KR20040048494A - Inter-working Method Between Wireless Local Area Network and Universal Mobile Telecommunication Systems - Google Patents

Abstract

PURPOSE: A method for interworking between wireless LAN and a general mobile communication system network is provided to reduce a cost and time for development of a matching protocol and a matching node. CONSTITUTION: A mobile terminal(100) is positioned in an area where it can be provided with W(Wireless) LAN service, a WLAN(200) transfers a message required by the mobile terminal(100) to a GGSN(Gateway GPRS Support Node) of a UMTS(Universal Mobile Telecommunication Systems) packet network(400) through an access router(202). If the mobile terminal(100) is positioned in an area where it cannot be provided with the WLAN service, a UTRAN(UMTS Terrestrial Radio Access Network)(300) transfers a service message requested by the mobile terminal(100) to a UMTS packet network(400) through an RNC(302). The UMTS packet network(400) performs the location registration function on the mobile terminal(100) and the packet call request, and sets a session between an SGSN(Serving GPRS Support Node) and the GGSN(402). The GGSN(402) allocates/releases an IP address to/from the mobile terminal(10).

Description

Inter-working Method Between Wireless Local Area Network and Universal Mobile Telecommunication Systems

The present invention relates to a wireless packet service, and more particularly, to an interworking scheme between a wireless LAN and a universal mobile communication system.

1 is a structural diagram according to the prior art for interworking a WLAN-UMTS (Wireless Local Area Network-Universal Mobile Telecommunication Systems) network, a packet service and a Utran (WLAN) through a wireless local area network (WLAN); A WLAN-3GPP dual mode / dual band mobile terminal 10 capable of providing packet service through a UMTS Terrestrial Radio Access Network (hereinafter, referred to as UTRAN) may be configured according to its location. Packet service using 20 or packet service using UTRAN 30 may be provided.

That is, when the mobile terminal 10 is located in an area where WLAN service can be provided, the mobile terminal 10 is wirelessly matched to the WLAN 20 through an access point 21 (hereinafter referred to as an AP). 20 transmits the message requested by the mobile terminal 10 to the UMTS packet network 40 through an access router 22.

At this time, an inter-work unit (hereinafter referred to as IWU) 23 exists between the WLAN 20 and the UMTS packet network 40 so that the WLAN 20 interworks with the UMTS packet network 40. Provide matching services whenever possible.

On the other hand, when the mobile terminal 10 is located in an area where WLAN service cannot be provided, a UTS Terrestrial Radio Access Network (hereinafter referred to as UTRAN) through a Node-B (Node-B) 31 ( 30), the UTRAN 30 sends a service message requested by the mobile terminal 10 to the UMTS packet network 40 through a Radio Network Controller (hereinafter referred to as RNC) 32. To pass.

In the UMTS packet network 40, a mobile terminal requesting packet service through the WLAN 20 or the UTRAN 30 using a mobile communication packet switching station (hereinafter referred to as SGSN) 41. Session registration, authentication, and packet call requests for (10) and SGSN (41) -GGSN (42) session in connection with the Gateway Gateway RS (hereinafter referred to as GGSN) 42 Set it.

In addition, the GGSN 42 serves as a gateway by matching with the Internet network 50, and serves as an IP address allocation / release to the mobile terminal 10 requesting a packet service and, if necessary, an AAA server. An additional device such as 43 and DHCP server 44 may be used to assign mobile terminal 10 authentication / billing / authorization and IP address.

In the conventional WLAN-UMTS interworking scheme, SGSN 41 is used as a matching node for WLAN-UMTS packet service, WLAN is used as a wireless matching standard, and call processing and node matching is performed according to 3GPP UMTS packet service procedure. Such a structure is called a WLAN-UMTS tight coupling structure.

However, according to the conventional WLAN-UMTS packet interworking scheme, the mobile terminal should develop and apply a separate matching protocol for communicating with SGSN, a 3GPP UMTS packet network node, based on WLAN, and convert protocol between WLAN and 3GPP UMTS. And since the function of the IWU to provide a matching function with the SGSN must be developed, it has a complex network configuration form, there is a problem that cost and time consuming for the development of functions for new node and protocol conversion.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an interworking scheme between a wireless LAN and a universal mobile communication system that can reduce the cost and time according to the development of a separate matching protocol and matching node. .

