KR101478278B1 - Method and system for supporting Proxy Mobile Internet Protocol version 6 in wireless communication network - Google Patents

Abstract

The present invention relates to a method and system for supporting PMIPv6 (Proxy Mobile Internet Protocol version 6) in a wireless communication network.

A system supporting PMIPv6 in a wireless communication network according to the present invention is a system for supporting an IPv6 (Internet Protocol version 6) packet having a HoA (Home of Address) of a terminal as a destination address, A home agent for routing the IPv6 packet to a CoA of a terminal; And a gateway having an IPv6 address identical to the CoA of the terminal and routing the IPv6 packet transmitted from the home agent to the terminal matched with the prefix of the destination address.

Description

[0001] The present invention relates to a method and system for supporting PMIPv6 in a wireless communication network,

The present invention relates to a method and system for supporting PMIPv6 (Proxy Mobile Internet Protocol version 6) in a wireless communication network, and more particularly, to a method and system for supporting PMIPv6 in a wireless communication network by performing connection setup, And a method and system for performing procedures such as handover, session termination, and the like.

The MIPv6 (Mobile Internet Protocol version 6) is an international standard protocol for IPv6 (Internet Protocol version 6) layer mobility support, which is a technology established by the MIPv6 Working Group of the Internet Engineering Task Force (IETF). The MIPv6 binds a home address (HoA) of the UE with a care of address (CoA) generated in the mobile network and transmits the Home Agent , Hereinafter referred to as " HA ") to support mobility through a binary address system. Hereinafter, MIPv6 technology according to the prior art will be described as a representative case of such mobility support as an example of handover.

1 is a diagram illustrating a structure of a wireless communication network, in particular, a structure of a portable Internet network.

1, the portable Internet network includes a portable subscriber station (MS) 10, a radio access station / BS (RAS) 10, a base station (RAS) (ACRs) 30a and 30b for controlling the terminal 10 and the base stations 20a, 21a, 20b and 21b and for routing IP packets, An HA (Home Agent) 40 for supporting IP mobility of the terminal, and an Authentication, Authorization and Accounting (AAA) server (not shown) for performing authentication, authorization verification and accounting for terminals and terminal users, An IP network of an individual business entity connected to the control stations 30a and 30b, the HA 40 and the AAA server is connected to a public IP network to provide the portable Internet service to the terminal 10. [

2 is a flowchart illustrating a method of providing a MIPv6 service in a portable Internet network with reference to FIG. For reference, a plurality of subnets may exist, but it is assumed that the first and second subnets exist for convenience of explanation.

Referring to FIG. 2, steps S102 to S110 illustrate a process of establishing a first subnet and a session by the terminal 10 having the MIPv6 client installed therein. 2 subnet and handover is performed, and steps S114 to S122 show a process of newly setting a new subnet, i.e., a second subnet and session, Hereinafter, this will be described in more detail.

First, the terminal 10 is assigned a HoA (Home of Address) from a home agent (HA) 40 on a home network when the first network enters the network. When the terminal 10 allocated the HoA enters the first subnet, the terminal 10 transmits a network entry procedure based on the IEEE 802.16e to the control station 30a via the base station 20a And obtains an IPv6 address to be used as a Care of Address (CoA) (S102 - S106). Then, the terminal 10 performs the CMIPv6 (Client MIPv6) registration procedure to the HA 40 using the CoA and the HoA, and then communicates with the CN (Corresponding Node) 50 (S108-S110 ).

Meanwhile, when the terminal 10 moves to the second subnet during communication with the correspondent node 50, the handover between the base station 20a of the first subnet and the base station 20b of the second subnet is performed (S112) , So the terminal 10 must perform a procedure for obtaining a new IPv6 address from the control station 30b of the second subnet. That is, after performing the network entry procedure based on the IEEE 802.16e with the control station 30b via the base station 20b, an IPv6 address to be used as a new Care of Address (CoA) is obtained (S114-S118). Next, the terminal 10 performs a CMIPv6 (Client MIPv6) registration procedure to the HA 40 using the newly obtained CoA and the existing HoA, and then communicates with the counterpart node in the second subnet (S120-S122 ).

At this time, as described above, the terminal 10 equipped with the MIPv6 client must recognize that the subnet is changed every time a handover occurs, obtain a new IPv6 address (temporary address) used as the CoA, There is a problem that data is lost for a predetermined time (about 2 seconds to 4 seconds) because a process of registering with a HA 40 using a CoA and an existing HoA must be performed.

In particular, in the case of a terminal having no MIPv6 function, a base station located in a different subnet must terminate the session using the existing address at the time of handover and create a new session with the new address. Therefore, Protocol) session and video call are all disconnected.

In order to solve these problems, a discussion has been made at the WiMAX standardization conference to provide a MIPv6 (Mobile IPv6) client at a provider side. Specific connection setup, session renewal, handover, Session termination, etc. are required.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems or needs, and it is an object of the present invention to provide a method and system for supporting PMIPv6 in a wireless communication network.

It is another object of the present invention to provide a method and system for performing procedures such as connection setup, session update, handover, and session termination for PMIPv6 support.

In order to achieve the above object, a method for supporting PMIPv6 in a wireless communication network according to an aspect of the present invention includes: receiving an address of a home agent from an AAA (Authentication, Authorization, Accounting) Of Home Network Prefix (HNP); Requesting a proxy binding update using the HNP to a home agent corresponding to the home agent address; And transmitting a Router Advertisement message including the HNP according to an acknowledgment of the proxy binding update from the home agent.

A method of supporting PMIPv6 in a wireless communication network according to another embodiment of the present invention includes receiving a home agent from an AAA (Authentication, Authorization, Accounting) server in a network entry and authentication process of a terminal; Requesting a proxy binding update to a home agent corresponding to the home agent address; And transmitting, from the home agent, a Router Advertisement message including the HNP according to an acknowledgment of the proxy binding update including a Home Network Prefix (HNP) of the terminal. .

