JP5135257B2 - Method and system for establishing a plurality of sessions of different routes by home gateway and session control server - Google Patents

Description

  The present invention relates to a session establishment method and system in a home gateway that can be connected to an NGN (Next Generation Network) core network.

  The NGN core network is standardized by ITU-T (International Telecommunication Union-Telecommunication standardization sector) as a next-generation managed network. The NGN core network is suitable for a service of an application (for example, audio or video streaming) that requires real-time property in order to guarantee the QoS (Quality of Service) of the route. A session in the NGN core network is controlled based on SIP (Session Initiation Protocol).

  FIG. 1 is a system configuration diagram in which a home network and an NGN core network are connected.

  According to FIG. 1, a session control server is connected to an NGN core network (IPv6 network). The session control server is composed of CSCF (Call Session Control Function) / HSS (Home Subscriber Server) and one or more PCRFs (Policy and Charging Rules Function). The session control server 10 controls the session based on SIP and instructs the access gateway to perform gate control.

  A first access gateway AGW1 is connected between the NGN core network and the first access network, and a first home gateway HGW1 is connected between the first access network and the first home network, A first terminal UE1 is connected to the first home network. The second access gateway AGW2 is connected between the NGN core network and the second access network, and the second home gateway AGW2 is connected between the second access network and the second home network. The second terminal UE2 is connected to the second home network. Furthermore, the first access network and the second access network are interconnected via a non-core network (IPv4 network).

  According to FIG. 1, the home gateway HGW has an IP address for external connection given from the access network. When the home gateway HGW receives a session establishment request (INVITE request) from the terminal UE via the home network, the home gateway HGW generates a secure tunnel with the access gateway AGW. As a result, all communication traffic related to the terminal UE is communicated via this secure tunnel generated in the access network. A secure tunnel is established between one access gateway AGW and a number of home gateways HGW. Therefore, not only the load is concentrated on the access gateway AGW that executes QoS guarantee control, but also the equipment cost of the entire NGN core network increases.

  According to the technology described in Non-Patent Document 1, femtocells (home gateways) directly communicate with each other about SIP sessions, thereby realizing route optimization regarding data packets. Specifically, the femtocell operates as a SIP application level gateway and converts an IP address and a port number (see, for example, Non-Patent Document 2).

  Application level gateway is a firewall technology that controls access based on applications. The application level gateway converts the IP address of the payload and other information in addition to the conversion of the IP address and port number in the IP header in the NAT (Network Address Transform) function. This enables terminals in the home network to connect to the session control server using SIP.

"A Study on Media Data Path Optimization Using Femtocell", IEICE Society Conference 2008, B-6-38 “IETF Internet Draft, draft-rosenberg-sip-firewalls-00.txt (expired),“ Getting SIP through Firewallsand NATs ”, [online], [Search February 19, 2009], Internet <http: // www .jdrosen.net / papers / draft-rosenberg-sip-firewalls-00.txt>

  According to the technology described in Non-Patent Document 1, all traffic between home networks is directly communicated between femtocells. However, in order to realize QoS guarantee in the NGN core network, the traffic must pass through the access gateway AGW. Therefore, according to the technique described in Non-Patent Document 1, QoS guarantee cannot be realized.

  Further, according to the system of FIG. 1, the home gateway HGW cannot know the IPv4 address for external connection of the access network in the other home gateway HGW. Therefore, the technique described in Non-Patent Document 1 cannot be applied.

  Accordingly, an object of the present invention is to provide a method and a system for establishing a plurality of sessions of different routes by a home gateway and a session control server. Thereby, the traffic of the media type that requires QoS guarantee is communicated via the access gateway AGW, and the traffic of the media type that does not require QoS guarantee is communicated directly between the home gateways HGW.

