KR20060011354A - Mobile ip system and the method for the same using dynamic ip assignment based on diameter in broadband wireless communication system such as wibro - Google Patents

Abstract

The present invention relates to a mobile IP system and a method using diameter-based dynamic IP (IP) allocation in a broadband wireless access communication system such as WiBro. According to the present invention, a protocol (AAA) based on a protocol (Diameter) is provided, and the authentication server (AAA) dynamically obtains an IP through a DHCP server for a mobile IP registration request of a mobile node through a mobile agent. Allocate it and make that re-establishment equal to the lifetime when the mobility binding is maintained.

Description

Mobile IP system and the method for the same using dynamic IP assignment based on Diameter in broadband wireless communication system such as WiBro}

1 is a view showing the configuration of a mobile IP system according to the present invention;

2 is a view showing a process of allocating a dynamic IP in the mobile IP system according to the present invention.

The present invention relates to a mobile IP system and a method using a diameter-based dynamic IP allocation in a broadband wireless access communication system. Particularly, the present invention improves the utilization of IP resources and a home agent (home agent). The present invention relates to a mobile IP system and a method using a diameter-based dynamic IP allocation in a broadband wireless access communication system that can minimize tunneling between an agent and a foreign agent. .                         

Recently, as the use of the Internet and the growth of wireless networks have become prominent, mobile users as well as existing wire users want to freely access various services such as e-commerce wherever they are located. Mobile IP is proposed to provide such mobility so that mobile users can provide continuous service even if they move to different subnets.

In Mobile IP, two addresses are used. First, the Mobile Node receives a fixed IP address from the home network where a connection is first initiated and moves to an external network. A temporary IP address called a care of address (COA) is assigned from the network. The two IP addresses are combined and used (Mobility Binding). The data transmission process is performed by the Correspondence Node sending data to a fixed IP address provided by the home network. Tunneling to the external network's COA to transmit data to the mobile node moved to the external network.

In this regard, an authentication server (AAA) for authenticating a mobile node may be installed in a home network and an external network. The authentication server AAAH of the home network confirms the setting contents and authenticates the user with respect to the mobile node to obtain an IP by registering with the home agent. In addition, the authentication server AAAF of the external network authenticates the authenticity of the home agent address and the home address of the mobile node moving to the external network. Work with the server AAAH.

According to the mobile IP system as described above, the IP allocated through the home agent is a fixed IP and as many IPs as the number of mobile terminals are required. In addition, when the user of the mobile node is active, tunneling peers between mobility agents through mobility binding increase and traffic increases due to complicated routing paths. .

Therefore, if the efficiency of IP resource utilization can be improved and tunneling between mobile agents can be minimized, the overall efficiency of using the Mobile IP system will be increased.

The RADIUS authentication protocol, which has been widely used as an authentication server (AAAH) (AAAF) to date, is designed to support the initial dial-up PPP and terminal server, so the complex network structure and various network access technologies (Wireless LAN, xDSL, Mobile IP, Portable Internet, Ethernet, etc.) and the limitations of the protocol's capabilities to accommodate expanding AAA services. Therefore, in order to solve the shortcomings of existing RADIUS and provide a more secure and reliable AAA framework, IETF AAA Working Group (WG) has developed various network connection technologies from related WG (NASREQ / MOBILE IP / PANA / SEAMOBY / EAP) and 3GPP / 3GPP2. DIAMETER is proposed as a next-generation AAA protocol that accommodates requirements such as terminal mobility and subscriber roaming.

The present invention dynamically assigns IPs to mobile nodes based on the diameter authentication server, and dynamically allocates a lease time of the IPs to the same life time as the mobility binding. By increasing the efficiency of IP resource usage and minimizing unnecessary tunneling, the overall efficiency of the overall mobile eye system usage is increased.

An object of the present invention is to increase the efficiency of using IP resources and minimize unnecessary tunneling, thereby increasing the overall efficiency of using the entire mobile IP system. It provides a (Mobile IP system) and a method.