Meanwhile, in a system supporting PMIPv6 in a wireless communication network according to an embodiment of the present invention, an IPv6 (Internet Protocol version 6) packet having a HoA (home address) of a terminal as a destination address is prefixed with a prefix A home agent for routing the IPv6 packet to a care of address (CoA) of the terminal matched with the home agent; And a gateway having an IPv6 address identical to the CoA of the terminal and routing the IPv6 packet transmitted from the home agent to the terminal matched with the prefix of the destination address.

According to the present invention, by installing the PMIPv6 client (Proxy MIPv6 Client) on the service provider side (e.g., the control station and the gateway), it is possible to provide the MIPv6 service even to the terminal without the MIPv6 function, There is no need to perform MIPv6-related procedures, and it is possible to provide a seamless service without packet loss or seamlessness.

According to the present invention, procedures such as connection setup, session update, handover, and session termination for PMIPv6 support can be efficiently implemented.

In addition, according to the present invention, only a 64-bit prefix of a destination address is checked in a home agent, a router, or a gateway for an IPv6 packet transmitted from a correspondent node (CN) So that the routing can be efficiently performed.

In addition, according to the present invention, the AAA server designates an HA to perform a proxy binding update for the terminal, thereby controlling the load balance of the HA.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments. In the following description, a detailed description of known functions and configurations that may unnecessarily obscure the gist of the present invention will be omitted, and a technology for mounting a PMIPv6 client in a control station or the like in place of the terminal, Refer to Application No. 10-2007-0079063, entitled " Method and Apparatus for Supporting MIPv6 Services in a Wireless Communication Network, "

3 is a flowchart of a method for supporting PMIPv6 in a wireless communication network according to the first embodiment of the present invention. For reference, the first embodiment of the present invention illustrates a PMIPv6 connection setup process using an automatic address allocation scheme.

3, a system supporting PMIPv6 in a wireless communication network according to the first embodiment of the present invention includes a terminal 10, a base station 20, an Anchored Data Pass Function (A-DPF) 35, a DHCPv6 (Dynamic Host Configuration Protocol version) 37, a MAG (Mobility Access Gateway) 39, an AAA (Authentication Authorization) Accounting 45, a Home Agent version 6 (HAv6), a Localized Mobility Anchor ) And the like.

First, in step S202, the terminal 10 performs a network entry procedure, an initial authentication procedure, and the like in cooperation with the base station 20, the MAG 39, the AAA 45, and the like. In the initial authentication procedure, the AAA 45 downloads the subscriber profile information to the MAG 39. In this embodiment, the terminal profile information includes the IPv6 address of the HAv6 / LMA 40 . That is, in this embodiment, the AAA 45 designates the HAv6 / LMA 40 supporting the mobility of the UE 10 by providing the IPv6 address of the HAv6 / LMA 40 corresponding to the UE 10, The AAA 45 can control the load balance with respect to the plurality of HAv6 / LMAs 40. [ In addition, the terminal profile information may optionally include an HNP (Home Network Prefix) which is a prefix of an IPv6 address to be used as a HoA (Home of Address) of the terminal. The HNP may be unique in each subnet, Lt; / RTI >

When the network entry and authentication procedure is completed, an ISF (Initial) message for the IPv6 CS (Convergence Sublayer) is transmitted between the terminal 10 and the A-DPF 35 using the link local address of the terminal in step S204. Service Flow) is formed, whereby the terminal 10 and the A-DPF 35 can transmit and receive IPv6 packets on the IPv6 CS.

In step S206, the A-DPF 35 transmits a Proxy Binding Update Request message to the MAG 39. In step S208, the MAG 39 transmits a Proxy Binding Update Request message to the HAv6 / (Proxy Binding Update) message. The HAv6 / LMA 40 is assigned to the terminal profile information downloaded from the AAA 45 by the MAG 39 in the initial authentication process and the MAG 39 transmits the terminal profile information to the HNP Network Prefix) is included in the proxy binding update message, the proxy binding update message is transmitted.

After receiving the proxy binding update message, in step S210, the HAv6 / LMA 40 transmits a RADIUS (Remote Authentication Dial-In User Service) Access-Request message or DIAMETER DER message to the AAA 45, For example. In step S212, the AAA 45 transmits a RADIUS Access-Accept message or a DIAMETER DEA message to the HAv6 / LMA 40. The HAv6 / LMA 40 receives the RADIUS Access- Lt; / RTI > The location update of the MS matches the HNP (Home Network Prefix) assigned to the MS and the IPv6 address (which is the Care of address of the MS) of the MAG 39 and transmits the mobility binding of the HAv6 / LMA 40 (Proxy Binding Update) by registering in the Mobility Binding Entity. The HAv6 / LMA 40 then creates a tunnel for the MAG 39 and transmits a packet with the HNP of the terminal to the MAG 39 via the tunnel. For reference, if there is no HNP of the terminal in the proxy binding message transmitted from the MAG 39, the HAv6 / LMA 40 can allocate the HNP of the terminal itself.

In step S214, the HAv6 / LMA 40 transmits a proxy binding acknowledgment (ACK) message to the MAG 39, and the proxy binding ACK message includes the HNP of the terminal 10 at this time. Then, the MAG 39 creates a tunnel through which the packet transmitted from the terminal can be transmitted to the HAv 6 / LMA 40. The tunnel between the HAv6 / LMA 40 and the MAG 39 is for relaying the IPv6 packet transmission / reception between the terminal 10 and the correspondent node (CN) 50 in MIPv6. -in-IP, and GRE (Generic Routing Encapsulation).

