KR20040048444A - Method of Notifying Handoff Event - Google Patents

Abstract

PURPOSE: A soft handoff generation informing method is provided to reduce load required for checking information on a soft handoff leg at every frame. CONSTITUTION: When a mobile station is positioned in a cell region of a base station 1 and performing a call communication, the number of soft handoff legs is maintained as '1'. When the mobile station is moved to approach a cell region of a base station 2 while maintaining the call state, a soft handoff is determined and the number of the soft handoff legs becomes '2'. The number of soft handoff legs is included in a handoff generation message and transmitted from a control station to the base stations 1 and 2. Then, the base station 2 is allocated channel resource from the control station and transmits forward and backward traffic to the base station.

Description

How to notify of soft handoff occurrences {Method of Notifying Handoff Event}

The present invention relates to a soft handoff occurrence notification method. In particular, the present invention relates to a soft handoff occurrence message including information on the number of soft handoff legs when a soft handoff occurs, or a soft handoff in a header of forward traffic together with a handoff occurrence message. The present invention relates to a soft handoff occurrence notification method suitable for reducing the load required for checking information on soft handoff legs every frame by supplying information on the number of legs.

If you want to try to make a call from a mobile station (MS), look at the channel assignment procedure of the originating mobile station. The originating call message, or originating call message, is sent to the base transceiver system (BTS) through an access channel. ) Send a message. When the base station receives the outgoing message ms_org_msg through the access channel, the base station controller (BSC) informs that the outgoing call has occurred, and confirms the control station confirming reception of the outgoing message through a paging channel. Send a BS Ack Order message to the mobile station. The control station receiving the outgoing call message transmits the control station resource allocation content and the outgoing message content to the mobile switching center (MSC). The exchange receiving the control station resource allocation content and the outgoing message content from the control station transmits an assignment request message to the control station for the radio channel resource allocation request. Receiving the allocation request message from the switching center, the control station requests radio channel resource allocation to the base station.

The base station allocates radio channel resources and establishes a link between the base station and the control station. Thereafter, it is notified that the allocation of radio channel resources is normally performed, and the control station sends null traffic from the base station to the mobile station through the allocated radio channel resources in order to synchronize the mobile station with the base station.

The base station transmits idle data to the control station, and the control station transmits an Extended Channel Assignment Message (ECAM) to the mobile station through the base station. The mobile station receiving the channel assignment message transmits null data on the reverse traffic channel to inform the control station of obtaining the reverse traffic channel of the mobile station.

The control station sends a BS Ack Order message to the mobile station to confirm that the link is established immediately over the established link, and the base station transmits idle data to the control station.

The mobile station sends an MS Ack Order in response to the control station acknowledgment message to indicate that the call channel has been successfully established. At this time, the control station sends an assignment completion message to the switching station to inform that the radio channel resource allocation is completed.

In general, an area in which a mobile communication system can receive call processing service from each base station is called a cell area. When a mobile station moves from a current cell area to a neighboring cell area during a call, in order to maintain the call, it is necessary to maintain a current call by allocating a call channel from a base station in charge of the service of the currently located cell area. This is called handoff or handover.

The analog cellular handoff measures the received signal strength (RSSI) of the call channel and begins to fall below the specified level, and the base station alerts the switching center, which switches to a predetermined neighbor list ( The call is found by looking for available channels on the neighbor list. The reference level of the received field strength, which is the reference for handoff, is about -100dBm in a noise-limited system, and the channel switching period is 150ms.

Parameters for determining a handoff function request include the distance between the mobile station and the base station, the received field strength and the error rate.

Each base station divides a cell area into three sectors, and an area in which each sector is serviceable is called a sector area.

The handoff may be divided into hard handoff, soft handoff, and softer handoff, depending on the mobile aspect of the mobile station. The hard handoff refers to a handoff that occurs when moving between base stations using different frequencies or when moving between base stations belonging to different switching stations. In a hard handoff, a terminal and a call path are disconnected momentarily in a new service area. Since a call channel needs to be allocated, sometimes a call is dropped.

The soft handoff is a base station to which the mobile station belongs to the current cell area during the call in such a manner that the mobile terminal can continue the call even in the new service area without interruption of the call when the terminal is moving from one service area to another service area adjacent to the service. A handoff between different base stations that occurs when moving from an area of a base station to another base station.

Softer handoff refers to handoff between different sectors that occurs when a mobile station moves from the current sector area to another sector area of the same base station during a call.

On the other hand, while the soft handoff is performed, the number of base stations providing a service to the mobile station subject to the soft handoff may be reduced from plural to one, or from one to plural.

The number of soft handoff legs or soft handoff setups refers to the number of base stations serving the mobile station and is changed only when a soft handoff occurs.

FIG. 1 illustrates a format of a traffic frame transmitted and received between a base channel and a public control channel in a base station and a control station in an IS-2000 system. Sector link count (SLC) information in the traffic header of the forward frame is soft. Indicates the number of handoff legs or soft handoff setups.

The number of soft handoff legs determines a gain value fpc_subch_gain for a forward power control subchannel. In general, when the number of soft handoff legs is 2 or more, the gain value for the forward power control subchannel is increased since the handoff is in progress. In addition, the gain value for the forward power control subchannel is reflected in the channel gain of the base station.

In the conventional system, information about the number of soft handoff legs is sent in the header of the forward traffic every 20 msec traffic frame for a call in call, but the change in the number of soft handoff legs actually occurs when a handoff occurs. It is limited. Therefore, sending information on the number of soft handoff legs every frame is performed by the control station generating a forward traffic frame or by checking the sector link count (SLC) value using the header information of the received frame every 20 msec. It acts as a load on the base station adjusting the gain value for the control subchannel.

