KR20020054449A - Method of Selecting Radio Access Network Using Multi Mode Terminal - Google Patents

Abstract

The present invention relates to a method for selecting a radio access network using a multi-mode telephone that can select a desired radio access network using a multi-mode terminal in a communication environment in which second and third generation mobile communication systems are provided simultaneously. A method for selecting a radio access network using a multi-mode telephone includes: selecting a specific radio access network using an arbitrary multi-mode terminal in a mobile communication system provided with a plurality of radio access networks; Selecting a public land mobile communication network through a PLMN selection procedure in the radio access network; Finding, by the multi-mode terminal, an available base station for the selected public land mobile communication network; If the available base station is found, the multi-mode terminal is configured to perform a registration procedure for the base station.

Description

Method of Selecting Radio Access Network Using Multi Mode Terminal}

The present invention relates to a method of selecting a radio access network, and more particularly, to selecting a radio access network using a multi-mode telephone suitable for selecting a desired network using a multi-mode terminal in a communication environment supporting both second and third generation mobile communication systems. It is about a method.

The current wireless telecommunications business has entered the 3rd generation telecommunications era, which provides a more reliable and flexible communication system than the previous generation. In other words, in the first generation analog communication system, only voice calls were serviced. In the second generation digital communication system, fax and data services were added to the first generation voice calls.

On the other hand, in the 3rd generation mobile communication system, high-speed data service, new video (TV), audio service (MUSIC), and internet access are possible by wireless communication.

The third generation mobile communication system is largely divided into CDMA2000, which represents North America, and UMTS, which represents asynchronous, which represents Europe. Second generation mobile communication systems are also divided into CDMA in North America and GSM in Europe. Representatively, it is developing into IS-95A / IS-95B / IS-95C type to support high-speed data service in CDMA system, and GSM is similarly GSM Phase I / Phase II / Phase II + / GPRS (General Packet Radio Service). Is evolving into).

However, in general, communication systems already installed in one region or country cannot be replaced with new communication systems as soon as possible because of the cost and the time required to secure and install equipment. Therefore, when coexisting for a certain period of time, or when users do not feel uncomfortable or want a low-cost communication service, old and new mobile communication systems coexist in the same region or country. Accordingly, the existing second generation mobile communication system operators should compete with the third generation mobile communication system and upgrade their communication system as soon as possible.

In such a communication environment, development of a multi-mode terminal supporting a global roaming network system will be inevitable in the early stages of development of the third generation mobile communication system. In addition, with the development of soft radio technology, multi-mode terminals will become more and more popular. In addition, the rate system will be different according to the communication service provided in the use of each network, and the service options provided will be different. Therefore, the user should select the access network efficiently according to the characteristics of the service desired by the user, but such a technology has not been disclosed in the 3rd generation mobile communication system.

An object of the present invention is to meet the above-mentioned expectations of the same industry, a multi-mode capable of selecting a desired wireless access network using a multi-mode terminal in a communication environment in which second and third generation mobile communication systems are provided simultaneously. The present invention provides a method for selecting a radio access network using a telephone.

1 is a control flowchart illustrating a radio access network selection procedure using a multi-mode telephone according to the present invention.

In order to achieve the above object, a radio access network selection method using a multi-mode telephone according to the present invention, in a mobile communication system provided with a plurality of radio access networks, using a specific radio access network using any multi-mode terminal Selecting a; Selecting a public land mobile communication network through a PLMN selection procedure in the radio access network; Finding, by the multi-mode terminal, an available base station for the selected public land mobile communication network; If the available base station is found, the multi-mode terminal is configured to perform a registration procedure for the base station.

Hereinafter, a radio access network selection procedure using a multi-mode telephone according to the present invention will be described with reference to the accompanying drawings.

1 is a control flowchart illustrating a radio access network selection procedure using a multi-mode telephone according to the present invention. Referring to FIG. 1, the present invention will be described on the assumption that the radio access networks of the second and third generation mobile communication systems are simultaneously provided to the mobile communication system.

When power is supplied from the multi-mode terminal, the NAS (Non Access Stratum) of the protocol layer of the multi-mode terminal selects the corresponding radio access network (S1).

Subsequently, the NAS of the multi-mode terminal selects the public land mobile communication network through a Public Land Mobile Network (PLMN) selection procedure in the radio access network (S2). Here, the public land mobile communication network is a kind of public communication network for which billing is composed of a mobile terminal, a base station, a subscriber location, a registration device, and a mobile communication exchange to enable telephone service of mobile communication operators.

Subsequently, the NAS of the multi-mode terminal finds an available base station for the selected public land mobile communication network (S3).

At this time, it is determined whether the multi-mode terminal has found a base station available (S4). As a result of the determination in step S4, when the multi-mode terminal finds a base station available, the NAS of the multi-mode terminal performs a location registration procedure for the base station (S5). Therefore, if the registration is successfully performed, it is possible to access the desired radio access network and receive the desired communication service (S6).

Hereinafter, a radio access network selection procedure using a multi-mode telephone according to an embodiment of the present invention will be described in more detail.