4 is a diagram illustrating the structure of an IPv6 packet transmitted from a correspondent node (CN) 50 to the AT 10. In the present invention, the HAv 6 / To the corresponding MAG 39 using only the HNP (64 bits) of the terminal with respect to the IPv6 packet having the HoA (128 bits) of the destination address as the destination address. In other words, since the HNP (Home Network Prefix) of the terminal is uniquely allocated in the subnet, the HAv6 / LMA 40 only checks the upper 64 bits corresponding to the HNP among the destination addresses of the IPv6 packet, The amount of data throughput (computation amount) can be reduced.

Upon receiving the proxy-binding ACK message from the HAv6 / LMA 40, the MAG 39 transmits a Proxy Binding Acknowledgment Response message to the A-DPF 35 in step S216. In step S218, the A-DPF 35 transmits a Router Advertisement message to the terminal 10 through the base station 20. The router advertisement message includes a Home Network Prefix (HNP) of the terminal 10 ). In addition, the router advertisement message may include a flag for designating an address acquisition mode of the terminal.

If the address acquisition method of the terminal is set to Auto-configuration through DAD (for example, Flag == 0), in step S220, the terminal 10 transmits the router advertisement message A global IPv6 address (i.e., HoA (Home of Address)) of the UE is generated using a home network prefix (HNP) and an interface identifier (IID) of the UE. For reference, FIG. 5 illustrates generation of an interface ID (IID) of a terminal of 64 bits using a MAC address of a terminal of 48 bits.

The terminal 10 transmits a NS (Neighbor Solicit) message to the A-DPF 35 and transmits the NS address to the A-DPF 35 for a predetermined time (i.e., a time when the terminal uses the address) The terminal 10 uses it as the global IPv6 address of the terminal.

The A-DPF 35 adds a new CS (Convergence Sublayer) rule to the ISF (Initial Service Flow) for the newly allocated IPv6 prefix in step S222, .

6 is a flowchart of a method for supporting PMIPv6 in a wireless communication network according to a second embodiment of the present invention. For reference, the second embodiment of the present invention illustrates a PMIPv6 connection setup process using Dynamic Host Configuration Protocol version 6 (DHCPv6).

Referring to FIG. 6, the process of steps S302 to S318 of the second embodiment of the present invention is substantially the same as the process of steps S202 to S218 of the first embodiment described above, which will be briefly described below.

In step S302, the terminal 10 performs a network entry procedure, an initial authentication procedure, and the like in cooperation with the base station 20, the MAG 39, the AAA 45, and the like. In the initial authentication procedure, the MAG 39 downloads the subscriber profile information including the IPv6 address of the HAv 6 / LMA 40 from the AAA 45. For reference, the terminal profile information may include an HNP (Home Network Prefix) of the UE 10. [

When the network entry and authentication procedure is completed, in step S304, ISF (Initial) for the IPv6 CS (Convergence Sublayer) is established between the terminal 10 and the A-DPF 35 using the link local address of the terminal Service Flow).

In step S306, the A-DPF 35 transmits a Proxy Binding Update Request message to the MAG 39. In step S308, the MAG 39 transmits a Proxy Binding Update Request message to the HAv6 / And transmits a Proxy Binding Update message.

In step S310, the HAv6 / LMA 40 requests authentication to the MAG 39 by transmitting a RADIUS (Remote Authentication Dial-In User Service) Access-Request message or DIAMETER DER message to the AAA 45, The AAA 45 transmits a RADIUS Access-Accept message or a DIAMETER DEA message to the HAv6 / LMA 40 in response. The HAv6 / LMA 40 matches the HNP (Home Network Prefix) of the UE with the IPv6 address (which is the CoA of the UE) of the MAG 39 and transmits the mobility Binding Entity ) To perform a proxy binding update. The HAv6 / LMA 40 then creates a tunnel for the MAG 39 and transmits a packet with the HNP of the terminal to the MAG 39 via the tunnel.

Meanwhile, in step S314, the HAv6 / LMA 40 transmits a proxy binding ACK message to the MAG 39, and at this time, the proxy binding ACK message includes the HNP of the terminal 10. [ Then, the MAG 39 creates a tunnel through which the packet transmitted from the terminal can be transmitted to the HAv 6 / LMA 40.

Thereafter, in step S316, the MAG 39 transmits a Proxy Binding Acknowledge Response message to the A-DPF 35. In step S318, the A-DPF 35 transmits a Proxy Binding Acknowledge Response message to the A- And a Router Advertisement message including a HNP of the terminal to the terminal 10 through the base station 20. [

In step S320, the terminal 10 issues a DHCPv6 solicitation to the DHCPv6 37 when the address acquisition method of the terminal is set to receive the dynamic IPv6 address from the DHCPv6 37 (e.g., Flag == 1) Start the DHCPv6 process by sending a message.

When the DHCPv6 37 receives the DHCPv6 solicitation message from the terminal 10, in step S322, the DHCPv6 37 allocates a 128-bit HoA (home address) for the terminal (including the HNP of the terminal) (Advertisement) message. In this case, if the DHCPv6 37 is a DHCPv6 proxy, an IPv6 address is allocated according to a local policy. If the DHCPv6 37 is a DHCPv6 relay, the IPv6 address is assigned in cooperation with a remote DHCPv6 server do.

In step S324, the terminal 10 transmits a DHCPv6 request message to the DHCPv6 37. In step S328, the DHCPv6 37 transmits a DHCPv6 response message to the terminal 10, The HoA assignment procedure of the UE is completed.

When the IPv6 address assignment process is completed, the A-DPF 35 modifies the ISF path by adding a new CS (Convergence Sublayer) rule to the ISF (Initial Service Flow) in step S330.

7 is a flowchart of a method of supporting PMIPv6 in a wireless communication network according to a third embodiment of the present invention. For reference, the third embodiment of the present invention illustrates a PMIPv6 connection setup process using an automatic address allocation scheme.

