KR101368469B1 - Network based internet protocol mobility system and handover method thereof - Google Patents

Abstract

A network based mobility system and a handover method therein are disclosed.
When a mobile terminal having interfaces of different operators connects between domains of different operators, the mobile terminal notifies a new connection fact from a newly connected domain to an existing domain to which the mobile terminal is connected. The existing domain requests the flow binding configuration to the new domain when there is a change in the flow binding according to the new connection fact. The new domain establishes flow binding for the mobile terminal. A tunnel for the flow is established between the new domain and the existing domain, and the packet delivered to the existing domain is delivered to the new domain through the tunnel.

Description

Network-based mobility system and handover method in the system {NETWORK BASED INTERNET PROTOCOL MOBILITY SYSTEM AND HANDOVER METHOD THEREOF}

The present invention relates to a network-based mobility system and a handover method in the system. In particular, the present invention relates to a network-based mobility system that supports inter-domain handovers of different operators for mobile terminals having interfaces of different operators together, and a handover method in the system.

The present invention is derived from the research conducted as part of the original technology development support of the Ministry of Knowledge Economy [Task Management Number: 2009-F-050-01, Title: Virtualization Support Programmable Platform and Core for Future Internet Infrastructure] Original technology development].

With the development of mobile communication technology, a mobile device equipped with a plurality of network interfaces, that is, a mobile terminal, has emerged. At the same time, there is a growing interest in a method for efficiently using a plurality of interfaces simultaneously.

Selecting and assigning one of several interfaces of the mobile host to a flow delivered to the mobile terminal in such a mobile environment is called flow binding, which is equivalent to binding a specific flow to a specific care of address (CoA). Here, which interface to assign each flow to is determined by a policy regarding binding.

This flow binding method is closely related to the mobility guarantee technology of the mobile terminal, and can be roughly divided into a terminal-based flow binding method and a network-based flow binding method like the existing mobility guarantee methods.

First, in the terminal-based flow binding method, the existing Mobile Internet Protocol version 6 (MIPv6) has been extended to register multiple CoAs for one home address. According to this method, a mobile terminal that wants to bind flow generates a binding identification number (BID) for each flow binding and sends a binding update to the binding identifier mobility option. The Home Agent (HA) and the Corresponding Node (CN) generate a binding cache entry based on this information and use it to send a packet corresponding to the flow.

Such a terminal-based method requires the mobile terminal to have a separate signaling protocol for communication with the network, and the mobile terminal has to deal with a complicated process such as message exchange for binding updates.

On the other hand, in the existing network-based flow binding method, since a network-related message exchange is performed instead of the mobile terminal, a separate protocol stack is not required in the mobile terminal, thereby reducing overhead of the mobile terminal.

Currently proposed network-based flow binding methods mainly use the Proxy Mobile Internet Protocol version 6 (PMIPv6), a network-based mobility management method. This PMIPv6 defines two functional elements called Mobile Access Gateway (“MAG”) and Local Mobility Anchor (“LMA”).

The MAG monitors the movement of the mobile terminal on the access link and delivers the monitored information to the LMA through a Proxy Binding Update (PBU) message. The LMA serves as a home agent for the mobile terminal in the PMIPv6 domain and manages the reachable state information of the mobile terminal.

In this network-based flow binding method, when a mobile terminal is connected to a MAG belonging to a specific LMA domain, the LMA or MAG refers to a user profile or an operator policy to determine flow binding.

Meanwhile, in the network-based flow binding method, all interfaces of the mobile terminal belong to one provider, and the mobile terminal has only one home address, and MAGs to which each interface is connected are managed by one LMA. I assume that it is.

However, according to the diversification of mobile communication services, when the interface devices mounted on the mobile terminal are registered with different operators, different home addresses will be allocated to each service provider, and the MAGs to which each interface is connected may also be domains of different service providers. Since it belongs to different LMA domains, there is a need for a network-based flow binding method that supports flow handover between domains of different operators considering this.

