KR20030054979A - Dynamic ip address assignment method in wireless packet service network - Google Patents

Abstract

PURPOSE: A method for dynamically allocating an IP(Internet Protocol) address in a wireless packet service network is provided to transmit data in a unicast type between a GGSN(Gateway GPRS(General Packet Radio Service) Support Node) and a DHCP(Dynamic Host Configuration Protocol) server by adding a relay agent, thereby considerably reducing traffic in the service network. CONSTITUTION: If IP address allocation for a packet service is requested from a terminal(S100), a GGSN generates a DHCP discover message and adds an IP address of the GGSN in an address field(S110). The GGSN transmits the DHCP discover message to each DHCP server(S120). The DHCP server receiving the DHCP discover message selects an optional address among idle IP addresses to generate a DHCP offer message(S130,S140). The DHCP server inspects the address field of the DHCP discover message(S150), and transmits the DHCP offer message in a unicast type to an address in the address field(S160). The GGSN receives the DHCP offer message from the DHCP server(S170). If plural DHCP servers are registered in the GGSN, the GGSN selects one of DHCP offer messages received from the plural DHCP servers(S180,S190). A DHCP request message is transmitted to the selected DHCP(S200). Not-selected DHCP servers delete state information(S240), and the selected DHCP server loads an IP address and network configuration information on a DHCP ACK(Acknowledgement) message to transmit the message to the GGSN in a unicast type(S220,S230). And the GGSN receiving the message transmits the message to the terminal for packet communication(S250).

Description

Dynamic IP address allocation method in wireless packet service network {DYNAMIC IP ADDRESS ASSIGNMENT METHOD IN WIRELESS PACKET SERVICE NETWORK}

The present invention relates to a method for allocating a dynamic IP address in a wireless packet service network. In particular, the present invention relates to a dynamic IP address allocation in a wireless packet service network for reducing traffic in a network by allocating an IP address to a terminal by a unicast method. It is about a method.

In order for the terminal to communicate with the Internet, it must have its own IP address and network configuration information.In order to obtain this information, the terminal manually inputs the IP address and configuration information of the network or sets up the automatic configuration information setting protocol using DHCP. I use it.

However, when the dynamic IP address allocation method is used in the mobile communication network, since the user cannot manually input such information, the automatic configuration information setting method is used.

1 is a configuration diagram of a wireless packet service network.

Referring to FIG. 1, a wireless packet service network is allocated with a static IP or a dynamic IP and uses a wireless packet data service to allocate a radio bearer channel with a terminal to access a GPRS packet network. UTRAN 20 for allocating the wired bearer channel, SGSN 30 for managing the location and mobility of the terminal and performing call admission control for packet services requested by the terminal, and DHCP client according to the dynamic IP address allocation request GGSN 50 to perform a function, and DHCP server 60 to assign an IP address to the DHCP client.

Among them, in order to implement the above-described automatic configuration information setting method, a GGSN 50 performing a DHCP client function and a DHCP server 60 delivering an IP address and configuration information of a network to the terminal 10 are required.

In the state configured as shown in FIG. 1, the operation description of the process of receiving an IP address requested by the terminal from the DHCP using the DHCP client function in the GGSN is as follows.

When the mobile terminal 10 sends a service request message to the SGSN 30 via the LAN 20 to request a packet data service in a specific service network, the SGSN 30 is a traffic bearer suitable for the quality of service required by the terminal. Set, and sends a packet service request message to the GGSN 50 to request IP address allocation.

The GGSN 50 allocates an IP address through a DHCP server 60 that manages a specific service network IP address.

At this time, the GGSN 50 uses the DHCP client function to communicate with the DHCP server 60 to receive an IP address as follows.

First, the DHCP client of GGSN broadcasts a message called DHCP Discovery to a DHCP server in the service network, indicating that an IP address allocation is necessary.

