NO343611B1 - Method of handover at the cell transition in the central system - Google Patents

Description

Technical area

The present invention relates to a soft handover technology for mobile communication, and in particular a method for handover of a mobile station from one cell to another in a central system.

Background for the invention

Together with the rapid development of mobile communication technology, central communication technology as an important part of mobile communication technology has been developed very much and already has a new design compared to an original central communication system. Early central services were delivered through a private network for professional users. The operating costs for the early central services were high and thus limited the development of the central services. A new application trend has emerged to promote large-scale application of a central system, namely professional central services on a code division multiple access system (CDMA system). The CDMA system further includes a broadband code division multiple access (WCDMA) and a CDMA2000. The new application trend makes it possible for the central services to utilize existing equipment resources in a radio communication system to a large extent, thus reducing operating costs and expanding the area of application for the central services.

The central system has two distinct characteristics. One is that many users in a central system can communicate at the same time while only one user can talk and all the other users can only listen, which delays a central distribution theory provided in the initial application of the central system. The second is that a base station in a cell transmits radio signals to one or more mobile stations in a group through a shared forward traffic channel (S-TCH) while the mobile station or mobile stations transmit a radio signal to the base station through its own reverse designated traffic channel (D-TCH ).

When a mobile station in a central communication system moves from a source cell to a target cell, a cell handover operation of the mobile station from one cell to the other will be initiated and the handover between the cells is usually performed in a soft handover pattern. While moving from the source cell to the target cell, the mobile station will pass through an area covered by both the source cell and the target cell. When pilot signals received by the mobile station from the target cell are strong enough, the mobile station will send a pilot measurement message that transmits information regarding the intensity of the received pilot signals from the target cell to the base station in the source cell. On receipt of the pilot measurement message, the base station in the source cell sends a handover request message to the base station in the target cell and the soft handover process by the mobile station is thus initiated. The handover request message contains parameters for the forward S-TCH assigned by the base station in the source cell to the mobile station in the cell, including a radio configuration, a long code mask, a frame offset, etc.

Upon receiving the handover request message, the base station in the target cell assigns a forward D-TCH to the mobile station and returns to the base station in the source cell a handover response message containing channel parameters for the forward D-TCH assigned to the mobile station. Upon receiving the handover response message, the base station in the source cell directs the mobile station to access the forward D-TCH assigned to the mobile station by the base station in the target cell according to the channel parameters transmitted in the handover response message.

The channel parameters of the forward D-TCH assigned to the mobile station by the base station in the target cell, including the radio configuration, the long code mask, the frame offset, etc., must be identical to those in the forward S-TCH assigned by the base station in the source cell to the mobile station in the cell, so that the mobile station can receive and process the radio signals from both the base station in the source cell and the base station in the target cell at the same time, and perform the soft handover. If the channel parameters in the forward D-TCH assigned to the mobile station by the base station in the target cell are different from those assigned in the forward S-TCH assigned by the base station in the source cell to the mobile station in the cell, the mobile station may only perform a hard handover from the forward S-TCH assigned by the base station in the source cell to the forward D-TCH assigned by the base station in the target cell, that is, the mobile station first releases the channel on which the mobile station is communicating with the base station in the source cell above, and then accesses, in a very short time, the forward-directed D-TCH assigned by the station in the target cell.

After the aforementioned processes, the mobile station communicates not only with the base station in the source cell through the forward channel S-TCH assigned by the base station in the source cell, but also with the base station in the target cell through the forward D-TCH assigned by the base station in the target cell. When the mobile station moves further towards the target cell and the pilot signals received by the mobile station from the source cell fall to a certain level, the mobile station will send the pilot measurement message containing the information regarding the intensity of the pilot signal from the source cell to a base station on the network side. Upon receipt of the pilot measurement message, the base station in the source cell sends a handover indication message to the mobile station, and then the mobile station releases a radio connection to the source cell upon receipt of the handover indication message. The mobile station then only maintains a radio connection with the target cell through the forward D-TCH assigned by the base station in the target cell, and the soft handover process for the mobile station is thus terminated.

When the mobile station enters the area covered by both the base station in the source cell and the base station in the target cell, the mobile station cannot move towards the target cell, but moves to the source cell and finally leaves the coverage of the base station in the target cell. Or the mobile station can move towards another cell past the source cell and the target cell and finally have coverage from the base station in the source cell and the base station in the target cell. In such a case, when the pilot signals received by the mobile station from a cell drop to a certain level, the mobile station will send the pilot measurement message to the base station of the site and the cell, whereby the reception of the pilot measurement message releases the radio connection of the mobile station.

The base stations mentioned above contain a predetermined handover threshold and a predetermined release threshold. The handover threshold and release threshold are given to a mobile station through broadcasting, or given to a mobile station using in-band signaling after the mobile station completes the handover. The mobile station compares the intensity of the pilot signals received from the target cell with the handover threshold all the time, and when the intensity of the pilot signals received from the target cell exceeds the handover threshold, the mobile station determines that the pilot signals received from the target cell have become strong enough. When the intensity of the pilot signals exceeds the handover threshold, it means that: the intensity of the pilot signals is greater than or equal to the handover threshold. The mobile station likewise also compares the intensity of the pilot signals received from the source cell with the release threshold continuously, and when the intensity of the pilot signals received from the source cell falls below the handover threshold, the mobile station determines that the pilot signals received from the source cell have been attenuated to a certain level.