7, a system supporting PMIPv6 in a wireless communication network according to the third embodiment of the present invention includes a terminal 10, a base station 20, an AR (Access Router) / MAG (Mobility Access Gateway) 36 (AAA) 45, Home Agent version 6 (HAv6), Localized Mobility Anchor (LMA) 40, and the like.

First, in step S402, the terminal 10 communicates with the base station 20, the AR / MAG 36, the AAA 45, and the like to perform a network entry procedure, an initial authentication procedure, . In the initial authentication procedure, the AAA 45 downloads the subscriber profile information for the PMIPv6 service to the AR / MAG 36. In this embodiment, the terminal profile information includes the HAv6 / LMA 40 ) ≪ / RTI > That is, in this embodiment, the AAA 45 designates the HAv6 / LMA 40 supporting the mobility of the UE 10 by providing the IPv6 address of the HAv6 / LMA 40 corresponding to the UE 10, The AAA 45 can control the load balance with respect to the plurality of HAv6 / LMAs 40. [ The terminal profile information may optionally include a home network prefix (HNP), which is a prefix of an IPv6 address to be used as a HoA (Home of Address) of the terminal. The HNP may be unique in each subnet, Lt; / RTI > If the DHCPv6 server address is included, the ASN (Access Service Network) provides the DHCPv6 relay function. If the DHCPv6 server address is not included, the ASN transmits the DHCPv6 server address, Proxy function is provided.

When the network entry and authentication procedure is completed, the AR / MAG 36 transmits a Proxy Binding Update message to the HAv6 / LMA 40 in step S404. For reference, the HAv6 / LMA 40 is assigned to the terminal profile information downloaded from the AAA 45 by the AR / MAG 36 in the initial authentication procedure, and the AR / If the HNP of the proxy binding update message is included in the proxy binding update message.

After receiving the proxy binding update message, in step S406, the HAv6 / LMA 40 transmits the RADIUS (Authentication Dial-In User Service) message or the DIAMETER MAR message to the AAA 45, 36). In step S408, the AAA 45 transmits a RADIUS Access-Accept message or a DIAMETER MAA message to the HAv6 / LMA 40 in response to the response, and the HAv6 / LMA 40, Lt; / RTI > The location update of the MS matches the HNP (Home Network Prefix) allocated to the MS and the IPv6 address (which is the CoA of the MS) of the AR / MAG 36 and transmits the mobility binding entity of the HAv6 / LMA 40 Binding Entity) to perform a Proxy Binding Update. The HAv6 / LMA 40 generates a tunnel for the AR / MAG 36 and transmits a packet having the HNP of the terminal to the AR / MAG 36 through the tunnel do. For reference, if there is no HNP of the terminal in the proxy binding update message transmitted from the AR / MAG 36, the HAv6 / LMA 40 may allocate the HNP of the terminal itself.

In step S410, the HAv6 / LMA 40 transmits a Proxy Binding Acknowledge (ACK) message to the AR / MAG 36, where the HNP of the UE 10 is included in the Proxy Binding Ack message . Then, the AR / MAG 36 creates a tunnel through which the packet transmitted from the terminal can be transmitted to the HAv6 / LMA 40. [ The tunnel between the HAv6 / LMA 40 and the AR / MAG 36 is for relaying IPv6 packet transmission / reception between the UE 10 and the CN (Corresponding Node) 50 in MIPv6. It can use IP-in-IP and Generic Routing Encapsulation (GRE).

When the network entry and authentication procedure and the registration procedure are successfully completed as described above, in step S412, the SFA (Service Flow Authorization) of the ASN uses the link local address of the terminal, / MAG 36 to form an ISF (Initial Service Flow) for an IPv6 CS (Convergence Sublayer).

Then, in step S414, the UE 10 configures a link local address and performs a Duplicate Address Detection (DAD) process. Then, in step S416, the terminal 10 sends a Router Solicit message to the AR / MAG 36 to know the available routers on the link.

In step S418, the AR / MAG 36 transmits a Router Advertisement message to the terminal 10 through the base station 20. The router advertisement message includes a Home Network Prefix (HNP) of the terminal 10 ). In addition, the router advertisement message may include a flag for designating an address acquisition mode of the terminal.

If the address acquisition method of the terminal is set to Auto-configuration through DAD (for example, Flag == 0), in step S420, the terminal 10 transmits the router advertisement message A global IPv6 address (i.e., HoA (Home of Address)) of the UE is generated using a home network prefix (HNP) and an interface identifier (IID) of the UE.

8 is a flowchart of a method of supporting PMIPv6 in a wireless communication network according to a fourth embodiment of the present invention. For reference, the fourth embodiment of the present invention illustrates a PMIPv6 connection setup process using Dynamic Host Configuration Protocol version 6 (DHCPv6).

8, a system supporting PMIPv6 in a wireless communication network according to the fourth embodiment of the present invention includes a terminal 10, a base station 20, an AR (Access Router) / MAG (Mobility Access Gateway) 36 (Dynamic Host Configuration Protocol version 6) Proxy / Relay 37, AAA (Authentication, Authorization, Accounting) 45, DHCPv6 server 47, HAv6 (Home Agent version 6) LMA (Localized Mobility Anchor) 40, and the like.

Referring to FIG. 8, the process of steps S502 to S518 of the fourth embodiment of the present invention is substantially the same as the process of steps S402 to S418 of the third embodiment, which will be briefly described below.

In step S502, the terminal 10 performs a network entry procedure, an initial authentication procedure, and the like in cooperation with the base station 20, the AR / MAG 36, the AAA 45, and the like. In the initial authentication procedure, the AR / MAG 36 downloads subscriber profile information including the IPv6 address of the HAv 6 / LMA 40 from the AAA 45. For reference, the terminal profile information may include an HNP (Home Network Prefix) of the UE 10. [

When the network entry and authentication procedure is completed, the AR / MAG 36 transmits a Proxy Binding Update message to the HAv6 / LMA 40 in step S504.