The technical problem to be achieved by the present invention is that even if the mobile terminal has a different operator's interface, the mobility system can be bound between domains of different operators without the involvement of the mobile terminal, so that the flow handover to the new interface is also possible and It is to provide a handover method in the system.

Handover method according to an aspect of the present invention,

A method for performing a handover due to a change in binding of a flow from a first domain in which mobile terminals having different operators' interfaces are flow-bound to a different second domain, wherein the first domain is from the second domain. Receiving a notification of a new connection of the mobile terminal; Determining whether to change a binding for the flows of the mobile terminal bound to the first domain; If there is a flow requiring a binding change, the first domain forwarding a binding setup request for the flow to the second domain; And when the binding of the flow according to the binding establishment request from the second domain is completed, the first domain establishes a tunnel with the second domain to complete the handover for the flow.

Handover method according to another aspect of the present invention,

A method for performing a handover due to a change in binding of a flow from a first domain in which mobile terminals having different operator interfaces are flow-bound to a different second domain, wherein the second domain is a new terminal of the mobile terminal. Recognizing a connection; Notifying the first domain of a new connection fact of the mobile terminal; Receiving a flow binding establishment request for the mobile terminal from the first domain; Setting a flow binding for the mobile terminal according to the request; And the second domain establishing a tunnel with the first domain to complete the handover.

A mobility system according to another aspect of the present invention,

A network-based mobility system that supports flow handover between domains of different operators, wherein the service provider monitors the movement of a mobile terminal on an access link and has a different domain from which the operator is connected while the mobile terminals having different operator interfaces are connected. A mobile access gateway requesting flow binding setup for the mobile terminal when a new connection fact of the mobile terminal is notified from the mobile terminal; Perform a home agent function for the mobile terminal in the domain through the mobile access gateway, and the service provider is notified from the other domain of the new connection of the mobile terminal to the mobile access gateway, and the flow binding settings A local mobility anchor that the operator delivers to another domain; And each node located in a domain of different operators, and acting as a node for exchanging information between the different providers, the provider being notified of a new connection of the mobile terminal from another domain, and forwarding to the local mobility anchor. And a connection exchange server that receives the flow binding setting from the local mobility anchor and delivers the service to another domain, wherein the local mobility anchor is different from the service provider when the provider completes the flow binding setting in another domain. And establishing a tunnel with the local mobility anchor of the domain.

A mobility system according to another aspect of the present invention,

A network-based mobility system that supports flow handover between domains of different providers. The network-based mobility system monitors the movement of mobile terminals on an access link. When a mobile terminal having a different operator interface is newly connected, a new connection fact is displayed. A notifying mobile access gateway; Performs a home agent function for the mobile terminal in a domain through the mobile access gateway, and when the new access fact of the mobile terminal is notified from the mobile access gateway, the service provider forwards the new access fact to another domain; A local mobility anchor for forwarding the flow binding settings for the mobile terminal for which the service provider is requested from another domain; And each node located in a domain of different operators, and acting as a node for exchanging information between the different providers, receiving a new connection to the mobile terminal from the local mobility anchor, and notifying the other domain to the other domain, The service provider includes a connection exchange server that receives a request for setting a flow binding for the mobile terminal from another domain and transfers the set to the local mobility anchor, wherein the local mobility anchor completes the setting of the flow binding at the mobile access gateway. The operator may establish a tunnel with a local mobility anchor in another domain.

According to the present invention, even if the mobile terminal has interfaces of different operators, binding of flows between domains of different providers is possible without the intervention of the mobile terminal.

In addition, even if a mobile terminal having interfaces of different operators accesses a domain between different providers through a new interface, handover of the flow between domains becomes possible.

