KR20030047102A - Method for selecting the optimal ggsn by sgsn in gprs - Google Patents

Abstract

PURPOSE: A method for selecting a GGSN(Gateway GPRS Support Node) of a SGSN(Serving GPRS Support Node) in a GPRS(General Packet Radio Service) is provided to select and connect an optimum GGSN among GGSNs indicated with the same APN(Access Point Name) when an SGSN and the GGSN are connected. CONSTITUTION: IP addresses 1.1.1.1 and 1.1.2.1 of a GGSN1(104-1) and a GGSN2(104-2) are indicated with the same APN 'x'. Upon receiving the APN 'x' from a terminal, an SGSN1(102-1) inquires of its local DNS server(210-1) about it. Then, the local DNS server(210-1) searches the APN 'x' from an IP address list. If the APN 'x' exists on the IP address list, the local DNS server(210-1) transfers the IP address 1.1.1.1 of the GGSN1(104-1) corresponding to the APN 'x' to the SGSN(102-1) Upon receiving the IP address 1.1.1.1, the SGSN1(102-1) is connected to the GGSN1(104-1), thereby selecting the optimum GGSN. If the APN does not exist in the local DNS server(210-2), the local DNS server(210-1) inquires of other DNS server such as a route DNS server(300) about the APN, in order to obtain an IP address.

Description

How to select a wireless packet service gateway support node of a wireless packet service support node in a wireless packet service network {METHOD FOR SELECTING THE OPTIMAL GGSN BY SGSN IN GPRS}

The present invention relates to an asynchronous code division multiple access mobile communication system, and more particularly, to a method of selecting a connection node in a wireless packet service (GPRS) network.

General Packet Radio Service (GPRS, hereinafter referred to as "GPRS") is a mobile terminal to connect the IP (IP) network and the packet network to transmit packet data in a wireless terminal for high speed wireless data transmission will be. That is, by using the GPRS it is possible to implement a packet switching communication in the mobile communication system. In the mobile communication system based on the GPRS, Internet protocol-based services such as web browsing and data communication services can be effectively realized.

1 illustrates a network structure of W-CDMA, which is an asynchronous code division multiple access mobile communication system including the GPRS network.

Among the elements constituting the GPRS network 100, a Wireless Packet Service Support Node (SGSN) (hereinafter referred to as "SGSN") 102 and a Wireless Packet Service Gateway Support Node (Gateway GPRS Support Node; GGSN) 104 is referred to as " GGSN " The SGSN 102 has a hardware structure that provides a switch and routing connection based on an asynchronous transfer mode (Asynchronous Transfer Mode (ATM) for GPRS service) and provides a function according to various data service processes. do. The functions are GPRS mobility management function, GPRS session management function, GPRS authentication and charging function. The GGSN 104 is a serving node of an IP-based packet network that provides a high-speed packet data service for GPRS data service, and provides mobility of packet data services and various data related protocol processing functions. The GGSN 104 performs address assignment, domain address translation, billing information, and maintenance functions.

In GPRS 100, an access point name (hereinafter referred to as an 'APN') is used to activate a PDP (Packet Data Protocol) context. SGSN 102 receives the APN information from the terminal 180 requesting access, and obtains the IP address of the GGSN 104 to be connected, corresponding to the APN information. The SGSN 102 can obtain the IP address of the GGSN 104 to be accessed by querying the DNS server for the APN information. SGSN 102 activates the PDP context by activating the tunnel with GGSN 104 based on the obtained IP address.

2 is a diagram illustrating a connection with a DNS server that stores IP addresses of GPRS and GGSN.

3 is a diagram according to the prior art, a network showing the IP address of the GGSN is stored in the root DNS server.

If you use a DNS server with a general configuration, you must have the same IP address for a specific host name everywhere. Since the APN corresponds to the host name of the GGSN 104, the GGSN 104 IP address obtained from the same APN is always the same. If multiple GGSNs 104 support the same APN, the SGSN 102 always gets the same GGSN 104 IP address regardless of network configuration and always connects to the same GGSN 104 so that appropriate load distribution The connection with the optimal GGSN 104 was not easy either.