In the mobile communication system, a method of interworking between a wireless LAN and a universal mobile communication system according to the present invention for achieving the above object includes: matching a wireless LAN network at a packet gateway switching center according to a service request of a mobile communication terminal; And providing a service by allocating IP to the communication terminal.

More specifically, the providing of the service may include: authenticating the mobile communication terminal, transmitting the ID of the mobile communication terminal to an IP gateway requesting message in an IP allocation request message; Confirming whether the ID of the mobile communication terminal received from the gateway switching center is registered in the mobile communication system network, and assigning an IP to the mobile communication terminal according to the result of the checking, and performing a service.

1 is a network structural diagram according to the prior art for interworking WLAN-UMTS network;

2 is a network structural diagram according to the present invention for interworking WLAN-UMTS network;

3 is a diagram illustrating a packet call processing process through a WLAN in the network structure of FIG.

4 is a flowchart illustrating a handover method from a WLAN to a UTRAN according to the present invention;

5 is a flowchart illustrating a handover method from a UTRAN to a WLAN according to the present invention.

** Description of the symbols for the main parts of the drawings **

100: mobile terminal 200: wireless LAN

300: Utran 400: Universal mobile communication packet network

500: internet network 201: access point

202: access router 301: node-B

302: wireless network controller 401: mobile communication packet switching station

402: packet gateway switching center 403: AAA server

404: DHCP server

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

2 is a diagram illustrating a network structure according to an embodiment of the present invention for interworking WLAN-UMTS networks.

WLAN-3GPP UMTS Dual Mode / Dual Band Mobile Terminal (WLAN) capable of providing packet services over a Wireless Local Area Network (WLAN) and packet services over 3GPP UMTS 100 may be provided with a service through a WLAN 200 network or a service through a Utran (UMTS Terrestrial Radio Access Network: UTRAN) 300 according to its location.

That is, when the mobile terminal 100 is located in an area where the WLAN service can be provided, the mobile terminal 100 is wirelessly matched to the WLAN 200 through an access point 201. 200 transmits the message requested by the mobile terminal 100 to the packet gateway switching center (GGSN) 402 of the UMTS packet network 400 through an access router (202).

On the other hand, when the mobile terminal 100 is located in an area where WLAN service cannot be provided, it is matched to Utran (hereinafter referred to as UTRAN) 300 through a Node-B (Node-B) 301. The UTRAN 300 transmits a service message requested by the mobile terminal 100 to the UMTS packet network 400 through a wireless network controller (hereinafter referred to as RNC) 302.

In the UMTS packet network 400, a location registration is performed in a mobile terminal 100 requesting packet service through the UTRAN 300 using a mobile communication packet switching station (hereinafter referred to as SGSN) 401. Functions and processes authentication and packet call requests, and establishes a session between the SGSN 401 and the GGSN 402 in conjunction with the packet gateway switching center (hereinafter referred to as GGSN) 402.

The GGSN 402 matches the Internet network 500 to serve as a gateway and allocates an IP address to the mobile terminal 10 requesting packet service through the WLAN 200 or the UTRAN 300. It plays a role of release.

In this case, the GGSN 402 may assign authentication / billing / authorization and IP address to the mobile terminal 100 by using additional devices such as the AAA server 403 and the DHCP server 404 as necessary.

As described above, the present invention has no configuration of an IWU node, which is a node for interworking between WLAN and UMTS packet networks, and uses GGSN instead of SGSN as a matching node for WLAN-UMTS packet service.

As described above, since a matching is achieved through GGSN, which is a node for managing / allocating IP, the interworking structure of the present invention will be referred to as a WLAN-UMTS interworking scheme or an IP coupling structure in the IP layer.

Next, a call processing procedure of the system according to the present invention will be described.

