KR20100084913A - Method and system for performing a hand-off of mobile network using proxy mobile internet protocol version 6 - Google Patents

Abstract

PURPOSE: A method and a system for performing handoff of a mobile network using PMIPv6(Proxy Mobile Internet Protocol version 6) are provided to support mobility of a mobile network under PMIPv6. CONSTITUTION: An MR(Mobile Router) generates a pHoA (proxy Home Address) using HNP(Home Network Prefix) information. The MR sets the generated pHoA as a CoA(Care of Address). The MR transmits a BU(Bounding Update) message including the CoA, MNP(Mobile Network Prefix) information, and initial HoA(Home of Address) of the MR to an HA(Home Agent) of an initial domain. The HA binds the CoA with the initial HoA.

Description

Method and System for Performing a Hand-off of Mobile Network Using Proxy Mobile Internet Protocol version 6}

The present invention relates to a method of performing a handoff for continuing a session when a mobile network (NEMO) moves in a PMIPv6 environment. The present invention relates to a case in which a mobile network (NEMO) moves to another domain and within a PMIPv6 domain. The present invention relates to a mobility support method of a mobile network (NEMO) in a PMIPv6 environment when moving.

Recently, IP (Internet Protocol) based communication networks have been rapidly developed due to the rapid development of Internet technology. In such an IP-based communication network, service data is transmitted and received using an assigned IP address, and in particular, a method of allocating an address to transmit data to a mobile node (MN) is a mobile IP technology. Mobile IP is a protocol that allows mobile host users to move around and communicate freely without changing their IP addresses. Mobile IP technology manages and manages mobile nodes with the rapid development of mobile communication systems and the increase of wireless LAN services. It is proposed to provide continuous communication even in the city.

Mobile IP technology is classified into a host-based scheme and a network-based scheme according to a subject responsible for signaling control messages according to the movement of a mobile node (MN). First, the host-based scheme is a method in which the mobile node directly takes charge of control message signaling according to the movement of the mobile node, and includes mobile internet protocol version 6 (MIPv6), fast mobile internet protocol version 6 (FMIPv6) and hierarchical mobile internet protocol version 6). In addition, there is a PMIPv6 (Proxy Mobile Internet Protocol version 6) as a network-based technique that the network entity performs control message signaling according to the movement of the mobile node.

The host-based protocol has a disadvantage in that the mobile node must have a corresponding protocol stack because the mobile node must directly control the movement of the mobile node. Network-based protocols, on the other hand, do not have to have a corresponding protocol stack because the network entity takes over control of the mobile node's movement.

Currently, a lot of discussions are being made on the Internet Engeering Task Force (IETF), a standardization organization, regarding mobile IP technology, and PMIPv6 has been proposed after mobile IPv6 was proposed. In other words, IP-based communication network started based on IPv4, but in order to accommodate more subscribers by increasing the IP address length from 32 bits to 128 bits in order to limit the IP resources that can be allocated, increase the number of users, and provide various services. The length of the IP address has been extended.

However, since the MIPv6 protocol provides network services using a host-based scheme, each mobile node must have a corresponding protocol stack that can perform control according to its movement. There is a problem that each mobile node must perform many operations.

In order to solve this problem, a network-based protocol PMIPv6 (Gundavelli, S. et al., "Proxy Mobile IPv6", RFC 3963, August 8, 2008) has been proposed, the research is in progress.

Meanwhile, Network Mobility (NEMO) is a protocol describing an operation for managing a moving network (Devarapalli, V. et al., "Network Mobility (NEMO) Basic Support Protocol", RFC 3963, 2008.4). Proposed technology to support connectivity according to movement, it was developed based on MIPv6 protocol. Therefore, NEMO also corresponds to a host-based protocol, and there is a problem in that the network-based protocol does not operate normally in the PMIPv6 environment.

Accordingly, an object of the present invention is to provide a method for supporting the mobility of a mobile network in a PMIPv6 environment.

According to an aspect of the present invention, a method for supporting mobility of a mobile network in a PMIPv6 environment includes a method for supporting mobility of a mobile network using a proxy mobile internet protocol (PMIP) in a mobile network. A mobile router (MR) initialized using the mobile station (MR) enters another domain using a proxy mobile internet protocol (PMIP), and the mobile router (MR) entered is included in a domain using the proxy mobile internet protocol (PMIP) Processing the authentication server and an authentication procedure through an access gateway (MAG) to transmit setting information of a mobile node (MN) connected to the mobile router (MR) to a mobile access gateway (MAG), the mobile access gateway (MAG) ) Includes mobile node identifier (MN_ID) information among the configuration information. When a Proxy Binding Update (PBU) message is sent to a Visiting Local Mobility Anchor (LMAv), the Visiting Local Mobility Anchor (LMAv) is a proxy binding that includes home network prefix (HNP) information of the mobile node (MN). Transmitting a response (PBA) message to the mobile access gateway (MAG) and storing information on the received mobile node (MN) in a binding cache entry (BCE), the home received from the mobile access gateway (MAG) A router management (RA) message including network prefix (HNP) information is sent to the mobile router (MR), and the mobile router (MR) uses a home network prefix (HNP) information to proxy home address (pHoA). ) Is generated and set as a temporary address (CoA), and then the temporary address (CoA), mobile network prefix (MNP) information, and the initial home language of the mobile router (MR). A bounding update (BU) message including a response (HoA) is transmitted to the home agent (HA) of the initial domain, and the home agent (HA) binds the transmitted temporary address (CoA) and the initial home address (HoA). Maintaining.