An object of the present invention for solving the above problems is to provide a method that can select the optimal GGSN according to the configuration of the network in a specific SGSN using a hierarchical approach of DNS.

In order to achieve the above object, the present invention provides a local domain name service server that stores an IP address of an adjacent wireless packet service gateway support node among at least one wireless packet service gateway support node that can be connected to any wireless packet service support node. A method for selecting the optimal wireless packet service gateway support node by the wireless packet service support node in a wireless packet service network having a terminal, the wireless packet service support node receiving the connection point name received by the wireless packet service support node from the terminal. A first process of transmitting to the local domain name service server, and the local domain name service server receiving the access point name obtains an IP address of a neighboring wireless packet service gateway support node of the wireless packet service support node by using the access point name; And the wireless packet service And a second process of transmitting to the one node and a third process of accessing the wireless packet service gateway supporting node corresponding to the address by the wireless packet service supporting node receiving the IP address. Uses the radio packet service gateway support node selection method of the radio packet service support node.

1 is a diagram illustrating a network structure of W-CDMA, which is an asynchronous code division multiple access mobile communication system including the wireless packet service network.

2 is a diagram illustrating a connection between a domain name service server storing an IP address of a wireless packet service supporting node and a wireless packet service gateway supporting node;

FIG. 3 is a diagram according to the prior art, illustrating a network in which an IP address of a wireless packet service gateway support node is stored in a root domain name service server.

4 is a diagram illustrating a network having a local domain name service server having a hierarchical structure according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the reference numerals to the components of the drawings, it should be noted that the same reference numerals as much as possible even if displayed on different drawings.

On the other hand, in the following description of the present invention, a plurality of devices, such as a local DNS server, indicates the devices as the representative code unless it is necessary to distinguish between the plurality of devices. That is, when any one of the local DNS servers may be selected for the local DNS server to which the reference numerals 210-1 and 210-2 are added in FIG. 3, the local DNS servers are indicated by the reference numeral 210. .

Meanwhile, in the following description, the local DNS server may be a database (DB), a file, and a program that exist for resolving domain names in the SGSN, or may mean a conventional DNS server that is locally constructed.

Meanwhile, in the following description, 'optimal GGSN' means 'GGSN having an optimal path connected to any SGSN or an optimal GGSN required by a network operator'.

The following describes a method of the present invention that enables the SGSN 102 to select the optimal GGSN 104 by using a hierarchical local DNS server 210. The hierarchical local DNS server 210 refers to a local DNS server 210 that allows each SGSN 102 to connect with the optimal GGSN 104.

First, the W-CDMA network structure including the GPRS network will be described with reference to FIGS. 1 and 2 as follows.

SGSN 102 has a structure for providing asynchronous transmission-based switch and routing connection for the GPRS network 100 service. The SGSN 102 performs functions in accordance with various data service processing such as GPRS mobility management function, GPRS session management function, GPRS authentication and billing function. The GGSN 104 is a serving node of an IP-based packet network that provides a high-speed packet data service for a data service of the GPRS network 100. The GGSN 104 provides mobility of packet data services and various data related protocol processing functions. The GGSN 104 performs address assignment, domain address translation, billing information, and maintenance functions.

The DNS server is used when the SGSN 102 wants to check the IP address of the GGSN 104 to which it will connect. The DNS server includes a correspondence table of the APN and the IP address, that is, the IP address list. The DNS server may be divided into a local DNS server 210 and a root DNS server 300.

Meanwhile, SGSNs 102 should be able to obtain IP addresses of different optimal GGSNs 104 even if they use the same APN. If the same APN is set to have different IP addresses in each local DNS 210-1 or 210-2, each SGSN 104 can obtain the GGSN 104 IP address that is most optimal for its network configuration. will be. That is, when the GGSN 104 serviced by the same APN is configured in several places as described above, in order to find the optimal GGSN 104, the SGSN 102 should have a DNS hierarchy appropriate for each.

4 is a diagram according to the present invention, illustrating a network having a local DNS server having a hierarchical structure.

