KR20040076509A - Mobile IP communication method with DHCP server - Google Patents

Abstract

PURPOSE: A mobile IP communication method using a DHCP(Dynamic Host Configuration Protocol) server is provided to enable a mobile node to search IP subnet information to sense a changed IP subnet, and to register a current position of the mobile node in an HA(Home Agent), thereby supplying a mobile IP network without an FA(Foreign Agent). CONSTITUTION: If a user turns on power of a mobile node(10)(S301), the mobile node(10) broadcasts a solicitation message and a DHCP discover message to peripherals(S302,S303). A DHCP server(20) transmits a DHCP offer message to the mobile node(10) as a response(S304). The mobile node(10) confirms an address of the DHCP server(20) included in the DHCP offer message(S305), and transmits an IP address assign request signal to the DHCP server(20)(S306). The DHCP server(20) assigns a mobile IP to the mobile node(10)(S307). The mobile node(10) generates a co-located COA(Care Of Address) by using a self mobile IP, and transmits a position registration request message to an HA(30)(S308,S309). The HA(30) updates an address management table, and registers a current position of the mobile node(10)(S310). The HA(30) transmits a response message to the mobile node(10)(S311).

Description

Mobile IP communication method using DHC server {Mobile IP communication method with DHCP server}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile IP communication network, and in particular, to enable mobile IP communication using a Dynamic Host Configuration Protocol (DHCP) server even in a mobile IP communication network without a foreign agent (FA). It relates to a mobile IP communication method used.

As described in the Request for Comments (RFC) 2002 document provided by the Internet Engineering Task Force (IETF), a mobile IP communications network uses a foreign agent (FA) in addition to a mobile node (HA) and a home agent (HA). A basic configuration, and a conventional communication method using this basic configuration is as shown in Figs.

1 is a diagram illustrating a location registration procedure of a mobile node in a conventional mobile IP network. The mobile node 1 performs a location registration procedure of registering its current location with the HA 3 in order to communicate with a target node at a remote location during initial connection or handoff. At this time, the mobile node obtains its current location from an agent advertisement message that the FA 2 broadcasts periodically. The agent advertisement message includes the mobile IP address of the FA 2.

In order to obtain the agent propagation message, the mobile node 1 transmits an agent solicitation message requesting the agent propagation message to the FA 2 (S11) and provides an agent propagation message from the FA 2. Receive (S12).

When the mobile node 1 receives the agent propagation message of the FA, the mobile node 1 obtains the FA address of the FA, which is the current location information, from the agent propagation message. It is determined whether to register its own location by comparing the IP address of the FA of one cell (S13).

When the mobile node 1 determines that it is necessary to register a location, the mobile node 1 performs a process of registering a location for registering its current location with the HA. At this time, the current location to be registered in the HA is one of a care-of_address (COA) using the IP address of the FA, and a co-located COA using the address of the mobile node (1) assigned from the Dynamic Host Configuration Protocol (DHCP) server Use

Here, if a COA using the IP address of the FA is used, the mobile node 1 carries the COA, which is its current location information, in the location registration request message and delivers the COA to the HA 3 through the FA 2 (S14, S15), HA 3 updates the self-stored mobile node location management table as the location information of the received mobile node 1 (S16). When the HA 3 registers the current position of the mobile node 1, it transmits a response message indicating the location registration fact to the mobile node 1 via the FA 2 (S17, S18). The location registration procedure ends when the mobile node receives the response message.

After the location registration procedure as described above, the mobile node 1 is able to transmit packets with a target node located at a remote location as shown in FIG. 2 is a diagram illustrating a data communication process in a conventional mobile IP network, in which the mobile node 1 performs a process shown in FIG. 1 by handing off from a first subnet sub1 to a second subnet sub2. The figure shows the following process.

In the packet transmitted from the mobile node 1 to the target node 4, the mobile node's own home network address (that is, the HA's IP address) is recorded in the IP source address, and the address of the target node is recorded in the IP target address. Is transmitted from the mobile node 1 directly to the target node 4.

On the other hand, in the packet transmitted from the target node 4 to the mobile node 1, the IP address of the target node itself is recorded in the IP source address, and the home network address of the mobile node is recorded in the IP target address. ), Which is first tunneled to the COA address of the mobile node recorded in the location management table of the HA 3 and forwarded. Since the COA address is the IP address of the FA 2, the packet is delivered to the FA 2, de-tunneled and delivered to the mobile node 1.

As described above, the conventional mobile IP network adopts a communication method using FA.

However, since a conventional mobile IP network adopts a communication method using FA, an FA device must be provided for each IP subnet. However, in the case of public Internet services, a large number of IP subnets exist and DHCP servers are already installed in each IP subnet. However, FA is installed in IP subnets much smaller than DHCP because of a small coverage for mobile IP communication.

Therefore, in order to communicate with the mobile IP communication network, the FA device must be installed in each subnet of the business, but there is a problem that it is expensive and does not use the existing equipment efficiently.

