KR100589953B1 - Hand Over Method from Asynchronous Mobile Communication Network to Synchronous Mobile Communication Network - Google Patents

Abstract

The present invention relates to a handover method from an asynchronous mobile communication network to a synchronous mobile communication network. When an access network of the asynchronous mobile communication network requests a handover to an asynchronous exchange according to a handover request of a mobile communication terminal, the asynchronous exchange is a dual stack. Request / receive subscriber information of mobile communication terminal with home location register, asynchronous exchange sends handover request message to synchronous exchange according to subscriber information of mobile communication terminal, and access network of synchronous mobile communication network is transferred to mobile communication terminal. Asynchronous mobile communication network transmits a handover request message to the asynchronous wireless device of the mobile communication terminal according to the response channel from the synchronous exchange through the access network of the synchronous mobile communication network. Setup of the synchronous mobile network and reverse channel The mobile communication terminal transmits a handover complete message to the synchronous mobile communication network, and according to the handover complete message, the synchronous mobile communication network transmits a handover complete message to the asynchronous mobile communication network. According to the handover completion message, the path of the asynchronous mobile communication network and the mobile communication terminal is released, thereby enabling smooth handover.

Description

Handover Method from Asynchronous Mobile Communication Network to Synchronous Mobile Communication Network

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 a conceptual diagram illustrating a handover method according to the present invention;

5A and 5B are flowcharts illustrating a handover process according to the present invention;

6 to 10 are explanatory diagrams for explaining parameters included in a message for handover according to the present invention.

<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 handover, and more particularly, to a handover method from an asynchronous mobile communication network to a synchronous mobile communication network for providing a smooth handover from an asynchronous mobile communication network to a synchronous 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 (synchronous mobile communication network) is developed as CDMA2000 1x, CDMA2000 1x EV-DO, and asynchronous IMT-2000 service (asynchronous mobile communication network) is developed as WCDMA UMTS service. Doing. In such an environment, the problem of roaming between synchronous and asynchronous is the biggest problem. Accordingly, a terminal supporting dual band / dual mode has been developed to smoothly roam a synchronous mobile network and an asynchronous mobile communication network.

The asynchronous mobile communication network is being built around an area with high service demands. Accordingly, the synchronous mobile communication network has evolved into a form in which the service area includes a service area of an asynchronous system. In the case of mutual movement between a system and a synchronous mobile communication system, handover between systems is required to provide continuous services, and a handover method is required.

Accordingly, in order to solve the above problems, the present invention provides a mobile communication terminal supporting dual band / dual mode from an asynchronous mobile communication network to a synchronous mobile communication network to provide a smooth handover when moving from an asynchronous mobile communication network to a synchronous mobile communication network. The purpose is to provide a handover method.

A handover method from an asynchronous mobile communication network to a synchronous mobile communication network according to the present invention for achieving the above object is an asynchronous wireless device for performing asynchronous communication with the asynchronous mobile communication network, and performing synchronous communication with the synchronous mobile communication network. An asynchronous mobile communication network and a synchronous mobile communication network for a dual-band dual mode mobile communication terminal having a synchronous radio device and a common module for performing control in wireless communication with the synchronous / asynchronous mobile communication network through the synchronous and asynchronous radio devices. And a dual stack home location register for managing subscriber information of the asynchronous mobile communication network and the synchronous mobile communication network, wherein the access network of the asynchronous mobile communication network is in response to a handover request of the mobile communication terminal. First stage requesting handover to this asynchronous exchange Determine whether the asynchronous exchange is a handover to a synchronous mobile communication network according to the handover request, and in case of a handover to the synchronous mobile communication network, request the subscriber information of the mobile communication terminal to the dual stack home location register. And a billing ID, which is ID information of a synchronous mobile communication network switch to be connected to the asynchronous exchange by the asynchronous exchange according to the subscriber information of the mobile communication terminal received in the second step and the second step. Transmitting a handover request message including a handover indication message, an internal exchange circuit ID (InterMSCCircuitID) for each handover period, and synchronous base station information; and according to the information in step 3, the access network of the synchronous mobile communication network 4th step of allocating omni-directional channel to mobile communication terminal, synchronous movement after channel assignment in 4th step Step 5, when the access network of the communication network transmits a response message to the asynchronous mobile communication network through the synchronous exchange, the asynchronous mobile communication network transmits a handover request message to the asynchronous wireless device of the mobile communication terminal, and moves according to the handover request message. In step 6, the communication terminal performs setup of the synchronous wireless device, performs connection by synchronizing reverse channel assignment and synchronization with the synchronous mobile communication network, and transmits a handover completion message to the synchronous mobile communication network. A seventh step in which the synchronous mobile communication network transmits a handover complete message to the asynchronous mobile communication network according to the handover complete message of the mobile communication network; By sending a release command and receiving a response Characterized in that it comprises a step 8, to release the path for the asynchronous wireless device of the synchronous mobile communication network and a mobile communication terminal.

