KR101004824B1 - Hand Over Method for Dual Band/Dual Mode Mobile Communication Terminal - Google Patents

Abstract

The present invention relates to a handover method of a mobile communication terminal supporting a dual band / dual mode capable of smooth roaming in a synchronous mobile communication network and an asynchronous mobile communication network. Step 1 of setting and accessing, step 2 of activating the synchronous radio to establish a connection with the synchronous mobile communication network when the signal strength of the asynchronous mobile communication network is less than or equal to a predetermined value, which is received through the asynchronous wireless device. Determining whether the signal strength of the asynchronous mobile communication network is less than or equal to a preset reference value for handover; and if it is determined in step 3 that the signal strength of the asynchronous mobile communication network is less than or equal to the reference value, Step 4 of activating access, after step 4 asynchronous mobile communication network By including the five steps of releasing the connection with the, there is an effect that can perform a smooth handover between the asynchronous mobile communication network and the synchronous mobile communication network.

Description

Handover Method for Dual Band / Dual Mode Mobile Communication Terminal

1 is a block diagram illustrating a connection between a mobile communication terminal and a mobile communication network according to the present invention;

2 is a block diagram for explaining the configuration of a mobile communication terminal according to the present invention;

3 is a block diagram for explaining the configuration of a mobile communication terminal according to the present invention;

4 is an explanatory diagram for explaining a handover of a mobile communication terminal according to an area of an asynchronous mobile communication network and a synchronous mobile communication network according to the present invention;

5 is a flowchart illustrating a connection process according to initial activation of a mobile communication terminal according to the present invention;

6 is a schematic graph illustrating a handover from an asynchronous communication network to a synchronous communication network of a mobile communication terminal according to the present invention;

7 is a flowchart illustrating a handover process according to FIG. 6.

<Brief description of the main parts of the drawings>

100: asynchronous mobile communication network 200: synchronous mobile communication network

400: mobile communication terminal 410: antenna

420: asynchronous wireless device 430: synchronous wireless device                 

440: common module 443: main processor

The present invention relates to a mobile communication terminal, and more particularly, to a handover method of a mobile communication terminal supporting dual band / dual mode capable of smooth roaming in a synchronous mobile network and an asynchronous mobile communication network.

Currently, mobile communication service technology can be broadly classified into asynchronous service environment centering on Europe and synchronous service centering on North America. In addition, the IMT-2000 service is evolving around North America and Europe as a new mobile communication technology standard for delivering packets at high speed.

Synchronous IMT-2000 service is evolving into CDMA2000 1x, CDMA2000 1x EV-DO, and asynchronous IMT-2000 service is evolving as WCDMA UMTS service. In such an environment, the problem of roaming between synchronous and asynchronous is emerging as a current issue. Accordingly, a terminal supporting dual band / dual mode is required to smoothly roam a synchronous mobile network and an asynchronous mobile communication network.

Accordingly, an object of the present invention is to provide a handover method of a mobile communication terminal supporting a dual band / dual mode capable of smooth roaming in a synchronous mobile network and an asynchronous mobile communication network.

A handover method of a mobile communication terminal supporting a dual band / dual mode according to the present invention for achieving the above object, an antenna for radio wave transmission and reception with an asynchronous mobile communication network and a synchronous mobile communication network, the asynchronous through the antenna An asynchronous wireless device for performing asynchronous communication with a mobile communication network, a synchronous wireless device for performing synchronous communication with the synchronous mobile communication network through the antenna, and a synchronous / asynchronous mobile communication network with the synchronous and asynchronous wireless device. In the handover method of a mobile communication terminal having a main processor for performing control during wireless communication and a common module for providing common resources and performing wireless communication between an asynchronous mobile communication network and a synchronous mobile communication network, The main processor turns the initial access mobile communication network into an asynchronous mobile communication network. Step 1 of establishing and accessing; step 2 of activating the synchronous radio to perform connection setting with the synchronous mobile communication network when the signal strength of the asynchronous mobile communication network is less than or equal to a predetermined value; asynchronous received through the asynchronous wireless device Determining whether the signal strength of the mobile communication network is less than or equal to a preset reference value for handover; and if it is determined in step 3 that the signal strength of the asynchronous mobile communication network is less than or equal to the reference value, access to the synchronous mobile communication network set in step 2 is performed. It is characterized in that it comprises a fourth step of activating, and a fifth step of releasing the connection with the asynchronous mobile communication network after the fourth step.

Hereinafter, with reference to the accompanying drawings to describe the present invention in detail.