The local DNS server 210 of the hierarchical structure may be implemented using an IP address list included in the local DNS server 210. That is, each of the local DNS servers 210 sets the IP address of the most optimal GGSN 104 among the GGSNs 104 accessible to the SGSN 102 as the first item of the IP address list. In order to implement the hierarchical local DNS server 210, each SGSN 102 allows the local DNS server 210 to have specific information within the network for the location and adjacent area of the SGSN 102. . Other information is to have a hierarchy, using a root DNS (300) server. Typically, the DNS server may be provided with information from other DNS servers that it does not have, depending on the configuration. The configuration of the local DNS server 210 can be set inside the SGSN 102.

Hereinafter, the present invention will be described in detail with reference to an embodiment. Description of the embodiment is made with reference to FIG.

The optimal GGSN 104 to be connected to the SGSN 1 102-1 among the GGSN 1 104-1 and GGSN 2 104-2 shown in FIG. 4 is configured with two routers 310-1 and 310-2. It may be the GGSN1 104-1 that is connected through one router 310-1, rather than the GGSN2 104-2 that is connected via. Of course, it is for convenience of description that the GGSN2 104-2 will be the optimal GGSN of the SGSN 1 102-1. In this case, the local DNS server 210-1 connected to the SGSN 1 102-1 causes the IP address of the GGSN 1 104-1 to be located at the top of the IP address list, thereby allowing the SGSN 1 102-1 to access the GGSN 1. (104-2).

This will be described in detail as follows.

The IP addresses 1.1.1.1 and 1.1.2.1 of the GGSN1 104-1 and the GGSN2 104-2 of FIG. 4 are indicated by the same APN of 'x'. SGSN1 102-1 receiving the APN called 'x' from the terminal 180 inquires it of its local DNS server 210-1. At this time, the local DNS server 210-1 searches for the APN x in the internal information, that is, the IP address list. If the APN exists in the IP address list, the local DNS server 210-1 transfers the IP address 1.1.1.1 of the GGSN1 104-1, which is an IP address corresponding to the APN, to the SGSN1 102-1. send.

Upon receiving the IP address 1.1.1.1, the SGSN1 102-1 selects an optimal GGSN by connecting to the GGSN1 104-1.

On the other hand, if the APN does not exist in the local DNS server 210-2, the local DNS server 210-1 may obtain an IP address by inquiring the APN to another DNS server such as a root DNS server 300. Can be.

In order to have the optimal GGSN 104 IP address information according to the network configuration as described above, each of the local DNS servers 201-1 and 210-2 is configured with GGSN1 104-1 and GGSN2 ( Set IP address of 104-2) in different format. Of course, the local DNS servers 104 should set the IP address of the optimal GGSN 104 provided for the IP addresses as the first item of the IP address list. In this way a particular SGSN 102 can be made to connect with the GGSN 104 that is optimal with itself.

In the GPRS network configuration, when the SGSN connects with the GGSN, the optimal GGSN can be selected from among the GGSNs indicated by the same APN.

Claims (2)

The wireless packet in a wireless packet service network having a local domain name service server storing an IP address of an optimal wireless packet service gateway support node among at least one wireless packet service gateway support node that can be connected to any wireless packet service support node. A method for a service support node to select an optimal wireless packet service gateway support node, A first step of transmitting a connection point name received from the terminal to the local domain name service server by the wireless packet service support node requested to access from the terminal; A second domain that receives the access point name, obtains an IP address of an optimal wireless packet service gateway support node of the wireless packet service support node according to the access point name, and transmits the IP address to the wireless packet service support node; Process, The wireless packet service supporting node of the wireless packet service supporting node in the wireless packet service network, characterized in that the wireless packet service supporting node receiving the IP address is connected to the wireless packet service gateway supporting node corresponding to the address. How to select a gateway support node. According to claim 1, When the IP address corresponding to the access point name does not exist in the local domain name service server in the second process, Transmitting, by the local domain name service server, the access point name to a root domain name service server; A process of obtaining, by the root domain name service server receiving the access point name, an IP address of another wireless packet service gateway support node accessible to the wireless packet service support node according to the access point name, and transmitting the IP address to the local domain name service server; The method for selecting a wireless packet service gateway supporting node of a wireless packet service supporting node in a wireless packet service network, further comprising a.