KR100733035B1 - Method for processing handover - Google Patents

Abstract

A handover processing method is provided to be capable of simultaneously connecting a packet service session with a call service by using a handover command message including DTM(Dual Transfer Mode) information in accordance with handover of the packet service and the call service, during handover, thus time taken until the packet service session is connected after the call service is connected can be reduced. An MSC(Mobile Switching Center) transmits a handover command message including DTM information in accordance with handover of a packet service and a call service to a terminal, performs the handover according to the DTM handover command message, and notifies a GPRS(General Packet Radio Service) node of handover completion(303-313). A radio channel in accordance with the packet service and the call service with the first BTS(Base Transceiver System) is released(315). The call service and the packet service are simultaneously connected through the second BTS(317,319).

Description

Handover Handling {METHOD FOR PROCESSING HANDOVER}

1 is a flowchart illustrating a handover procedure in a DTM mode of a conventional portable terminal.

Figure 2 is an exemplary view showing the configuration of a conventional handover command message.

3 is a flowchart illustrating a handover procedure in a DTM mode according to an embodiment of the present invention.

4 is an exemplary diagram illustrating a configuration of a DTM handover command message according to an embodiment of the present invention.

The present invention relates to mobile communication, and in particular, a handover for reducing the time to a packet service session during handover in a class of Global System for Mobile Communication (GSM) in which call service and packet service can be simultaneously performed. It relates to a treatment method.

In general, portable terminals are classified into various types according to communication methods. Among them, the second generation GSM (general European standard mobile communication) mode is divided into three classes A to C according to the class mode. The classes A, B, and C will be described sequentially as follows.

First, Class A can support both PS (Packet Switched) and CS (Circuit Switched) services in GSM and UMTS systems, and the PS and CS services are simultaneously performed. In other words, the class A can also simultaneously use the PS service in the CS service, also referred to as DTM (Dual Transfer Mode).

Second, Class B can support both PS and CS services in GSM and UMTS systems, but does not support them at the same time.

Third, class C only serves one of PS and CS services in GSM and UMTS systems. In this case, the PS refers to a service using the Internet (Browsing) or a text service through a terminal, and the CS refers to a general call service.

The procedure according to the handover in the DTM mode of the conventional portable terminal will be described with reference to the accompanying drawings as follows.

1 is a flowchart illustrating a handover procedure in a DTM mode of a conventional portable terminal.

Referring to FIG. 1, first, in step 101 to 103, the terminal MS is in a call state by the CS service by the first base station Old BTS, the switching center BSC, and the control station MSC. PS Session state (CS Call, PS Session) by the Serving GPRS Support Node (SGSN).

Then, when the terminal moves out of the cell area of the first base station to the cell area of the second base station (New BTS), in step 105, the switching center determines that the second base station (New BTS) with better reception strength measured by the terminal. The channel is readjusted to (), Channel Activation, Channel Activation Ack

Thus, in step 107, the switching center transmits a handover command message to the terminal, and the terminal performs handover access to the second base station in step 109 according to the handover command message.

In step 111, the second base station receives physical information about the cell, that is, radio information (RF information). Here, the handover command message has a structure as shown in FIG. 2.

Thereafter, in step 113, the terminal performs handover and notifies the switching center and the control station that the handover is completed. Then, in step 115, an RF channel connected between the first base station and the switching center is released (RF Channel Release, RF Channel Release Ack), and a CS service is performed through the second base station. In step 117, the terminal enters a CS call state.

After the CS call state, since the PS service is not opened, in step 119, the DTM information is released and the user enters the DTM mode again to open a PS session (SI6 / DTM Information, DTM Request, and PS Session).

However, in the handover in the DTM mode of a conventional portable terminal, the call service is not interrupted and the connection is maintained continuously, while the PS service exchanges the DTM information, the DTM request, and the packet activation message to open the session. Since the PS service is cut off in the middle, and the session of the disconnected PS service needs to be reopened, there is a problem that it takes some time. In addition, there was a problem that the PS service is not available during the time that the PS service needs to be opened again.

Therefore, the present invention was created to solve the above problems, the time from the class (Global System for Mobile Communication) (GSM) that the call service and packet service can be performed at the same time to the packet service session during handover The purpose is to provide a handover processing method that can reduce the

The present invention for achieving the above object, when using a class (Global System for Mobile Communication) (GSM) that can be performed at the same time call service and packet service, performing a handover from the first base station to the second base station In

The exchange transmits a handover command message including DTM (Dual Transfer Mode) information according to the handover of the call service and the packet service to the terminal, performs the handover according to the DTM handover command message, and then completes the handover. Notifying the GPS node;

Releasing a radio channel according to a call service and a packet service with a first base station;

After releasing the radio channel with the first base station, the call service and packet service through the second base station at the same time characterized in that consisting of a process of connecting.