Then, in step S506, the HAv6 / LMA 40 requests authentication to the AR / MAG 36 by transmitting a RADIUS Access-Request message or DIAMETER MAR message to the AAA 45, and in step S508, the AAA 45 Transmits a RADIUS Access-Accept message or a DIAMETER MAA message to the HAv6 / LMA 40 in response to this. The HAv6 / LMA 40 matches the HNP (Home Network Prefix) of the UE with the IPv6 address (which is the CoA of the UE) of the AR / MAG 36 and transmits the mobility binding entity of the HAv6 / LMA 40 Binding Entity) to perform a Proxy Binding Update. The HAv6 / LMA 40 generates a tunnel for the AR / MAG 36 and transmits a packet having the HNP of the terminal to the AR / MAG 36 through the tunnel do.

Meanwhile, in step S510, the HAv6 / LMA 40 transmits a proxy binding ACK message to the AR / MAG 36, and the proxy binding ACK message includes the HNP of the terminal 10 . Then, the AR / MAG 36 creates a tunnel through which the packet transmitted from the terminal can be transmitted to the HAv 6 / LMA 40.

When the network entry and authentication procedure and the registration procedure are successfully completed as described above, in step S512, the SFA (Service Flow Authorization) of the ASN uses the link local address of the terminal, / MAG 36 to form an ISF (Initial Service Flow) for an IPv6 CS (Convergence Sublayer).

Then, in step S514, the UE 10 configures a link-local address and performs a Duplicate Address Detection (DAD) process. In step S516, the UE 10 performs router solicitation Router Solicit) message to the AR / MAG 36.

Then, in step S518, the AR / MAG 36 transmits a Router Advertisement message to the terminal 10, which includes a Home Network Prefix (HNP) of the terminal 10. In addition, the router advertisement message may include a flag for designating an address acquisition mode of the terminal.

If the address acquisition method of the terminal is set to receive a dynamic IPv6 address from the DHCPv6 proxy or the server (e.g., Flag == 1), in step S520, the terminal 10 transmits a DHCPv6 proxy / (DHCPv6 Solicit) message to initiate the DHCPv6 process. In this case, if the terminal profile information transmitted in step S502 does not include the DHCPv6 server address, the DHCPv6 proxy 37 provides the DHCPv6 proxy function according to the local policy, The DHCPv6 relay 37 transmits the DHCPv6 inquiry message to the corresponding DHCPv6 server 47. [

If the terminal profile information does not include the DHCPv6 server address (that is, the DHCPv6 proxy), the DHCPv6 proxy 37 determines in step S522 that a home address of 128 bits (HoA) Of HNP) and transmits a DHCPv6 Advertisement message. In step S524, the UE 10 transmits a DHCPv6 Request message to the DHCPv6 proxy 37. In step S528, the DHCPv6 proxy 37 transmits a DHCPv6 Reply message to the UE 10, The HoA assignment process of the UE is completed. On the other hand, when there is a DHCPv6 server address in the terminal profile information (i.e., in the case of DHCPv6 relay), the DHCPv6 server 47 allocates the HoA to the terminal and the DHCPv6 relay 37 transmits the HoA to the terminal 10 and the DHCPv6 server 47).

9 is a flowchart of a method of supporting PMIPv6 in a wireless communication network according to a fifth embodiment of the present invention. For reference, the fifth embodiment of the present invention illustrates a process of renewing the PMIPv6 life time.

Referring to FIG. 9, in step S602, the AR / MAG 36 determines the remaining time for each PMIPv6 session (Session) and determines whether a threshold of a predetermined validity time is reached.

If the remaining time of the specific PMIPv6 session is short, in step S604, the AR / MAG 36 transmits a Proxy Binding Update message including a new valid time to extend the specific PMIPv6 session To the HAv6 / LMA (40).

Then, in step S606, the HAv6 / LMA 40 extends the corresponding PMIPv6 session to a new valid time and transmits a Proxy Binding Acknowledge (ACK) message to the AR / MAG 36. [

Upon receiving the proxy binding ACK message from the HAv6 / LMA 40, in step S608, the AR / MAG 36 applies a new validity time for the corresponding PMIPv6 session.

10 is a flowchart of a method for supporting PMIPv6 in a wireless communication network according to a sixth embodiment of the present invention. For reference, the sixth embodiment of the present invention illustrates a process (PMIPv6 CSN Anchored Mobility) in which a mobile station moves from a first subnet ASN (a) to a second subnet ASN (b) will be.

First, in step S702, the terminal 10 transmits a Router Solicit message to know a router available on the link. In step S704, the new AR / MAG 35b in the second subnet that received the router solicitation message transmits an anchor DPF HO trigger message to the previous AR / MAG 35a in the first subnet Lt; RTI ID = 0.0 > R3 < / RTI > Then, in step S706, the AR / MAG 35a of the first subnet transmits an anchor DPF HO Request message to the AR / MAG 35b of the second subnet. For reference, the above-described steps S702 to S706 are cases in which the new serving AR / MAG 35b triggers, and steps S702 and S704 are omitted if the previous AR / MAG 35a attempts an R3 relocation procedure.

In step S708, the new serving AR / MAG 35b sends a Proxy Binding Update message to the HAv6 / LMA 40. [ The HAv6 / LMA 40 then transmits a care of address (CoA) for the corresponding terminal 10 from the AR / MAG 35a IPv6 address of the first subnet to the AR of the second subnet in the Mobility Binding Entity / MAG (35b) IPv6 address to perform proxy binding update. In step S710, the HAv6 / LMA 40 transmits a Proxy Binding Acknowledge (ACK) message to the AR / MAG 35b of the second subnet, and transmits a Proxy Binding Acknowledge (ACK) message to the AR / MAG 35b of the second subnet .

