subscriber profile information.

Special table 2008-518536 gazette

  According to the prior art described above, when accessing a SIP-compatible server, the SIP-compatible terminal first transmits a call connection request to the SIP-compatible server via the IMS network, and then transmits data to and from the SIP-compatible server. Establish a connection. On the other hand, when accessing a non-SIP compatible server, the terminal immediately establishes a data connection with the non-SIP compatible server. As described above, the terminal needs to switch the access method between when accessing the SIP-compatible server and when accessing the non-SIP-compatible server. This is based on the fact that the IMS network architecture and the non-IMS network architecture are devised separately.

  Further, in the case of an IMS network, resource control in the gateway is possible according to the media type. For example, it is preferable that the advanced resource control is applied not only to a medium such as a voice call but also to a medium such as a streaming video. However, many existing streaming servers do not support SIP. For this reason, in the case of an existing network architecture, when a terminal accesses a non-SIP compatible server such as a streaming server, resource control cannot be performed at the gateway. In reality, it is also costly to make an existing streaming server compatible with SIP.

  Therefore, an object of the present invention is to provide an access method and system that enable resource control in a gateway without switching an access method when a SIP compatible terminal accesses a non-SIP compatible server. .

According to the present invention, an access network, an IP subsystem network interconnected to the access network via a gateway, and an IP network interconnected to the IP subsystem network are provided. An access method in a system in which a terminal is connected, a session control server is connected to an IP subsystem network, a non-SIP compatible server is connected to the IP network, and a non-SIP compatible server is accessed from a SIP compatible terminal In
An application server that functions as a SIP-compliant client is further connected to the IP subsystem network.
A first step in which a SIP compatible terminal transmits a call connection request addressed to a non-SIP compatible server to the session control server before establishing a data connection with the non-SIP compatible server;
A second step in which the session control server forwards the call connection request to the application server;
A third step in which the application server returns a call connection response to the session control server;
A fourth step in which the session control server transfers the call connection response to the SIP-compatible terminal;
A fifth step in which the session control server instructs the gateway to perform resource control in the call connection;
A SIP-compatible terminal has a sixth step of establishing a data connection with a non-SIP compatible server via a gateway.

According to another embodiment of the access method of the present invention,
The application server has media session information of a non-SIP compatible server,
For the second step, the application server includes the media session information in the call connection response,
Regarding the third step, the session control server preferably instructs the gateway to perform resource control based on the media session information.

  According to another embodiment of the access method of the present invention, the media session information is preferably an IP address, a port number, and / or a codec type in a non-SIP compatible server.

  According to another embodiment of the access method of the present invention, the application server may acquire the media session information of the non-SIP compatible server from the non-SIP compatible server when a call connection request is received or periodically. preferable.

According to another embodiment of the access method of the present invention,
The session control server is composed of a plurality of P-CSCFs and S-CSCFs,
Regarding the second step, it is also preferable that the S-CSCF forwards the call connection request to the application server based on the calling condition iFC (initial Filter Criteria) registered in the subscriber information server HSS.

According to the present invention, an access network, an IP subsystem network interconnected to the access network via a gateway, and an IP network interconnected to the IP subsystem network are provided. In a system in which a terminal is connected, a session control server is connected to the IP subsystem network, a non-SIP compatible server is connected to the IP network, and a SIP compatible terminal accesses a non-SIP compatible server.
An application server that functions as a SIP-compliant client is further connected to the IP subsystem network.
The application server includes a call connection request receiving means for receiving a call connection request destined for a non-SIP compatible server from a SIP compatible terminal via a session control server, and a call to the SIP compatible terminal via a session control server. A call connection response transmitting means for returning a connection response;
The session control server includes a transfer unit that mutually transfers a call connection request / call connection response between the SIP-compatible terminal and the application server, and a resource control instruction unit that instructs the gateway to perform resource control in the call connection. And
The SIP-compatible terminal transmits a call connection request addressed to the non-SIP compatible server to the session control server and receives a call connection response before establishing a data connection with the non-SIP compatible server. And a connection establishment means for establishing a data connection with a non-SIP compatible server via a gateway.

According to another embodiment of the system of the present invention,
The application server further includes media session information storage means for storing media session information of a non-SIP compatible server,
The call connection response transmission means transmits the media session information together with the call connection response,
The resource control instruction means of the session control server preferably instructs the gateway to perform resource control based on the media session information.