1 is a block diagram illustrating the configuration of a synchronous and asynchronous mobile communication network according to the present invention.

Referring to FIG. 1, the WCDMA network 100, which is an asynchronous network, includes a wireless station 101 performing wireless communication with a mobile communication terminal 400 and a wireless station controller (hereinafter referred to as 'RNC') for controlling the wireless station 101. 102, a Serving GPRS Service Node (hereinafter referred to as "SGSN") 103 connected to the RNC 102 to manage mobility of the mobile communication terminal 400, and a GPRS network An asynchronous communication network data service gateway node (hereinafter referred to as 'GGSN') 106, which is a relay that performs the packet service control and packet data transfer through 105, is included.

In addition, an exchanger (hereinafter referred to as 'MSC') 104 is connected to the RNC 102 to perform a call exchange, and the MSC 104 is a number seven signal network (No. 7 signal network) for signal exchange ( 107). The number seven signal network 107 has a short message service center (hereinafter referred to as SMSC) 108 for serving a short message, and a home location register (hereinafter referred to as 'HLR') for managing location information of subscribers. 110 is connected.

Meanwhile, the CDMA2000 network 200, which is a synchronous network, includes a base station (hereinafter referred to as 'BTS') 201 that performs wireless communication with the mobile communication terminal 400, and a base station controller (hereinafter, referred to as 'BTS'). BSC ') 202, a Packet Data Service Node (hereinafter referred to as' PDSN') 204 connected to the BSC 202 and serving packet data, and the PDSN 204. A Data Core Network (DCN) 209 that is connected and performs an Internet access service, and an exchanger (hereinafter referred to as MSC) connected to the BSC 202 to perform an exchange ( 203).                     

The MSC 203 is connected with a number seven signal network (No. 7 signal network) 205 for signal exchange. The number seven signal network 205 includes a short message service center (hereinafter referred to as 'SMSC') 206 that serves a short message, and a home location register (hereinafter referred to as 'HLR') for managing location information of subscribers. 208 is connected.

In the present embodiment, the synchronization network 200 and the asynchronous network 100 have HLRs 110 and 208 for managing subscriber information and location information, respectively, but using one HLR (dual stack home location register). By doing so, the synchronization network 200 and the asynchronous network 100 may share subscriber information and location information.

2 is a block diagram illustrating a configuration of a dual band mobile communication terminal according to the present invention.

Referring to FIG. 2, the dual band mobile communication terminal 400 according to the present invention supports both synchronous mobile communication and asynchronous mobile communication and has a stack of respective protocols.

The mobile communication terminal 400 according to the present invention is broadly divided into an antenna 410 for transmitting and receiving radio waves with the synchronous mobile communication network 200 and the asynchronous mobile communication network 100, and a synchronous radio device 430 for synchronous communication. , Asynchronous radio 420 for asynchronous communication, and a common module 440 for providing common resources in synchronous and asynchronous communication.

The synchronous radio device 430 includes a synchronous radio transmitter 432 for radio transmission, a synchronous radio receiver 433 for radio reception, and a synchronous modem unit 434. The synchronous radio transmitter 432 and One side of the synchronous radio receiver 433 is connected to the antenna 410 through a duplexer 431, and the other side is connected to the synchronous modem unit 434.

In addition, the asynchronous radio device 420 also includes an asynchronous radio transmitter 422 for radio transmission, an asynchronous radio receiver 423 for radio reception, and an asynchronous modem unit 424. The asynchronous radio transmitter 422 And one side of the asynchronous radio receiver 423 is connected to the antenna 410 through the duplexer 421 and the other side is connected to the asynchronous modem unit 424.

3 is a block diagram illustrating a configuration of a common module of a mobile communication terminal according to the present invention.

Referring to FIG. 3, the common module 440 of the mobile communication terminal according to the present invention includes a plurality of dual devices connected to the modem units 424 and 434 of the synchronous radio device 430 and the asynchronous radio device 420. Dual Port RAM (hereinafter referred to as DPRAM) 441 and 442 and the DPRAM 441 and 442 are connected to perform overall control and application execution of synchronous and asynchronous communication of the mobile communication terminal 400. A main processor 443. The main processor 443 includes a memory 444 for storing data, an I / O device 445 for connecting a peripheral device, and a power control module (hereinafter referred to as 'PWM') 446 for power control. Connected.

4 is an explanatory diagram for explaining a handover of a mobile communication terminal according to an area of an asynchronous mobile communication network and a synchronous mobile communication network according to the present invention.

