KR20090060703A - Mobile node and method for offering ip mobility using the same - Google Patents

Abstract

A mobile node and a method for offering IP mobility by using the same are provided to supply an IP mobility service by adding minimum functions between a separated wireless wide area network and a WLAN. A replacement tunneling IP(Internet Protocol) list(550) stores mapping information of a basic IP allocated from a wireless wide area network and a tunneling IP allocated from a WLAN(Wireless Local Area Network). An IP replacing module(540) selects IP used as an application service between the basic IP and the tunneling IP. The mobile node provides the application service by using the basic IP. The mobile node transmits data with a peer node by using the mapping information.

Description

 MOBILE NODE AND METHOD FOR OFFERING IP MOBILITY USING THE SAME}

The present invention relates to a mobile node for providing mobility between a wireless broadband communication network and a wireless local area network and a method for providing IP mobility using the same.

The present invention is derived from the research conducted as part of the IT new growth engine core technology development project of the Ministry of Information and Communication and the Ministry of Information and Communication Research and Development (Task Management No .: 2005-S-069-03, Task name: Context-aware technology development).

In general, IP mobility between different networks includes MIP (Mobile IPv4 / IPv6 (RFC 3344/3775)) and PMIP (Proxy Mobile IP) technologies.

IP mobility can be divided into a terminal control method and a network control method. The terminal control method includes a MIP that determines whether a terminal detects its movement and accesses a new network.

MIP uses home addresses and external addresses to support mobility between different networks. The home address is an address of a terminal that does not change and is used permanently once assigned. The external address is a temporary address provided by the visited network and is assigned by an external agent (FA) of the visiting network. When visiting an external network, the home agent (HA) registers an external address to notify its location so that it can be connected anytime and anywhere.

In general, MIP is applied on the assumption that all hosts (or terminals) or routers support the MIP stack. However, putting the MIP stack on every host is expensive, so simply changing the network to support mobility is PMIP.

PMIP does not require any involvement to provide IP mobility to the mobile terminal as one of network control methods. The method is the same as the existing MIP, but mobility of the entity performing the function from the terminal to the network is supported by the mobile terminal only with the existing IP stack.

In the Republic of Korea Patent Publication No. 10-2006-0058831 (Invention name: IP mobility in the mobile Internet system providing method) PAR (Packet Access Router) in which a terminal without a mobile IP client function performs an external agent function as a network control method As a method of performing a mobile IP client function in the PAR instead of accessing the AP, a mobile IP registration request message is generated in the PAR to perform mobile IP registration of the mobile terminal. In this way, IP mobility can be provided to a mobile terminal assigned an address by DHCP (Dynamic Host Configuration Protocol).

The prior art as described above is difficult to implement by requiring a lot of changes to the existing system, there is a problem that does not consider the IP mobility between the layered network.

The present invention currently provides an IP mobility service with minimal addition of functionality between a separate wireless wide area network and a wireless local area network.

In addition, the present invention provides mobility in an environment using current DHCP servers without a MIP stack.

According to a first aspect of the present invention, a mobile node for providing IP mobility between a wireless local area network and a wireless wide area network may include mapping information in which a base IP allocated in the wireless wide area network and a tunneling IP allocated in the wireless local area network are mapped. And an IP replacement module for selecting an IP to be used as an application service among the default IP allocated from the wireless wide area network and the tunneling IP.

According to a second aspect of the present invention, a method for providing IP mobility between a wireless local area network and a wireless wide area network of a mobile node includes tunneling allocated by the wireless local area network when the mobile node moves from the wireless wide area network to the wireless local area network. Storing mapping information that maps an IP and a basic IP assigned by the wireless wide area network; establishing tunneling with a peer node using the mapping information; and registering the mapping information with the peer node. And selecting an IP to be used as an application service by the mobile node from the tunneling IP allocated from the wireless local area network and the basic IP assigned from the wireless wide area network, and communicating with the peer node using the mapping information. And providing an application service using the selected IP. And a system.

The present invention provides IP mobility of a mobile node by adding an IP replacement module and an alternative tunneling IP list to a network stack, so that it is possible to quickly apply network-to-network movement without changing the existing network, and to provide users with low cost and high quality services. Can be provided.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

The preferred embodiment of the present invention describes a network stack structure of a mobile node providing IP mobility of the mobile node by adding an IP replacement module and an alternative tunneling IP list to the network stack, and a method of providing IP mobility using the same.

FIG. 1 is a diagram illustrating a schematic configuration of a wireless wide area network and a wireless local area network to which a preferred embodiment of the present invention is applied. The 3G network 200 is a wireless wide area network, and the WLAN 300 is a wireless local area network. Explain.

The 3G network 200 indicates a communication range, and is connected to the outside through a GGSN (Gateway GPRS Support Node, hereinafter referred to as GGSN) 210, and the internal mobile node 400 is a UTRAN (UMTS Radio Access Network, UTRAN). (Hereinafter referred to as 'UTRAN') 220 is connected to the Internet 100.

The WLAN 300 represents a communication range of a wireless local area network, the connection with the outside is through the first router 310, and the internal mobile node 400 is connected to the AP 320.

The Internet 100 is an area to which the service provider server 120 belongs, and the 3G network 300 and the WLAN (Wireless Wide Area Network) that are connected to the GGSN 210 and the second router 110 connected to the first router 310. 300).

A communication path when the mobile node 400 belongs to the 3G network 200 is described below.

When the mobile node 400 is in the 3G network 200, when the Internet 100 is requested, the mobile node 400 is dynamically assigned an IP through a DHCP server (not shown) in the GGSN 210. The IP received from the 3G network 300 is used as a basic IP, and the mobile node 400 is connected to the service provider server 120 through the basic IP to enable IP communication.