  According to another embodiment of the system of the present invention, the media session information is preferably an IP address, a port number, and / or a codec type in a non-SIP compatible server.

  According to another embodiment of the system of the present invention, the application server obtains the media session information of the non-SIP compatible server from the non-SIP compatible server when a call connection request is received or periodically. It is also preferable to further have an acquisition means.

According to another embodiment of the system of the present invention,
The session control server is composed of a plurality of P-CSCFs and S-CSCFs,
It is also preferable that the S-CSCF transfers the call connection request to the application server based on the calling condition iFC registered in the subscriber information server.

  According to the access method and system of the present invention, since the application server makes a pseudo call connection proxy response via the session control server, the access method is changed when the SIP compatible terminal accesses the non-SIP compatible server. There is no need to switch, and resource control in the gateway is possible.

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings.

  FIG. 2 is a system configuration diagram according to the present invention.

  According to FIG. 2, as in FIG. 1, it has an access network 4, an IMS network 1 interconnected to the access network 4 via a gateway 6, and an IP network 5 interconnected to the IMS network. . A SIP compatible terminal 2 is connected to the access network 4, and a non-SIP compatible server 30 is connected to the IP network 5. In order to exert the resource control effect in the gateway 6, the SIP non-compliant server 30 is preferably a media server that requires QoS management, such as a streaming server.

  Also, the IMS network 1 is connected with a P-CSCF 11, an S-CSCF 12, and an HSS 13, and further includes an application server 10 as compared to FIG. The application server 10 functions as a SIP-compatible client in a pseudo manner, and returns a proxy response in response to a call connection request from a SIP-compatible terminal in place of the SIP-incompatible server. The application server can be easily connected to the IMS network only by installing the SIP function.

  The SIP-compatible terminal 2 includes a SIP call connection unit and a connection establishment unit. Before establishing a data connection with the SIP non-compliant server 30, the SIP call connection unit transmits a call connection request addressed to the SIP non-compliant server 30 to the P-CSCF 11 and receives a call connection response. The connection establishing unit establishes a data connection with the non-SIP compatible server 30 via the gateway 6.

  The P-CSCF 11 and the S-CSCF 12 mutually transfer a call connection request / call connection response between the SIP compatible terminal 2 and the application server 10. In addition, the P-CSCF 11 instructs the gateway 6 to perform resource control in the call connection based on the media session information in the call connection response.

  The S-CSCF 12 acquires a subscriber profile from the HSS 13 at the time of user registration (REGISTER). The subscriber profile includes iFC (initial Filter Criteria) information as a calling condition for the application server. The S-CSCF 12 transfers the call connection request to the application server 10 based on the iFC information.

  The application server 10 includes a call connection request reception unit 101, a call connection proxy response transmission unit 102, a media session information storage unit 103, and a media session information acquisition unit 104. These functional components are realized by executing a program that causes a computer mounted on the server to function.

  The call connection request receiving unit 101 receives a call connection request addressed to the non-SIP compatible server 30 from the SIP compatible terminal 2 via the P-CSCF 11 and the S-CSCF 12. The call connection proxy response transmission unit 102 is notified that the call connection request has been received.

  The call connection proxy response transmission unit 102 returns a call connection response (for example, 200K) to the SIP compatible terminal 2 via the P-CSCF 11 and the S-CSCF 12. At this time, the call connection proxy response transmission unit 102 can transmit 183 Session Progress to the SIP compatible terminal 2 as a call connection response. This 183 Session Progress can include media session information.

  The media session information storage unit 103 stores the media session information of the SIP non-compliant server 30 in a cache manner. The media session information is, for example, an IP address, a port number, and / or a codec type in the non-SIP compatible server 30.

  The media session information acquisition unit 104 acquires the media session information of the SIP incompatible server 30 from the SIP incompatible server 30 when a call connection request is received or periodically. The acquired media session information is temporarily stored in the media session information storage unit 103.

  FIG. 3 is a basic sequence diagram in the present invention.

(S30) The SIP compatible terminal 2 transmits a SIP call connection request (INVITE) to the IMS network 1 via the access network 4 before establishing a data connection with the non-SIP compatible server 30. This INVITE message includes the URL (Uniform Resource Locator) of the non-SIP compatible streaming server 3 and the path information to the media. This INVITE message is received by the P-CSCF 11 in accordance with normal SIP signaling processing. At this time, the P-CSCF 11 returns 100 Trying to the SIP compatible terminal 2.