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

It should be noted that in the following description, only parts necessary for understanding the operation and operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

In the following description specific details of the handover processing method of the present invention are presented to provide a more general understanding of the present invention. It will be apparent to one of ordinary skill in the art that the present invention may be readily practiced without these specific details and also by their modifications.

Meanwhile, according to an embodiment of the present invention, when the mobile station moves from the cell area of the first base station to the cell area of the second base station, the DTM handover including DTM information together with information of the handover command message instead of the handover command message at the switching center. Send a command message to the terminal. In response to the handover, the terminal transmits a completion message to the GPS support node. Thus, the terminal can open the PS service at the same time when opening the CS service without time delay.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a flowchart illustrating a handover procedure in a DTM mode according to an embodiment of the present invention.

Referring to FIG. 3, first, in step 301 to step 303, the terminal MS is connected to a CS service under the control of the control station MSC in the cell area of the first base station Old BTS, and the GPS support node is connected. PS service is connected through (SGSN).

Subsequently, when the terminal moves out of the cell area of the first base station to the second base station (New BTS) while the terminal is using the CS service and the PS service in the cell of the first base station, the switching center (BSC) in step 305 The channel is readjusted to move toward the second base station cell with a strong reception intensity according to the reception strength measured by the terminal (Channel Activation, Channel Activation Ack).

Thereafter, in step 307, the switching center transmits a DTM handover command message including handover command information together with the DTM information to the terminal (Handover Command). In this case, the DTM handover command message is composed of a message as shown in FIG.

That is, the DTM handover command message of the present invention includes DTM information in addition to the existing handover command message. The DTM information includes a protocol identification element (RR management Protocol Discriminator) consisting of information capable of driving GSM according to each situation, a skip indicator element including information on whether a message is skipped, and a DTM handover command message. DTM Information Message Type, which indicates the message type information of the DTM, DTM Information Details of information that informs the UE in the network so that DTM can be executed correctly, and supports UE and GPS It includes a TEL element (TLLI) including address information of a signal for communication between nodes (SGSN), and a routing area identification element (Routing Area Identification) indicating that a packet service is performed on a routing area basis.

Then, in step 309, the terminal accesses the handover through the second base station (Handover Access), and in step 311, the second base station transmits physical information of radio information about the cell to the terminal. By this process, a signal link is established (Signalling link establishment).

In step 313, the terminal notifies the second base station, the switching center and the control station, and the GPS support node of the handover execution completion message (Handover Complete / Handover Performed). Here, step 313 notifies the completion of handover to the GPS support node that manages the PS service.

Thereafter, in step 315, the switching center releases the radio channel connected to the first base station (RF Channel Release, RF Channel Release Ack).

Accordingly, in step 317, the terminal is connected to the control station and the call of the CS service through the cell of the handed over the second base station (CS Call).

At the same time as step 317, in step 319, the terminal opens a PS session through the GPS support node (PS Session).

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

As described in detail above, the present invention provides a handover command including DTM (Dual Transfer Mode) information according to a handover of a call service and a packet service when handover is performed in a class of GSM where a call service and a packet service can be simultaneously performed. By simultaneously connecting a call service and a packet service session using a message, it is possible to reduce the time from the call service connection until the packet service session is connected.

Claims (2)

In performing a handover from a first base station to a second base station when using a class of Global System for Mobile Communication (GSM) that can simultaneously perform a call service and a packet service, The exchange transmits a handover command message including DTM (Dual Transfer Mode) information according to the handover of the call service and the packet service to the terminal, and performs the handover according to the DTM handover command message. Notifying the GPS node of completion of the over; Releasing a radio channel according to a call service and a packet service with a first base station; And releasing a radio channel with the first base station and simultaneously connecting a call service and a packet service through a second base station. The method of claim 1, wherein the DMT handover command message, In addition to the handover command message, a protocol identification element (RR management Protocol Discriminator) composed of information that can drive the SM for each situation, A skip indicator element including information on whether a message is skipped, A DTM Information Message Type indicating message type information of a DTM handover command message, DTM Information Details of information that informs the UE in the network so as to execute accurate DTM, A TLLI element (TLLI) including address information of a signal for communication between a terminal and a SGSN support node (SGSN), Handing processing method comprising a routing area identification (Routing Area Identification) to inform that the packet service is performed in the routing area unit.

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