1 is a diagram schematically illustrating a general network-based mobility system.
2 is a diagram illustrating an initial access procedure of a mobile terminal in a general network-based mobility system.
3 is a diagram schematically illustrating a network-based mobility system according to an embodiment of the present invention.
4 is a flowchart illustrating a handover method of cross-domain flows of different providers according to an embodiment of the present invention.
5 is a diagram illustrating a packet forwarding process after handover of a cross-domain flow of different providers according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise. Also, the terms " part, "" module," and " module "in the specification mean units for processing at least one function or operation and can be implemented by hardware or software or a combination of hardware and software .

In the present specification, a mobile terminal (MT) is a terminal, a mobile station (MS), a subscriber station (SS), a portable subscriber station (PSS), a user device (User Equipment). It may also refer to a user equipment (UE), an access terminal (AT), and the like, and may include all or some functions of a mobile terminal, a subscriber station, a portable subscriber station, a user device, and the like.

Now, a network-based mobility system supporting handover between domains of different operators according to an embodiment of the present invention and a handover method in the system will be described in detail with reference to the accompanying drawings.

1 is a diagram schematically illustrating a general network-based mobility system.

As shown in FIG. 1, a mobile terminal equipped with a plurality of interfaces for connecting to various access networks (hereinafter, "mobile terminal" means a mobile terminal equipped with a plurality of interfaces) 10 When communicating with the other terminal (not shown), it may be connected to the LMA 40 via different wireless links (WiMax, 3G) provided by the MAG (20, 30). Here, the plurality of interfaces mounted on the mobile terminal 10 all belong to one operator. Accordingly, the mobile terminal 10 may simultaneously use a mobile Internet Protocol TeleVision (IPTV) flow and a Voice over Internet Protocol (VoIP) flow through two interfaces on one LMA domain.

As such, in order for the mobile terminal 10 to access the MAGs 20 and 30 and receive the communication service through the LMA 40, the mobile terminal 10 performs the MAGs 20 and 30 according to an initial access procedure based on PMIPv6. It should be connected to LMA 40 via.

This initial access procedure is as follows. Here, it is assumed that the mobile terminal 10 is connected through the MAG (20).

Referring to FIG. 2, when the mobile terminal 10 moves and enters the range of the MAG 20 and is connected to the MAG 20 (S10), a terminal access event is generated in the MAG 20 so that the MAG 20 may be connected to the MAG 20. An identifier and a profile of the mobile terminal 10 are obtained (S11). Thereafter, the MAG 20 transmits a PBU (Proxy Binding Update) message to the LMA 40 (S12).

The LMA 40 receives the PBU message of the MAG 20, grants a home network prefix (HNP) of the mobile terminal 10, and sets an entry for the mobile terminal 10 in a binding cache entry (BCE). (S13). Thereafter, the LMA 40 transmits the PBA message to the MAG 20 in response to the PBU message (S14). At this time, the HBA for the mobile terminal 10 is included in the PBA message.

After receiving the PBA message of the LMA 30 (S15), the MAG 20 establishes a bidirectional tunnel with the LMA 40 (S16).

Thereafter, the mobile terminal 10 transmits a Router Solicitation (RS) message to the MAG 20 (S17), and the MAG 20 transmits a Router Advertisement (RA) message to the mobile terminal 10 in response thereto. (S18). At this time, the HNP for the mobile terminal 10 is included in the RA message and transmitted to the mobile terminal 10.

The mobile terminal 10 generates an MN-HoA (MN home address) using the HNP included in the RA message, and performs communication in the PMIPv6 domain using the MN-HoA.

Meanwhile, the mobile terminal 10 may also access the LMA 40 through the MAG 30, and may generate the MN-HoA through the initial access procedure as described above.

However, in the network-based mobility system as described above, since a plurality of interfaces mounted on the mobile terminal 10 belong to one operator, the MN-HoAs generated by accessing through the MAGs 20 and 30 are the same, and thus only one. Will have only the home address. In the state having one home address, flow binding according to movement or environment change between the MAGs 20 and 30 of the mobile terminal 10 may be controlled and performed by the LMA 40.

