KR101330406B1 - Mobility management method and apparatus using proxy mobile internet protocol in mobile communication system - Google Patents

Abstract

The present invention provides a method for managing mobility of a terminal using a proxy mobile internet protocol (PMIP) in a mobile communication system. As the terminal AT is handed off from a source network to a target network, a target access gateway (AGW) Perform an access authentication procedure with an authentication and billing server (AAA), and after performing the access authentication procedure, obtain information related to the AT including a PMIP-related key from the AAA, and from the AT, the target AGW and a home agent Receiving an interface establishment triggering message indicating that an interface should be established between (HA), transmitting a message for requesting proxy registration to the HA for mobility management of the AT, and handing off the AT from the HA Respond to the proxy registration request with the referral address (proxy CoA) from the previous source AGW Receiving a message, and send the home address or home network prefix information of the AT of the AT in response to the interface setting the triggering message to the AT, and transmitting and receiving data via the AT and the HA.

Proxy Mobile IP, 3GPP2 UMB, Mobility Management, AAA

Description

Method and apparatus for managing mobility in mobile communication system using proxy mobile internet protocol {MOBILITY MANAGEMENT METHOD AND APPARATUS USING PROXY MOBILE INTERNET PROTOCOL IN MOBILE COMMUNICATION SYSTEM}

The present invention relates to a mobile communication system, and more particularly, to a method and apparatus for managing a mobility and a security process of a terminal in a mobile communication system supporting proxy mobile IP.

In mobile communication systems such as 3GPP2 (Code Division Multiple Access) 1x and EV-DO (Evolution Data Only), which are typical mobile communication systems, management of a large number of radio- And a packet data serving node (PDSN), which is a separate entity of a core network (hereinafter referred to as CN), plays a role related to packet data communication .

The conventional mobile communication system as described above has provided mobility using mobile IPv4 (MIPv4) and mobile IPv6 (hereinafter referred to as MIPv6) in a mobile environment of a terminal. However, the above-described methods of mobile IP are not suitable for use in the conventional method in the Ultra Mobile Broadband (hereinafter referred to as UMB), which is an improvement of 3GPP2, which seeks to send more data at higher speed. Therefore, the use of Proxy Mobile IP (Proxy MIP) as one of the ways to support UMB more efficiently is discussed. On the other hand, when the terminal moves not only within the UMB but also uses a different access network technology, for example, when the terminal moves across the UMB network and the WiMAX network, the Proxy MIP is used. There is a need for a method of supporting mobility more efficiently. That is, the MIPv4 method used in the conventional CDMA 1x or EV-DO system requires a lot of time in connection and call processing. In other words, mobile IP provides mobility compared to simple IP, but the problem of time delay for security, call processing, and database management for mobility support in connection and call processing and security processes As a result, there is a need for a technique for solving such a problem.

The present invention provides a method and apparatus for supporting fast mobility and more secure and efficient communication to a terminal by using a Proxy MIP and an AAA server in an evolved mobile communication system including 3GPP2 UMB.

The present invention provides a method and system for managing mobility not only within 3GPP2 UMB but also through 3GPP2 UMB other wireless access technology, i.e., a handoff technique through Proxy MIP to the UE. to provide. The present invention provides a method and apparatus for efficiently performing mobility management of a terminal using a proxy mobile IP and an AAA authentication server in a handoff situation of a mobile communication system.

The present invention provides a remote authentication dial-in using an authentication and billing server (AAA) on the premise of using an Extensible Authentication Protocol (EAP) or a security framework for access approval of other terminals in a mobile communication system. It provides a method and apparatus for supporting mobility and authentication using a protocol such as User Service or Diameter, an authentication server such as AAA, and Proxy MIP.