In the broadband wireless access communication system according to the object of the present invention, a mobile IP implementation method using a diameter-based dynamic IP allocation is a value in which a mobile node requests an initial home address of its home address and home agent information. Requesting a mobile agent of a corresponding network to register a mobile IP; Requesting authentication from an authentication server (AAAH) by generating authentication information based on the initial home address request value by a mobile agent that is requested to register a mobile IP of the mobile node; The authentication server AAAH, which has been requested for authentication, refers to the mobile agent MA currently available to the mobile agent in the same area by referring to the network address of the mobile agent MA requesting authentication, and the mobile agent of the mobile node MN. Specifying (HA) and assigning an IP (IP) available through a DHCP server connected thereto, and responding to the mobile agent with these designated information; And the mobile agent responds back to the mobile node with the responded configuration information.

In this case, its home address and home agent information requested by the mobile terminal to the mobile agent of the corresponding network are 0.0.0.0, respectively.

According to the present invention, it is particularly preferable that the authentication server sets a lease equal to a life time when setting a home address for the mobile node.

In addition, when the mobile station receives a new home address, the authentication server stores the corresponding information in a location server connected to the DNS and updates the mobile station.

The invention also provides a mobile agent; An authentication server based on a diameter protocol; It includes a DHCP server connected to the authentication server; Here, the authentication server receives a mobile IP registration request from a mobile node, generates authentication information, and refers to a mobile agent (MA) requesting authentication. Is designated as a mobile agent (HA) of the mobile node (MN), an IP available through the DHCP server (DHCP), and the designated information is returned to the mobile agent. The present invention provides a mobile IP system using a diameter-based dynamic IP allocation in a wireless access communication system.

Preferred embodiments of the present invention will now be described with reference to the accompanying drawings.

The process of assigning IP, including authentication between mobile nodes and mobile agents according to RFC3344 and draft-ietf-aaa-diameter-mobileip-13.txt, is as follows:

The mobile node broadcasts a mobile IP request to a corresponding network for obtaining an IP. Then, the mobile agent installed in the network receives the setting contents and user information of the mobile node and requests a confirmation to the authentication server AAAH, and the authentication server AAAH sends the setting contents and authentication contents to the authentication server AAAH. Verify and respond to the mobile agent's request by specifying the responsible mobile agent and the appropriate IP. The mobile agent then responds to the mobile node in response to the settings, and thus the mobile node has the designated IP as its home address and exchanges data with the communication node through the designated mobile agent.

The present invention is characterized in that the mobile node has the following processes for the process of obtaining the mobile agent and IP through the authentication server in the network. This will be described with reference to FIGS. 1 and 2.

First, Figure 1 is a block diagram of a mobile IP system according to the present invention.

The authentication server AAAH and the mobile agent MA are installed for the network NH where the mobile node MN is located, and in addition, the DHCP server connected to the authentication server AAAH according to the present invention. server and Location server are installed. At this time, the location server is connected to the DNS server (DNS server). As will be described later, the authentication server AAAH finds an available IP from the IP pool of the DHCP server for the mobile node MN requesting IP registration. Assign to the mobile node (MN). In addition, the location server stores and records the IP of the mobile node dynamically allocated through the DHCP server when the value is updated. Accordingly, when a communication node (not shown) retrieves host information through a DNS server connected to the location server, the DNS server may update the location information of the location server. As a result, the changed IP address of the mobile node is returned.

In FIG. 1, an external network NF exists for a network NH where the current mobile node MN stays and requests the designation of a home address and a home agent, and a deetch for the authentication server AAAF in the external network. The DHCP server and Location server are installed.

These authentication servers (AAAH) and (AAAF) are used based on the Diameter protocol.

The operation of the present invention with respect to the mobile IP system according to the present invention having such a configuration will be described with reference to FIG. 2.

First, a mobile node (MN) makes a mobile IP registration request to a mobile agent (MA) of a home network (NH), where the mobile node (MN) requests its initial home address from its home address and home agent information. Set to a value to request the mobile agent (MA). (Step S201)                     

That is, the mobile node MN sets its home address and home agent information to 0.0.0.0 and sends them to the mobile agent MA.

Then, the mobile agent MA receiving the request generates authentication information based on the home address and the home agent information and requests authentication with the authentication server. (Step S202)

That is, the mobile agent MA sets the Mobile-Node-Home_Address_Requested Bit and the Home-Agent-Requested Bit among the setting bits of the MIP-Feature-Vector AVP and sends them to the authentication server.