However, when a plurality of interfaces mounted on the mobile terminal 10 are registered to different operators, the home addresses generated through the respective interfaces are allocated differently for each service provider, and the MAG corresponding to each interface also has a different LMA. Because it belongs to, there is a problem that flow binding according to movement between MAGs or environment changes cannot be performed at this time.

3 is a diagram schematically illustrating a network-based mobility system according to an embodiment of the present invention for solving the above problem.

As shown in FIG. 3, in the network-based mobility system according to the embodiment of the present invention, domains 200 and 300 of different operators are provided with respect to the mobile terminal 100 equipped with a plurality of interfaces registered to different operators. It provides a mobile communication service with the counterpart terminal 400 through). Here, the domain 200 is the domain of the operator A, the domain 300 is the domain of the operator B, and the operators of the two domains 200 and 300 are different from each other, and the domains 200 and 300 are all WiBro services. It is assumed that 3G service can be provided.

The mobile terminal 100 is equipped with two interfaces that can be connected to WiBro and 3G. The description is based on the assumption that the WiBro interface is an interface registered with the operator A, and the 3G interface is an interface registered with the operator B. do. That is, the mobile terminal 100 must access the WiBro network of the service provider A's domain 200 in order to access the WiBro network using the WiBro interface, but in order to access the 3G network using the 3G interface, the mobile B's domain ( 300) 3G network connection. Herein, it is assumed that the mobile terminal 200 is equipped with two interfaces, but the technical scope of the present invention is not limited thereto, and the mobile terminal 100 may be equipped with three or more interfaces, It is also possible to equip interfaces registered with three or more operators.

Domains 200 and 300 of the network-based mobility system according to an embodiment of the present invention are MAGs 210 and 310, LMAs 220 and 320, and an Attachment eXchange Server (hereinafter referred to as "AXS") 230 330, and HA 240, 340. MAG 210, LMA 220, AXS 230 and HA included in domain 200 and MAG 310, LMA 320, AXS 330 and HA included in domain 300 Since the 340 performs the same function, only the components included in the domain 200 will be described herein.

The MAG 210 monitors the movement of the mobile terminal 100 on the access link and delivers the monitored information to the LMA 220 via a PBU message.

In the embodiment of the present invention, the MAG 210 receives new connection information from the LMA 220 indicating that the mobile terminal 100 connected to the MAG 210 newly connects through another operator's domain, for example, the domain 300. In this case, it is determined whether or not the existing flow binding set for the mobile terminal 100 is changed. At this time, the MAG 210 determines whether to change the flow binding based on a user profile or a policy stored for the mobile terminal 100. The MAG 210 requests the LMA 220 to set a new flow binding that is changed when it is determined that the flow binding for the mobile terminal 100 needs to be changed.

In addition, when the MAG 210 receives a request for setting up a new flow binding from the LMA 220, the MAG 210 sets a flow binding for the mobile terminal 100 according to the required new flow binding. In this embodiment, this operation is performed in the MAG 310.

The LMA 220 serves as a home agent for the mobile terminal 100 in the domain 200. In addition, the LMA 220 is an anchor point on the topology of the HNP allocated to the mobile terminal 100, and manages the reachability state of the mobile terminal 100 in the domain 200. Do it.

In the embodiment of the present invention, the LMA 220 receives new connection information indicating that the mobile terminal 100 connected to itself from the AXS 230 is newly connected through another operator's domain, for example, the domain 300. If it is delivered to the MAG (210). And, if there is a request for setting up a new flow binding from the MAG 210 and delivers it to the AXS 230.

In addition, if there is a new connection through the interface of the mobile terminal 100, the LMA 220 notifies the AXS 230 of the new connection. In addition, when the mobile terminal 100 is already connected from another domain, for example, the domain 300 through the AXS 230, and a request for setting up a new flow binding for the mobile terminal 100 is received, the MAG ( 210).