According to another aspect of the present invention, a method for supporting mobility of a mobile network in a PMIPv6 environment includes a proxy mobile internet protocol in a method for supporting mobility of a mobile network in a domain using a proxy mobile internet protocol (PMIP) in a mobile communication network. Second mobile access in which the mobile router MR included in the first sub mobile network in which data is transmitted through the first mobile access gateway MAG1 of the domain using the PMIP is included in the second sub mobile network of the domain. Processing the authentication server and an authentication procedure through a gateway MAG2 and transmitting setting information of the mobile node MN connected to the mobile router MR to a second mobile access gateway MAG2, wherein the second mobile access The gateway MAG2 includes mobile node identifier (MN_ID) information among the configuration information. When a proxy binding update (PBU) message is transmitted to a resident local mobility anchor (LMAv), the resident local mobility anchor (LMAv) is a proxy binding including home network prefix (HNP) information of the mobile node (MN). Transmitting a response (PBA) message to the second mobile access gateway (MAG2) and storing information on the received mobile node (MN) in a binding cache entry (BCE), and the second mobile access gateway (MAG2). ) Includes transmitting a router management (RA) message including the received home network prefix (HNP) information to the mobile router (MR).

According to another aspect of the present invention, a method for supporting mobility of a mobile network in a PMIPv6 environment includes a proxy mobile internet protocol (PMIP) in a method for supporting mobility of a mobile network using a proxy mobile internet protocol (PMIP) in a mobile communication network. A mobile router (MR) connected to the first mobile access gateway (MAG1) initialized using the mobile station (MR) enters another domain using a proxy mobile internet protocol (PMIP), and the mobile router MR entered by the mobile router (MR) The second mobile access gateway (MAG2) included in the domain using the Internet Protocol (PMIP) is processed through the authentication server and the authentication process to the mobile node (MR) configuration information connected to the mobile router (MR) to the second information Transmitting to a mobile access gateway (MAG), the second mobile access The gateway MAG2 transmits a proxy binding update (PBU) message including mobile node identifier (MN_ID) information among the configuration information to the resident local mobility anchor (LMAv), and the resident local mobility anchor (LMAv) A proxy binding response (PBA) message including the home network prefix (HNP) information of a mobile node (MN) is transmitted to the second mobile access gateway (MAG2) and the information about the received mobile node (MN) is bound to the cache. Storing in an entry (BCE), the second mobile access gateway (MAG2) transmitting a router management (RA) message including the received home network prefix (HNP) information to the mobile router (MR), and The mobile router (MR) generates a proxy home address (pHoA) using the home network prefix (HNP) information and sets it as a temporary address (CoA). A Bounding Update (BU) message including CoA, Mobile Network Prefix (MNP) information, and Initial Home Address (HoA) of the Mobile Router (MR) is sent to the Home Local Mobility Anchor (LMAh) of the initial domain. And binding and maintaining the temporary address CoA transmitted with the home local mobility anchor LMAh and the initial home address HoA.

In addition, the initialization using the proxy mobile internet protocol (PMIP), the booted mobile router (MR) enters the domain using the proxy mobile Internet protocol (PMIP), the entered mobile router (MR) to the domain Processing the authentication server and an authentication procedure through the included mobile access gateway (MAG1) to transmit setting information of the mobile node (MN) connected to the mobile router (MR) to the first mobile access gateway (MAG1); When the first mobile access gateway MAG1 transmits a proxy binding update (PBU) message including mobile node identifier (MN_ID) information among the configuration information to a home local mobility anchor (LMAh), the home local mobility anchor (LMAh) Is configured to send a proxy binding response (PBA) message that includes home network prefix (HNP) information of the mobile node (MN). Transmitting to one access gateway MAG1 and storing information about the received mobile node MN in a binding cache entry BCE, wherein the first mobile access gateway MAG1 receives the received home network prefix HNP. Transmitting a router management (RA) message including information to the mobile router (MR), and the mobile router (MR) generates a home address (HoA) using home network prefix (HNP) information, and Generate and send mobile network prefix (MNP) information to a mobile network node (MNN) included in a domain, and send a bounding update message (BU) including the mobile network prefix (MNP) information to the home local mobility anchor (LMAh). Delivering to.