According to the present invention, a session control server connected to the core network;
One or more access gateways connected between the core network and the access network;
A first home gateway connected between the access network and the first home network;
A first terminal connected to a first home network;
A second home gateway connected between the access network and the second home network;
A second terminal connected to a second home network,
A session establishment method in a system in which a first home gateway and a second home gateway are interconnected via a non-core network via an access network,
A first step in which the first home gateway transmits the session establishment request received from the first terminal to the session control server via the access gateway;
The session control server establishes a first session connected via the access gateway via the core network and a second session connected via the non-core network according to the media type in the session establishment request. A second step of determining, and transmitting a session establishment request via the access gateway to the second home gateway;
A third step in which the second home gateway sends a session establishment request to the second terminal;
A fourth step in which the second home gateway transmits the session establishment response received from the second terminal to the session control server via the access gateway;
A fifth step in which the session control server sends a gate control request to establish a first session to the access gateway, and the access gateway updates the routing table;
A sixth step in which the session control server sends a gate control request to establish a second session to the second home gateway, and the second home gateway updates the routing table;
A seventh step in which the session control server sends a gate control request to establish a second session to the first home gateway;
An eighth step in which the session control server sends a session establishment response to the first home gateway via the access gateway;
The first home gateway has a ninth step of updating the routing table for the second session and transmitting a session establishment response to the first terminal.

According to another embodiment of the session establishment method of the present invention,
The core network is an IPv6 network,
The non-core network is an IPv4 network,
For the first step,
The session establishment request transmitted by the first home gateway is an IPv6 that consists of the logical sum of the IPv6 network prefix assigned from the first access gateway and the IPv4 address assigned to the external interface of the first home gateway. It is also preferable to include the address in the media part of SDP (Specification Description Protocol).

According to another embodiment of the session establishment method of the present invention,
Regarding the first step, the session establishment request transmitted by the first home gateway includes a media part for “information exchange” in addition to the SDP,
The address given to the external interface of the second home gateway is set to the first home gateway through the “information exchange” media session established between the first home gateway and the second home gateway. It is also preferable to further include a tenth step of transmitting to

According to another embodiment of the session establishment method of the present invention,
It is also preferable to further include an eleventh step of securing the second session between the first home gateway and the second home gateway connected via the non-core network by IPsec.

According to another embodiment of the session establishment method of the present invention,
The media type is preferably the flow type in the session, the establishment time, or the domain or subscription service type of the source terminal and the destination terminal.

According to the present invention,
A session control server connected to the core network;
One or more access gateways connected between the core network and the access network;
A first home gateway connected between the access network and the first home network;
A first terminal connected to a first home network;
A second home gateway connected between the access network and the second home network;
A second terminal connected to a second home network,
A system in which a first home gateway and a second home gateway are interconnected via a non-core network via an access network;
The session control server
A first session connected via the core network via the access gateway and a second session connected via the non-core network according to the media type in the session establishment request received from the first home gateway A route determination means for determining to establish
The session establishment request received from the first home gateway is transmitted to the second home gateway via the access gateway, and the session establishment response received from the second home gateway is transmitted to the first home gateway via the access gateway. Session control means to send to,
Gate control means for transmitting a gate control request for establishing a first session to the access gateway and transmitting a gate control request for establishing a second session to the second home gateway and the first home gateway; Have
The first home gateway is
Session establishment request transmission means for transmitting the session establishment request received from the first terminal to the session control server via the access gateway;
A session establishment response receiving means for updating the path control table for the second session and transmitting the session establishment response to the first terminal when a session establishment response is received from the session control server via the access gateway; ,
The second home gateway is
Session establishment request receiving means for transmitting a session establishment request received from the session control server via the access gateway to the second terminal;
Session establishment response transmission means for transmitting the session establishment response to the session control server via the access gateway when the session establishment response received from the second terminal is received ;
Gate request control means for updating a routing control table for the second session and transmitting a gate control response to the session control server via the access gateway when a gate control request is received from the session control server via the access gateway; <br/>

According to another embodiment of the system of the present invention,
The core network is an IPv6 network,
The non-core network is an IPv4 network,
The session establishment request transmission means of the first home gateway includes an IPv6 network prefix assigned from the first access gateway and an IPv4 address assigned to the external interface of the first home gateway in the session establishment request to be transmitted. It is also preferable to include an IPv6 address consisting of the logical sum of the above in the entire session of the SDP.