When the new flow binding is established between the domains 200 and 300, the LMA 220 establishes a tunnel for the flow with the LMA 300 of another domain, for example, the domain 300.

The AXS 230 and 330 are nodes for exchanging information between providers. AXS exists separately in each operator domain 200 and may be used for the purpose of exchanging access information of a mobile terminal for each operator domain. AXS may be managed jointly by operators that directly enter into an interoperability agreement or may be independently managed by third party operators (eg, Mobile Virtual Network Operator (MVNO) operators) that have agreements with each operator.

In an embodiment using the AXS, for example, AXSs belonging to the service provider A and the service provider B exchange the access information of the mobile terminal 100 connected to each of the domains 200 and 300, and then, respectively, to the LMA 220. To pass. The AXS 230 classifies each mobile terminal 100 using an MN-Identifier, which is an identifier of the mobile terminal 100 defined in PMIPv6, and manages a network connection status of each mobile terminal 100.

In the embodiment of the present invention, the AXS 230 has new connection information indicating that the mobile terminal 100 connected to the domain 200 to which the AXS 230 belongs is newly connected through another operator's domain, for example, the domain 300. When it is received from the AXS 330 of the corresponding domain 300, it is transmitted to the LMA 220. And, if there is a request for setting up a new flow binding from the LMA 220 and delivers it to the AXS 330 of the corresponding domain (300).

In addition, if the AXS 230 is informed from the LMA 220 that there is a new connection through the interface of the mobile terminal 100, the AXS 230, along with the identifier of the mobile terminal 100, the AXS of another domain 300 Notified by 330. When the mobile terminal 100 is already connected through the AXS 330 of another domain 300, and a request for setting up a new flow binding for the mobile terminal 100 is received, the mobile terminal 100 transmits it to the LMA 220. .

The HA 240 is a real home agent of the mobile terminal 100, and relays communication with the counterpart node 400.

Hereinafter, a handover method of cross-domain flows of different providers according to an embodiment of the present invention will be described with reference to FIG. 4.

First, as described with reference to FIG. 3, the mobile terminal 100 is registered in the operator A and is accessible to the WiBro network (I / F_1) and is registered in the operator B and is accessible to the 3G network (I /. F_2) is attached.

In the embodiment of the present invention, the 3G interface I of the mobile terminal 100 while the mobile terminal 100 receives the VoIP flow and the mobile IPTV flow service by accessing the domain 200 through the WiBro interface I / F_1. Assuming that the VoIP flow serviced through the WiBro interface (I / F_1) is changed to the 3G interface (I / F_2) and the handover is performed by newly connecting to the 3G network of the domain 300 through / F_2). Explain. However, it will be understood by those skilled in the art that embodiments of the present invention may be provided in more various forms besides the above-described circumstances.

In addition, it is assumed that the operator A and the operator B are operators that have entered into an interlocking agreement.

First, the mobile terminal 100 moves into the MAG 210 area in the domain 200 and is connected to the operator A's network through the WiBro interface I / F_1. That is, the WiBro interface I / F_1 of the mobile terminal 100 is connected to the LMA 220 through the MAG 210 of the domain 200 according to the initial access procedure as described with reference to FIG. 2 (S100). .

Since there are only two applications for which the mobile terminal 100 wants to operate, for example, a VoIP application and a mobile IPTV application, and only one interface that the mobile terminal 100 can use is a WiBro interface (I / F_1). And the flow for the mobile IPTV application is bound to be the WiBro interface (I / F_1) (S102).

When the flow binding is performed for the VoIP application and the mobile IPTV application, the packet transmitted and received with the counterpart node 400 for the VoIP application and the mobile IPTV application is transmitted through the MAG 210 (S104).