In the multi-mode terminal to which the present invention is applied, the auto access network selection mode is automatically selected according to the priority configured by the user when the wireless network is selected, and the manual selection when the user wants to select a specific wireless network. Manual access network selection mode is supported.

First, a radio access network selection procedure using the multi-mode telephone according to the present invention in selecting the automatic access network selection mode will be described.

Even when power is supplied to the multi-mode terminal of the present invention or power is supplied to the multi-mode terminal but no communication service is provided, the NAS of the multi-mode terminal stores an access network list in a memory (for example, NVRAM (Non-Volatile RAM). ) Or USIM (UMTS Service Identity Module). Here, the access network list is prioritized by the user in advance.

At this time, when power is supplied to the multi-mode terminal, the radio access network that has been used most recently has the highest priority. On the other hand, if the power supply to the multi-mode terminal is stopped, the NAS of the multi-mode terminal stores the currently selected radio access network list in a memory (eg, nonvolatile memory, EEPROM, NVRAM, or USIM) included in the multi-mode terminal. do. The radio access network list can be added, deleted, or changed by the user if necessary, and the user can change the order of the priority-set radio access network list through the user interface if necessary.

At this time, the NAS of the multi-mode terminal selects the radio access network having the highest priority among the access network lists in which the priority is set.

Then, the NAS of the multi-mode terminal performs the public land mobile communication network selection procedure in the selected radio access network.

Subsequently, the multi-mode terminal requests the selected public land mobile communication network to a lower layer of the NAS of the multi-mode terminal to perform the base station selection procedure.

The lower layer finds available base stations or cells of the selected public land mobile communication network. If there is a base station available, the NAS of the multi-mode terminal selects the base station and performs registration of the location. Therefore, the user of the multi-mode terminal can receive a normal communication service.

At this time, if the multi-mode terminal can not find the available base station, the next public land mobile communication network requests the upper layer of the NAS of the multi-mode terminal.

If all public land mobile communication networks of the selected radio access network are attempted and communication service is not provided, the radio access network list having the next priority is selected.

The multi-mode terminal repeats the above procedure until it finds a serviceable base station.

If, after performing all radio access network lists, if no serviceable base station is found, communication service cannot be provided.

Next, a radio access network selection procedure using the multi-mode telephone according to the present invention in selecting the manual access network selection mode will be described.

Even when power is supplied to the multi-mode terminal of the present invention or power is supplied to the multi-mode terminal, but no communication service is provided, the NAS stores the access network list in a memory (for example, non-volatile RAM (NVRAM) or USIM (UMTS). Service Identity Module). Here, the radio access network list shows a list of all available radio access networks, not the priority list. On the other hand, when the power supply to the multi-mode terminal is stopped, the currently selected radio access network list is stored in a memory (for example, non-volatile memory EEPROM, NVRAM, or USIM).

The user of the multi-mode terminal then selects the desired particular radio access network from a list of all possible radio access networks.

The NAS of the multi-mode terminal performs a public land mobile communication network selection procedure for a specific radio access network selected by the user.

Subsequently, the NAS of the multi-mode terminal provides the aerial land mobile communication network selected in the public land mobile communication network selection procedure to a lower layer of the NAS of the multi-mode terminal.

The lower layer finds available base stations of the selected public land mobile communication network. If there is a base station available, the NAS of the multi-mode terminal selects the base station and performs registration of the location. Therefore, the user of the multi-mode terminal can receive a normal communication service.

On the other hand, if the NAS of the multi-mode terminal can not find an available base station, the next public land mobile communication network requests the upper layer of the NAS of the multi-mode terminal.

If all the public land mobile networks of the selected radio access network fail to provide communication services, the NAS presents all available radio access networks to the user and repeats the steps described above until a serviceable base station is found. Perform.

If, after performing all radio access network lists, if no serviceable base station is found, communication service cannot be provided.

In the present invention, when power is supplied to the multi-mode terminal, the radio access network list selected immediately before is displayed on the display of the multi-mode terminal so as to be distinguished from other lists. For example, it can be positioned differently, give a noticeable mark, and can change font size or background.

According to the method for selecting a wireless access network using a multi-mode telephone according to the present invention described above, in a communication environment in which second and third generation mobile communication systems are provided at the same time, a user can efficiently select an access network according to a characteristic of a service desired by the user. There is an effect to choose from. Therefore, the user can select the desired radio access network according to the type of service and the carrier or the opportunity to select the radio access network.

Claims (2)

In a mobile communication system provided with a plurality of radio access networks, Selecting a particular radio access network using any multi-mode terminal; Selecting a public land mobile communication network through a PLMN selection procedure in the radio access network; Finding, by the multi-mode terminal, an available base station for the selected public land mobile communication network; And if the available base station is found, the multi-mode terminal is configured to perform a registration procedure for the base station. The method of claim 1, wherein the user of the multi-mode terminal is one of a first mode for automatically selecting the radio access network according to a preset priority, and a second mode in which the user manually selects a specific radio access network. Selecting a radio access network using a multi-mode telephone, characterized in that for selecting.