The method according to an embodiment of the present invention is a method for managing mobility of a terminal using a proxy mobile internet protocol (PMIP) in a mobile communication system, as the terminal AT handoffs from a source network to a target network. A target access gateway (AGW) performs an access authentication procedure with an authentication and billing server (AAA), and after performing the access authentication procedure, obtains information related to the AT including a PMIP-related key from the AAA. Receiving an interface establishment triggering message indicating that an interface should be established between the target AGW and a home agent (HA) from the AT; and requesting proxy registration with the HA for mobility management of the AT. Sending a message and a referral address (source) at the source AGW before the AT hands off from the HA. Receiving a response message for the proxy registration request including CoA), transmitting a home address of the AT or home network prefix information of the AT to the AT in response to the interface setting triggering message; And transmitting and receiving data with the AT through the HA.
An apparatus according to an embodiment of the present invention is a target access gateway (AGW) device that manages mobility of a terminal using a proxy mobile internet protocol (PMIP) in a mobile communication system, wherein the terminal AT targets the source network. An authentication unit configured to perform an access authentication procedure with an authentication and billing server (AAA), perform the connection authentication procedure, and then obtain information related to the AT including a PMIP-related key from the AAA as handing off to a network; A source AGW before receiving an interface establishment triggering message from the AT indicating that an interface should be established between the target AGW and a home agent (HA) and handing off the AT in response to a proxy registration request from the HA; Receive a proxy registration response message containing a care-of address (proxy CoA) at, and send to the AT via the HA And a reception unit for receiving the data, the proxy registration request message to the HA for mobility management of the AT, and in response to the interface configuration triggering message, the home address of the AT or the home network prefix information of the AT. And a transmitter for transmitting to the AT and transmitting data to the AT through the HA.

When the effect obtained by the typical thing of the invention disclosed in this invention is demonstrated briefly, it is as follows. According to the present invention, there is a problem of delay of call setup for data communication in performing registration process for use of mobile IP when the terminal moves when using mobile IP, and the time that occurs in call resetting when the terminal moves to another access network. Solves the problem of delay. As a solution, the present invention utilizes a proxy mobile IP and AAA authentication server to efficiently perform call setup and security processes in a network using the same access technology or in a mobile system using another access technology, thereby enabling faster and more efficient mobility of terminals. Manage and handle data communications.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention and may be changed according to the intention or custom of the user and the operator. Therefore, the definition should be based on the contents throughout this specification.

SUMMARY OF THE INVENTION The present invention to be described later provides a method for managing mobility of a terminal using proxy mobile IP for a mobile communication system. In the following description, the UMB system based on 3GPP2 will be described as an example. However, the present invention provides an Evolved Packet Core (EPC) which is an evolved mobile communication system of 3GPP as well as a UMB system. It may also be applicable to WiMAX's evolved systems.

Meanwhile, as shown in FIG. 1, a mobile communication system according to an embodiment of the present invention uses a UMB system based on 3GPP2 and different wireless access technologies such as Long Term Evolution (LTE) proposed by WiMAX and 3GPP. It may be applicable even when the terminal moves between networks. Therefore, the Internet communication method using Proxy MIP and AAA in the mobile communication system, which is the basic object of the present invention, is applied to other mobile communication systems having a similar technical background and channel form with a slight modification in a range that does not greatly deviate from the scope of the present invention. This is possible, and will be possible at the discretion of a person skilled in the art.

1 is a block diagram illustrating a mobile communication system environment and overall operation according to an exemplary embodiment of the present invention. 1 illustrates a 3GPP2 UMB system, a WiMAX, and a 3GPP LTE network structure as an example.

Referring to FIG. 1, the access networks 121 and 122 establish a wireless connection with an access terminal 110 located in a cell serving each service area. And communicate with the AGWs 105 and 106 through a signaling radio network controller (hereinafter referred to as SRNC) 131 and 132. The ANs 121 and 122 are also called base stations. AT 110 refers to a user device that connects to a packet data network, such as the Internet, via an Access Gateway (hereinafter referred to as AGW) 105, 106 via each AN 121, 122. In the AGWs 105 and 106, when the AT 110 having another network as the home network has moved to the service area of the networks 141 and 143 managed by the AGWs 105 and 106, the AT 110 is moved. A foreign agent (FA) function (not shown), which is in charge of accessing the packet data network, is provided.

In the present specification, as a main network entity of a packet data network, home agents 102 and 103 that perform mobility management for the terminal and authentication and billing for performing an access authentication process with the terminal ( Authentication, Authorization and Accounting (hereinafter referred to as AAA) server 101 is shown.

An interface or data path exists between the ANs 121 and 122 and the AGWs 105 and 106, the SRNCs 131 and 132, and the AGWs 105 and 106 to manage mobility of the AT 110. do. The AT 110 has an IP protocol stack, and mobility management may be performed by proxy mobile IP (hereinafter referred to as PMIP).