As described above, a method for supporting mobility of a mobile network in a PMIPv6 environment according to the present invention can use NEMO (mobile network or mobile network protocol) developed based on MIPv6, which is a host-based protocol, in a PMIPv6 environment, which is a network-based protocol. Therefore, the load and power consumption on the mobile node itself can be reduced, and the session can be maintained continuously when the mobile network moves.

Hereinafter, a method of supporting mobility of a mobile network in a PMIPv6 environment according to the present invention will be described in detail with reference to the accompanying drawings.

One embodiment of the present invention may be used in a mobile network environment using a proxy mobile internet protocol (PMIP), and the following describes an example applied to a network environment using a proxy mobile internet protocol version 6 (PMIPv6). The terms described below are defined in RFC 3963 and are shown in Table 1.

Terminoligy Justice Mobile node (MN) Mobility nodes Mobile Router (MR) Router with mobility Mobile network
(NEMO: Network Mobility, Mobile Network) Protocol to manage mobility of mobile network Home Link Network on which the mobile node or mobile router is initialized Access router (AR) Routers that provide network access points for mobile nodes and mobile routers Local mobility anchor
(LMA: Local Mobility Anchor) Who performs management for mobile nodes and mobile routers within the PMIPv6 domain Home Local Mobility Anchor (LMAh) LMA responsible for managing mobile nodes and mobile routers when the mobile node is initialized in the PMIPv6 domain Visiting Local Mobility Anchor (LMAv) LMA responsible for the management of the movement of mobile nodes and mobile routers in the non-visiting domain when the mobile node moves to another PMIPv6 domain Mobile access gateway
(MAG: Mobile Access Gateway) The entity to which the mobile node and mobile router connect Certificate Server
(AAA: Authentication Authorization Accounting server) Authentication server that authenticates mobile nodes and mobile routers and stores various policies Home Certificate Server (AAAh) An authentication server that is located on the home link and performs authentication for mobile nodes and mobile routers. Visiting Authentication Server (AAAv) An authentication server that is located on the visiting link and performs authentication for mobile nodes and mobile routers. Mobile network node
(MNN: Mobile Network Node) Nodes Served Within the Mobile Network Home Address (HoA)
Address given to home-linked router
Proxy binding update
(PBU: Proxy Binding Update) Update binding of PMIPv6 domain Proxy binding notification
(PBA: (Proxy Binding Acknowledge) Binding Notifications for PMIPv6 Domains Home network prefix
(HNP: Home Network Prefix) Home Network Display Information

In a method for supporting mobility of a mobile network in a PMIPv6 environment according to an embodiment of the present invention, a mobile router (MR) initialized using a mobile internet protocol (MIP) or a proxy mobile internet protocol (PMIP) may be a proxy mobile internet protocol ( A method of performing handoff for continuously maintaining a session when entering another domain using PMIP and when entering a sub-mobile network within a domain using proxy mobile internet protocol (PMIP).

First, a mobile network using a proxy mobile internet protocol (PMIP) according to the present invention has a new function added to a general mobile router (MR). That is, the mobile router (MR) according to an embodiment of the present invention is initialized in a mobile network using a proxy mobile internet protocol (PMIP), is assigned a home address (HoA), and is mobile by using the home address (HoA). The ability to send a network prefix (MNP) to a home local mobility anchor (LMAh) is added.

In general, in a PMIPv6 environment, the home network prefix (HNP) is transmitted only to the mobile router (MR), so the home local mobility anchor (LMAh) knows the mobile network prefix (MNP) that the mobile network node (MNN) in the mobile network receives. none.

Accordingly, in the present invention, when the mobile router (MR) moves to another domain or a sub-mobile network of the same domain in the PMIPv6 environment, the home local mobility anchor (MNP) is transmitted to the home local mobility anchor (LMAh). LMAh is passed to the mobile network prefix (MNP) so that the state information of each mobile node (MN) is stored in the home local mobility anchor (LMAh). A configuration of the mobile router (MR) and a method of operating in a PMIPv6 environment will be described in detail with reference to the accompanying drawings.

FIG. 1 is a diagram illustrating a mobile network configuration when a mobile network initialized using a mobile internet protocol (MIP) moves to a domain using a proxy mobile internet protocol (PMIP), and FIG. 3 is a mobile network initialized in a MIPv6 domain. Is a flow chart showing control messages and data transfer when moving to the PMIPv6 domain.

The mobile network may be initiated using Mobile Internet Protocol (MIP) or Proxy Mobile Internet Protocol (PMIP).

1 is a case where a mobile network is initialized using a mobile internet protocol (MIP), a mobile router (MR) 130 of a home link is assigned a home address (HoA) from a home agent (HA) 110, and the mobile network. A mobile network prefix (MNP) is assigned to a mobile network node (MNN) (meaning at least one mobile node (MN) included in the same mobile network). The mobile nodes (MNs 132) assigned the mobile network prefix (MNP) generate their own IP addresses, and data packets transmitted to the mobile network nodes (MNNs) are transmitted through the mobile routers (MRs). Is passed to.