Referring to FIG. 4, in this embodiment, the area of the asynchronous mobile communication network 100 is included in the area of the synchronous mobile communication network 200. In the area of the asynchronous mobile communication network 100, the synchronous wireless device (CDMA2000) 430 is set to the parking mode, and the asynchronous wireless device (WCDMA) 420 is set to the active state. Also, in the area of the synchronous mobile communication network 200, the asynchronous radio (WCDMA) 420 is set to the parking mode and the synchronous radio (CDMA2000) 430 is set to the active state.

5 is a flowchart illustrating a connection process according to initial activation of a mobile communication terminal according to the present invention.

Referring to FIG. 5, in the mobile communication terminal according to the present invention, when the initial power is turned on (S10), the main processor 443 preferentially selects asynchronous communication. To this end, the main processor 443 activates the asynchronous radio 420 (S20), and sets the synchronous radio 430 to the parking mode (S30).

In steps S20 and S30, the main processor 443 sets the asynchronous radio 420 to an activated state, parks the synchronous radio 430, and then performs a connection request to the asynchronous mobile communication network 100 (S40).

In step S40, the asynchronous mobile communication network 100 requests the location registration from the asynchronous HLR 110 according to the connection request (S51), and the asynchronous HLR 110 returns a response according to the location registration (S52).                     

The asynchronous mobile communication network 100 transmits a response message according to the connection request to the mobile communication terminal 400 (S60). In this case, the response message includes information indicating that the asynchronous mobile communication network 100 is capable of handover to the synchronous mobile communication network 200.

After receiving the response in step S60 through the asynchronous wireless device 420, the main processor 443 of the mobile communication terminal 400 transmits a message indicating that connection setting is completed to the asynchronous mobile communication network (S71). In this case, the message includes information of the synchronous wireless device 430 to which the mobile communication terminal can access the synchronous mobile communication network.

After receiving the message in step S71, the asynchronous mobile communication network 100 stores the information of the synchronous wireless device 430 of the mobile communication terminal in the asynchronous HLR 110 (S72). In this case, the asynchronous HLR 110 transmits the information in step S72 to the HLR 208 of the synchronous mobile communication network (S73), and the synchronous HLR 208 stores the information transmitted from the asynchronous HLR 110 (S74). Prepare for handover.

The asynchronous mobile communication network 100 transmits the response message according to step S71 to the mobile communication terminal 400 (S80).

Accordingly, the connection setting between the mobile communication terminal 400 and the asynchronous mobile communication network 100 is completed, and the mobile communication terminal 400 transmits a message including the current connection setting confirmation information to confirm the connection setting. 100) (S90).

Accordingly, the asynchronous mobile communication network 100 transmits a message for approving the connection setting confirmation information to the mobile communication terminal 400 (S100), thereby completing all connection setting.

6 is a schematic graph illustrating a handover from an asynchronous communication network to a synchronous communication network of a mobile communication terminal according to the present invention.

6 illustrates a process in which the mobile communication terminal 400 accesses the asynchronous mobile communication network 100 and then enters the area of the synchronous mobile communication network 200 after leaving the area of the asynchronous mobile communication network 100. Denotes a section in which an area of the asynchronous mobile communication network 100 overlaps with an area of the synchronous mobile communication network 200.

As illustrated, when the signal of the synchronous mobile communication network is received in a state where the signal of the asynchronous mobile communication network is lowered below the predetermined value V1 in the overlapping region, the mobile communication terminal 400 is synchronized with the current parking. Activate the radio 430, where both asynchronous / synchronous radios 420 and 430 are activated.

After the activation, when the signal strength of the asynchronous mobile communication network becomes less than or equal to a predetermined reference value V2 for handover, the mobile communication terminal performs a handover to the synchronous mobile communication network and the mobile communication terminal is activated. Control to park.

7 is a flowchart illustrating a handover according to FIG. 6.

Referring to FIG. 7, when the mobile communication terminal 400 is located in the area of the asynchronous mobile communication network 100, the main processor 443 activates the asynchronous radio 420 and the synchronous radio 430 is in the parking mode. Set to (S110).

The main processor 443 of the mobile communication terminal 400 determines whether the signal of the asynchronous mobile communication network 100 is lowered below the predetermined value V1 (S120).

If it is determined in step S120 that the signal of the asynchronous mobile communication network 200 is lowered below a predetermined value, it is determined that the mobile communication terminal 400 moves from the area of the asynchronous mobile communication network 100 to the area of the synchronous mobile communication network 200. The main processor 443 activates the synchronous wireless device 430 in the parking mode and establishes a connection with the synchronous mobile communication network 200 (S141). Accordingly, location registration occurs to the synchronous HLR 208 of the synchronous mobile communication network 200 (S142). At this time, the synchronous HLR 208 refers to the handover information of the mobile communication terminal 400 based on the information stored in step S74 shown in FIG.