Meanwhile, in FIG. 1, Network 3 (hereinafter referred to as NW 3) 145 may be a WiMAX, UMB, or 3GPP network, and is a packet data service node which is a network entity indicated by reference numeral 107. (Packet Data Service Node: hereinafter referred to as PDSN), Access Service Network Gateway (hereinafter referred to as ASN-GW), Gateway (GW, S-GW: Serving Gateway, Serving Gate way) or Access Gateway ( Access Gateway (hereinafter referred to as AGW), a base station (Base Station: referred to herein as BS), AN 3 (Access network 3) or e (Evolved) -Node B and a terminal (hereinafter AT) 110).

And the terminal (AT: 110) in the area of NW 1 (141) through the hand off (Hand Off) to the NW 2 (143) which is a UMB network or a heterogeneous network or a NW 3 (145) which can be a UMB network. I can move it. NW 1 141 and NW 2 143 are composed of AGW 105, 106 and AN 121, 122 as described above, and AGW 1 105 of NW 1 141 is NW 3. 145 and HA 2 103 can be shared, and AGW 1 105 of NW 1 141 can share HA 1 102 with AGW 2 106 of NW 2 143. In the present invention, the AGW 1 105 of the NW 1 141 shares the HA 1 102 with the AGW 2 106 of the NW 2 143. In addition, home agent 2 (HA 2) denoted by reference numeral 103 may play a role of a packet data network gateway (denoted as P-GW or PDN-GW) in the case of a 3GPP network. . Home agent 1 (HA 1) indicated by reference numeral 102 and AGW 1 (105) or AGW 2 (106) is composed of IPv4 or IPv6 network depending on the network configuration of the operator and the mobility of the terminal by the network This network is supported, namely PMIPv4 or PMIPv6.

When AT 110 moves from NW 1 141 to NW 2 143, NW 1 141 and NW 2 143 share HA 1 102, and AGW 1 of NW 1 141 105 knows that the HA to use for registration of AT 110 via the interface with AAA 101 is HA 1 102, and AGW 2 106 of NW 2 143 to which AT 110 has moved Through the AAA 101, a Home Network Prefix, a Proxy-Care of Address (hereinafter referred to as Proxy-CoA), is a temporary address in AGW 1 105 before the AT 110 moves. When receiving information including at least one of the above, the AT 110 can quickly perform a registration procedure while maintaining a session even when moving to another network.

AT 110 may handoff from NW 1 141 to NW 2 143 or vice versa or handoff from NW 1 141 to NW 3 145 or vice versa. However, in the present invention, only the case where the AT 110 is a handoff of the NW 1 141 to the NW 2 143 will be described with reference to FIG. 2.

Hereinafter, in the present invention, "source" is used for entities of the network that are connected and provided with a service before the AT 110 is handed off, and "target" is used for entities of the network to which the AT 110 is to be handed off. Let's stick.

In summary, the procedure performed when the AT 110 is handed off to the target network is as follows. When the AT enters the target network from the source network, session information is transmitted from the source SRNC to the target SRNC at the request of the AT, and the session information is transferred from the target SRNC to the target AN as the AT switches to the target AN. Perform a proxy registration procedure for establishing a proxy mobile internet protocol interface between the target AN and the target AGW, and transmit information about the target AGW from the target AN to the target SRNC.

2 is a message flow diagram illustrating a mobility management procedure of a terminal according to an embodiment of the present invention. Here, the case in which the AT 110 handoffs from NW 1 141 to NW 2 143 will be described. However, the procedure of FIG. 2 can be easily applied to an environment using a similar mechanism, that is, another network system supporting the interface between PMIP and AAA.

Referring to FIG. 2, in step 201, the AT 110 determines whether the source AN 121, the source AGW 105, and the HA 102 of the network 1 141 that is the network before the handoff, that is, the source network, are connected. Involved in performing data communication. In the case of UMB, data communication is performed between the AGW 105 as the source AGW and the AN 1 121 as the source AN through a GRE tunnel. Step 201 is an operation before the AT 110 is handed off, and step 203 is an operation performed when the AT 110 starts handing off to the NW 2 143.

