KR20060037701A - Interworking method between asynchronous mobile communication system and wibro system - Google Patents

Abstract

An interworking method between an asynchronous mobile communication system and a WiBro system is proposed in a mobile communication network in which an asynchronous mobile communication system and a WiBro system are overlapped.

The mobile communication terminal for interworking between mobile communication systems of the present invention is a multimode multiband mobile communication terminal having an asynchronous modem unit and a WiBro modem unit, and the mobile communication terminal connected to the asynchronous mobile communication system is moved while using a packet data service. In the asynchronous modem unit of the communication terminal, the signal strength is periodically measured from the pilot signal transmitted from the asynchronous mobile communication system, and when the signal strength is less than or equal to the specified threshold, the asynchronous modem unit requests the WiBro modem unit to connect with the WiBro system. By sending a packet call to the additional WiBro system, the WiBro modem unit and the WiBro system are connected.

According to the present invention, it is possible to provide a continuous service to a mobile communication terminal while saving the cost of building an asynchronous mobile communication system.

WCDMA, WiBro, Interworking

Description

Interworking Method Between Asynchronous Mobile Communication System and WiBro System

1 is a configuration diagram of a mobile communication network in which an asynchronous mobile communication system and a WiBro system are mixed;

2 is a flowchart illustrating an interlocking concept between an asynchronous mobile communication system and a WiBro system according to the present invention;

3 is a flowchart illustrating an interworking method between an asynchronous mobile communication system and a WiBro system according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: multi-mode multi-band mobile communication terminal 20: asynchronous mobile communication system

30: WiBro system 40: IP backbone network

50: GGSN 60: Internet

210: Node B 220: Wireless Network Controller

230: exchanger 240: SGSN

310: base station 320: control station

The present invention relates to a method for interworking between heterogeneous mobile communication networks by a mobile communication terminal, and more particularly, to an interworking method between an asynchronous mobile communication system and a WiBro system in a mobile communication network in which an asynchronous mobile communication system and a WiBro system are implemented. will be.

Recently, wireless Internet service using a mobile communication terminal has been provided by a communication method such as CDMA 1x EV-DO, WCDMA, and the like, and the demand thereof is increasing. However, the mobile communication terminal has a small screen size and low resolution. In addition, since the data transmission rate is low, there is a disadvantage in that the multimedia content is not appropriate. In addition, there is a limitation as a general means for accessing the Internet due to the burden on the information usage fee due to the high wireless Internet usage fee.

Meanwhile, with the expansion of laptops, PCs, and low-cost LAN equipment, there are increasing cases of free access to the Internet wirelessly at home. In addition, as a hot spot service through a public wireless LAN is provided, high-speed wireless Internet access is enabled in a public place using a portable computing terminal. Internet access services over public WLANs offer almost the same quality as wired environments, and offer lower cost benefits, while providing a more reliable and flawless service outdoors, with a smaller coverage area and less mobility. There is a limit.                         

Overcoming the limitations of the existing system, a service called 'mobile Internet' has been developed as a wireless Internet service that enables high-speed Internet access even when stationary or on the move with high service quality and cost, and is commonly referred to as WiBro. WiBro service is defined as a service that enables high-speed wireless Internet access anytime, anywhere, even while stationary and mobile. Currently, WiBro system is partially implemented in regions with high service utilization rate, and is overlapped with existing WCDMA system.

The WCDMA system guarantees high-speed data service and mobility of UE, and is implemented to have wider coverage than WiBro. However, WCDMA system is expensive to use data service, and it is expensive to design network such as base station and repeater, and additional cost is incurred due to severe loss of radio waves in in-building area. There is a disadvantage that occurs. On the other hand, the WiBro system has a lower guarantee of mobility than WCDMA, but can use data services at a low service fee, and has a low cost in network design.

Therefore, when the terminal using the data service moves to the in-building area using the WCDMA system, if the connection to the WiBro network is switched, it may provide a continuous service that does not disconnect the call.

The present invention has been made to solve the above-mentioned disadvantages and problems, and when entering the WCDMA shadow area while using the services of the WCDMA system using a multi-mode multiband mobile communication terminal that can be used in both the WCDMA system and the WiBro system There is a technical problem of providing a continuous service by allowing a mobile communication terminal to access a WiBro system.

Another technical problem of the present invention is to reduce the investment cost for providing a mobile communication service by supporting interworking between a low-cost WiBro system and a WCDMA system without installing a separate WCDMA repeater in a WCDMA shadow area. .

The present invention for achieving the above-described technical problem is a method for interworking with a multi-mode multi-band mobile communication terminal having an asynchronous modem unit and a WiBro modem unit in a mobile communication network in which an asynchronous mobile communication system and a WiBro system overlap, the asynchronous mobile communication system A first step of periodically measuring signal strength from a pilot signal transmitted from the asynchronous mobile communication system by an asynchronous modem unit of the mobile communication terminal by a mobile communication terminal connected to the mobile terminal; A second step of requesting, by the asynchronous modem unit, to connect with the WiBro system to the WiBro modem unit when the signal strength is less than a predetermined threshold value; And a third step in which the WiBro modem unit sends a packet call to the WiBro system so that the WiBro modem unit and the WiBro system are connected.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. In the following description, a mobile communication terminal includes a multi-mode multi-band mobile communication terminal having a WCDMA modem unit and a WiBro modem unit, which are implemented to be used in both an asynchronous mobile communication system and a WiBro mobile communication system. All.

1 is a configuration diagram of a mobile communication system in which an asynchronous mobile communication system and a WiBro system are mixed.