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, an asynchronous mobile communication network (WCDMA network) 100 includes a radio station 101 performing wireless communication with a mobile communication terminal 400 and a radio station controller (hereinafter, referred to as 'RNC') for controlling the radio station 101. 102, and a Serving GPRS Support Node (hereinafter referred to as 'SGSN') 103 connected to the RNC 102 to manage mobility of the mobile communication terminal 400; (Gateway GPRS Support Node, hereinafter referred to as 'GGSN'), which is a relay device that performs the packet service control and packet data transmission through the General Packet Radio Service (GPRS) network 105. It includes.

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 providing a short message, and a dual stack home location register (hereinafter referred to as 'dual stack HLR') for managing subscriber location information. 300 is connected.

On the other hand, the synchronous mobile communication network (CDMA2000 network) 200, the base station (hereinafter referred to as 'BTS') for performing wireless communication with the mobile communication terminal 400 and the base station controller for controlling the BTS 201 (Hereinafter referred to as '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 ( A data core network (hereinafter referred to as "DCN") 209 connected to 204 and performing an Internet access service, and an exchanger connected to the BSC 202 to perform an exchange (hereinafter referred to as "MSC"). 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 is connected to a short message service center (hereinafter referred to as SMSC) 206 for serving a short message and the dual stack HLR 300 for managing location information of a subscriber. .

The MSCs 104 and 203 of the asynchronous mobile communication network 100 and the synchronous mobile communication network 200 are interconnected, and the number seven signal networks 107 and 205 are also interconnected to handover the mobile communication terminal 400. Information necessary for transmitting and receiving is transmitted.

In addition, in the present embodiment, the dual stack HLR 300 connected to the synchronous mobile communication network 200 and the asynchronous mobile communication network 100, respectively, includes information and location information of subscribers of the asynchronous mobile communication network 100 and the synchronous mobile communication network 200. Manage and share the asynchronous mobile communication network 100 and synchronous mobile communication network 200.

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.

The common module 440 may include an application processor, a memory, an input / output unit, other application processing units, etc. that operate as a central processing unit for controlling the synchronous modem unit 434 and the asynchronous modem unit 424 and perform multimedia functions. Detailed configuration is as follows.

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.

The common module 440 having the above-described configuration is equipped with software for user interface, additional service, mobility management, access / session control, resource control, and protocol processing, so that users can use various application services and handover. Performs protocol conversion according to the mobile communication system.

4 is a conceptual diagram of handover in a mobile communication network in which an asynchronous network and a synchronous network are mixed according to an embodiment of the present invention.

Referring to FIG. 4, when the mobile communication terminal 400 moves from the area A of the asynchronous mobile communication network 100 to the boundary area C with the synchronous mobile communication network 200 during a call through a wireless station, the mobile communication terminal 400 moves. The communication terminal 400 requests a handover to a radio station of the asynchronous mobile communication network 100. Accordingly, a handover between the asynchronous mobile communication network 100 and the synchronous mobile communication network 100 for the mobile communication terminal 400 is performed.

That is, the mobile communication terminal 400 located in the asynchronous mobile communication network 100 and using a voice call periodically measures the signal strength with the radio station and reports it to the radio station, and the signal strength of the radio station is less than or equal to the specified threshold. If lowered, the radio station reports that a handover event has occurred through the RNC to the MSC of the asynchronous mobile communication network. At this time, the access network (radio station / RNC) transmits the neighbor cell information, the base station ID, etc. detected by the mobile communication terminal 400 to the MSC of the asynchronous mobile communication network.