An object of the present invention is to provide a mobile IP network without a FA by detecting the IP subnet change by detecting the IP subnet information by the mobile node by itself, and registering the current location of the mobile node in the HA. It is done.

1 is a diagram illustrating a location registration procedure of a mobile node in a conventional mobile IP network.

2 is a diagram illustrating a data communication process in a conventional mobile IP network.

3 is a diagram illustrating a process in which a mobile node attempting initial access recognizes a current subnet in a mobile IP communication method using a DHCP server according to an embodiment of the present invention.

4 is a diagram illustrating a process of recognizing a new subnet by a mobile node handed off in a mobile IP communication method using a DHCP server according to an embodiment of the present invention.

5 is a view showing a data packet transmission path in a mobile IP communication method using a DHCP server according to an embodiment of the present invention.

The present invention for achieving the above technical problem in the mobile IP communication method using the DHCP server in the mobile node in a mobile IP network including an access point, DHCP server, HA, mobile node,

A first step of determining whether to handoff by monitoring the MAC address change of the access point to access; and a second step of checking the address of the DHCP server at the current location if there is no FA if it is determined to be handoff And a third step of comparing the address of the DHCP server of the current location with the address of the DHCP server of the previous location, and confirming whether the address is the same. A fourth step of assigning a mobile IP from the DHCP server of the current location, a fifth step of registering a current location in the HA with the assigned mobile IP, and a packet with a target node if the address is different from the address of the DHCP server of the previous location; A sixth step of exchanging.

Since the above description of the present invention has been conceptually described, specific embodiments will be described below with reference to the accompanying drawings so that those skilled in the art can easily understand and implement the present invention.

The mobile IP communication network to which the present invention is applied is the same as the mobile IP communication network in which all configurations are known without FA.

3 is a diagram illustrating a process of recognizing a current subnet by a mobile node attempting initial access in a mobile IP communication method using DHCP according to an embodiment of the present invention.

As shown in FIG. 3, when the user turns on the mobile node 10 (S301), the mobile node 10 may perform solicitation to identify information of the subnet where the mobile node 10 is located and its current location. ) And a DHCPDISCOVER message for searching for a DHCP server 20 to the periphery (S302, S303).

The mobile node 10 broadcasts the solicitation message in order to check whether there is an FA in the vicinity. If there is a FA around the mobile node 10, the FA broadcasts an agent propagation message in response to the solicitation message.

However, since the present invention is for a mobile IP network in which no FA exists, it is assumed that no FA exists.

Therefore, the solution message disappears because there is no destination, and the DHCPDISCOVER message is received by the DHCP server 20. Accordingly, the DHCP server 20 transmits a DHCPOFFER message to the mobile node 10 in response to the DHCPDISCOVER message (S304). At this time, the DHCPOFFER message includes the address information of the DHCP server (20).

The mobile node 10 receives the DHCPOFFER message, checks the address of the DHCP server 20 included in the received DHCPOFFER message (S305), and transmits a signal requesting an IP address assignment to the DHCP server 20 ( S306). Then, the DHCP server 20 allocates the mobile IP to the mobile node 10 according to the received IP address assignment request signal (S307).

When the mobile node 10 is given its own mobile IP, the mobile node 10 creates a co-located COA using its own mobile IP, and transmits it to the HA 30 in a location registration request message (S308, S309). When the HA 30 receives the location registration request signal from the mobile node 10, the HA 30 updates the address management table managed by the HA 30 to register the current location of the mobile node 10 (S310).

Then, the HA 30 transmits the current location registration fact to the mobile node 10 as a response message so that the mobile node 10 can confirm the current location registration fact (S311).

When the mobile node 10 registers its current location with the HA 30 as described above, the mobile node 10 can perform packet exchange with the target node through the connected access point.

Hereinafter, a mobile IP communication method according to an embodiment of the present invention when a mobile node enters a new subnet will be described with reference to FIG. 4. FIG. 4 is a mobile handoff in the mobile IP communication method according to an embodiment of the present invention. The node shows the process of recognizing the new subnet.

When the mobile node 10 performs a handoff between cells in a subnet or between a cell and a subnet, the access point to which the mobile node 10 is connected is different. The mobile node 10 continuously monitors whether the MAC address of the access point being accessed has changed in order to monitor that the access point being accessed is changed (S401).

The MAC address of an access point is different for each access point. The access point periodically broadcasts a signal indicating its existence, that is, a beacon signal, and the beacon signal includes information indicating its presence, including its MAC address.

If the mobile node 10 determines that the MAC address of the access point has been changed by performing the process S401, it broadcasts a solicitation message to find the FA 2 (S402), for the DHCP server 20. The DHCPDISCOVER message is broadcasted (S403).

If the FA 2 exists in the subnet where the mobile node 10 is located, the mobile node 10 receives an agent propagation message from the FA in response to the solicitation message, and the conventional mobile with the FA exists. The same operation as in the IP network is performed to perform location registration and packet exchange with the target node.