When the initialized mobile network moves from the home link to another network using PMIPv6, the mobile router (MR) 250 according to an embodiment of the present invention is assigned a proxy home address (pHoA) and the proxy home address (pHoA). ) To transmit the mobile network prefix (MNP) to the home agent (HA) 110. A method of transmitting data between the mobile node MN 252 and the external corresponding node CN 400 in the PMIPv6 domain will be described in detail with reference to FIG. 3.

Referring to FIG. 3, a method of supporting mobility of a mobile network in a PMIPv6 environment according to an embodiment of the present invention may include: initializing a mobile network in a MIPv6 domain, moving to a PMIPv6 domain, and processing an authentication procedure. Updating the proxy binding, updating the binding with the home agent (HA) 110, and transmitting and receiving data.

The initializing of the mobile network in the MIPv6 domain is initialized to the basic operation of the general NEMO as described above, and the step of moving to the PMIPv6 domain to process the authentication process is performed by the mobile router (MR, 250) entered by the proxy mobile. The authentication server and the authentication process are processed through the mobile access gateways MAG1 and 230 included in the domain using the Internet Protocol (PMIP). That is, the authentication process is performed for the mobile router MR 250 through the mobile access gateways MAG1 and 230 of the PIMPv6 domain. When the authentication process requests authentication to the resident authentication server (AAAv, 220), the authentication process is processed by the communication between the resident authentication server (AAAv, 220) and the home authentication server (AAAh, 120). When the authentication procedure is completed, the configuration information of the mobile node MN 252 is transmitted to the mobile access gateways MAG1 and 230.

When the authentication procedure is completed, the configuration information of the mobile node MN 252 connected to the mobile router MR 250 is transmitted to the mobile access gateways MAG1 and 230.

Next, in updating the proxy binding in the PMIPv6 domain, the mobile access gateway (MAG1, 230) is a local mobility of the proxy binding update (PBU) message including the mobile node identifier (MN_ID) information of the configuration information When transmitting to an anchor (LMAv) 210, the locating local mobility anchor (LMAv) 210 sends a proxy binding response (PBA) message that includes home network prefix (HNP) information of the mobile node (MN, 252). The information about the received mobile node MN is transmitted to the mobile access gateways MAG1 and 230 and is stored in the binding cache entry BCE.

In addition, in the binding update with the home agent (HA) 110, the mobile access gateway (MAG1, 230) is a router management (RA) message containing the received home network prefix (HNP) information to the mobile router (MR) , 250), the mobile router (MR) 250 generates a proxy home address (pHoA) using the home network prefix (HNP) information, sets the temporary address (CoA), and then sets the temporary address ( CoA), Mobile Network Prefix (MNP) information, and a Bounding Update (BU) message including an initial home address (HoA) of the mobile router (MR) 250 is sent to the home agent (HA) 110 of the initial domain. The home agent (HA) 110 binds and maintains the transmitted temporary address CoA and the initial home address HoA.

In a step in which data is transmitted and received between an external corresponding node CN 400 and a mobile network node MNN in the mobile network, data is transmitted from the corresponding node CN 400 to the mobile network node MNN in the mobile network. When the packet is received, the data packet is encapsulated through the tunnel between the home agent (HA) 110 and the mobile router (MR) 250 via the home agent (HA) 110, and then the local mobility anchor ( After being transmitted to the LMAv (210), and transmitted to the mobile access gateway (MAG1, 230) through the tunnel between the local mobility anchor (LMAv, 210) and the mobile access gateway (MAG1, 230), the transmitted data The packet is first decapsulated and transmitted to the mobile router MR. The mobile router MR 250 decapsulates the first decapsulated data packet. Is sent to node (MN) 252.

In addition, when transmitting a data packet from the mobile network node (MNN) in the mobile network to the corresponding node (CN, 400), the data packet is between the mobile router (MR, 250) and the home agent (HA, 110) After encapsulated through the tunnel of the mobile access gateway (MAG1, 230) is transmitted to the mobile access gateway (MAG, 230), the mobile access gateway (MAG, 230) and the resident local mobility anchor (LMAv, 210) Transmits a data packet to the visiting local mobility anchor (LMAv, 210) through a tunnel between the plurality of nodes, and decapsulates in sequence at the visiting local mobility anchor (LMAv, 210), and then corresponds to the corresponding node (CN, 400). To send.

Data packets are transmitted and received through the tunnel, and when the transmission and reception of data is completed, the tunnel is released. The data packet is encapsulated, including the transmission destination address, and is decapsulated when the data packet is sent to the destination.

2 is a diagram illustrating a mobile network configuration when a mobile network initialized using proxy mobile internet protocol (PMIP) moves to a domain using proxy mobile internet protocol (PMIP), and FIG. 4 is a mobile network initialized in a PMIPv6 domain. Flowchart showing control messages and data transfer when the network moves to another PMIPv6 domain.