As such, the mobile terminal 100 is connected to the MAG 210 in the operator A's domain 200 through the WiBro interface (I / F_1) registered with the operator A to connect the LMA 220 and the HA 240. In the state where the partner node 400, the VoIP application, and the mobile IPTV application are operating through the mobile node 100, the mobile terminal 100 is registered with the operator B due to the movement of the mobile terminal 100 or a change in the communication environment. I / F_2) is connected to the service provider B's domain 300 (S106, S108). Here, the mobile terminal 100 is connected to the LMA 320 through the MAG 310 of the domain 300 using the 3G interface (I / F_2) according to the initial access procedure as described with reference to FIG.

Accordingly, the LMA 320 of the domain 300 recognizes that the mobile terminal 100 newly connects through the 3G interface (I / F_2), and AXS the new connection fact of the mobile terminal 100, that is, the network connection information. Informs 330 (S110). At this time, the LMA 320 informs the AXS 330 using the MN-Identifier defined in PMIPv6 as the identifier of the mobile terminal 100. In addition, when the LMA 320 has a connection to itself, it is natural that the LMA 320 should perform a process of determining whether the connection is a new connection in its domain 300, and thus a detailed description thereof will be omitted.

The AXS 330 transmits a new connection fact of the mobile terminal 100 received from the LMA 320 to AXSs belonging to other providers with which an interworking contract is signed. In the embodiment of the present invention, the AXS 330 transmits a new connection fact of the mobile terminal 100 to the AXS 230 in the domain 200 of the operator A to which the interworking contract is concluded (S112).

Thereafter, the AXS 230 knows that the mobile terminal 100 to which the new connection has been transmitted from the AXS 330 is already connected to its domain 200, and thus, the AXS 230 receives the new connection, that is, the new network connection information. The LMA 220 delivers the data to the MAG 210 to which the mobile terminal 100 is connected again (S114 and S116). Here, it is natural that the AXS 230 should perform a process of determining whether the mobile terminal 100, which has received a new access fact from the AXS 330, is already connected to its domain 200, and thus, Omit the description.

On the other hand, the MAG 210 in the domain 200 receives the fact that the mobile terminal 100 connected to itself through the LMA 220 that the operator newly connected from another new domain 300, MAG ( 210 determines whether it is necessary to change an existing flow binding set for the mobile terminal 100 based on a user profile stored in the mobile terminal 100 or a flow binding related policy stored in correspondence with the mobile terminal 100. It is determined (S118). That is, the flow binding for the VoIP application and the mobile IPTV application is currently set for the mobile terminal 100 through the WiBro interface I / F_1, and the flow binding is a 3G interface I newly connected in the domain 300. / F_2) to determine if it is good to set.

In the embodiment of the present invention, it is assumed that the user profile or the flow binding related policy is set to assume that the VoIP application is preferably serviced through the 3G network rather than the WiBro network.

Accordingly, the MAG 210 determines that the VoIP application, which is flow-bound through the WiBro interface I / F_1 with respect to the mobile terminal 100 in step S118, according to a user profile or a flow binding related policy, is performed by the domain 300. In this case, it is determined that the flow binding needs to be changed by being flow-bound through the newly connected 3G interface (I / F_2).

According to this determination, the MAG 210 transmits a request for establishing a new flow binding for the VoIP application of the mobile terminal 100 to the LMA 220 through a PBU message (S120).

LMA 220 forwards a new flow binding setup request from MAG 210 to AXS 230, AXS 230 forwards to AXS 330 in domain 300, which AXS 330 sends back Transfer to the LMA 320 (S122, S124, S126).

Since the LMA 320 receives a flow binding setting request through the newly connected 3G interface I / F_2 for the mobile terminal 100 that is newly recognized to be connected in step S110, the mobile terminal 100 is received. The newly connected MAG 310 requests the flow binding setting for the VoIP application of the mobile terminal 100 (S128).

The MAG 310 sets up the flow binding to the 3G interface (I / F_2) for the VoIP application in the mobile terminal 100 according to the flow binding setting request from the LMA 320 (S130), and then a new flow binding. A message indicating that the setting is accepted is transmitted to the LMA 320 (S132).