According to another embodiment of the system of the present invention,
The first home gateway session establishment request transmission means includes a media establishment for "information exchange" in the SDP in the session establishment request transmitted by the first home gateway,
It is also preferable that the first home gateway and the second home gateway further have a secure path communication means for exchanging addresses assigned to the external interface with each other through an established “information exchange” media session. .

According to another embodiment of the system of the present invention,
The secure path communication means preferably secures the second session between the first home gateway and the home gateway 2 connected via the non-core network by IPsec.

According to another embodiment of the system of the present invention,
The media type is preferably the flow type in the session, the establishment time, or the domain or subscription service type of the source terminal and the destination terminal.

  According to the session establishment method and system of the present invention, media type traffic requiring QoS guarantee is communicated via the access gateway AGW, and media type traffic not requiring QoS guarantee is directly between the home gateways HGW. Communication.

It is a system configuration diagram in which a home network and an NGN core network are connected. It is a system configuration diagram in the present invention. It is a 1st sequence diagram in this invention. This is an SDP description of the INVITE request in S302 of FIG. This is an SDP description of a 200OK response in S306 of FIG. 4 is a route control table for a home gateway and an access gate in FIG. 3. It is a 2nd sequence diagram in this invention. This is an SDP description of the INVITE request in S702 of FIG. This is an SDP description of a 200OK response in S706 of FIG. 8 is a route control table for a home gateway and an access gate in FIG. It is a functional block diagram of the session control server and home gateway in this invention.

  Hereinafter, embodiments of 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.

  For example, it is assumed that the first terminal UE1 and the second terminal UE2 communicate by videophone (sound and video) and transfer an image file such as a photograph. According to the system of FIG. 2, as compared with FIG. 1, traffic of a media type that requires QoS guarantee (for example, voice or video) communicates via the access gateway AGW. On the other hand, media type traffic that does not require QoS guarantee (for example, file transfer) is directly communicated between the home gateways HGW. Therefore, all communication traffic between the first terminal UE1 and the second terminal UE2 does not go through the NGN core network. Therefore, the concentration of traffic on the access gateway AGW and the NGN core network can be reduced.

Two addresses are allocated to the first home gateway HGW1 as follows.
IPv4 address: [192.168.0.100]
IPv6 network prefix: [1000: 123: 1000 :: / 64]
In addition, two addresses are assigned to the second home gateway HGW2 as follows.
IPv4 address: [10.0.0.200]
IPv6 network prefix: [2000: 234: 2000 :: / 64]
It is assumed that the first terminal UE1 and the second terminal UE2 have already completed SIP registration with the session control server 10.

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

(S301) The first terminal UE1 transmits a session establishment request (INVITE request) to the first home gateway HGW1 in order to start a SIP session. The first home gateway HGW1 operates as a SIP proxy for the external network.

(S302) When receiving the INVITE request, the first home gateway HGW1 executes processing of the application level gateway (ALG).

  FIG. 4 is a description of SDP (Specification Description Protocol) of the INVITE request in S302.

According to FIG. 4, the first home gateway HGW1 uses the logical sum of the IPv6 network prefix and the IPv4 address as the IPv6 address.
[1000: 123: 1000 :: 0]
+ [:: 192.168.0.100]
= [1000: 123: 1000 :: c0a8: 64]
The first home gateway HGW1 includes a logical IPv6 address in the entire session portion of the SDP. Then, the first home gateway HGW1 transmits an INVITE request to the session control server 10 via the first access gateway AGW1.