2 is a mobile network configuration when the mobile network is initialized using the proxy mobile internet protocol (PMIP) and then moved to a domain using the proxy mobile internet protocol (PMIP), and the mobile network is initialized and the mobile network is moved to another domain. When moving, a control message and a data transmission method will be described with reference to FIG. 4.

First, in the initializing using PMIPv6, the booted mobile router (MR) 540 enters a domain using a proxy mobile internet protocol (PMIP) and processes an authentication procedure. That is, the mobile node (MR) 540 that enters the mobile node (MN) connected to the mobile router (MR, 540) by processing the authentication server and authentication process through the mobile access gateways (MAG1, 530) included in the domain. The configuration information of 542 is transmitted to the first mobile access gateways MAG1 and 530.

When the authentication procedure ends, a proxy binding procedure is performed between the first mobile access gateways MAG1 and 530 and the home local mobility anchor LMAh and 510.

That is, when the first mobile access gateway (MAG1, 530) transmits a proxy binding update (PBU) message including mobile node identifier (MN_ID) information among the configuration information to the home local mobility anchor (LMAh, 510), the home A local mobility anchor (LMAh) 510 transmits a proxy binding response (PBA) message including home network prefix (HNP) information of the mobile node (MN) 542 to the first mobile access gateway (MAG1, 530). The mobile node (MN) 542 stores the received information in the binding cache entry (BCE) to update the state information of the mobile network.

When the proxy binding procedure ends, when the first mobile access gateway (MAG1, 530) transmits a router management (RA) message including the received home network prefix (HNP) information to the mobile router (MR, 540), The binding update procedure is performed between the mobile router MR 540 and the home local mobility anchor LMAh 510.

That is, the mobile router (MR) 540 generates a home address (HoA) using the home network prefix (HNP) information to generate the mobile network prefix (MNP) information to the mobile network node (MNN) included in the domain. The mobile router (MR) 650 and the home local mobility anchor (MR) 650 are transmitted by transmitting a bounding update message (BU) including the mobile network prefix (MNP) information to the home local mobility anchor (LMAh, 510). LMAh 510 is bound for data transmission.

After the mobile network is initialized in the PMIPv6 domain and enters another domain using Proxy Mobile Internet Protocol (PMIP), the state of the mobile node (MN) 652 undergoes a new authentication processing step, proxy binding update step, and binding update step. The information is recorded.

First, in the authentication processing step, the authentication server and the authentication procedure are processed through the second mobile access gateway (MAG2, 630) included in the domain where the entered mobile router (MR) 650 uses the proxy mobile internet protocol (PMIP). When the authentication is terminated, configuration information of the mobile node MN 652 connected to the mobile router MR 650 is transmitted to the second mobile access gateway MAG2 630.

In the proxy binding updating step, the second mobile access gateway (MAG2, 630) may transmit a proxy binding update (PBU) message including mobile node identifier (MN_ID) information among the configuration information to a resident local mobility anchor (LMAv) 610. And the resident local mobility anchor (LMAv) 610 sends a proxy binding response (PBA) message that includes home network prefix (HNP) information of the mobile node (MN) 652 to the second mobile access gateway (MAG2). 630 is transmitted, and the information on the received mobile node MN 652 is stored in the binding cache entry BCE and ends.

In the binding update step, the second mobile access gateway (MAG2, 630) is a router management (RA) message including the received home network prefix (HNP) information is transmitted to the mobile router (MR, 650), the mobile router (MR, 650) generates a proxy home address (pHoA) using the home network prefix (HNP) information and sets it as a temporary address (CoA), and then the temporary address (CoA) and mobile network prefix (MNP) information. A bounding update (BU) message including an initial home address (HoA) of the mobile router (MR) 650 is transmitted to a home local mobility anchor (LMAh, 510) of the initial domain, and the home local mobility anchor (LMAh, The 510 maintains the binding of the transmitted temporary address CoA and the initial home address HoA.

By the binding between the mobile router MR 650 and the home local mobility anchor LMAh 510, the movement state information of the mobile router MR 650 is stored in the home local mobility anchor LMAh 510. .

Therefore, when a data packet is transmitted between the external correspondent node CN 800 and the mobile network node MNN in the mobile network, the mobile network node MNN, the mobile router MR 650, and the second mobile access. Data packets are transmitted and received through the gateways MAG2 and 630, the resident local mobility anchors LMAv 610, the home local mobility anchors LMAh 510, and external correspondent nodes CN 800.

First, when a data packet is received from the correspondent node CN 800 to the mobile network node MNN in the mobile network, the data packet passes through a home local mobility anchor LMAh 510 to the home local mobility anchor. Encapsulated through the tunnel between the LMAh, 510 and the mobile router (MR, 650) is transmitted to the second mobile access gateway (MAG2 630), and de-encapsulates the transmitted data packet first, and then the mobile router (MR) 650, and the first data packet decapsulated by the mobile router (MR) 650 is transmitted to the mobile node (MN) 652 after the second decapsulation is decapsulated.