The LMA 320 transmits that the new flow binding establishment request has been accepted from the MAG 310 to the LMA 220 of the domain 200 through the AXS 330 and the AXS 230 (S134, S136, and S138).

Subsequently, the LMA 220 sends a PBA message to the MAG 210 to inform that the new flow binding setup requested in step S120 is completed (S140).

When the flow binding setting for the VoIP application due to a new connection of the mobile terminal 100 between the domain 200 and the domain 300 is changed, the LMA 220 and the LMA 320 change the flow, that is, the VoIP application. Tunnels T1 for the flow are set to each other (S142).

As such, when the tunnel is established between the LMA 220 and the LMA 320, as shown in the accompanying FIG. 5, the mobile terminal 100 attaches an address assigned by the existing service provider A for the VoIP application. When packets sent to the LMA 220 via the HA 240, the LMA 220 delivers these packets to the LMA 320 through the established tunnel T1, and the LMA 320 delivers these packets. The MAG 310 may transmit the 3G interface I / F_2 of the mobile terminal 100 again (S144).

As described above, even if the mobile terminal 100 has a separate interface belonging to different operators, the binding of the flow can be changed based on the network without the intervention of the mobile terminal 100, and the change of the flow binding causes each other. Handover of flows between domains belonging to different providers is also possible.

On the other hand, in the above description on the assumption that the MAG 210 determines the change in the flow binding according to the user profile or flow binding-related policies, the technical scope of the present invention is not limited thereto, the LMA 220 is a user Profile or flow binding related policy information may be stored, and according to the change of the flow binding, the above process may be performed. In this case, the new connection fact of the mobile terminal 100 in the new domain 300 is transmitted only to the LMA 220 in the domain 200 and not to the MAG 210, and flow binding in the LMA 220. A flow binding setting request for change is generated and delivered to the domain 300.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (15)