In step S712, the AR / MAG 35b of the second subnet receives the proxy binding ACK message from the HAv6 / LMA 40 to create a tunnel for the HAv6 / LMA 40, / MAG 35a to send an anchor DPF HO Response message. Then, in step S714, the AR / MAG 35a of the first subnet transmits a proxy binding update message requesting deregistration to the HAv6 / LMA 40. [ Then, in step S716, the HAv6 / LMA 40 transmits a proxy binding ACK message to the AR / MAG 35a in response to this, and releases the tunnel between the previously formed AR / MAG 35a.

The tunnel formed between the AR / MAG 35a and the HAv6 / LMA 40 of the first subnet is released and the AR / MAG 35b and the HAv6 / LMA 40 of the second subnet are released, The AR / MAG 35b in the second subnet transmits a Router Advertisement message including the HNP of the terminal to the terminal 10 in step S718, whereby the terminal transmits the Router Advertisement message including the HoA And handover can be performed without changing the HNP.

11 is a flowchart of a method of supporting PMIPv6 in a wireless communication network according to a seventh embodiment of the present invention. For reference, the seventh embodiment of the present invention illustrates a process in which a UE releases a PMIPv6 session.

In step S802, the terminal 10 performs the DHCPv6 release procedure in cooperation with the DHCPv6 proxy 37 or the DHCPv6 server 47. [ For reference, the step S802 is a procedure necessary for the terminal to set up the PMIPv6 connection using the DHCPv6 (see the second and fourth embodiments), and is omitted when the automatic address allocation method is used (see the first and third embodiments) .

In step S804, the UE 10 initiates a network disconnection procedure by transmitting a De-Registration Request (DEG-REQ) message including 'De-Registration_Request Code = 0x00' to the Node B 20. In step S806, the base station 20 transmits a De-Registration Command (DREG-CMD) message including 'Action Code = 0x04' to the terminal 10. In step S808, the base station 20 transmits a Path De-Registration Request message to the DPF 28 via R6. In step S810, the base station 20 transmits a Path De-Registration Request message to the DPF 28 Transmits a path deregistration request message to the AR / MAG 36.

Then, in step S812, the AR / MAG 36 transmits a Proxy Binding Update message to the HAv6 / LMA 40. [ At this time, the lifetime included in the proxy binding update message is set to zero. Accordingly, the HAv6 / LMA 40 cancels the session with the corresponding AR / MAG 36 and transmits a Proxy Binding Acknowledge (ACK) message to the AR / MAG 36 in step S814. Then, the AR / MAG 36 releases the tunnel with the HAv 6 / LMA 40.

In step S816, the AR / MAG 36 transmits a network out-of-terminal status change request (NetExit_MS_State_Change_Request) message to the AA (Anchor Authenticator) / AC (Account Client) 42 via R4, 42 transmits a network out-of-terminal status change response (NetExit_MS_State_Change_Response) message to the AR / MAG 36 in step S818. In this process, the MS context indication is deleted.

In step S820, the AA / AC 42 transmits an Accounting Stop / DIAMETER ASR message instructing the AAA 45 to cancel the registration of the terminal. In step S822, the AAA 45 transmits the AAA / To transmit the Accounting Response / DIAMETER ASA message.

On the other hand, in step S824, the AR / MAG 36 transmits a Path De-Registration Response message (Path_Dreg_Rsp) to the DPF 28 via R4. In step S826, the DPF 28 transmits R6 To the base station (20). Then, in step S828, the base station 20 transmits a Path De-Registration Acknowledge (ACK) message to the DPF 28 via R6, and finally, in step S830, the DPF 28 transmits R4 To the AR / MAG (36).

12 is a flowchart of a method for supporting PMIPv6 in a wireless communication network according to an eighth embodiment of the present invention. For reference, the eighth embodiment of the present invention illustrates a process of releasing a PMIPv6 session by the AR / MAG.

First, in step S902, the AR / MAG 36 determines that the network of the terminal is required to be released and transmits a path deregistration request (Path_Dreg_Req; Path De-Registration Request message to the DPF 28 via R4.

Then, in step S904, the DPF 28 transmits a path deregistration request message to the base station 20 via R6, and in step S906, the base station 20 determines whether the deregistration including 'Action Code = 0x00' And transmits a DREG-CMD (De-Registration Command) message.

Then, in step S908, the terminal 10 performs a DHCPv6 release procedure in cooperation with the DHCPv6 proxy 37 or the DHCPv6 server 47. [ For reference, step S908 is a procedure necessary for a terminal to set up a PMIPv6 connection using DHCPv6 (see the second and fourth embodiments), and is omitted when using the automatic address allocation scheme (see the first and third embodiments) .

In step S910, the UE 10 transmits a De-Registration Request (DREG_REQ) message including 'De-Registration_Request Code = 0x02' to the BS 20, and in step S912, Sends a Path De-Registration Response (Path De-Registration Response) message to the DPF 28 via R6. Then, in step S914, the DPF 28 transmits a path deregistration response message including a power down instruction to the AR / MAG 36 via R4, and in step S916, the AR / MAG 36 Sends a Path De-Registration Acknowledge (ACK) message to the DPF 28 via R4. Then, in step S918, the DPF 28 forwards the path deregistration ACK message to the base station 20 via R6.

On the other hand, in step S920, the AR / MAG 36 transmits a Proxy Binding Update message to the HAv6 / LMA 40. [ At this time, the lifetime included in the proxy binding update message is set to zero. Accordingly, the HAv6 / LMA 40 cancels the session with the corresponding AR / MAG 36 and sends a Proxy Binding Acknowledge (ACK) message to the AR / MAG 36 in step S922. Then, the AR / MAG 36 releases the tunnel with the HAv 6 / LMA 40.

