KR100693562B1 - Method for packet communication between node in the wireless internet system - Google Patents

Abstract

A packet communication method between nodes in a wireless Internet system is provided to be capable of directly performing packet communication between nodes located in the external agent, through the external agent without passing through a home agent, thus packet transmission paths are shortened during packet communication between the nodes having different network addresses. When a correspondent node has mobility, an external agent records a mobile IP(Internet Protocol) address of the correspondent node in a visitor list together with a mobile IP address of a mobile node, and manages the recorded IP addresses(S31). If packet data is received while a reverse tunneling option of the external agent is turned on, it is confirmed whether a destination address of the received packet data exists within the visitor list(S32,S33). If so, the packet data is directly transmitted to the mobile node or the correspondent node corresponding to the destination address without being transmitted to a home agent(S34).

Description

Method for Packet Communication between Nodes in Wireless Internet System

1 is a diagram illustrating a packet transmission path of a wireless Internet system in which a general mobile IP is supported.

FIG. 2 is a diagram illustrating a packet transmission path when a partner node has mobility in a wireless Internet system as shown in FIG. 1.

3 is a flowchart illustrating a packet communication procedure between nodes in a wireless Internet system according to the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to packet communication in a wireless Internet system supporting mobile IP. In particular, the present invention relates to a case where a reverse node tunneling option is turned on and a correspondent node, which is a communication node of a mobile node, has mobility. The present invention relates to a method of packet communication between nodes in a wireless Internet system that enables direct packet transmission without a home agent when a mobile node and a counterpart node are located in the same external agent.

Recently, due to the development of mobile communication technology and the increase of the wireless LAN service, the number of users using the mobile node has increased. In order to manage the location of the mobile node and provide seamless communication even during handoff, The Internet supports Mobile IP for each mobile node.

As shown in FIG. 1, the wireless Internet system supporting the mobile IP includes a home agent, a foreign agent, and a mobile node. It ensures the mobility of IP in a network with a network prefix.

Here, the home agent is a host or router that manages the current location information of the mobile node and performs an encapsulation / decapsulation function of packet data. The home agent is a packet from a home network to a visitor network. The data is sent instead, and the external agent decapsulates and transmits the packet data encapsulated from the home agent to the mobile node.

The mobile node is a mobile terminal that moves different sub-networks managed by arbitrary external agents. The mobile node performs packet communication with a correspondent node, which becomes a communication server, using its mobile IP address.

In the wireless Internet system that supports this mobile IP, the reverse tunneling option is used for accurate and secure packet transmission, that is, to prevent packet spoofing and to prevent the packet from being transmitted by the firewall. In the packet communication between the mobile node and the counterpart node, the home agent and the external agent encapsulate and decapsulate the packet according to the tunneling procedure.

However, in the wireless Internet system supporting the conventional mobile IP, in relation to the counterpart node communicating with the mobile node, it is implicitly assumed that the counterpart node is a mobile server which is not mobile and is assigned a fixed IP address. If present, a packet communication between a mobile node and a counterpart node must be via a home agent and an external agent.

Therefore, in consideration of the recent surge in peer-to-peer communication, the mobility of the other node that is the target of communication of the mobile node should be considered. In this case, the other node also manages the area where it is located. Packet communication must be performed through an external agent and a home agent, which leads to a long packet transmission path, which causes a problem of decreasing packet transmission efficiency. In particular, when a mobile node and a counterpart node are located in the same external agent. In order to satisfy the reverse tunneling option in spite of the environment in which packets can be directly transmitted through the external agent, as shown in FIG. 2, the entire packet transmission path, that is, the foreign agent, the home agent of the partner node, and the home of the mobile node. Via an agent (actually via a number of routing nodes, including the home agent) ) There was a problem consisting of the packet communication through the packet transmission route to inefficient.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object thereof is that a mobile node that performs packet communication in a wireless Internet system has a mobility of all of its counterpart nodes, and when a reverse tunneling option is turned on, an external agent is added to a visitor list. By managing the mobile IP address of not only the mobile node but also the counterpart node, it is possible to transmit the packet data directly between the nodes through the external agent without transmitting the packet data to the home agent in the packet communication between the mobile node and the counterpart node located in the same external agent. It is.

Another object of the present invention is to enable a packet communication between nodes having different network addresses by performing packet communication directly through an external agent without passing through a home agent between nodes located in the same external agent in a wireless Internet system. Minimizing the transmission path and transmission delay, thereby improving the overall packet communication efficiency.

A feature of the present invention for solving the above object is a packet communication method between a mobile node and a counterpart node in a wireless Internet system that supports mobile IP. Recording and managing the mobile IP address of the counterpart node together with the mobile IP address of the mobile node; When packet data is received while the reverse tunneling option of the foreign agent is turned on, checking whether the destination address of the received packet data is an address present in the visitor list; If the destination address of the packet data is an address present in the visitor list, transmitting the packet data directly to a mobile node or a counterpart node corresponding to the destination address without transmitting the packet data to a home agent. To implement a packet communication method between the two.

In the above-described node-to-node packet communication method in the wireless Internet system, when the destination address of the packet data is not an address present in the visitor list, an external agent adds a tunneling IP header to the packet data to provide a home agent with the encapsulated packet data. Transmitting to; The home agent decapsulates the packet data added with the tunneling IP header to remove the tunneling IP header, and after confirming the final destination address, transmits the packet data to the mobile node or the counterpart node corresponding to the final destination address through the Internet router network. The method may further include transmitting.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

According to the present invention, if a mobile node supports a mobile node in a wireless Internet system supporting mobile IP, if the mobile node and the mobile node have mobility, if the mobile node and the mobile node are located in the same external agent, the mobile node moves to the external agent without passing through the home agent. By adding the function of directly transmitting the packet data to the node and the counterpart node, efficient packet communication is possible while satisfying the reverse tunneling option.