Performing a handover due to a binding change of a flow from the first domain in which the mobile terminal having an interface accessible to the first domain and the second domain to which the home address is allocated differently is flow-bound from the first domain to the second domain In the method,
The local mobility anchor of the first domain being notified of a new connection of the mobile terminal from the local mobility anchor of the second domain, which is connected through a connection exchange server of the first domain and a connection exchange server of the second domain; ;
Determining whether the mobile access gateway of the first domain, which has received the new access fact of the mobile terminal from the local mobility anchor of the first domain, changes the binding of the flows of the mobile terminal bound to the first domain; step;
If there is a flow that requires a binding change, the mobile access gateway of the first domain requests a binding establishment request for the flow through the local mobility anchor of the first domain and the access exchange server of the first domain. Passing to a local mobility anchor; And
When binding of the flow according to the binding establishment request is completed from the local mobility anchor of the second domain, the local mobility anchor of the first domain establishes a tunnel with the local mobility anchor of the second domain to hand the flow. Step to complete the over
/ RTI > The method of claim 1,
The step of receiving notification,
Receiving, by the connection exchange server of the first domain, a new connection fact of the mobile terminal from the second domain;
Determining, by the access exchange server, whether the mobile terminal is connected in the first domain;
When the mobile terminal is connected to the first domain, the connection exchange server forwarding the new connection fact to a local mobility anchor of the first domain; And
The local mobility anchor communicating the new connection fact to a mobile access gateway to which the mobile terminal is connected
/ RTI > 3. The method of claim 2,
In the determining of whether to change the binding, the mobile access gateway of the first domain determines whether to change the flow binding set for the mobile terminal based on a user profile or a flow binding related policy. . delete The method of claim 1,
And the new connection is the mobile terminal accessing the second domain through an interface other than the interface connected to the first domain. Performing a handover due to a binding change of a flow from the first domain in which the mobile terminal having an interface accessible to the first domain and the second domain to which the home address is allocated differently is flow-bound from the first domain to the second domain In the method,
The local mobility anchor of the second domain recognizing a new connection of the mobile terminal through the mobile access gateway of the second domain;
The local mobility anchor of the second domain notifying the local mobility anchor of the first domain connected to the connection exchange server of the first domain of the new connection fact of the mobile terminal through the connection exchange server of the second domain; ;
Receiving, by the local mobility anchor of the second domain, a flow binding establishment request for the mobile terminal from the local mobility anchor of the first domain via a connection exchange server of the second domain;
Establishing, by the mobile access gateway of the second domain, a flow binding for the mobile terminal according to the request transmitted from the local mobility anchor of the second domain; And
The local mobility anchor of the second domain establishing a tunnel with the local mobility anchor of the first domain to complete the handover
/ RTI > The method according to claim 6,
Recognizing the step,
The local mobility anchor of the second domain is connected to the mobile terminal through the mobile access gateway of the second domain, and when the mobile terminal first accesses the second domain, it is recognized as a new connection. Handover method. The method of claim 7, wherein
And in the notifying step, the connection exchange server of the second domain receives a new connection fact of the mobile terminal from the local mobility anchor and notifies the second domain. 9. The method of claim 8,
In the receiving step, the access exchange server receives a flow binding setup request for the mobile terminal from the first domain and delivers the request to the mobile access gateway through the local mobility anchor,
In setting up the flow binding, the mobile access gateway performs the flow binding setup requested in the first domain.
The handover method comprising the steps of: delete In a network-based mobility system that supports cross-domain flow handover with different home addresses,
Monitor the movement of the mobile terminal on the access link, and the new connection of the mobile terminal from another domain assigned a different home address while the mobile terminal having an accessible interface for each domain assigned a different home address is connected. A mobile access gateway for requesting flow binding setup for the mobile terminal when notified of the fact;
Perform a home agent function for the mobile terminal in a domain through the mobile access gateway, receive notification of a new connection of the mobile terminal from the other domain, and forward the mobile access gateway to the mobile access gateway; Local mobility anchors for delivering to domains; And
The home address is located in differently assigned domains, and acts as a node for exchanging information between the corresponding domains, receives notification of a new connection of the mobile terminal from the other domain, and transfers the message to the local mobility anchor. Connection exchange server that receives the binding configuration from the local mobility anchor to the other domain
Including;
The local mobility anchor establishes a tunnel with the local mobility anchor of the other domain when the flow binding setup in the other domain is completed.
Mobility system, characterized in that. 12. The method of claim 11,
When the mobile access gateway is notified of a new connection fact of the mobile terminal from the other domain, the mobile access gateway determines whether a change of the flow binding set for the mobile terminal is required, and when there is a flow that requires a change of the binding. And a flow binding setting for the flow to the local mobility anchor. delete In a network-based mobility system that supports flow handover between domains with different home addresses,
A mobile access gateway that monitors movement of the mobile terminal on the access link and notifies of a new connection when a mobile terminal having an accessible interface for each domain assigned a different home address is newly connected;
Another domain that performs a home agent function for the mobile terminal in the domain through the mobile access gateway and is notified of the new access fact by the home access when the new access fact of the mobile terminal is notified from the mobile access gateway. A local mobility anchor for forwarding to the mobile access gateway and a flow binding setting for the mobile terminal requested from the other domain; And
The home address is located in differently assigned domains, and acts as a node for exchanging information between the respective domains, receives a new connection fact to the mobile terminal from the local mobility anchor, and notifies the other domain. Connection exchange server that receives the request to set the flow binding for the mobile terminal from another domain to the local mobility anchor
Including;
The local mobility anchor establishes a tunnel with the local mobility anchor of the other domain when the flow binding setup at the mobile access gateway is completed.
Mobility system, characterized in that. 15. The method of claim 14,
And the local mobility anchor determines to be a new connection of the mobile terminal when accessing the mobile access gateway through an interface other than the interface to which the mobile terminal is connected.

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