This is a load in acknowledging header information for each forward traffic frame since the base station cannot know when the information on the sector link count value has changed. Therefore, an efficient soft handoff occurrence notification method is provided so that the base station does not have to check the header information for each forward traffic frame by making it possible to timely notify of a change in information on a sector link count value, that is, a change in the number of handoff legs. need.

1 illustrates a format of a traffic frame transmitted and received between a base channel and a public control channel in a base station and a control station in an IS-2000 system.

FIG. 2 shows that the handoff generation message includes an increase in the number of soft handoff legs by the soft handoff occurrence notification method of the present invention.

FIG. 3 illustrates that the handoff generation message includes a reduced number of soft handoff legs in the handoff generation message according to the soft handoff occurrence notification method of the present invention.

FIG. 4 is a view illustrating a change in the number change information of the soft handoff legs stored in the forward traffic after the handoff occurrence message is transmitted by the soft handoff occurrence notification method of the present invention.

According to the above-described request, the soft handoff occurrence notification method comprises the steps of: (a) determining whether there is a change in the number of soft handoff legs due to movement of a mobile station in a call; And (b) if it is determined in step (a) that there is a change in the number of soft handoff legs, sending a handoff generation message from the control station to the base station. Way.

The base station of step (b) is characterized in that it comprises a base station (A) in charge of a cell area located before the mobile station moves and a base station (B) in charge of a cell area located after the mobile station moves.

In addition, the handoff generation message transmitted to the base station A and the base station B in the step (b) may include the number of the soft handoff legs.

Alternatively, the base station A receives a handoff generation message, and receives forward traffic from the control station, which stores information on the number of soft handoff legs in a header.

Hereinafter, an embodiment of a soft handoff occurrence notification method of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 illustrates a format of a traffic frame transmitted and received between a base channel and a public control channel in a base station and a control station in an IS-2000 system. Sector link count (SLC) information in the traffic header of the forward frame is soft. Indicates the number of handoff legs or soft handoff setups.

The number of soft handoff legs or the number of soft handoff setups increases by the number of cells added when a handoff occurs and decreases by the number of cells dropped.

In addition, in one embodiment of the soft handoff occurrence notification method of the present invention, the number of soft handoff legs is maintained at 1 for a call that is basically set up. Therefore, it is not necessary to check sector link count information, which is information on the number of soft handoff legs for each traffic frame.

FIG. 2 shows that the handoff generation message includes an increase in the number of soft handoff legs by the soft handoff occurrence notification method of the present invention.

In the embodiment shown in Fig. 2, when the mobile station is in a call while located in the cell area of the base station 1, the number of soft handoff legs is maintained at 1, and the mobile station moves while maintaining the call state. When the cell area of 2 is approached, the soft handoff is determined, so that the number of soft handoff legs is two.

The number of the soft handoff legs is included in the handoff occurrence message and transmitted, which is transmitted from the control station to base station 1 and base station 2. In this case, the base station 2 receiving the handoff occurrence message including the number of soft handoff legs increased to 2 is allocated channel resources from the control station and transmits forward and reverse traffic with the control station.

FIG. 3 illustrates that the handoff generation message includes a reduced number of soft handoff legs in the handoff generation message according to the soft handoff occurrence notification method of the present invention.

In FIG. 3, when the number of soft handoff legs is 2, when the soft handoff decision is made, the number of soft handoff legs is 1, and the handoff generation message including the number of soft handoff legs is included. Is passed to base station 1 and base station 2.

In this case, the mobile station in the call moves away from the cell area of base station 2 to the cell area of base station 1, and after receiving the handoff occurrence message from a control station, channel resources between the control station and base station 2 are recovered. The mobile station continues the call in the cell region of the base station 1.

FIG. 4 is a view illustrating a change in the number change information of the soft handoff legs stored in the forward traffic after the handoff occurrence message is transmitted by the soft handoff occurrence notification method of the present invention.

In another embodiment of the present invention shown in FIG. 4, if a soft handoff is determined when the mobile station moves in a busy state in the cell area of base station 1, a handoff occurrence message is transmitted from the control station to the base station 1, The base station 1 receives the forward traffic reflecting the changed number of soft handoff legs from the control station. Base station 2 also receives a handoff occurrence message from the control station, a channel resource is allocated between the control station and the base station 2, and the mobile station maintains a busy state while transmitting forward and reverse traffic.

In addition, the embodiment according to the present invention is not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

According to the soft handoff occurrence notification method according to the present invention, in a general case where the soft handoff state is not a soft handoff state, the sector link count value is basically kept to 1 so that the corresponding base station and the control station can transmit the sector link information of the forward traffic header to the forward traffic header. When the soft handoff occurs, the handoff generation message including the number of soft handoff legs is transmitted or the forward traffic reflecting the number of soft handoff legs is transmitted to confirm the header information for each forward traffic frame. Can reduce the load.

Claims (4)

In the soft handoff occurrence notification method, Determining whether there is a change in the number of soft handoff legs as the mobile station in the call moves; And And if it is determined in step (a) that there is a change in the number of soft handoff legs, transmitting a handoff generation message from the control station to the base station (b). . The method of claim 1, wherein the base station of step (b), And a base station (A) for a cell area located before the mobile station moves and a base station (B) for a cell area located after the mobile station moves. The method of claim 2, The handoff occurrence message transmitted to the base station (A) and the base station (B) in the step (b) includes the number of the soft handoff legs. The method of claim 2, wherein the base station A is And receiving a handoff occurrence message and receiving forward traffic from the control station, the header storing information about the number of soft handoff legs in a header.