(S303) When the session control server 10 receives the INVITE request, the session control server 10 determines the establishment of two sessions according to the media type.
(First session) Connection between the first access gateway AGW1 and the second access gateway AGW2 via the IPv6 network (Second session) between the first home gateway HGW1 and the second home gateway HGW2 Connect via IPv4 network

  The session type corresponding to the media type is defined in advance in the policy table. For example, audio / video is assigned to the first session, and file is assigned to the second session.

  Then, the session control server 10 transmits an INVITE request to the second home gateway HGW2 via the second access gateway AGW2.

(S304) When receiving the INVITE request, the second home gateway HGW2 executes processing of the application level gateway (ALG). Then, the second home gateway HGW2 transmits an INVITE request to the second terminal UE2 via the second home network.

(S305) When receiving the INVITE request, the second terminal returns a session establishment response (200OK response) to the second home gateway HGW2.

(S306) Upon receiving the 200OK response, the second home gateway HGW2 executes the application level gateway process.

  FIG. 5 is a description of the SDP of the 200OK response in S306 of FIG.

According to FIG. 5, the second home gateway HGW2 uses the logical sum of the IPv6 network prefix and the IPv4 address as the IPv6 address.
[2000: 234: 2000 :: 0]
+ [:: 10.0.0.200]
= [2000: 234: 2000 :: a00: c8]
The second home gateway HGW2 includes a logical IPv6 address in the entire session portion of the SDP. Then, the second home gateway HGW2 transmits a 200OK response to the session control server 10 via the second access gateway AGW2.

(S307) The session control server 10 transmits a gate control request to the second access gateway AGW2. In the gate control request, gate control information for the following one session is described.
(First session) Connection between the first access gateway AGW1 and the second access gateway AGW2 via the IPv6 network for audio and video

  The gate control request includes the IPv6 addresses of the first home gateway 31 and the second home gateway 32, the port number for transmitting and receiving audio and video packets, and the transport protocol.

(S308) Upon receiving the gate control request, the second access gateway AGW2 updates the routing table to establish the first session. Thereafter, the second access gateway AGW2 returns a gate control response to the session control server 10.

  FIG. 6 is a route control table of the home gateway and the access gateway in FIG. Here, the route control table of the second access gateway AGW2 is set as shown in FIG. 6A, for example.

(S309) Similar to S307, the session control server 10 transmits a gate control request to the first access gateway AGW1.

(S310) Similar to S308, the first access gateway AGW1 returns a gate control response to the session control server 10. Here, the route control table of the first access gateway AGW1 is set as shown in FIG. 6B, for example.

(S311) The session control server 10 transmits a gate control request to the second home gateway HGW2 via the second access gateway AGW2. Gate control information for the following two sessions is described in the gate control request.
(First session) About audio (audio) and video (video), connected via the IPv6 network between the first access gateway AGW1 and the second access gateway AGW2 (second session) About the file (message) Connection between the first home gateway HGW1 and the second home gateway HGW2 via the IPv4 network

  The gate control request includes the IPv6 addresses of the first home gateway 31 and the second home gateway 32, and the port number and transport protocol for transmitting / receiving voice, video and file packets.

(S312) When receiving the gate control request, the second home gateway HGW2 analyzes the IPv6 address described in the SDP of the INVITE request received in S303. The lower 32 bits of the IPv6 address [1000: 123: 1000 :: c0a8: 64] are extracted. The extracted address [192.168.0.100] is recognized as the IPv4 address of the first home gateway HGW1. Then, the second home gateway HGW2 updates the route control table to establish the first session and the second session. Thereafter, the second home gateway HGW2 returns a gate control response to the session control server 10. Here, the route control table of the second home gateway HGW2 is set as shown in FIG. 6C, for example.

(S313) Similar to S311, the session control server 10 transmits a gate control request to the first home gateway HGW1 via the first access gateway AGW1.