In step S924, the AR / MAG 36 transmits a network out-of-terminal status change request (NetExit_MS_State_Change_Request) message to the AA (Anchor Authenticator) / AC (Account Client) 42 via R4, 42 transmits a network out-of-terminal status change response (NetExit_MS_State_Change_Response) message to the AR / MAG 36 in step S926. In this process, the MS context indication is deleted.

In step S928, the AA / AC 42 transmits an Accounting Stop / DIAMETER ASR message instructing the AAA 45 to cancel the registration of the terminal. In step S930, the AAA 45 transmits the AAA / To transmit the Accounting Response / DIAMETER ASA message.

13 is a flowchart of a method of supporting PMIPv6 in a wireless communication network according to a ninth embodiment of the present invention. For reference, the ninth embodiment of the present invention illustrates a process in which the AAA releases the PMIPv6 session.

First, in step S1002, the AAA 45 determines to de-register the terminal according to a service strategy change, and transmits a RADIUS Disconnect message or a DIAMETER STR message to the AA / AC 42. Then, in step S1004, the AA / AC 42 transmits a RADIUS Disconnect ACK message or DIAMETER STA message to the AAA 45.

In step S1006, the AA / AC 42 transmits a network out-of-terminal status change request (NetExit_MS_State_Change_Request) message to the AR / MAG 36. In step S1008, the AR / (Path_Deg_Req; Path De-Registration Request) message including an 'Action Code TLV (Type Length Value)' to the DPF 28 via R4.

Then, in step S1010, the DPF 28 transmits a path deregistration request message to the base station 20 via R6. In step S1012, the base station 20 includes 'Action Code = 0x00' CMD (De-Registration Command) message that is transmitted from the base station.

In step S1014, the terminal 10 performs the DHCPv6 release procedure in cooperation with the DHCPv6 proxy 37 or the DHCPv6 server 47. [ For reference, step S1014 is a procedure necessary for the terminal to set up the PMIPv6 connection using the DHCPv6 (see the second and fourth embodiments), and is omitted when the automatic address allocation method is used (see the first and third embodiments) .

In step S1016, the UE 10 transmits a De-Registration Request (DREG_REQ) message including 'De-Registration_Request Code = 0x02' to the base station 20. In step S1018, Sends a Path De-Registration Response (Path De-Registration Response) message to the DPF 28 via R6. Then, in step S1020, the DPF 28 transmits a path deregistration response message including a power down instruction to the AR / MAG 36 via R4, and in step S1022, the AR / Transmits a Path De-Registration Acknowledge (ACK) message to the DPF 28 via R4. Then, in step S1024, the DPF 28 transmits a path deregistration ACK message to the base station 20 via R6.

On the other hand, in step S1026, the AR / MAG 36 transmits a Proxy Binding Update message to the HAv6 / LMA 40. [ At this time, the lifetime included in the proxy binding update message is set to zero. Accordingly, the HAv6 / LMA 40 releases the session to the AR / MAG 36 and transmits a Proxy Binding Acknowledge (ACK) message to the AR / MAG 36 in step S1028. Then, the AR / MAG 36 releases the tunnel with the HAv 6 / LMA 40.

In step S1030, the AR / MAG 36 transmits a network out-of-terminal status change request (NetExit_MS_State_Change_Request) message to the AA (Anchor Authenticator) / AC (Account Client) 42 via R4, 42 transmits a network out-of-terminal status change response (NetExit_MS_State_Change_Response) message to the AR / MAG 36 in step S1032. In this process, the MS context indication is deleted.

In step S1034, the AA / AC 42 transmits an Accounting Stop / DIAMETER ASR message instructing the AAA 45 to cancel the registration of the terminal. In step S1036, the AAA 45 transmits the ACK / To transmit the Accounting Response / DIAMETER ASA message.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that the embodiments are to be considered in all respects only as illustrative and not restrictive.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. .

1 is a diagram illustrating a structure of a general wireless communication network.

2 is a flow diagram of a method for providing a MIPv6 service according to the prior art.

3 is a flowchart of a method of supporting PMIPv6 in a wireless communication network according to a first embodiment of the present invention.

4 is a diagram illustrating a structure of a packet transmitted between HAv6 and MAG.

5 is a diagram illustrating a process of generating an interface ID (IID) of a terminal using a MAC address.

6 is a flowchart of a method for supporting PMIPv6 in a wireless communication network according to a second embodiment of the present invention.

7 is a flowchart of a method of supporting PMIPv6 in a wireless communication network according to a third embodiment of the present invention.

8 is a flowchart of a method of supporting PMIPv6 in a wireless communication network according to a fourth embodiment of the present invention.

9 is a flowchart of a method of supporting PMIPv6 in a wireless communication network according to a fifth embodiment of the present invention.

10 is a flowchart of a method for supporting PMIPv6 in a wireless communication network according to a sixth embodiment of the present invention.

11 is a flowchart of a method of supporting PMIPv6 in a wireless communication network according to a seventh embodiment of the present invention.

12 is a flowchart of a method for supporting PMIPv6 in a wireless communication network according to an eighth embodiment of the present invention.

13 is a flowchart of a method of supporting PMIPv6 in a wireless communication network according to a ninth embodiment of the present invention.