In addition, when a data packet is transmitted from the mobile network node MNN in the mobile network to the corresponding node CN 800, the data packet is transmitted to the mobile router MR 650 and a home local mobility anchor LMAh 510. Is encapsulated through the tunnel between the second mobile access gateway (MAG2, 630), and the second mobile access gateway (MAG2, 630) is transmitted to the second mobile access gateway (MAG2, 630). A data packet is sent to the resident local mobility anchor (LMAv) 610 via a tunnel between a locating local mobility anchor (LMAv) 610, which is in turn decapsulated by the resident local mobility anchor (LMAv) 610 in turn. Is transmitted to the corresponding node (CN) 800.

In addition, when the mobile network moves to the sub-mobile network in the PMIPv6 domain, only the proxy binding update step is performed without proceeding with the binding update procedure.

First, a mobile router MR included in a first sub mobile network processes an authentication server and an authentication procedure through a second mobile access gateway MAG2 included in a second sub mobile network of the domain. ) Transmits configuration information of the mobile node MN connected to the second mobile access gateway MAG2.

The second mobile access gateway (MAG2) sends a proxy binding update (PBU) message to the resident local mobility anchor (LMAv), and receives a proxy binding response (PBA) message from the resident local mobility anchor (LMAv). The proxy binding update (PBU) message includes mobile node identifier (MN_ID) information, and the proxy binding response (PBA) message includes home network prefix (HNP) information of the mobile node (MN).

In the locating local mobility anchor LMAv, information about the received mobile node MN is stored in a binding cache entry BCE.

The second mobile access gateway (MAG2) transmits a router management (RA) message including the received home network prefix (HNP) information to the mobile router (MR), and terminates the proxy binding procedure.

Accordingly, data transmission and reception between the external correspondent node CN and the mobile network node MNN in the mobile network is performed by the correspondent node CN, the home local mobility anchor LMAh, the resident local mobility anchor LMAv, and the mobile router. (MR), and via mobile network node (MNN).

First, when a data packet is received from a corresponding node CN to a mobile network node MNN in the mobile network, the data packet passes through a home local mobility anchor LMAh and the home local mobility anchor LMAh and a mobile router. After encapsulation through the tunnel between (MR), it is sent to the visiting local mobility anchor (LMAv).

The transmitted data packet is transmitted to the second mobile access gateway (MAG2) through a tunnel between the visiting local mobility anchor (LMAv) and the second mobile access gateway (MAG2), and encapsulation of the transmitted data packet. Is first released and sent to the mobile router (MR).

After the mobile router MR decapsulates the first packet, the mobile router MR transmits the decapsulated data packet to the mobile node MN.

Conversely, when transmitting a data packet from a mobile network node (MNN) in a mobile network to the corresponding node (CN), the data packet passes through a tunnel between the mobile router (MR) and the home local mobility anchor (LMAh). After being encapsulated and sent to the second mobile access gateway MAG2, the second mobile access gateway MAG2 is via a tunnel between the second mobile access gateway MAG2 and the resident local mobility anchor LMAv. A data packet is transmitted to the resident local mobility anchor LMAv, which is in turn decapsulated by the resident local mobility anchor LMAv, and then to the corresponding node CN.

The method for supporting the mobility of the mobile network in the PMIPv6 environment may be written by a computer program, and codes and code segments constituting the program may be easily inferred by a computer programmer in the art.

In addition, the program is stored in a computer readable medium (computer reader meadia), and read and executed by a computer implements a method for supporting the mobility of a mobile network in a PMIPv6 environment. The information storage medium includes a magnetic recording medium, an optical recording medium and a carrier wave medium.

The above-described embodiments of the present invention are disclosed for the purpose of illustration, and those skilled in the art may make various modifications, changes, and additions within the spirit and scope of the present invention. Should be considered to be within the scope of the following claims.

Since the method for supporting mobility of a mobile network in the PMIPv6 environment according to the present invention can be used for a communication device and a network device for performing a handoff to maintain a session when the mobile network moves with a plurality of mobile nodes in a PMIPv6 environment. In other words, it is reasonable that industrial applicability is recognized.

FIG. 1 is a diagram illustrating a mobile network configuration when a mobile network initialized using a mobile internet protocol (MIP) moves to a domain using a proxy mobile internet protocol (PMIP).

FIG. 2 is a diagram illustrating a mobile network configuration when a mobile network initialized using proxy mobile internet protocol (PMIP) moves to a domain using proxy mobile internet protocol (PMIP).

3 is a flowchart illustrating control message and data transmission when a mobile network initialized in a MIPv6 domain moves to a PMIPv6 domain.

4 is a flowchart illustrating control message and data transmission when a mobile network initialized in a PMIPv6 domain moves to another PMIPv6 domain.