(S31) The P-CSCF 11 transfers the INVITE message to the S-CSCF 12. At this time, the S-CSCF 12 returns 100 Trying to the P-CSCF 11.

(S32) Normally, according to the SIP signaling process, the S-CSCF 12 transfers the INVITE message to the SIP-URI destination described in the INVITE message. However, the destination server 2 targeted by the present invention is a non-SIP compatible server. Therefore, according to the present invention, the S-CSCF 12 executes the iFC function of SIP message transfer using the SIP-URI as a filter condition. As a result, the INVITE message is transferred to the application server 10. At this time, the application server 10 returns 100 Trying to the S-CSCF 12.

(S33) The application server 10 acquires the target SIP non-compliant server 30 and the path to the medium from the SIP-URI included in the call connection request. Further, the application server 10 acquires the media session information of the SIP non-compliant server 30 from the SIP non-compliant server 30 when receiving a call connection request or periodically. The media session information is an IP address, a port number, and / or a codec type in the non-SIP compatible server 30.

(S34) The application server 10 returns a call connection response 200OK message for INVITE to the S-CSCF 12. At this time, it is also preferable to include the media session information of the non-SIP compatible server 30 in the call connection response message.

(S35) The S-CSCF 12 transfers the call connection response 200OK message to the P-CSCF 11.

(S36) The P-CSCF 11 transfers the call connection response 200OK message to the SIP compatible terminal 2.

(S37) In addition, the P-CSCF 11 opens the gate in the call connection to the gateway 6 and instructs resource control.

(S38) The SIP compatible terminal 2 returns a confirmation ACK message to the P-CSCF 11. This confirmation ACK message is transferred to the application server 10 via the P-CSCF 11 and the S-CSCF 12.

(S39) The SIP compatible terminal 2 establishes a data connection with the non-SIP compatible server 30 via the gateway 6. As a result, when the SIP-compatible terminal 2 accesses the SIP non-compliant server, the SIP non-compliant server 30 can access as if the SIP non-compliant server 30 is a SIP compliant server, and resource control in the gateway 6 for media data is possible. Become.

  FIG. 4 is a sequence diagram that enables resource control based on media session information.

  Compared to FIG. 3, FIG. 4 has a sequence for executing resource control added by a 183 Session Progress response message. The sequence of S30 to S39 is exactly the same as that in FIG. 3, and the sequence of S41 to S45 is further added. Below, only the sequence of S41-S45 different from FIG. 3 is demonstrated.

(S41) Upon receiving the call connection request, the application server 10 returns a call connection response in place of the SIP non-compliant server 30 in a pseudo manner. At this time, the application server 10 transmits a 183 Session Progress message to the SIP compatible terminal 2 via the S-CSCF 12 and the P-CSCF 11.

  The transmission side transmits session description protocol (SDP) information such as an IP address, a port number, and a codec type in a call connection request INVITE message. In response to this, the responding side returns media session information such as the IP address, port number, and codec type in the 183 Session Progress message.

(S42) On the other hand, the SIP compatible terminal 2 transmits PRACK (Provisional Response ACKnowledgement) to the application server 10 via the P-CSCF 11 and the S-CSCF 12.

(S43) In response to this, the application server 10 transmits a 200OK message to the SIP compatible terminal 2 via the S-CSCF 12 and the P-CSCF 11.

(S44) The SIP corresponding terminal 2 transmits an UPDATE message to the application server 10 via the P-CSCF 11 and the S-CSCF 12.

(S45) In response to this, the application server 10 transmits a 200OK message to the SIP-compatible terminal 2 via the S-CSCF 12 and the P-CSCF 11.

  As described above in detail, according to the access method and system of the present invention, since the application server makes a pseudo call connection proxy response via the session control server, the SIP compatible terminal When accessing the network, it is not necessary to switch the access method, and resource control in the gateway is possible.

(1) It is possible to support a SIP compatible terminal without adding a function to the SIP non-compatible server.
(2) Since only the application server is connected to the existing IMS network, it is not necessary to add significant functions to the network system.
(3) Since the application server that returns a call connection proxy response in a pseudo manner does not become a proxy for the media, the load is small.
(4) Resource control can be executed for media distributed by a non-SIP compatible server according to the required bandwidth.

  In the various embodiments of the present invention described above, various changes, modifications, and omissions in the scope of the technical idea and the viewpoint of the present invention can be easily made by those skilled in the art. The above description is merely an example, and is not intended to be restrictive. The invention is limited only as defined in the following claims and the equivalents thereto.