In this case, the DHCP client sends a message in a broadcast form because the DHCP client does not know the configuration of the network to which it belongs and does not know the address of the DHCP server.

Then, a DHCP server in a specific service network selects an idle IP address and broadcasts a message called DHCP OFFER to GGSN.

In this case, the reason why the DHCP server sends a message in a broadcast form is that the DHCP client assumes that there is no IP address.

The DHCP client receiving the DHCP OFFER broadcasts a DHCP request message.

In this case, the reason for sending a message in a broadcast form is that when there are multiple DHCP servers, the message is transmitted in a broadcast form in order to use it to reject IP address allocation of the remaining DHCP servers.

The DHCP server broadcasts the network configuration information and IP address required by the terminal in the DHCP ACK message, and the DHCP client receives the dynamic IP address and delivers it to the terminal again. The DHCP client (GGSN) assigns the dynamic IP address. It receives it and delivers it back to the terminal to enable internet communication.

In this case, as shown in FIG. 2A, the value of the address field giaddr of the DHCP request transmitted by the DHCP client 50 to the DHCP server 60 is set to '0', that is, the address field is set to '0'. Since it is not specified, the DHCP server receiving the DHCP request processes the DHCP request and sends a DHCP response to the specified client's network address or hardware address, or determines that the DHCP client is on the local network. It broadcasts a DHCP request to the local network.

However, the above-described prior art has a disadvantage in that unnecessary traffic congestion of a service network is caused since data is transmitted and received between the GGSN and a DHCP server in order to receive an IP address.

Accordingly, the present invention is to solve the problems of the prior art, and provides a dynamic IP allocation method in a wireless packet service network for transmitting data in a unicast form between the GGSN and the DHCP server by adding a relay agent.

An embodiment of the present invention for achieving the above object, in response to a request for a dynamic IP address assignment from the terminal, the DCC client to the DMC discovery message to assign its own IP address in the address field (giaddr) A first step of transmitting; the DCC server receiving the DCC discovery message selects one of the idle IP addresses to generate a DCC providing message, and then searches for the received address field A second step of transmitting to an HCP client; A third step of receiving a DCC message from the DCC client to transmit the DCC request message to the corresponding DCC server; A fourth step of sending, by the DCC server, network configuration information and an IP address according to whether the DCC request message is received; The DCC client may be configured in five steps of transmitting the received network configuration information and IP address to a corresponding terminal.

1 is a configuration diagram of a wireless packet service network.

2A is an exemplary DHCP discovery message according to the prior art.

2B is an exemplary DHCP Discover message in accordance with the present invention.

3 is a flowchart for explaining a dynamic IP allocation method in a wireless packet service network according to the present invention.

*** Explanation of symbols for main parts of drawings ***

10: terminal

20: UTRAN (UMTS Terrestrial Radio Access Network)

30: Serving GPRS Support Node (SGSN)

40: router

50: Gateway GPRS Support Node (GGSN)

60: Dynamic IP address allocation server (DHCP)

Hereinafter, with reference to the accompanying drawings an embodiment according to the present invention will be described in detail.

3 is a flowchart illustrating a dynamic IP allocation method using unicast according to the present invention.

Referring to FIG. 3, in the method for allocating a dynamic IP in a wireless packet service network according to the present invention, a DPC client allocates its IP address to an address field giaddr according to a dynamic IP address allocation request from a terminal. Transmitting a HCP discovery message; The DCC server receiving the DCC discovery message selects one of the idle IP addresses, generates a DCC providing message, and then searches for the received address field and transmits the received DC field to the corresponding MSC client. Two steps; A third step of receiving a DCC message from the DCC client to transmit the DCC request message to the corresponding DCC server; A fourth step of sending, by the DCC server, network configuration information and an IP address according to whether the DCC request message is received; The DCC client may be configured in five steps of transmitting the received network configuration information and IP address to a corresponding terminal.