In step 203, the AT 110 requests the target SRNC 132 to include AN 2 122, which is a target AN of NW 2 143, in an active set. Fetch session information from source SRNC 131. That is, when the AT 110 enters the target network from the source network, the source SNRC 131 transfers session information to the target SRNC 132 by the request to the AT 110. In step 205, the AT 110 performs L2 fast switching to the target AN 122, and a second layer between the target AN 122 and the source AN 1 121 (Layer 2: L2 or less). Data transmission continues through the tunnel protocol tunnel, and then the SRNC 2 132, which is the target SRNC, transmits session information to the target AN 2 122. FIG. That is, as the AT 110 switches to the target AN 122, the target SRNC 132 transmits session information to the target AN 122.

In step 207 and step 209, the AT 110, the target SRNC 2 132, the target AGW 2 106, and the AAA 101 are involved in the Extensible Authentication Protocol (hereinafter referred to as EAP). authentication). Steps 207 and 209 are steps in which several procedures are sequentially related. Steps 207 and 209 are performed in one large procedure, rather than step 209 after step 207. That is, in step 207-> step 209-> step 207-> step 209-> step 207-> step 209-> step 207, the AT 110, the target SRNC 132, and the target are repeatedly displayed. The AGW 106 and the AAA 101 are involved in the process. Only step 209 in FIG. 2 is indicated separately from step 207 in order to enable seamless communication between the AAA 101 and the target AGW 2 106 even when the AT 110 is in a handoff state. 106 is indicated separately for the process of receiving information stored in the AAA (101) of the AT (110) -related information.

Examples of such AT-related information may include a home agent address, a Quality of Service (QoS) profile, and a PMIP-related key. An example of the PMIP-related key may be a PMN-AN-RK (Proxy Mobile Node-Access Network-Root Key). The PMN-AN-RK uses PMN-AN-HA, which is a PMIP key required for establishing a PMIP tunnel used between the source AGW 105 and the source AN 121 of the source network before the AT 110 hands off. Root key required to create Proxy Mobile Node-Access Network-Home Agent. Since the concrete generating method and procedure are outside the scope of the present invention, the detailed description thereof will be omitted.

In step 211 of FIG. 2, the proxy 110 requests a proxy registration from the target AN 122 to the target AGW 106 to establish a signaling interface between the target AN 122 and the target AGW 106 of the target network to be handed over. (Proxy Registration Request: hereinafter referred to as Proxy RRQ, or PRRQ.) In response to this, the target AN 122 sends a proxy registration response from the target AGW 106 to the Proxy RRP, or PRRP. By receiving the message, information necessary for data communication afterwards, for example, a Generic Routing Encapsulation (hereinafter referred to as GRE) key is set.

In step 213, the target AN 122 notifies the target SRNC 132 or the source AN 121 of the address and the GRE key of the target AGW 106, and the target SRNC 132 or the source AN 121 is notified. An acknowledgment (ACK) message is sent to the target AN 122. That is, the target AN 122 transmits and receives a message for setting an interface with the target AGW 106 with the target SRNC 132.

In step 215, the message transmitted to the target AGW 106 varies depending on whether the AT 110 is an IPv4 terminal or an IPv6 terminal. For IPv4, the AT 110 sends a DHCP Discover with Rapid Commit message with the option to request a quick reply, indicating that an interface has been established between the target AN 122 and the target AGW 106 and the target. The target AGW 106 is informed that it must establish an interface between the AGW 106 and the HA 1 102. On the other hand, in case of the AT 110 using IPv6, an interface is established between the target AN 122 and the target AGW 106 by sending a Router Solicitation message to the target AGW 106 and the target AGW 106. ) And a triggering message indicating that the interface between HA 102 needs to be established.

That is, in step 215, the AT 110 transmits an interface configuration triggering message indicating that an interface should be established between the target AGW 106 and the HA 1 102 to the target AGW 106.

In step 217, the target AGW 106 sends a proxy binding update (PBU) message or proxy routing request (Proxy), which is an example of a message for requesting proxy registration on behalf of the terminal in order to manage the mobility of the terminal to the HA 1 102. Routing Request: PRRQ) message is sent to HA 1 (102).

Whether the target AGW 106 sends a PBU message or a PRRQ message will be determined depending on whether the interface between the target AGW 106 and the HA 1 102 uses IPv4 or IPv6. The target AGW 106 then sends a PRRQ message to the HA 1 102 if the interface between the target AGW 106 and the HA 1 102 supports PMIPv4 on the network using IPv4, and uses IPv6. If the network supports PMIPv6, a PBU message is sent to the HA 1 102.