It is a system configuration diagram of IMS. It is a system configuration diagram in the present invention. It is a basic sequence diagram in the present invention. FIG. 6 is a sequence diagram that enables resource control based on media session information.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 IMS network 10 Application server 101 Call connection request receiving part 102 Call connection proxy response transmission part 103 Media session information storage part 104 Media session information acquisition part 11 P-CSCF
12 S-CSCF
13 HSS
2 SIP compatible terminal 3 SIP non-compatible streaming server 4 Access network 5 IP network 6 Gateway

Claims (10)

An access network, an IP subsystem network interconnected to the access network via a gateway, and an IP network interconnected to the IP subsystem network, the access network supporting SIP (Session Initiation Protocol) In a system in which a terminal is connected, a session control server is connected to the IP subsystem network, a non-SIP compatible server is connected to the IP network, and a non-SIP compatible server is accessed from a SIP compatible terminal In the access method,
An application server that functions as a SIP-compliant client is further connected to the IP subsystem network.
A first step of transmitting a call connection request destined for the non-SIP compatible server to the session control server before the SIP compatible terminal establishes a data connection with the non-SIP compatible server;
A second step in which the session control server forwards the call connection request to the application server;
A third step in which the application server returns a call connection response to the session control server;
A fourth step in which the session control server transfers the call connection response to the SIP-compatible terminal;
A fifth step in which the session control server instructs the gateway to perform resource control in the call connection;
An access method comprising: a sixth step in which the SIP compatible terminal establishes a data connection with the non-SIP compatible server via the gateway. The application server has media session information of the non-SIP compatible server;
For the second step, the application server includes the media session information in the call connection response,
The access method according to claim 1, wherein the session control server instructs the gateway to perform resource control based on the media session information with respect to the third step.   The access method according to claim 2, wherein the media session information is an IP address, a port number, and / or a codec type in the non-SIP compatible server.   The said application server acquires the said media session information of the said SIP non-compliant server from the said SIP non-compliant server when the call connection request is received or periodically. The access method according to any one of the above items. The session control server includes a plurality of P-CSCF (Proxy-CSCF (Call Session
Control Function)) and S-CSCF (Serving-CSCF)
Regarding the second step, the S-CSCF transfers the call connection request to the application server based on a calling condition (iFC (initial Filter Criteria)) registered in a subscriber information server (HSS (Home Subscriber Server)). The access method according to any one of claims 1 to 4, characterized in that: An access network, an IP subsystem network interconnected to the access network via a gateway, and an IP network interconnected to the IP subsystem network, and a SIP-compatible terminal connected to the access network A system in which a session control server is connected to the IP subsystem network, a non-SIP compatible server is connected to the IP network, and a SIP compatible terminal accesses a non-SIP compatible server;
An application server that functions as a SIP-compliant client is further connected to the IP subsystem network.
The application server receives, from the SIP compatible terminal, a call connection request receiving means for receiving a call connection request addressed to the non-SIP compatible server via the session control server, and the session control to the SIP compatible terminal. Call connection response transmission means for returning a call connection response via the server,
The session control server instructs the gateway to perform resource control for the call connection, and a transfer means for transferring a call connection request / call connection response between the SIP compatible terminal and the application server. Resource control instruction means,
The SIP-compatible terminal transmits a call connection request addressed to the non-SIP compatible server to the session control server and receives a call connection response before establishing a data connection with the non-SIP compatible server. A system comprising: call connection means; and connection establishment means for establishing a data connection with the non-SIP compatible server via the gateway. The application server further includes media session information storage means for storing media session information of the non-SIP compatible server,
The call connection response transmission means transmits the media session information together with the call connection response;
The system according to claim 6, wherein the resource control instruction unit of the session control server instructs the gateway to perform resource control based on the media session information.   The system according to claim 7, wherein the media session information is an IP address, a port number, and / or a codec type in the non-SIP compatible server.   The application server further includes media session information acquisition means for acquiring the media session information of the non-SIP compatible server from the non-SIP compatible server when the call connection request is received or periodically. The system according to any one of claims 6 to 8. The session control server includes a plurality of P-CSCFs and S-CSCFs,
The said S-CSCF transfers the said call connection request to the said application server based on the calling conditions iFC registered into the subscriber information server, The any one of Claim 6 to 9 characterized by the above-mentioned. system.

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