Then, the authentication server AAAH requesting the authentication refers to the network address of the mobile agent MA requesting the authentication, and selects the currently available mobile agent MA for the mobile agent of the same area. Designate as an agent (ie home agent: HA). In this case, if the mobile agent MA requesting authentication is available, it may be designated as a home agent. In addition, the authentication server AAAH designates an IP available through the DHCP server, and responds to the mobile agent MA with information including the designated home agent and IP. (Step S203)

Then, the mobile agent MA responds to the mobile node MN again with the configuration information responded from the authentication server AAAH. Accordingly, the mobile node MN makes the designated mobile agent the home agent and the designated information. It is possible to exchange data with a communication node using IP as a home address.

As described above, according to the present invention, the mobile node is dynamically allocated its own home address from the IP pool, thereby increasing the utilization of IP resources as a whole.

In particular, according to the present invention, the authentication server AAAH, when allocating a home address for the mobile node MA, has a lease time and a life time for continuing the mobility binding. Same as). In this case, when the corresponding time elapses, all mobility bindings related to the home address are released to the home agent. Then, the mobile node releases tunneling through the COA, and in the network where the mobile agent is located. The new home address is set again through the above steps (S201 to S204). Accordingly, tunneling between the foreign agent and the home agent is minimized.

In particular, according to the present invention, the authentication server AAAH stores and updates the corresponding information in the location server connected to the DNS when the mobile node MN is assigned a new home address. . In such a case, when retrieving the host information entered through the DNS, the DNS server returns the IP of the changed mobile node according to the update information of the location server. The mobile node MN can be connected according to the update information.

According to the present invention, since the mobile node dynamically sets its home address in the corresponding network and the lease time is set to be the same as the life time, the mobility binding is released when the lease elapses and tunneling between the external agent and the home agent is performed. Minimize. Accordingly, the mobility binding of the mobile agent and the load of the proxy ARP are attenuated, and the arrival delay of packets to the mobile node is minimized.

In addition, since the home address is dynamically allocated and IP is assigned only to the mobile node currently in use, the utilization of IP resources is increased.

It will be appreciated that this has been achieved the object of the present invention.

Although the present invention has been described with reference to the embodiments, the present invention is not limited thereto, and the scope of the present invention is defined by the following claims according to the spirit of the present invention.

Claims (7)

(a) the mobile node setting its home address and home agent information to a value requesting an initial home address and requesting mobile IP registration to the mobile agent of the corresponding network; (b) the mobile agent receiving the mobile IP registration request of the mobile node generating authentication information based on the initial home address request value and requesting authentication to the authentication server AAAH; (c) The authentication server AAAH, which has received the authentication, refers to the network address of the mobile agent MA requesting the authentication, and selects the currently available mobile agent MA for the mobile agent in the same area as the mobile node MN. Designating an IP available through a DHCP server connected to the mobile agent (HA), and responding the designated information to the mobile agent; and (d) the mobile agent responding the set configuration information back to the mobile node. The method of claim 1, The home IP and the home agent information requested by the mobile terminal to the mobile agent of the corresponding network are 0.0.0.0, respectively. A method for implementing mobile IP using diameter-based dynamic IP allocation in a broadband wireless access communication system . The method according to claim 1 or 2, When the authentication server sets a home address for the mobile node, the authentication server sets a lease time equal to a life time. Mobile IP implementation method using. The method according to claim 1 or 2, When the mobile station is assigned a new home address, the authentication server stores and updates the corresponding information in a location server connected to the DNS. Mobile IP Implementation Method Using Dynamic IP Allocation. (a) a mobile agent; (b) an authentication server based on a diameter protocol; (c) including a DHCP server connected to the authentication server; here (d) The authentication server receives the mobile IP registration request from the mobile node, and generates the authentication information for the mobile agent (MA) requesting authentication, referring to the network address of the mobile agent currently available for the mobile agent in the same area ( MA) is designated as a mobile agent (HA) of the mobile node (MN), IP available through the DHCP server (DHCP), and the designated information to the mobile agent characterized in that it responds to the mobile agent. Mobile IP system using diameter-based dynamic IP allocation in broadband wireless access communication system. The method of claim 5, When the authentication server sets a home address for the mobile node, the authentication server sets a lease time equal to a life time. Mobile IP system using. The method according to claim 5 or 6, The authentication server further includes a location server connected to a DNS server, wherein the authentication server connects the corresponding information to the DNS when the mobile station is assigned a new home address. Mobile IP system using a diameter-based dynamic IP allocation in a broadband wireless access communication system, characterized in that the update is stored in a location server (location server).

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