The mobile communication terminal 400 determines whether a signal of the asynchronous mobile communication network 100 received through the asynchronous wireless device 420 is equal to or less than a preset reference value V2 for handover (S150).

If it is determined in step S150 that the signal of the asynchronous mobile communication network 100 is less than or equal to the preset reference value V2, the connection with the synchronous mobile communication network 200 set in step S141 is activated (S160).

The handover from the asynchronous mobile communication network to the synchronous mobile communication network is completed by releasing the current connection with the asynchronous mobile communication network (S170) and controlling the asynchronous wireless device 420 in the parking mode (S180).

The asynchronous HLR 110 and the synchronous HLR 208 described in the above process may be implemented with one HLR, that is, one dual stack home location register.

According to the handover method of the mobile communication terminal supporting the dual band / dual mode according to the present invention as described above, using the dual band / dual mode mobile communication terminal initially connected to the asynchronous mobile communication network when the initial power on and asynchronous movement An effective handover between the communication network and the synchronous mobile communication network can be performed.

Claims (8)

An antenna for radio wave transmission and reception with an asynchronous mobile communication network and a synchronous mobile communication network, an asynchronous wireless device for performing asynchronous communication with the asynchronous mobile communication network through the antenna, and performing synchronous communication with the synchronous mobile communication network through the antenna. A synchronous radio device, a main processor for performing control during radio communication with the synchronous mobile communication network and the asynchronous mobile communication network through the synchronous radio device and the asynchronous radio device, and a common module for providing common resources. In the handover method of a mobile communication terminal capable of performing wireless communication between a communication network and a synchronous mobile communication network, A first step in which the main processor sets an initial access mobile communication network as an asynchronous mobile communication network when the power is turned on; In step 2, when the signal strength of the asynchronous mobile communication network is less than or equal to a predetermined value, activating the synchronous radio to establish connection with the synchronous mobile communication network; Determining whether the signal strength of the asynchronous mobile communication network received through the asynchronous wireless device is below a predetermined reference value for handover; In step 3, if it is determined that the signal strength of the asynchronous mobile communication network is less than or equal to the reference value, step 4 activating a connection with the synchronous mobile communication network set in step 2; After the step 4 includes a five step of releasing the connection with the asynchronous mobile communication network, The first step, An asynchronous activation step in which the main processor activates the asynchronous wireless device upon power-up, a connection request step in which the main processor performs a connection request to the asynchronous mobile communication network through the asynchronous wireless device, and an asynchronous mobile communication network according to the connection request Performing the location registration to the home location register of the asynchronous mobile communication network and transmitting the response to the mobile communication terminal; the mobile communication terminal receives the response from the connection performing step and transmits a connection setup completion message to the mobile communication network; A handover method of a mobile communication terminal supporting a dual band / dual mode, comprising a connection completion step of receiving a response. delete The method of claim 1, The response message in the connection performing step includes a handover information indicating that the handover to the synchronous mobile communication network handover method of a mobile communication terminal supporting the dual band / dual mode. The method of claim 3, wherein In the access completion step, supporting the dual band / dual mode includes the information on the synchronous radio device in the connection establishment complete message according to the handover possible information to the synchronous mobile communication network in the connection execution step. Handover method of mobile communication terminal. The method of claim 4, wherein The connection completion step may include storing the information of the synchronous radio device included in the connection establishment complete message in a home location register of an asynchronous mobile communication network, and the home location register of the asynchronous mobile communication network may store information of the synchronous radio device. A handover method of a mobile communication terminal supporting dual band / dual mode comprising the step of transmitting / registering to a home location register of a synchronous network. The method of claim 1, In the first step, the mobile communication terminal transmits the currently completed connection setting confirmation information to the asynchronous mobile communication network after the connection completion step, and the mobile communication terminal receives the message and confirms the connection setting confirmation information. Handover method of a mobile communication terminal supporting a dual band / dual mode comprising the step of returning to the terminal. The method of claim 1, The step 2 includes: activating a synchronous wireless device, performing a connection setup with a synchronous mobile communication network through the synchronous wireless device, and performing location registration of a mobile communication terminal to a synchronous home location register according to the connection setting. Handover method of a mobile communication terminal comprising the step of. The method of claim 1, The step 5 includes the step of setting the parking of the asynchronous wireless device after disconnecting the connection with the asynchronous mobile communication network.

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