To do this, the external agent records and manages the mobile IP address of the communication server, which is not only the mobile node currently visiting the network, but also the mobile node with mobility, in the Visitor List, and with the reverse tunneling option turned on. Or, if packet data is received from the partner node, check whether the destination address of the packet data exists in the visitor list, and if the destination address of the packet data is an address in the visitor list, the packet data is homed. It performs the function of transmitting to the partner node or mobile node corresponding to the destination address directly without transmitting to the agent.

3 is a diagram illustrating a packet communication procedure between nodes in a wireless Internet system according to the present invention. Hereinafter, the packet communication procedure of the present invention that satisfies reverse tunneling will be described in detail.

First, in order to transmit packet data from mobile node to counterpart node, it records its mobile IP address in source address and IP address of counterpart node in destination address. (Step S31).

When the external agent receives the packet data, the external agent checks the destination address of the packet data to determine whether it is a unicast packet transmission or a multi / broadcast packet transmission. (Step S32).

At this time, when checking the destination address of the packet data, if it is determined that the packet transmission is a unicast method, the external agent searches the visitor list managed by the external agent to check whether the destination address exists in the visitor list. (Step S33).

If it is determined that the destination address of the received packet data is an address existing in the visitor list, this means that the partner node is located in the same external agent as the partner node, and the partner node is a communication server (or mobile node) having mobility. The foreign agent does not transmit the packet data received from the mobile node to the home agent but directly to the counterpart node corresponding to the destination address (step S34). Therefore, it is possible to perform packet communication directly through the external agent between the mobile node and the counterpart node located in the same external agent without passing through the home agent.

However, if the destination address of the packet data is checked in step S32, and it is confirmed that the packet transmission is a multi / broadcast method, this is the case that the destination address is one subnetwork or multiple communication servers, and the mobile node is another network. Only encapsulated delivery is available because the packet must be sent to its home network rather than to be forwarded to it. Therefore, the external agent receives from the mobile node just like a normal multi / broadcast packet forwarding procedure. The encapsulated packet data is transmitted to the home agent by adding a tunneling IP header (the IP address of the foreign agent's own IP address to the source address and the IP address of the home agent to the destination address) to the packet data. Home Agent decapsulates packet data with tunneling IP header added After removing the tunneling IP header, confirming the final destination address, the packet data is transmitted to the counterpart nodes via the Internet router network (step S35).

Also, if it is confirmed in step S33 that the destination address of the received packet data is not an address present in the visitor list, this means that the partner node that is the communication target of the mobile node is not located in the same external agent as the mobile node. As with the normal unicast packet transmission procedure, the external agent uses the tunneling IP header (the IP address of the external agent's own IP address and the home agent's IP address in the destination address) to the packet data received from the mobile node. In addition, the encapsulated packet data is transmitted to the home agent. In this case, the home agent decapsulates the packet data added with the tunneling IP header to remove the tunneling IP header, and after confirming the final destination address, Packet data is transmitted to the node (step S36).

On the contrary, in the present invention, even when the counterpart node having mobility transmits packet data to the mobile node, it is possible to perform packet communication in the same manner as the packet transmission procedure of FIG. 3 described above. If it is located in the same external agent, it is possible to perform packet communication directly without passing through the home agent.

In addition, the embodiment according to the present invention is not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, according to the present invention, when the mobile node performing packet communication in the wireless Internet system has all the mobile nodes, and the reverse tunneling option is turned on, the mobile agent's mobile IP address as well as the mobile node in the visitor list in the foreign agent. By managing the, it is possible to transmit packet data directly between nodes through an external agent without transmitting packet data to a home agent during packet communication between a mobile node and a counterpart node located in the same external agent.

In addition, in the present invention, a packet transmission path is shortened when packet communication between nodes having different network addresses is performed by directly performing packet communication through an external agent between nodes located in the same external agent in a wireless Internet system without using a home agent. Accordingly, overall packet communication efficiency can be improved, such as minimizing packet transmission delay.

Claims (2)

A packet communication method between a mobile node and a counterpart node in a wireless internet system supporting mobile IP, If the counterpart node has mobility, managing and recording a mobile IP address of the counterpart node along with the mobile IP address of the mobile node in a visitor list by an external agent; When packet data is received while the reverse tunneling option of the foreign agent is turned on, checking whether the destination address of the received packet data is an address present in the visitor list; If the destination address of the packet data is an address present in the visitor list, directly transmitting the packet data to a mobile node or a counterpart node corresponding to the destination address without transmitting the packet data to a home agent. A method of packet communication between nodes in a system. The method of claim 1, When the destination address of the packet data is not an address existing in the visitor list, transmitting, by an external agent, the encapsulated packet data to the home agent by adding a tunneling IP header to the packet data; The home agent decapsulates the packet data added with the tunneling IP header to remove the tunneling IP header, and after confirming the final destination address, transmits the packet data to the mobile node or the counterpart node corresponding to the final destination address through the Internet router network. A method of packet communication between nodes in a wireless Internet system, further comprising the step of transmitting.

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