In step 219, the HA 1 102 transmits an Aaccess Request message with respect to the PMIP setting to the AAA 101, and in step 221, the AP 1 102 receives an access in response to the access approval request from the AAA 101. Accept message is received, which includes Home Network Prefix (HN-Prefix) information and AT (110) information required for managing the mobility of the AT 110 in the target AGW 106. ) Includes at least one of information such as Proxy CoA in source AGW 105 that is an access gateway before handoff.

In the PMIP method, the target AGW 16 requests registration of the AT 110 to the HA 1 102 on behalf of the AT 110, and the addresses of the AGWs 105 and 106 are the binding cache for the AT 110. In this case, the addresses of the AGWs 105 and 106 are called Proxy CoAs because they are registered in the (Binding Cache) database.

In step 223, the target AGW 106 receives a response message for the proxy registration as a response message for requesting the proxy registration from the HA 1 102. In this case, in step 223, if the AT 110 uses IPv6, the target AGW 106 will receive a Proxy Binding Acknowledgment (PBAck) message as a response message for proxy registration, and the AT 110 If you use IPv4, you will receive a Proxy Routing Response (PRRP) message.

In addition, the proxy registration response message transmitted from the HA 1 102 to the target AGW 106 in response to the step 221 in step 223 is the source that is the access gateway before the HN-Prefix and the AT 110 are handed off. At least one piece of information such as Proxy CoA in the AGW 105 is transmitted.

On the other hand, the target AGW 106 can know the address of the source AGW 105 before the AT 110 handoffs through the proxy CoA at the source AGW 105, and before the handoff of the AT 110. If the target AGW 106 knows the address of the source AGW 105, the target AGW 106 may request and obtain the information required for the handoff from the source AGW 105. In step 225, the message transmitted from the target AGW 106 to the AT 110 varies depending on whether the AT 110 supports the IPv4 scheme or the IPv6 scheme. If the AT 110 supports the IPv4 scheme, the target AGW 106 sends a DHCP response (DHCP) with the quick reply request option as a response to the DHCP discovery message having the quick reply request option of step 215 to the AT 110. Acknowledgment with rapid commit), the AT 110's hand is transmitted by including the home address (Home Address: HoA) used by the source AGW 105 before the AT 110 handoffs the message. Ensure seamless service even when off.

On the other hand, if the AT 110 uses IPv6, the target AGW 106 sends an HN-Prefix to the Router Advertisement message in response to the Router Solicitation message to the AT 110. ), Including Thus, even when the AT 110 accesses the target network NW 2 143, the AT 110 generates an address that is the same as the home address HoA of the terminal used in the source AGW 105 of the NW 1 141 that is the source network. By doing so, even when the handoff of the AT (110) to support a seamless service. In addition, when the handoff procedure such as steps 203 to 225 of FIG. 2 is completed, the AT 110 and the HA 1 (through the target AN 122, the target AGW 106, and the HA 1 102 are completed in step 227). Data communication between 102 becomes possible.

That is, in step 225, the target AGW 106 transmits the home address of the AT 110 and the HN-Prefix information of the AT 110 to the AT 110 in response to the triggering message in step 215. do.

3 is a flowchart illustrating an operation of a target access gateway 106 according to an exemplary embodiment of the present invention. The target access gateway refers to AGW 106, which is a gateway of a network to which the AT 110 is to be handed off.

The target AGW 106 is used between the home agent address, the user QoS profile, and the PMIP-related key (eg, between AN and AGW) through an EAP connection authentication procedure with the AAA 101 in step 301. Information such as a PMIP root key (PMN-AN-RK).

In step 303, the target AGW 106 receives a proxy registration request (PRRQ) message for establishing a PMIP interface between the target AN 122 and the target AGW 106 from the target AN 122, and the target AGW 106. Sends a Proxy Registration Response (PRRP) message to target AN 122 in response to the PRRQ message.

In operation 305, the target AGW 106 determines whether the AT 110 uses IPv4 or IPv6 when the tunnel is established because the interface is active between the target AN 122 and the target AGW 106. The flow proceeds to step 309 and the operation in the corresponding step is performed.

If the AT 110 uses IPv4 in step 305, the target AGW 106 branches to step 307 and the DHCP Discover with Rapid commit message with the quick reply request option sent by the AT 110. By receiving, it is known that an interface has been established between the target AN 122 and the target AGW 106, and that the interface should be established between the target AGW 106 and the HA 102.