Claims (15)

In a method for supporting mobility of a mobile network using a proxy mobile internet protocol (PMIP) in a mobile communication network, The mobile router (MR) initialized using the mobile internet protocol (MIP) entering another domain using the proxy mobile internet protocol (PMIP); The mobile node (MR) is connected to the mobile router (MR) by processing the authentication server and authentication process through the mobile access gateway (MAG) included in the domain using the proxy mobile Internet Protocol (PMIP) Transmitting setting information of the MN to the mobile access gateway MAG; The mobile access gateway (MAG), when a proxy binding update (PBU) message including mobile node identifier (MN_ID) information of the configuration information is transmitted to the landing local mobility anchor (LMAv), the visiting local mobility anchor (LMAv) ) Transmits a proxy binding response (PBA) message including the home network prefix (HNP) information of the mobile node (MN) to the mobile access gateway (MAG) and binds the information about the received mobile node (MN). Storing in a cache entry (BCE); Transmitting a router management (RA) message including home network prefix (HNP) information received from the mobile access gateway (MAG) to the mobile router (MR); And The mobile router (MR) generates a proxy home address (pHoA) using the home network prefix (HNP) information, sets the temporary address (CoA), and then sets the temporary address (CoA) and the mobile network prefix (MNP). A bounding update (BU) message including information and an initial home address (HoA) of the mobile router (MR) is transmitted to the home agent (HA) of the initial domain, and the temporary address (to which the home agent (HA) is transmitted) Binding and maintaining an initial home address (HoA) and a CoA). The method of claim 1, And transmitting and receiving data between an external corresponding node (CN) and a mobile network node (MNN) in the mobile network. The method of claim 2, The step of transmitting and receiving data, When a data packet is received from the corresponding node CN to the mobile network node MNN in the mobile network, the data packet passes between the home agent HA and the mobile router MR via the home agent HA. Encapsulated through a tunnel of and then transmitted to the local mobility anchor (LMAv); Transmitting to the mobile access gateway (MAG) via a tunnel between the local mobility anchor (LMAv) and the mobile access gateway (MAG); Firstly decapsulating the transmitted data packet and transmitting it to the mobile router (MR); And And transmitting, by the mobile router (MR), the first unencapsulated data packet to the mobile node (MN) after the second unencapsulated data packet. The method of claim 2, The step of transmitting and receiving data, When transmitting a data packet from a mobile network node (MNN) in the mobile network to the corresponding node (CN), the data packet is encapsulated through a tunnel between the mobile router (MR) and a home agent (HA) and then Transmitted to a mobile access gateway (MAG); The mobile access gateway (MAG) sending a data packet to the visiting local mobility anchor (LMAv) via a tunnel between the mobile access gateway (MAG) and the visiting local mobility anchor (LMAv); And And de-encapsulating in sequence at the resident local mobility anchor (LMAv) and transmitting the encapsulation node to the corresponding node (CN). What is claimed is: 1. A method for supporting mobility of a mobile network in a domain using proxy mobile internet protocol (PMIP) in a mobile communication network, The mobile router (MR) included in the first sub mobile network in which data is transmitted through the first mobile access gateway (MAG1) of the domain using the proxy mobile internet protocol (PMIP) is included in the second sub mobile network of the domain. Processing the authentication server and an authentication procedure through a second mobile access gateway (MAG2) to transmit setting information of the mobile node (MN) connected to the mobile router (MR) to the second mobile access gateway (MAG2); When the second mobile access gateway (MAG2) transmits a proxy binding update (PBU) message including mobile node identifier (MN_ID) information of the configuration information to a resident local mobility anchor (LMAv), the resident local mobility anchor (LMAv) transmits a proxy binding response (PBA) message including the home network prefix (HNP) information of the mobile node (MN) to the second mobile access gateway (MAG2) and sends the received mobile node (MN) to the received mobile node (MN). Storing information on the binding cache entry (BCE); And The second mobile access gateway (MAG2) transmits a router management (RA) message including the received home network prefix (HNP) information to the mobile router (MR); mobility of a mobile network in a PMIPv6 environment including a How to support. The method of claim 5, And transmitting and receiving data between an external corresponding node (CN) and a mobile network node (MNN) in the mobile network. The method of claim 6, The step of transmitting and receiving data, When a data packet is received from the correspondent node CN to a mobile network node MNN in the mobile network, the data packet passes through a home local mobility anchor LMAh and the home local mobility anchor LMAh and a mobile router. Encapsulated via a tunnel between MRs and then sent to the resident local mobility anchor (LMAv); The transmitted data packet is transmitted to the second mobile access gateway (MAG2) through a tunnel between the resident local mobility anchor (LMAv) and the second mobile access gateway (MAG2); Firstly decapsulating the transmitted data packet and transmitting it to the mobile router (MR); And And transmitting, by the mobile router (MR), the first unencapsulated data packet to the mobile node (MN) after the second unencapsulated data packet. The method of claim 6, The step of transmitting and receiving data, When sending a data packet from a mobile network node (MNN) in the mobile network to the corresponding node (CN), the data packet is encapsulated through