However, if the FA 2 does not exist in the subnet where the mobile node 10 is located, the mobile node 10 receives a DHCPOFFER message received as a response signal of the DHCPDISCOVER message (S404) and is included in the DHCPOFFER message. The address of the DHCP server 20 is checked (S405).

Then, the mobile node 10 compares the checked DHCP server 20 address with the stored DHCP server address and determines whether the mobile node 10 has entered a new subnet (S406). Here, the DHCP address stored in the mobile node 10 is the DHCP address of the subnet which has been connected so far. Therefore, if the address of the DHCP server 20 and the address of the stored DHCP server are the same, the mobile node 10 determines that it is in the same subnet, and if it is different, enters a new subnet (S407).

In the determination (S407), the mobile node 10 does not register the current location if its current location is on the same subnet, but if it determines that its current location has entered a new subnet, the IP address assigned from the previous DHCP server Has become obsolete, it transmits a signal to the DHCP server 20 requesting to be allocated a new IP address from the new DHCP server 20 (S408).

The DHCP server 20 allocates an IP address to the mobile node 10 according to the IP address allocation request signal received from the mobile node 10 (S409).

When the mobile node 10 is assigned an IP address from the DHCP server 20, the mobile node 10 transmits the assigned IP address, that is, the co-located COA, to the HA 30 in a registration request message (S410). Accordingly, the HA 30 updates the mobile node location management table as the co-located COA included in the registration request message so that the new current location of the mobile node 20 is updated and registered (S411). The HA 30 transmits a response message to the mobile node 10 after completing the current location registration process (S412).

When the mobile node 10 receives the response message from the HA 30, the mobile node 10 confirms that its current location is registered, and can exchange packets with the target node. The process of the mobile node 10 and the target node communicating with each other is the same as the mobile IP network using the conventional C0-located COA method. That is, as shown in FIG. 5, the packet transmitted from the mobile node 10 is directly transmitted to the target node, the packet transmitted from the target node is transferred to the HA 30, and then the mobile node position of the HA 30. Tunneling directly to the mobile node 10 according to the information in the management table. Packets tunneled to the mobile node 10 are detuned by the mobile node 10.

The embodiment of the present invention described above has described the WLAN as an example. If the embodiment of the present invention is applied to the wired LAN, the present invention moves to monitoring the active state of the wired LAN card, such as determining the handoff of the mobile node by determining that the MAC address of the access point is changed in the wireless LAN. Determine handoff of the node.

Here, in the case of the wired LAN, in order to change the subnet, the wired LAN cable must be unplugged and plugged back in. At this time, the LAN card is inactivated and then activated again.

The technical spirit of the present invention has been described above with reference to the accompanying drawings, but this is by way of example only and not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

The present invention has an effect of increasing the role of a mobile node so that mobile IP communication can be performed using a DHCP server even in a mobile IP communication network without an FA device. In addition, the present invention enables a mobile IP communication without having to separately install the FA by using a DHCP server already installed, there is a great effect in reducing the cost.

Claims (4)

In the mobile IP communication method using the DHCP server in a mobile IP network including an access point, a DHCP server, HA, a mobile node, A first step of determining whether to handoff by monitoring a MAC address change of an access point to access; If it is determined that the handoff is made, a second step of checking whether there is an FA; A third step of confirming an address of a DHCP server of a current location if there is no FA; A fourth step of comparing the address of the DHCP server at the current location with the address of the DHCP server at the previous location and confirming whether the address is the same; A fifth step of assigning a mobile IP from the DHCP server of the current location if the address of the DHCP server of the current location is different from the address of the DHCP server of the previous location as a result of the checking of the fourth step; A sixth step of registering a current location in the HA with the assigned mobile IP; And And a seventh step of exchanging packets with the target node. The method according to claim 1, The second step performs a process of broadcasting a solicitation message to the surroundings and confirming whether an agent propagation message, which is a response message to the broadcast solicitation message, is received, and if the agent propagation message is received, a FA exists. And determining that the FA does not exist if the agent advertisement message is not received. The method according to claim 1, The third step includes the steps of broadcasting a DHCPDISCOVER message, receiving a DHCPOFFER message which is a response message of the DHCPDISCOVER message from the DHCP server of the current location, and grasps the address of the DHCP server of the current location included in the DHCPOFFER message. Mobile IP communication method using a DHCP server, characterized in that it comprises a step of. On your computer, A first step of determining whether to handoff by monitoring a MAC address change of an access point to access; If it is determined that the handoff is made, a second step of checking whether there is an FA; A third step of confirming an address of a DHCP server of a current location if there is no FA; A fourth step of comparing the address of the DHCP server at the current location with the address of the DHCP server at the previous location and confirming whether the address is the same; A fifth step of assigning a mobile IP from the DHCP server of the current location if the address of the DHCP server of the current location is different from the address of the DHCP server of the previous location as a result of the checking of the fourth step; The computer-readable recording medium having recorded thereon a program capable of executing the sixth step of registering the current location in the HA with the assigned mobile IP.