When the MSC of the asynchronous mobile communication network receives the handover request message from the RNC, the MSC of the asynchronous mobile communication network refers to the neighbor cell information, the base station ID, etc. received from the RNC, to the synchronous mobile communication network 200 between the adjacent cells. Determine if it is a handover. At this time, in the case of handover between adjacent cells in the asynchronous mobile communication network 100, the MSC of the asynchronous mobile communication network 100 performs handover to the adjacent cell.

However, in case of handover to the synchronous mobile communication network 200, the handover is performed to the MSC of the synchronous mobile communication network 200. To this end, the MSC 104 generates a subscriber information request message so as to know the subscriber information in the synchronous mobile communication network for the mobile communication terminal to perform the handover, and sends the generated subscriber information request message to the dual stack HLR 300. Transmission (S31) requests the identifier information in the subscriber's synchronous mobile communication network (200). In this case, the message for requesting the subscriber information may be a synchronous message (Call Data Request) or asynchronous message (MAP SEND IMSI Req) using a MAP (Mobile Application Part) message as described above.

The call message includes a parameter such as a billing ID, a digit (ie, MSISDN), and the like as shown in FIG. 7A. The asynchronous message includes an Invoke ID, MSISDN and IMSI parameters as shown in FIG. 7B, and MIN and ESN parameters, which are information used in a synchronous mobile communication network, in an extended container.

The dual stack HLR 300 receives the asynchronous or synchronous message and transmits a response message including the MIN and the ESN to the MSC 104 of the asynchronous mobile communication network 100.

In addition, the MSC 104 of the asynchronous mobile communication network 100 converts an asynchronous message into a synchronous message and transmits the information to the MSC 203 of the synchronous mobile communication network 200 as well as transferring information of the synchronous mobile communication network 200 to a database. It must be built and managed.

The database includes exchange information, signal points, relay line information related to a dedicated channel, and the like. In this case, the MSC of the asynchronous mobile communication network selects a handover target MSC according to the information of the synchronous mobile communication network, generates a billing ID including a handover target exchange ID, and the like, and is transmitted from the dual stack HLR 300. A handover request message including a MIN and an ESN included in the response message is generated and transmitted to the corresponding MSC of the synchronous mobile communication network 200 to perform a handover process.

The handover request message has a parameter as shown in FIG. 8.

A handover method according to the above process will be described in detail below.

5A and 5B are flowcharts illustrating a handover method during a call according to an embodiment of the present invention.

5A and 5B, during a call from the asynchronous mobile communication network to the asynchronous wireless device 420 of the mobile communication terminal 400 (S10), the mobile communication terminal 400 moves to the area of the synchronous mobile communication network 200. Accordingly, the mobile communication terminal 400 detects a signal from the synchronous mobile communication network 200. Accordingly, the mobile communication terminal 400 periodically measures the signal strength from the radio station 101 and the signal strength of the neighboring base station (or radio station) of the asynchronous mobile communication network 100 and reports it to the radio station 101. The access network (radio station and RNC) of the asynchronous mobile communication network 100 determines whether the mobile communication terminal 400 is handed over according to the report content (S21). At this time, if the radio station 101 currently connected to the mobile communication terminal 400 confirms that the signal strength between the mobile communication terminal 400 and the radio station 101 is less than or equal to a specified value, the asynchronous mobile communication network (via the RNC 102 ( A handover request message (IU Reloc Required) for handover is transmitted to the MSC 104 of 100 (S22). The handover request message (IU Reloc Required) is related to the message type, handover type, handover cause, source base station controller ID, target base station controller ID, radio access bearer (RAB) information, and radio segment as shown in FIG. 6A. Information such as information includes information used in the synchronous mobile communication network 200 such as cell information as shown in FIG. 6B.

The MSC 104 of the asynchronous mobile communication network 100 receives a handover request message (IU Reloc Required) and, according to the information, is a handover between adjacent cells in the asynchronous mobile communication network 100 or the synchronous mobile communication network 200. It is determined whether is a handover. In this case, in the case of handover between adjacent cells in the asynchronous mobile communication network 100, a normal handover is performed.