a tunnel between the mobile router (MR) and the home local mobility anchor (LMAh). And then transmitted to the second mobile access gateway (MAG2); The second mobile access gateway (MAG2) transmitting a data packet to the visiting local mobility anchor (LMAv) via a tunnel between the second mobile access gateway (MAG2) and the visiting local mobility anchor (LMAv). ; And And de-encapsulating in sequence at the resident local mobility anchor (LMAv) and transmitting the encapsulation node to the corresponding node (CN). In a method for supporting mobility of a mobile network using a proxy mobile internet protocol (PMIP) in a mobile communication network, Entering, by the mobile router MR connected with the first mobile access gateway MAG1 initialized using the proxy mobile internet protocol PMIP, to another domain using the proxy mobile internet protocol PMIP; The entered mobile router (MR) is connected to the mobile router (MR) by processing the authentication server and the authentication process through a second mobile access gateway (MAG2) included in the domain using the proxy mobile Internet Protocol (PMIP) Transmitting configuration information of a mobile node (MN) to the second mobile access gateway (MAG); When the second mobile access gateway (MAG2) transmits a proxy binding update (PBU) message including mobile node identifier (MN_ID) information of the configuration information to a resident local mobility anchor (LMAv), the resident local mobility anchor (LMAv) transmits a proxy binding response (PBA) message including the home network prefix (HNP) information of the mobile node (MN) to the second mobile access gateway (MAG2) and sends the received mobile node (MN) to the received mobile node (MN). Storing information on the binding cache entry (BCE); Sending, by the second mobile access gateway (MAG2), a router management (RA) message including the received home network prefix (HNP) information to the mobile router (MR); And The mobile router (MR) generates a proxy home address (pHoA) using the home network prefix (HNP) information, sets the temporary address (CoA), and then sets the temporary address (CoA) and the mobile network prefix (MNP). A bounding update (BU) message including information and an initial home address (HoA) of the mobile router (MR) is sent to a home local mobility anchor (LMAh) of the initial domain, and the home local mobility anchor (LMAh) is sent. And binding and maintaining a predetermined temporary address (CoA) and an initial home address (HoA). 10. The method of claim 9, Initialization using the proxy mobile internet protocol (PMIP), The booted mobile router (MR) entering a domain using a proxy mobile internet protocol (PMIP); The first mobile router MR processes the authentication server and the authentication procedure through the mobile access gateway MAG1 included in the domain, and receives the configuration information of the mobile node MN connected to the mobile router MR. Transmitting to the mobile access gateway (MAG1); When the first mobile access gateway MAG1 transmits a proxy binding update (PBU) message including mobile node identifier (MN_ID) information among the configuration information to a home local mobility anchor (LMAh), the home local mobility anchor (LMAh) ) Transmits a proxy binding response (PBA) message including the home network prefix (HNP) information of the mobile node (MN) to the first mobile access gateway (MAG1) and for the received mobile node (MN). Storing the information in a binding cache entry (BCE); The first mobile access gateway (MAG1) transmitting a router management (RA) message including the received home network prefix (HNP) information to the mobile router (MR); And The mobile router (MR) generates a home address (HoA) using home network prefix (HNP) information, generates and transmits mobile network prefix (MNP) information to a mobile network node (MNN) included in the domain. And forwarding a bounding update message (BU) that includes the mobile network prefix (MNP) information to the home local mobility anchor (LMAh). The method of claim 10, And transmitting and receiving data between an external corresponding node (CN) and a mobile network node (MNN) in the mobile network. The method of claim 10, The step of transmitting and receiving data, When a data packet is received from the correspondent node CN to a mobile network node MNN in the mobile network, the data packet passes through a home local mobility anchor LMAh and the home local mobility anchor LMAh and a mobile router. Encapsulated through a tunnel between MRs and transmitted to the second mobile access gateway (MAG2); Primarily decapsulating the transmitted data packet and transmitting it to the mobile router (MR); And And transmitting, by the mobile router (MR), the first unencapsulated data packet to the mobile node (MN) after the second unencapsulated data packet. The method of claim 10, The step of transmitting and receiving data, When a data packet is transmitted from a mobile network node (MNN) in the mobile network to the corresponding node (CN), the data packet is encapsulated through a tunnel between the mobile router (MR) and a home local mobility anchor (LMAh). Then transmitting to the second mobile access gateway (MAG2); The second mobile access gateway (MAG2) transmits a data packet to the visiting local mobility anchor (LMAv) through a tunnel between the second mobile access gateway (MAG2) and the visiting local mobility anchor (LMAv). step; And And de-encapsulating in sequence at the resident local mobility anchor (LMAv) and transmitting the encapsulation node to the corresponding node (CN). A recording medium having a program recorded thereon and readable by an electronic device for performing a method for supporting mobility of a mobile network in the PMIPv6 environment according to any one of claims 1 to 13. Initializing in a mobile network using a proxy mobile internet protocol (PMIP), a home address (HoA) is assigned, and a mobile network prefix (MNP) is transmitted to a home local mobility anchor (LMAh) using the home address (HoA). Mobile router.

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