(S314) Similar to S312, the first home gateway HGW1 returns a gate control response to the session control server 10 via the first access gateway AGW1.

(S315) The session control server 10 transmits a 200OK response to the first home gateway HGW1 via the first access gateway AGW1. Here, the first home gateway HGW1 extracts the lower 32 bits of the IPv6 address [2000: 234: 2000 :: a00: c8] described in the SDP of the 200OK response. The extracted address [10.0.0.200] is recognized as the IPv4 address of the second home gateway HGW2. Here, the route control table of the first home gateway HGW1 is set as shown in FIG. 6D, for example.

(S316) When the first home gateway HGW1 receives the 200OK response, the first home gateway HGW1 executes the application level gateway process, and then transmits the 200OK response to the first terminal UE1.

  In S301 to S316, the first session is selected for audio and video that require QoS guarantee, and the second session is selected for file that does not require QoS guarantee. Is done.

(S317) Thereafter, the first terminal UE1 and the second terminal UE2 communicate audio and video data packets via the IPv6 network, and communicate file data packets via the IPv4 network. In the access network between the home gateway HGW and the access gateway AGW, a secure tunnel is constructed.

  According to the first sequence of FIG. 3, by incorporating the IPv4 address of the home gateway HGW into the IPv6 network prefix, the home gateways HGW can know each other's IPv4 address. However, it is not preferable from the viewpoint of security to incorporate an IPv4 address even though it has not been determined whether or not to actually communicate directly between home gateways.

  Also, according to the first sequence in FIG. 3, a secure tunnel is configured by IPsec between the home gateway HGW and the access gateway AGW. However, the home gateways HGW are not secure and are not preferable from the viewpoint of security.

  In order to solve these problems, the second sequence will be described.

  FIG. 7 is a second sequence diagram in the present invention. In the following, only the sequence different from that in FIG. 3 will be described with reference to FIG.

(S702) When receiving the INVITE request, the first home gateway HGW1 executes processing of the application level gateway.

  FIG. 8 is a description of the SDP of the INVITE request in S702 of FIG.

  According to FIG. 8, the first home gateway HGW1 uses the logical sum [1000: 123: 1000 :: abcd] of the IPv6 network prefix and arbitrary 64 bits for identification as the IPv6 address. The first home gateway HGW1 includes a logical IPv6 address in the entire session portion of the SDP. According to FIG. 8, a media part for information exchange (application) is further added. Then, the first home gateway HGW1 transmits an INVITE request to the session control server 10 via the first access gateway AGW1.

(S704) When the second home gateway HGW2 receives the INVITE request, the second home gateway HGW2 executes an application level gateway process. Then, the second home gateway HGW2 deletes the media part for information exchange from the SDP of the INVITE request. Then, the second home gateway HGW2 transmits the INVITE request to the second terminal UE2 via the second home network.

(S706) When receiving the 200OK response, the second home gateway HGW2 executes the application level gateway process.

  FIG. 9 is an SDP description of the 200OK response in S706 of FIG.

  According to FIG. 9, the second home gateway HGW2 uses the logical sum [2000: 234: 2000 :: 1234] of the IPv6 network prefix and arbitrary 64 bits for identification as the IPv6 address. The second home gateway HGW2 includes a logical IPv6 address in the entire session portion of the SDP. According to FIG. 9, a media part for information exchange (application) is further added. Then, the second home gateway HGW2 transmits a 200OK response to the session control server 10 via the second access gateway AGW2.

(S707) The session control server 10 transmits a gate control request to the second access gateway AGW2. In the gate control request, gate control information for the first session is described. Here, as compared with FIG. 3 (S307), the first session includes not only audio and video but also information exchange (application).

(S708) After receiving the gate control request, the second access gateway AGW2 returns a gate control response to the session control server 10.

  FIG. 10 is a route control table of the home gateway and the access gateway in FIG. Here, the route control table of the second access gateway AGW2 is set as shown in FIG. 10A, for example.