On the other hand, if the AT 110 uses IPv6 in step 305, the target AGW 106 branches to step 309 to receive a Router Solicitation message transmitted by the AT 110, thereby targeting the target AN 122. It will be appreciated that a tunnel has been established between the target AGW 106 and the target AGW 106, and that an interface must be established between the target AGW 106 and the HA 102.

In step 311, the target AGW 106 registers the proxy with the HA 1 102 in order to manage the movement status of the AT 110 according to the message received in step 307 or step 309 on behalf of the AT 110. As a request message, a Proxy Binding Update (PBU) message or a Proxy Routing Request (PRRQ) message is transmitted. Whether to send a PBU message or a PRRQ message in step 311 depends on whether IPv4 or IPv6 is used for the interface between the target AGW 106 and the HA 102. In step 311, the target AGW 106 transmits a PRRQ message if it supports PMIPv4 on the network using IPv4, and a PBU message if it supports PMIPv6 on the network using IPv6.

In step 313, the target AGW 106 receives a response message for the proxy registration from the HA 1 102 in response to the message for requesting the proxy registration. In this case, when the interface between the target AGW 106 and HA 1 102 uses IPv4, a Proxy Routing Response (PRRP) message is received in response to the PRRQ message, and when the IPv6 is used, the PBU message is received. In response, it receives a PBAck (Proxy Binding Acknowledgement) message. The response message received by the target AGW 106 in step 313 includes at least one information such as HN-Prefix, Proxy-CoA in the source AGW 105, and is transmitted. The proxy in the source AGW 105 is transmitted. -CoA is an address of the source AGW 105, which is a referral address in which the source AGW 105 is registered with the HA 102.

In step 313, in the PMIP scheme of Proxy-CoA in the source AGW 105, the AGW 105, 106 makes a request for registration of the AT 110 to the HA 102 in place of the AT 110. Since the addresses of 105 and 106 are registered in the database of the binding cache for the AT in the HA, the addresses of the AGWs 105 and 106 are referred to as Proxy-CoAs in the AGWs 105 and 106.

Thus, if the target AGW 106 knows the address of the source AGW 105, the target AGW 106 may obtain it by requesting the source AGW 105 for the necessary handoff information.

 In step 315, the target AGW 106 branches to step 317 or 319 depending on whether the AT 110 uses IPv4 or IPv6. If the AT 110 uses IPv4, the target AGW 106 proceeds to step 317 and the source AGW (DHCP Acknowledgement with rapid commit) message with a quick reply request option to the AT (110). By transmitting the home address (HoA) used in the 105) to support the seamless service even during the handoff of the AT (110).

On the other hand, if the AT 110 uses IPv6, the target AGW 106 proceeds to step 319 and transmits a Router Advertisement message including the HN-Prefix to the AT 110 so that the AT 110 transmits the source. By generating an address such as a home address (HoA) used in the AGW 105, the service is seamless even when the AT 110 is handed off. When the handover procedure of steps 301 to 319 is completed, the target AGW 106 enables data communication with the AT 110 through the target AN 122 and the HA 102 in step 321.
In addition, although not shown, it is assumed that the target AGW includes an authenticator, a controller, a transmitter, and a receiver. In this case, the EAP access authentication procedure of step 301 is performed by the authentication unit. In step 305, 315 is performed by the controller.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, and equivalents thereof.

1 is a block diagram showing a mobile communication system environment and overall operation according to a preferred embodiment of the present invention;

2 is a message flow diagram illustrating a mobility management procedure of a terminal according to an embodiment of the present invention;

3 is a flowchart illustrating an operation of a target access gateway according to an exemplary embodiment of the present invention.