However, if it is determined that the handover is performed to the synchronous mobile communication network, the MSC 104, which is the core network of the asynchronous mobile communication network 100, acquires subscriber information in the synchronous mobile communication network for the mobile communication terminal to perform the handover. The message requesting the subscriber information in the synchronous mobile communication network of the communication terminal is transmitted to the dual stack HLR 300 (S31) to request the identifier information of the subscriber's synchronous mobile communication network 200. In this case, the subscriber information request message may use a call message (Call Data Request), and as shown in FIG. 7A, the call message includes parameters such as a billing ID and a digit (ie, MSISDN). In addition, the message for requesting the subscriber information may use a MAP SEND IMSI Req (Mobile Application Part) message. The asynchronous message includes asynchronous parameters such as Invoke ID, MSISDN, IMSI, and the like, and a synchronization parameter of MIN, ESN, etc. in the extension container, as shown in FIG. 7B.

In response to the subscriber information request, the dual stack HLR 300 sends a response message including ESN and MIN information, which is identifier information in the synchronous mobile communication network 200 of the subscriber, to the MSC 104 of the asynchronous mobile communication network 100. It transmits (S32).

The MSC 104 of the asynchronous mobile communication network 100 transmits the handover request message FacilitiesDirective2 of the mobile communication terminal 400 corresponding to the MIN information included in the response message to the MSC 203 which is the core network of the synchronous mobile communication network 200. (S41). In this case, the handover request message includes cell information, base station information of the aforementioned synchronous mobile communication network to perform the handover as shown in FIG. 8, and parameters such as billing ID.

The MSC 203 of the synchronous mobile communication network 200 transmits a handover request message to the access networks BTS and BSC of the synchronous mobile communication network 200 according to the handover request message (S42).

The access network of the synchronous mobile communication network transmits null traffic to the synchronous radio device 430 of the mobile communication terminal 400 corresponding to the MIN through a forward fundamental channel (F-FCH) for forward traffic transmission. The channel frame is transmitted (S50). The access network BTS / BSC transmits a handover request response message to the MSC 203 (S61). Accordingly, the omnidirectional channel is allocated to the synchronous radio device 430 of the mobile communication terminal 400.

As such, when the handover preparation is completed in the synchronous mobile communication network 200, the MSC 203 of the synchronous mobile communication network 200 transmits a response signal to the asynchronous mobile communication network 100, that is, a handover request message response ( FacilitiesDirective2 Ack) is transmitted (S62). Accordingly, the relay line between the MSC 104 of the asynchronous mobile communication network 100 and the MSC 203 of the synchronous mobile communication network 200 is established.

More specifically, the MSC 104 of the asynchronous mobile communication network 100 establishes a mapping relationship between a date channel, which is a logical trunk line setting identifier, and a physical trunk line, and sends this information to the handover request message (FacilitiesDirective2). Set to an internal exchange circuit ID (InterMSCCircuitID), and transmit it to the MSC 203 of the synchronous mobile communication network 100, and send a response message (Facilities Directive2 Ack) of the step S62 from the MSC 203 of the synchronous mobile communication network 100. Is transmitted, a relay line is established between the MSC 104 of the asynchronous mobile communication network 100 and the MSC 203 of the synchronous mobile communication network 200. The response message (Facilities Directive2 Ack) in step S62 includes parameters such as CDMA channel data, CDMA channel list, and the like.

Subsequently, the MSC 104 of the asynchronous mobile communication network 100 transmits an IU relocation command to the access network (radio station / RNC) indicating that resource allocation for handover is completed (S71). At this time, the rerouting command includes a parameter as shown in FIG. 9. According to the rerouting command in step S71, the access network (radio station / RNC) transmits a handover request message (Handover from UTRAN Command) to the asynchronous radio device 420 of the mobile communication terminal 400 (S72). In this case, the handover request message includes a message related to a synchronous mobile communication network, in particular, information for channel allocation.

According to the handover request message in step S72, the asynchronous wireless device 420 requests channel allocation through the main processor 443, and the main processor 443 performs channel allocation to the synchronous wireless device 430 (channel). assignment) (S81).