(S710) Similar to S708, the first access gateway AGW1 returns a gate control response to the session control server 10. Here, the route control table of the first access gateway AGW1 is set as shown in FIG. 10B, for example.

(S711) The session control server 10 transmits a gate control request to the second home gateway HGW2 via the second access gateway AGW2. Compared to FIG. 3 (S311), the first session includes not only audio and video but also information exchange (application) in the gate control request.

(S712) After receiving the gate control request, the second home gateway HGW2 returns a gate control response to the session control server 10 via the second access gateway AGW2. Here, the route control table of the second home gateway HGW2 is set as shown in FIG. 10C, for example. Unlike S312 (FIG. 3), the second home gateway HGW2 does not know the IPv4 address of the first home gateway HGW1 in the step S712.

(S713) Similar to S711, the session control server 10 transmits a gate control request to the first home gateway HGW1 via the first access gateway AGW1.

(S714) Similar to S712, after receiving the gate control request, the first home gateway HGW1 returns a gate control response to the session control server 10 via the first access gateway AGW1. Unlike S314 (FIG. 3), the first home gateway HGW1 does not know the IPv4 address of the second home gateway HGW2 in the stage of S714.

(S715) The session control server 10 transmits a 200OK response to the first home gateway HGW1 via the first access gateway AGW1. Here, the route control table of the first home gateway HGW1 is set as shown in FIG. 10D, for example.

(S716) The first home gateway HGW1 sends its IPv4 address [192.168.0.100] and DH (Diffie-Hellman) information to the second home gateway AGW2 via the first access gateway AGW1 and the second access gateway AGW2. Send to home gateway HGW2. Thereby, the second home gateway HGW2 knows the IPv4 address of the first home gateway HGW1.

  On the other hand, the second home gateway HGW2 sends its own IPv4 address [10.0.0.200] and DH (Diffie-Hellman) information to the first access gateway AGW1 and the second access gateway AGW2. To the home gateway HGW1. Thereby, the first home gateway HGW1 knows the IPv4 address of the second home gateway HGW2. A common key is acquired from the DH information.

(S717) A secure path by IPsec is established between the first home gateway HGW1 and the second home gateway HGW2 using IKEv2. As the mutual authentication information required by IKEv2, the shared key generated in S716 is used.

(S718) The first home gateway HGW1 transmits a 200OK response to the first terminal UE1.

(S719) Thereafter, the first terminal UE1 and the second terminal UE2 communicate audio and video data packets via the IPv6 network, and communicate file data packets via the IPv4 network. A secure tunnel is constructed in the access network between the first home gateway HGW1 and the second home gateway HGW2.

  FIG. 11 is a functional configuration diagram of the session control server and the home gateway according to the present invention.

  The session control server 10 is connected to the core network and includes a session control unit 101, a route determination unit 102, and a gate control unit 103. These functional components are realized by executing a program that causes a computer mounted on the session control server to function.

  The session control unit 101 transmits the session establishment request received from the first home gateway HGW1 to the second home gateway HGW2 via the second access gateway AGW2. The session establishment response received from the second home gateway HGW2 is transmitted to the first home gateway HGW1 via the first access gateway AGW1.

The route determination unit 102 determines to establish the following two sessions for the requested session according to the media type.
(First session) Connected between the first access gateway AGW1 and the second access gateway AGW2 via the IPv6 network (second session) between the first home gateway HGW1 and the second home gateway HGW2 Connect via IPv4 network

  The media type is preferably the flow type in the session, the establishment time, or the domain or subscription service type of the source terminal and the destination terminal. For example, the second session to be connected via the IPv4 network can be selected according to the establishment time.

  The gate control unit 103 transmits a gate control request for establishing a first session to both the first access gateway AGW1 and the second access gateway AGW2. In addition, a gate control request for establishing the first session and the second session is transmitted to both the first home gateway HGW1 and the second home gateway HGW2.