As shown, the mobile communication terminal 10 is selectively wirelessly connected to the asynchronous mobile communication system 20 represented by WCDMA and the WiBro system 30, which is a portable Internet system, to use data services.

The asynchronous mobile communication system 20 is a Node B 210 as a base station for wireless section communication with the mobile communication terminal 10, a radio network controller (RNC, 220) for controlling a plurality of Node B, a radio network controller ( A location track of the mobile communication terminal 10 connected to the asynchronous exchange (MSC) 230 and the wireless network controller 220 to perform a call exchange for providing a voice call service to the mobile communication terminal 10. And a Serving GPRS Support Node (SGSN) 240 that maintains and performs access control and security functions.

In addition, the WiBro system 30 provides an access function with the mobile communication terminal 10, manages and controls radio resources, supports handoff of the mobile communication terminal 10, and performs authentication and security functions. A radio access station (RAS) 310 and an access control router (ACR) 320 that manages IP routing and mobility, and performs an IP multicast function, a charging function, an inter-base station mobility control function, and the like. .

The WCDMA system 20 and the WiBro system 30 are connected through the IP backbone network 40 to exchange messages necessary for the mobile communication terminal 10 to change the connection from the WCDMA system to the WiBro system. In addition, the IP backbone network 40 is connected to a Gateway GPRS Support Node (GGSN) 50 that supports interworking with external packets via the Internet 60.

In such a mobile communication system, the mobile communication terminal 10 connected to the WCDMA system 20 and using the packet data service periodically measures the pilot signal strength received from the WCDMA, and the mobile communication terminal 10 is an example. For example, as the wireless environment with the WCDMA system becomes poor due to moving to the WCDMA shadow area, the mobile communication terminal 10 confirms that the signal strength from the WCDMA system decreases, and the attenuated signal strength is designated. If it is maintained for a time, it is determined whether to switch the connection to the WiBro system 30.

2 is a flowchart illustrating an interlocking concept between an asynchronous mobile communication system and a WiBro system according to the present invention.

Referring to FIG. 2, when a mobile communication terminal uses a packet data service in a WCDMA system area, a pilot signal strength transmitted from a WCDMA system may decrease. This is a phenomenon that occurs when the mobile communication terminal moves to the WCDMA shadow area, such as in-building. If the signal strength continues to decrease and decreases to the designated threshold (TH _recall ), the mobile communication terminal checks whether the signal strength with the WCDMA system continues to remain below the threshold. If the signal strength with the WCDMA system is less than or equal to the threshold for a specified time H _D , the mobile communication terminal connects to the WiBro system and continues to use the packet data service and stops the connection with the WCDMA system.

3 is a flowchart illustrating an interworking method between an asynchronous mobile communication system and a WiBro system according to the present invention.

The mobile communication terminal 10 including the WCDMA modem unit and the WiBro modem unit is connected to a WCDMA system to use a packet data service (S10). The signal strength is measured using a pilot signal transmitted from the WCDMA system at a specified period. If the signal strength received by the mobile communication terminal 10 in the packet data service from the WCDMA system decreases, the WCDMA modem unit of the mobile communication terminal 10 maintains the measured pilot signal strength for less than a specified threshold for a specified time. Check if If the pilot signal strength is maintained below the threshold for a specified time, it is determined to switch the connection to the WiBro system (S20).

Accordingly, the WCDMA modem unit requests the WiBro modem unit to connect to the WiBro system (S30), and the WiBro modem unit performs packet data call transmission to the WiBro system 30 (S40). When the WiBro modem unit and the WiBro system 30 are connected to provide packet data service (S50), the WiBro modem unit reports that the connection is completed to the WCDMA modem unit, and the WCDMA modem unit terminates the connection with the WCDMA system 20 ( S60).

In this way, even when the mobile communication terminal moves to the WCDMA shadow area, it is possible to provide continuous service by switching the connection to the WiBro system.

Those skilled in the art to which the present invention described above belongs will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts are included in the scope of the present invention. Should be.

In the above-described present invention, in a mobile communication network in which a WCDMA system and a WiBro system overlap, a mobile communication terminal moving to a shadow area of the WCDMA system can use a continuous service by switching to a WiBro system. In addition, the WCDMA system has the advantage of ensuring stable service quality by using a WiBro system that can be installed at a low cost and reliable high-speed data service without installing expensive equipment in the shadow area.

Claims (3)

An interworking method of a multi-mode multiband mobile communication terminal having an asynchronous modem unit and a WiBro modem unit in a mobile communication network in which an asynchronous mobile communication system and a WiBro system are overlapped, A first step of periodically measuring signal strength from a pilot signal transmitted from the asynchronous mobile communication system in an asynchronous modem unit of the mobile communication terminal by a mobile communication terminal connected to the asynchronous mobile communication system; A second step of requesting, by the asynchronous modem unit, to connect with the WiBro system to the WiBro modem unit when the signal strength is less than a predetermined threshold value; And A third step in which the WiBro modem unit sends a packet call to the WiBro system so that the WiBro modem unit and the WiBro system are connected; Interworking method between the asynchronous mobile communication system and WiBro system comprising a. The method of claim 1, And the first step is a step of requesting the WiBro modem unit to connect to the WiBro system when the signal strength is maintained for a predetermined time under a specified threshold value. The method of claim 1, And after the third step, performing the fourth step of terminating the connection between the asynchronous modem unit and the asynchronous system as the WiBro modem unit reports that the connection with the WiBro system is completed. A method for interworking between an asynchronous mobile communication system and a WiBro system.

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