Accordingly, the synchronous modem unit 434 of the synchronous wireless device 430 performs a setup process (S82). In the setup process, the synchronous modem unit 434 is started through a switch-on and warm-up process, and is synchronized with an access network (BTS / BSC) of the synchronous mobile communication network 200 by acquiring a pilot channel and acquiring a synchronization channel. By performing the operation and acquiring a synchronization channel, timing information, other system information, and the like are received from the access network BTS / BSC.

The synchronous radio 430 transmits a call connection signal to the asynchronous radio 420 through the main processor 443 (S83). Accordingly, mode switching between the asynchronous wireless device 420 and the synchronous wireless device 430 of the mobile communication terminal 400 is completed.

In addition, the synchronous radio apparatus 430 transmits a traffic channel frame through a reverse fundamental channel (R-FCH) to an access network (BTS / BSC) of the synchronous mobile communication network 200 (R-FCH frames) (S91). By doing so, the mobile communication terminal 400 obtains backward synchronization with the synchronous mobile communication network. Accordingly, a connection is established between the mobile communication terminal 400 and the synchronous mobile communication network 200, and the synchronous wireless device 430 of the mobile communication terminal 400 transmits a handover completion message to the access network of the synchronous mobile communication network 200. (S92). The access network (BTS / BSC) receiving this transmits a response signal to the synchronization wireless device 430 (BS Ack Order) (S93).

Thereafter, the access network (BTS / BSC) of the synchronous mobile communication network 200 notifies the MSC 203 of the handover completion (Handoff Complete) (S94), and the MSC 203 of the synchronous mobile communication network 200 moves asynchronously. The handover completion is notified to the core network of the communication network 100 (Mobile On Channel) (S95).

The MSC 104 of the asynchronous mobile communication network 100 requests the radio station / RNC to release the call with the asynchronous wireless device 420 of the mobile communication terminal 400 (Iu Release Command, S101). The communication network 100 releases the call with the asynchronous radio device 420 and reports to the core network that the call release is completed (IU Release Complete) (S102).

Accordingly, the handover from the asynchronous mobile communication network 100 of the mobile communication terminal 400 to the synchronous mobile communication network 200 is completed.

If either the called terminal or the calling terminal releases the call after the handover, the following procedure is followed.

When the mobile communication terminal located in the area of the asynchronous mobile communication network 100 releases the call (S110), the asynchronous mobile communication network 100 transmits a call release request message (Facilities Release) to the synchronous mobile communication network 200 (S121). ), The synchronous mobile communication network 200 transmits the corresponding response message (Facilities Ack) to the asynchronous mobile communication network 100 (S122), and then completely calls a call with the mobile communication terminal located in the area of the synchronous mobile communication network 200. Release it.

However, when the mobile communication terminal located in the area of the synchronous mobile communication network 200 releases the call, the synchronous mobile communication network 200 transmits a call release request message (Facilities Release) to the asynchronous mobile communication network 100 (S131). The asynchronous mobile communication network 100 transmits a response message (Facilities Ack) to the synchronous mobile communication network 200 (S132), and then completely releases the call with the mobile communication terminal located in the area of the asynchronous mobile communication network 100. do.

The call release request message (Facilities Release) includes parameters such as billing ID, digit, MSCID, etc., as shown in FIG. 10, and the response messages (Facilities Ack) include parameters such as ESN, MIN, and the like.

The present invention described above, those skilled in the art 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 equivalents should be construed as being included in the scope of the present invention. do.

As described in detail above, according to the handover method from the asynchronous mobile communication network to the synchronous mobile communication network according to the present invention, in the mobile communication network in which the asynchronous mobile communication system and the synchronous mobile communication system are mixed, When moving from the area to the area of the synchronous mobile communication network, it is possible to provide a service without call disconnection by performing a handover smoothly.