Claims (26)

The subscriber profile information including an address of a home agent / home agent / local area mobility anchor (LMA) and a home network prefix (HNP) from an AAA (Authentication, Authorization and Accounting) ; Transmitting a message requesting a proxy binding update including the HNP to an HA / LMA corresponding to the address of the HA / LMA; Transmitting a Router Advertisement message including HNP information to the MS according to an acknowledgment of the proxy binding update transmitted from the HA / LMA; And Requesting the HA / LMA to re-request the proxy binding update when the UE leaves the network Wherein the PMIPv6 is supported in a wireless communication network. Receiving subscriber profile information including an address of a Home Agent / Localized Mobility Anchor (LMA) from an Authentication, Authorization, and Accounting (AAA) server in a network entry and authentication process of the terminal; Transmitting a message for requesting a proxy binding update to an HA / LMA corresponding to the address of the HA / LMA; Transmitting, from the HA / LMA, a Router Advertisement message including HNP information to the terminal, corresponding to an acknowledgment (Acknowledge) of the proxy binding update including a Home Network Prefix (HNP) of the terminal; And Requesting the HA / LMA to re-request the proxy binding update when the UE leaves the network Wherein the PMIPv6 is supported in a wireless communication network. 3. The method according to claim 1 or 2, Wherein the HNP information is unique network prefix information for setting an address of the mobile station. The method of claim 3, Wherein the HNP information is the HNP (Home Network Prefix). 3. The method according to claim 1 or 2, Further comprising: allocating a HoA (Home of Address) including the HNP of the UE according to an auto configuration of the UE. 3. The method according to claim 1 or 2, The UE transmitting a DHCPv6 solicitation message including the HNP to a Dynamic Host Configuration Protocol version 6 (DHCPv6) server; The DHCPv6 server allocating a HoA (home of address) including the HNP to the UE and transmitting a DHCPv6 Advertisement message to the UE; The UE transmitting a DHCPv6 Request message to the DHCPv6 server in response to the DHCPv6 Advertisement message; And And the DHCPv6 server transmitting a DHCPv6 Reply message including the allocated HoA to the UE. delete 3. The method according to claim 1 or 2, After requesting the proxy binding update, Further comprising the step of forming a tunnel between the HA / LMA and the AR / MAG for transmitting an IPv6 packet for the terminal. 9. The method of claim 8, Wherein the proxy binding update is performed by matching the HNP of the AT with the address of the AR / MAG, and supporting the PMIPv6 in the wireless communication network. 3. The method according to claim 1 or 2, Prior to requesting the proxy binding update, Further comprising the step of forming an Initial Service Flow (ISF) with an Internet Protocol version 6 (IPv6) terminal to support the PMIPv6 in the wireless communication network. 3. The method according to claim 1 or 2, After requesting the proxy binding update, Further comprising the step of forming an Initial Service Flow (ISF) with an Internet Protocol version 6 (IPv6) terminal to support the PMIPv6 in the wireless communication network. The IPv6 packet is transmitted to the CoA (Care of Address) of the terminal matched with the prefix of the destination address, for an IPv6 (Internet Protocol version 6) packet having a HoA (Home of Address) HA / LMA; And And an AR / MAG for transmitting the IPv6 packet transmitted from the HA / LMA to the terminal, the IPv6 packet having the same IPv6 address as the CoA of the terminal, and supporting the PMIPv6 in the wireless communication network. 13. The method of claim 12, Further comprising an AAA (Authentication, Authorization, Accounting) server for providing terminal profile information including an IPv6 address of the HA / LMA supporting mobility of the UE. system. The method according to claim 12 or 13, And forming a tunnel between the HA / LMA and the AR / MAG for transmitting an IPv6 packet to the terminal. The method according to claim 12 or 13, Wherein the HoA of the UE includes a Home Network Prefix (HNP) of 64 bits. The method according to claim 12 or 13, Wherein the AR / MAG transmits a Proxy Binding Update message to the HA / LMA when the UE enters or leaves a subnet to which the AR / MAG belongs. Systems that support PMIPv6. The method according to claim 12 or 13, Wherein the UE is allocated the HoA by Dynamic Host Configuration Protocol version 6 (DHCPv6) or Auto configuration (Auto configuration). delete delete Transmitting a De-Registration Request (DEG-REQ) message requesting release of the PMIPv6 session to the AR / MAG; Transmitting a Proxy Binding Update message to the HA / LMA, wherein the AR / MAG includes a HNP of the terminal and a lifetime set to 0 for the terminal; The HA / LMA releases the session with the AR / MAG based on the HNP, and transmits a proxy binding ACK (ACK) message including the HNP to the AR / MAG; The AR / MAG transmits an out-of-network terminal status change request message to an AA (ACK) / AC (Account Client); And The AA / AC transmits a network out-of-terminal state change response message to the AR / MAG To support PMIPv6 in a wireless communication network. 21. The method of claim 20, Before the step of transmitting the deregistration request message, Further comprising the step of performing a DHCPv6 release procedure between the terminal and the DHCP server. 21. The method of claim 20, Before the step of transmitting the deregistration request message, Further comprising the step of requesting the terminal to release the PMIPv6 session when the AR / MAG determines that the network needs to be disconnected from the terminal. The AAA server transmits a RADIUS or DIAMETER message for requesting the gateway of the ASN (Access Service Network) to terminate the PMIPv6 session of the terminal; The gateway of the ASN transmits a RADIUS or DIAMETER message responding to the PMIPv6 session termination request of the terminal to the AAA, and the DPF (Data Path Function) of the ASN changes the state of the terminal; The gateway of the ASN initiates a data path deregistration procedure and the terminal performs a DHCPv6 release procedure upon a deregistration request of the base station; The base station transmitting a data path release response to the gateway of the ASN in response to the deregistration request; And And performing a binding update procedure so that the gateway of the ASN releases the PMIPv6 session with the HA / LMA in response to the data registration path release response. 24. The method of claim 23, After the binding update procedure Further comprising performing an R4 / R6 data path release procedure. 24. The method of claim 23, After the binding update procedure Further comprising the step of the gateway of the ASN informing the AAA server of the charging termination. delete

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