Claims (14)

In a method for managing the mobility of a terminal using a proxy mobile Internet protocol (PMIP) in a mobile communication system, As the access terminal (AT) is handed off from the source network to the target network, the target access gateway (AGW) performs an access authentication procedure with the authentication, authorization and accounting server (AAA). and, Acquiring information related to the AT including the PMIP-related key from the AAA after performing the access authentication procedure; Receiving an interface establishment triggering message indicating that an interface should be established between the target AGW and a home agent (HA) from the AT; Transmitting a message for requesting a proxy registration to the HA for mobility management of the AT; Receiving, from the HA, a response message to the proxy registration request including a care of address (proxy care of address) at the source AGW before the AT hands off; Transmitting the home address of the AT or the home network prefix information of the AT to the AT in response to the interface configuration triggering message; A mobility management method in a mobile communication system comprising the step of transmitting and receiving data with the HA. The method according to claim 1, The information related to the AT further comprises at least one of the HA address and Quality of Service (QoS) profile information of the AT. The method of claim 1, wherein the interface setting triggering message, If the interface between the target AGW and the HA uses IP version 4 (IPv4) is a Dynamic Host Configuration Protocol (DHCP) discovery message with a rapid Commit option, If the interface between the target AGW and the HA uses IP version 6 (IPv6), the mobility management method in the mobile communication system, characterized in that the Router Solicitation (Router Solicitation) message. The method of claim 1, wherein the message for requesting proxy registration is: If the interface between the target AGW and the HA uses IP version 4 (IPv4) is a Proxy Registration Request (PRRQ) message, And a proxy binding update (PBU) message when the interface between the target AGW and the HA uses IP version 6 (IPv6). The method according to claim 1, The response message to the proxy registration request, If the interface between the target AGW and the HA uses IP version 6 (IPv6) is a Proxy Binding Acknowledge (PBAck) message, And a proxy registration response (PRRP) message when the interface between the target AGW and the HA uses IP version 4 (IPv4). The method according to claim 1, And transmitting and receiving a message for setting a PMIP interface with a target access network (AN) to be handed off by the AT after performing the access authentication procedure. The method according to claim 6, The mobility management method of the mobile communication system further comprising the step of transmitting and receiving data with the target AN. In a target access gateway (AGW) device that manages mobility of a terminal using a proxy mobile internet protocol (PMIP) in a mobile communication system, As the terminal (Access Terminal: AT) is handed off from the source network to the target network, it performs an access authentication procedure with an authentication, authorization server (Authentication, Authorization and Accounting: AAA), after performing the access authentication procedure the AAA An authentication unit for obtaining information related to the AT including a PMIP related key from Receive an interface establishment triggering message from the AT indicating that an interface should be established between the target AGW and a Home Agent (HA), and from the source AGW before the AT handoffs from the HA. A receiving unit for receiving a response message for a proxy registration request including a care address (proxy care of address) and receiving data from the HA; Transmits a message for requesting a proxy registration to the HA for mobility management of the AT, and transmits a home address of the AT or home network prefix information of the AT to the AT in response to the interface setting triggering message. AGW device in a mobile communication system comprising a transmitter for transmitting data to the HA. 9. The method of claim 8, The information related to the AT further includes at least one of the HA address and Quality of Service (QoS) profile information of the AT. 9. The method of claim 8, And a controller for determining whether an interface between the target AGW and the HA uses IP version 4 (IPv4) or IP version 6 (IPv6). When the control unit determines that the IPv4 is used, the interface configuration triggering message is a Dynamic Host Configuration Protocol (DHCP) discovery message with a rapid reply option, When the controller determines that the IPv6 is used, the interface configuration triggering message is a Router Solicitation message. 9. The method of claim 8, And a controller for determining whether an interface between the target AGW and the HA uses IP version 4 (IPv4) or IP version 6 (IPv6). When the controller determines that the IPv4 is used, the message for requesting the proxy registration is a Proxy Registration Request (PRRQ) message. When the controller determines that IPv6 is used, the message for requesting the proxy registration is a proxy binding update (PBU) message. 9. The method of claim 8, And a controller for determining whether an interface between the target AGW and the HA uses IP version 4 (IPv4) or IP version 6 (IPv6). When the controller determines that the IPv6 is used, the response message for the proxy registration request is a Proxy Binding Acknowledge (PBAck) message. When the controller determines that IPv4 is used, the response message to the proxy registration request is a Proxy Registration Response (PRRP) message, AGW device in a mobile communication system, characterized in that. 9. The method of claim 8, After performing the access authentication procedure, the transmitter transmits a request message for requesting the AT to establish a PMIP interface with a target access network (AN) to be handed off, and the receiver transmits a response message to the request message. AGW device in a mobile communication system, characterized in that for receiving. 14. The method of claim 13, And the transmitting unit transmits data to the target AN, and the receiving unit receives data from the target AN.

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