The dynamic IP allocation method in the wireless packet service network of the present invention is implemented on the system of FIG. 1 described in the above-described prior art.

However, a relay agent is added to a DHCP client to generate a DHCP client message, and the message field is transmitted using a address field (giaddr), which is a DHCP relay agent function, in a unicast form instead of a broadcast.

Upon receiving the packet service request message, the GGSN 50 receives an IP address by communicating with the DHCP server 60 using the DHCP client function and the relay agent function as follows.

At this time, in order for GGSN to perform a relay agent function and send a message in unicast, it is necessary to know the IP address of the DHCP server in advance. This can be set in advance when configuring a network, and several DHCP servers can be designated.

When the mobile terminal 10 transmits a service request message to the SGSN 30 via the LAN 20 to request a packet data service in a specific service network, the SGSN 30 requests the quality of service (QoS) required by the terminal. The traffic bearer is configured accordingly and the packet service request message is transmitted to the GGSN 50.

When receiving the IP address allocation request for the packet service from the terminal 10 (S100), the GGSN 50 generates a message called DHCP discovery using the DHCP client function, and in the address field (giaddr) to the DHCP relay agent function Add the IP address of the GGSN (S110).

Referring to FIG. 2B, the giaddr is' 150. which is the IP address of the GGSN shown in FIG. 150.53.100 'is allocated.

The generated DHCP Discover message is transmitted through a service network. In this case, although not shown in the drawing, if there is one registered DHCP server, the message is transmitted through unicast, and if several, the same message is copied to each DHCP server. Send a message.

The reason why GGSN can send messages in unicast rather than broadcast is that GGSN can send messages in unicast format because it already has an IP address and also knows the IP address of a DHCP server.

The DHCP server 60 generates a DHCP OFFER message by selecting any one of its idle IP addresses in response to receiving the DHCP discovery message (S140).

At this time, the DHCP server 60 checks the address field (giaddr) of the DHCP Discover message (S150), and if it is not '0.0.0.0', the DHCP OFFER message in unicast form with the address in the address field (giaddr). Transmit (S160).

Since there is a GGSN address in the 'giaddr' field of the received DHCP Discover message, the DHCP server sends a message in the form of unicast to the address in the 'giaddr' field, that is, GGSN.

Then, the GGSN receives a DHCP OFFER message from the DHCP server (S170). If there are several DHCP servers registered in the GGSN, the GGSN selects one of the DHCP OFFER messages received from several DHCP servers (S180). ~ S190).

Send a DHCP request message to the selected DHCP server (S200), DHCP servers that are not selected among the plurality of DHCP servers delete state information (S240), and the selected DHCP server sends an IP address and network configuration information to a DHCP ACK message. Load the unicast form to the GGSN (S220 ~ S230).

The GGSN 50 receives the message and transmits the message to the terminal 10 to allow packet communication (S250).

The present invention is not limited to the embodiments described above, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

The present invention described above has the effect of significantly reducing the traffic in the service network.

Claims (3)

In response to a dynamic IP address allocation request from a terminal, a first step of the DCC client transmitting a DCC discovery message in which its IP address is allocated to an address field giaddr; The DCC server receiving the DCC discovery message selects one of the idle IP addresses, generates a DCC providing message, and then searches for the received address field and transmits the received DC field to the corresponding MSC client. Two steps; A third step of receiving a DCC message from the DCC client to transmit the DCC request message to the corresponding DCC server; A fourth step of sending, by the DCC server, network configuration information and an IP address according to whether the DCC request message is received; And a five step of transmitting the received network configuration information and the IP address to the corresponding terminal by the DCC client. The method of claim 1, wherein the third step If there is a plurality of RPC messages provided, select one and transmit the RPC request message to the corresponding server, the dynamic IP address allocation method in a wireless packet service network. The method of claim 1 or 2, wherein the fourth step Dynamic IP address allocation method in a wireless packet service network, characterized in that if the MSC request message is not received, deletes the status information.