When the mobile node 400 belongs to the 3G network 200 and the WLAN 300, the mobile node 400 is configured to simultaneously connect to the 3G network 200 and the WLAN 300 and has two IPs. . The mobile node 400 has an IP assigned through each DHCP server, and selects a fast and inexpensive communication path in the WLAN 300 area. In this case, an existing TCP session is required because the IP needs to be changed. There is a problem of breaking.

To this end, in the present invention, as shown in FIG. 2, the replacement tunneling IP list 540 and the IP replacement module 550 are added to the network stack. That is, the IP layer 520 is replaced between the transport layer 510 providing an application service to the mobile node 400 and the host-to-network layer 530 transmitting data through a network connection with any peer node. Add tunneling IP list 540 and IP replacement module 550.

The alternate tunneling IP list 540 stores information in which the basic IP allocated by the DHCP server of the 3G network 200 and the tunneling IP allocated by the WLAN 300 are mapped, that is, mapping information.

The IP replacement module 550 selects an application service, that is, an IP to be used as the transport layer 510, from the basic IP and the tunneling IP allocated from the 3G network 200, wherein the application service is based on communication status, cost, or user selection. Select the IP to use.

With reference to FIG. 3, a mobile node 400 moves between networks, that is, an interworking process according to handover, using the network stack.

3 is a flowchart illustrating an operation process according to handover of a mobile node according to an exemplary embodiment of the present invention.

As shown in FIG. 3, the mobile node 400 transmits data via a 3G network 200 which is a wireless wide area network with any peer node, for example, a service provider server 120 or any other mobile node. S600, that is, the mobile node 400 moves to WLAN 300, which is a wireless local area network, while performing application service and data transmission using the default IP allocated from the 3G network 200 (S602). The node 400 is assigned a tunneling IP from the WLAN 300 which is a wireless local area network (S604).

Subsequently, the mobile node 400 stores mapping information in which the tunneling IP allocated from the WLAN 300 and the base IP are mapped to the alternative tunneling IP list 550 (S606), and then performs tunneling with the peer node using the mapping information. Set (S608). At this time, the mobile node 400 has a setting for the default IP assigned from the 3G network 200.

Then, the mobile node 400 provides mapping information to the peer node through the established tunneling and registers the peer node in the alternate tunneling IP list 550 of the peer node (S610).

Thereafter, the mobile node 400 selects an IP to be used for an application service from the tunneling IP allocated by the WLAN 300 and the basic IP allocated by the 3G network 200 (S612).

Accordingly, the mobile node 400 performs data transmission with the peer node through tunneling configured using the mapping information, and provides an application service using the IP selected in S612 (S614). That is, the mobile node 400 and the peer node transmit and receive data by including mapping information stored in the alternate tunneling IP list 550 in the header of the transmitted and received data, and the IP replacement module 540 receives the header of the transmitted and received data. Provides application service by extracting selected IP as application service from.

As such, according to an embodiment of the present invention, when data is transmitted using mapping information and an application service is provided using a basic IP or a tunneling IP, tunneling is performed when entering an area of WLAN 200 within two transport channels. Set up channel with peer node (relative node) and register tunneling IP. Accordingly, network layer data transmission between the mobile node 400 and the peer node uses tunneling IP, and the upper transport layer 510 continuously uses the basic IP using the IP replacement module 550. That is, the mobile node 400 is provided with an application service by using the basic IP continuously, and has two transport channels. Accordingly, it can move simultaneously or selectively depending on communication quality or cost.

The present invention has been limited to the embodiments of the present invention, but it is obvious that the technology of the present invention can be easily modified by those skilled in the art. Such modified embodiments should be included in the technical spirit described in the claims of the present invention.

1 is a diagram illustrating a schematic configuration of a wireless wide area network and a wireless local area network to which a preferred embodiment of the present invention is applied.

2 is a diagram illustrating a network stack structure of a mobile node according to the present invention;

3 is a flowchart illustrating a process of providing mobility to a mobile node according to the present invention.

<Description of the code | symbol about the principal part of drawing>

100: internet 310, 110: first and second router

120: service provider server 200: 3G network

220: UTRAN 300: WLAN

320: AP 400: mobile node

Claims (5)

A mobile node for providing IP mobility between a wireless local area network and a wireless wide area network, An alternative tunneling IP list having mapping information in which a basic IP assigned in the wireless wide area network and a tunneling IP allocated in the wireless local area network are mapped; An IP replacement module for selecting an IP to be used as an application service among the default IP allocated from the wireless wide area network and the tunneling IP A mobile node comprising a. The method of claim 1, The mobile node, The mobile node provides an application service using the basic IP and transmits data with a peer node using the mapping information. The method of claim 2, And the IP replacement module selects one of the tunneling IP and the default IP through communication status, cost, or user selection. A method for providing IP mobility between a wireless local area network and a wireless wide area network of a mobile node, When the mobile node moves from the wireless wide area network to the wireless local area network, storing mapping information mapping a tunneling IP allocated from the wireless local area network and a basic IP allocated from the wireless wide area network; Establishing tunneling with a peer node using the mapping information; Registering the mapping information with the peer node; Selecting an IP to be used as an application service in the mobile node from a tunneling IP allocated from the wireless local area network and a basic IP assigned from the wireless wide area network; Performing communication with the peer node using the mapping information, and providing an application service using the selected IP. IP mobility providing method of the mobile node comprising a. The method of claim 4, wherein The selecting of the IP to be used as the application service may include selecting one of the tunneling IP and the default IP through a communication state, cost, or user selection.

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