  The home gateway 3 is connected between the home network and the access network. The media data relay transfer unit 301, the secure path communication unit 302, the path control table 303, the gate request control unit 304, and a session control unit (session) An establishment request transmission unit 305, a session establishment request reception unit 306, a session establishment response reception unit 307, a session establishment response transmission unit 308), and an application level gateway processing unit 309. These functional components excluding the interface unit are realized by executing a program that causes a computer mounted on the home gateway 3 to function.

  The media data relay transfer unit 301 transfers the media data to either the first session or the second session according to the path control table 303.

  The session establishment request transmission unit 305 transmits the session establishment request received from the first terminal UE1 to the session control server 10 via the first access gateway. Here, the session establishment request transmission unit 305 has two methods for notifying the counterpart home gateway of the IPv4 address. In the first method, an IPv6 address consisting of a logical sum of an IPv6 network prefix assigned from the first access gateway and an IPv4 address assigned to the external interface of the first home gateway in the session establishment request to be transmitted. Are included in the entire session of the SDP. Further, in the second method, a media part for “information exchange” is included in the SDP in the session establishment request transmitted by the first home gateway. Thus, the IPv4 address is notified through the generated information exchange path.

  When the session establishment response reception unit 307 receives a session establishment response from the session control server 10 via the first access gateway AGW1, the session establishment response reception unit 307 updates the routing control table 303 for the first session and the second session, An establishment response is transmitted to the first terminal UE1.

  The session establishment request receiving unit 306 transmits the session establishment request received from the session control server 10 via the second access gateway AGW2 to the second terminal UE2.

Session establishment response transmitting unit 308, when receiving the second terminal UE2 or racemate cushion establishment response, the session establishment response via the second access gateway AGW2 sends to the session control server 10.

  In the secure path communication unit 302, the first home gateway and the second home gateway exchange the IPv4 address assigned to the external interface with each other via the established “information exchange” media session. In addition, the secure path communication unit 302 secures the second session between the first home gateway and the home gateway 2 connected via the non-core network by IPsec.

  As described above in detail, according to the session establishment method and system of the present invention, media type traffic that requires QoS guarantee is communicated via the access gateway AGW, and media type that does not require QoS guarantee. Traffic can be directly communicated between the home gateways HGW.

  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.

DESCRIPTION OF SYMBOLS 10 Session control server 101 Session control part 102 Path | route determination part 103 Gate control part 21 1st access gateway 22 2nd access gateway 31 1st home gateway 32 2nd home gateway 301 Media data relay transfer part 302 Secure path communication Unit 303 route control table 304 gate request control unit 305 session establishment request transmission unit 306 session establishment request reception unit 307 session establishment response reception unit 308 session establishment response unit 309 application level gateway processing unit 41 first terminal 42 second terminal

Claims (10)