3 is a signal flow diagram illustrating a call processing procedure of a system according to the present invention, after a service subscriber requesting packet service through the WLAN 200 performs wireless matching using the dual mode / dual band mobile terminal 100. (802.11 association request) (S301), (802.11 association response) (S302), the AAA server 403 and the subscriber authentication (Security) for the service (S303) and sends the IP assignment request message (S304) to the GGSN (402). .

At this time, the mobile terminal 100 transmits its ID in the IP allocation request message.

Accordingly, the GGSN 402 checks whether the mobile terminal 100 requesting packet service using the WLAN is registered in the 3GPP UMTS system using the ID of the mobile terminal included in the message, and registers the 3GPP UMTS system. If the mobile terminal has been assigned, the same IP as the IP allocated to the mobile terminal in the 3GPP UMTS system is allocated to the mobile terminal 100 (S305).

As such, when the IP address is assigned to the mobile terminal 100, the service subscriber can use the packet service continuously (S306).

On the other hand, when the mobile terminal 100 is not located in the WLAN, the service is provided according to a standardization procedure defined for 3GPP UTRAN packet service. The 3GPP UTRAN packet service is a procedure presented in the 3GPP Recommendation and will not be described separately.

Next, a handover scheme between the WLAN and the Utran in the present invention will be described.

4 is a flowchart illustrating a handover method from a WLAN to a UTRAN, and FIG. 5 is a flowchart illustrating a handover method from a UTRAN to a WLAN.

First, as shown in FIG. 4, when the mobile terminal 100 moves to the UTRAN 300 area while receiving a packet service using the WLAN 200 (S401), the mobile terminal 100 is connected to the UTRAN 300. You will receive 3GPP UMTS packet service.

That is, the mobile terminal 100 requests the subscriber authentication for the packet service from the SGSN 401 (S402), and requests the IP authentication and allocation for the corresponding subscriber from the SGSN 401 to the GGSN 402 (S402). S403).

At this time, the mobile terminal 100 is a mobile terminal of a subscriber who has been provided with a packet service using a wireless LAN (WLAN), and the GGSN 402 is allocated at the time of WLAN service through the SGSN 401 -UTRAN 300. It assigns the same IP address as that and transmits it to the mobile terminal 100 (S404).

Thus, the packet service can be provided to the mobile terminal 100 moving from the WLAN to the UTRAN region without interruption (S405).

On the other hand, as shown in FIG. 5, if the mobile terminal 100 moves to the WLAN 200 area while receiving the service in the UTRAN area (S501), the mobile terminal 100 receives the packet service through the WLAN 200. do.

That is, the mobile terminal 100 requests IP authentication and allocation for the corresponding subscriber to the GGSN 402 through the WLAN 200 (S502).

At this time, since the mobile terminal 100 is a subscriber who has been provided with a packet service by using a 3GPP UMTS packet network, the GGSN 402 allocates the same IP address as that allocated to the service in the UTRAN region (S503). Is transmitted to the mobile terminal 100 via the WLAN (200) (S504).

Thus, packet service can be seamlessly provided to the mobile terminal 100 moving to the WLAN in the UTRAN region (S505).

Since the interworking scheme between the wireless LAN and the mobile communication system network according to the present invention has an interworking structure in the IP layer through the GGSN, there is no need to configure a separate matching node for matching the WLAN and the UMTS network, and according to the configuration of the matching node. Since there is no need to define a protocol, it is possible to reduce additional cost and facilitate service application.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

Claims (2)

In the mobile communication system, Matching to a wireless LAN network at a packet gateway switching center according to a service request of a mobile communication terminal; A method of interworking between a wireless LAN and a universal mobile communication system, comprising: allocating IP to a mobile communication terminal to provide a service. The method of claim 1, Providing the service, Authenticating the mobile communication terminal; Transmitting, by the mobile communication terminal, its ID in an IP allocation request message to a packet gateway switching center; Checking whether an ID of the mobile communication terminal received at the packet gateway switching center is registered in the mobile communication system network; The wireless LAN and the interworking system between the mobile communication system, characterized in that consisting of the step of performing a service by allocating IP to the mobile terminal according to the check result.