Claims (12)

An asynchronous wireless device for performing asynchronous communication with an asynchronous mobile communication network, a synchronous wireless device for performing synchronous communication with the synchronous mobile communication network, and during wireless communication with the synchronous / asynchronous mobile communication network through the synchronous and asynchronous wireless device. An asynchronous mobile communication network and a synchronous mobile communication network for a dual band dual mode mobile communication terminal having a common module for performing control are mixed and include a dual stack home location register for managing subscriber information of the asynchronous mobile communication network and the synchronous mobile communication network. As a handover method of a mobile communication network, A first step in which an access network of the asynchronous mobile communication network requests a handover to an asynchronous exchange according to a handover request of a mobile communication terminal, In response to the handover request, it is determined whether the asynchronous exchange is a handover to a synchronous mobile communication network, and in case of a handover to the synchronous mobile communication network, request and receive subscriber information of the mobile communication terminal from the dual stack home location register. Step 2, A handover instruction message including a billing ID which is ID information of a synchronous mobile communication network switch to be connected to the asynchronous exchange by the asynchronous exchange according to the subscriber information of the mobile communication terminal received in step 2; (3) transmitting a handover request message including an internal exchange circuit ID (InterMSCCircuitID) and synchronization base station information for each handover period; A step 4 of allocating an omnidirectional channel to the mobile communication terminal by the access network of the synchronous mobile communication network according to the information in step 3, In step 4, if the access network of the synchronous mobile communication network transmits a response message to the asynchronous mobile communication network after the channel assignment in step 4, the asynchronous mobile communication network transmits a handover request message to the asynchronous wireless device of the mobile communication terminal; According to the handover request message, the mobile communication terminal performs setup of a synchronous wireless device, performs connection by synchronizing a reverse channel assignment and synchronization with the synchronous mobile communication network, and the mobile communication terminal completes a handover completion message to the synchronous mobile communication network. 6 steps to send, A seventh step in which the synchronous mobile communication network transmits a handover complete message to the asynchronous mobile communication network according to the handover completion message in step 6, and In response to the handover completion message from the synchronous mobile communication network, the switch of the asynchronous mobile communication network transmits a route release command to the access network and receives a response, thereby releasing the path between the asynchronous mobile communication network and the asynchronous wireless device of the mobile communication terminal. And handing over from the asynchronous mobile communication network to the synchronous mobile communication network. The method of claim 1, In the first step, the message for the handover request is a handover related message used in the synchronous mobile communication network, neighbor cell information, neighbor base station information of the mobile communication terminal, handover type, handover cause, source base station controller A handover method from an asynchronous mobile communication network to a synchronous mobile communication network comprising an ID, a target base station controller ID, RAB information, and radio section related information parameters. The method of claim 1, In step 2, the message requesting subscriber information of the mobile communication terminal to the dual stack home location register is a synchronous message and includes a parameter including a billing ID and an MSISDN to the synchronous mobile communication network. Handover method. The method of claim 1, In step 2, the message requesting the subscriber information of the mobile communication terminal to the dual stack home location register is an asynchronous message using a MAP message, and includes the MIN and ESN parameters in the Invoke ID, the MSISDN, the IMSI parameters, and the expansion container. A handover method from an asynchronous mobile communication network to a synchronous mobile communication network. The method of claim 1, In step 2, the dual stack home location register, characterized in that for transmitting the response message including the ESN and MIN information for the synchronous mobile communication network of the mobile communication terminal according to the message requesting the subscriber information to the asynchronous mobile communication network. A handover method from an asynchronous mobile communication network to a synchronous mobile communication network. The method of claim 1, In step 3, the handover request message includes a billing ID, ESN, internal exchange circuit ID, MIN parameters handover method from asynchronous mobile communication network to a synchronous mobile communication network. delete The method of claim 1, In step 4, the base station of the synchronous mobile communication network performs omni-directional channel allocation by transmitting a null traffic channel frame to the synchronous radio of the mobile communication terminal. Handover method. The method of claim 1, The handover request message transmitted to the asynchronous wireless device of the mobile communication terminal in step 5 includes a parameter including a message type, an RRC container, an RAB list to be released, and information for allocating a channel related to a synchronous mobile communication network. A handover method from an asynchronous mobile communication network to a synchronous mobile communication network. The method of claim 1, The performing of the setup of step 6 may include: transmitting, by the asynchronous wireless device of the mobile communication terminal, the channel allocation information to the synchronous wireless device according to the handover request message; And performing a mode switching between the asynchronous radio device and the synchronous radio device. delete The method of claim 1, The method of claim 8, wherein the route release command includes a parameter including a billing ID, a digit, and an MSCID.

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