A session control server connected to the core network;
One or more access gateways connected between the core network and the access network;
A first home gateway connected between the access network and a first home network;
A first terminal connected to a first home network;
A second home gateway connected between the access network and a second home network;
A second terminal connected to a second home network,
A method for establishing a session in a system in which a first home gateway and a second home gateway are interconnected via a non-core network via the access network,
A first step in which a first home gateway transmits a session establishment request received from a first terminal to the session control server via the access gateway;
The session control server is connected to the first session connected via the core gateway via the access gateway and the second session connected via the non-core network according to the media type in the session establishment request. A second step of transmitting the session establishment request to the second home gateway via the access gateway;
A third step in which a second home gateway sends the session establishment request to a second terminal;
A fourth step in which the second home gateway transmits the session establishment response received from the second terminal to the session control server via the access gateway;
A fifth step in which the session control server sends a gate control request to establish a first session to the access gateway, and the access gateway updates a routing table;
A sixth step in which the session control server sends a gate control request to establish a second session to the second home gateway, and the second home gateway updates the routing table;
A seventh step in which the session control server sends a gate control request to establish a second session to the first home gateway;
An eighth step in which the session control server sends the session establishment response to the first home gateway via the access gateway;
And a ninth home step, wherein the first home gateway updates a routing table for the second session and transmits the session establishment response to the first terminal. The core network is an IPv6 network;
The non-core network is an IPv4 network;
For the first step,
The session establishment request transmitted by the first home gateway includes a logical sum of the IPv6 network prefix assigned from the first access gateway and the IPv4 address assigned to the external interface of the first home gateway. 2. The session establishment method according to claim 1, wherein the IPv6 address is included in a media part of SDP (Specification Description Protocol). For the first step, the session establishment request sent by the first home gateway includes a media part for “information exchange” in addition to the SDP,
The address given to the external interface of the second home gateway is set to the first home gateway through the “information exchange” media session established between the first home gateway and the second home gateway. The session establishing method according to claim 1, further comprising a tenth step of transmitting to the session.   The method further comprises an eleventh step of securing a second session between the first home gateway and the second home gateway connected via the non-core network by IPsec. 4. The session establishment method according to 3.   The session establishment according to any one of claims 1 to 4, wherein the media type is a flow type in a session, an establishment time, or a domain or a subscription service type of a source terminal and a destination terminal. Method. A session control server connected to the core network;
One or more access gateways connected between the core network and the access network;
A first home gateway connected between the access network and a first home network;
A first terminal connected to a first home network;
A second home gateway connected between the access network and a second home network;
A second terminal connected to a second home network,
A system in which a first home gateway and a second home gateway are interconnected via a non-core network via the access network;
The session control server
Depending on the media type in the session establishment request received from the first home gateway, the first session to be connected via the core network through the access gateway, connected via the non-core network Route determining means for determining to establish a second session with;
The session establishment request received from the first home gateway is transmitted to the second home gateway via the access gateway, and the session establishment response received from the second home gateway is transmitted to the first home gateway via the access gateway. Session control means for transmitting to the home gateway of
Gate control means for transmitting a gate control request for establishing a first session to the access gateway and transmitting a gate control request for establishing a second session to the second home gateway and the first home gateway And
The first home gateway is
Session establishment request transmission means for transmitting the session establishment request received from the first terminal to the session control server via the access gateway;
Session establishment response receiving means for updating a route control table for a second session and transmitting the session establishment response to the first terminal when a session establishment response is received from the session control server via the access gateway; Have
The second home gateway is
Session establishment request receiving means for transmitting a session establishment request received from the session control server via the access gateway to a second terminal;
When receiving a session establishment response received from the second terminal, and a session establishment response transmitting means for transmitting a pre-Symbol session establishment response to the session control server via said access gateway,
A gate that updates a routing control table for a second session and transmits a gate control response to the session control server via the access gateway when a gate control request is received from the session control server via the access gateway. And a request control means . The core network is an IPv6 network;
The non-core network is an IPv4 network;
The session establishment request transmitting means of the first home gateway includes an IPv6 network prefix assigned from the first access gateway and an IPv4 address assigned to the external interface of the first home gateway in the session establishment request to be transmitted. The system according to claim 6, wherein an IPv6 address consisting of a logical sum of and an SDP is included in an entire session of SDP. The session establishment request transmission means of the first home gateway includes a media part for “information exchange” in the SDP in the session establishment request transmitted by the first home gateway,
The first home gateway and the second home gateway further include secure path communication means for exchanging addresses given to the external interface with each other through an established “information exchange” media session. The system according to claim 6. The secure path communication means, wherein the second session between the first home gateway connected via a non-core network and the home gateway 2, claim 8, characterized in that the secure by IPsec The system described in.   The system according to any one of claims 6 to 9, wherein the media type is a flow type in a session, an establishment time, or a domain or a subscription service type of a transmission source terminal and a reception source terminal.

Images