From the preceding description, it appears that when a mobile station in a central communication performs a soft handover from its source cell to a target cell, the mobile station accesses a forward-directed channel D-TCH allocated by the base station in the target cell and intended for the forward-directed channel S- TCH in the target cell assigned by the base station in the target cell, and therefore the forward S-TCH in the target cell assigned to the mobile station by the base station in the target cell cannot be fully utilized. When multiple mobile stations perform the soft handover from their source cells to the target cells, the base station on the network side will allocate more and more D-TCHs to the mobile stations that perform or have performed the soft handover, causing the forward S-TCH to become meaningless . When the base station in the target cell further assigns different channels to different mobile stations that have been connected to the cell, the workload of the base station in the target cell will further increase to a large extent, which is a waste of system resources. And since the soft handover is widely spread in applications nowadays, the waste of system resources tends to become more and more serious.

EP 1365 614 A1 specifies a method for selecting which base station of those in dedicated channel connection with a mobile user terminal shall be in shared channel connection with the mobile user terminal. Measurements of signal attenuation between the mobile user terminal and each base station are performed, and the base station is selected depending on the measured signal attenuations.

US 5,267,261 states in a code division multiple access (CDMA) spread spectrum cellular communication system, where a mobile station user communicates with another system user via at least one base station, where each base station sends a common pilot signal with a different code phase in relation to other base stations in the system, a method for routing communication between the mobile station user and the base stations.

US 6,414,947 B1 relates to a CDMA mobile communication system comprising two base stations. Each base station comprises resource allocation means and communication means for communicating over a radio interface to a user terminal.

EP 1346 595 B1 relates to a cellular mobile radio system, and more specifically to code division multiple access, CDMA, cellular mobile radio systems, in particular to the handover of a downlink shared or common channel in such systems. A method and system for hard handover of a shared channel into a dynamic active set is proposed.

EP 1432 262 A1 provides a mobile system comprising a mobile station, a first base station in a source cell, a first radio network controller for controlling the first base station, a second base station in a target cell and a second radio network controller for controlling the second base station.

US 2003/0119513 A1 enables mobile-initiated soft handling for dispatch calls, to meet the need for an apparatus and method for soft handling of CDMA dispatch.

EP 1377 101 A1 relates to a method for updating an active set of a subscriber terminal in a mobile radio system and to a controller to be placed in a network part of a mobile radio system and used to update an active set of a subscriber terminal.

WO 01/47293 A2 provides a cell allocation process which strives to minimize the number of cells allocated to mobile terminals involved in any given group call session in both circuit switched and packet data environments. In one embodiment, when a cell allocation trigger event occurs during a group call, the decision whether or not to change cells is based at least in part on whether or not the cell in question is already participating in the group call session with another mobile terminal. In that case, the cell allocation process preferably selects such a cell to switch to or avoids changing the cell allocation if it is already allocated there. In another embodiment, other cells involved in the group call session are actively sought out and the cell assignments of the mobile terminals involved in the group call session are changed to those cells, even when the signal quality may be acceptable in the current cell. The mobile terminals involved in group call sessions may optionally be given preferential priority when changing or switching cells to help minimize disruption to the group call session. Thus, the mobile terminals involved in the group call session are gradually encouraged to gather in the fewest cells possible under the circumstances.

Summary of the invention

The present invention provides a method for handover from cell to cell for a mobile station in a central system, in order to save the system resources of the base station in the target cells.

Embodiments of the present invention provide the following technical features.

A method of handover from one cell to another cell by a mobile station in a central system includes:

sending, by means of a base station in a source cell, a handover request message to a base station in a target cell upon the arrival of mobile stations into the coverage area of the target cell;

determining, by means of the base station in the target cell, whether the base station in the target cell has assigned a forward shared traffic channel (S-TCH) to one or more other mobile stations in a group to which the mobile station belongs in the target cell;

if the base station in the target cell has assigned a forward S-TCH to one or more other mobile stations in the group, the mobile station accesses the forward S-TCH and terminates the process;

if the base station in the target cell has not assigned a forward S-TCH to one or more other mobile stations in the group, the base station in the target cell assigns a forward dedicated traffic channel (D-TCH) to the mobile station according to the handover request message sent by the base station in the source cell, and the mobile station accesses the allocated forward D-TCH.

The process of a base station in a source cell sending a handover request message to a base station in a target cell includes:

sending, by means of the mobile station, a pilot measurement message to the network side if the pilot signals received by the mobile station from the target cell exceed a predetermined handover threshold; and

sending, by means of the base station in the source cell, the handover request message to the base station in the target cell upon receipt of the pilot measurement message.

The handover request message includes parameters for the forward S-TCH assigned by the base station in the source cell to a mobile station in the source cell.

Before the mobile station accesses the forward S-TCH, the method further includes the processes of:

the base station in the target cell determines whether the S-TCH is suitable for the mobile station performing a soft handover according to whether the channel parameters in the handover request message sent by the base station in the source cell are identical to the channel parameters of the forward S-TCH assigned by the base station in the target cell to one or more other mobile stations in the group to which the mobile station belongs in the target cell;

if the forward S-TCH is suitable for the mobile station performing the soft handover, the mobile station accesses the forward S-TCH assigned by the base station in the target cell to one or more other mobile stations in the group in the target cell, and terminates the process;

if the forward S-TCH is not suitable for the mobile station performing the soft handover, the base station in the target cell assigns a forward D-TCH to the mobile station according to the channel parameters transmitted in the handover request message sent by the base station in the source cell, and the mobile station accesses the forward-directed D-TCH.

The process of accessing the forward S-TCH includes:

sending, by means of the base station in the target cell, a handover response message to the base station in the source cell;

directing, by means of the base station in the source cell, the mobile station to access the forward S-TCH according to the handover response message.

The handover response message includes: the channel parameters of the forward S-TCH assigned by the base station in the target cell to one or more other mobile stations in the group to which the mobile station belongs in the target cell.

The process for the mobile station accessing the forward D-TCH includes:

sending, by means of the base station in the target cell, a handover response message to the base station in the source cell;

directing, by means of the base station in the source cell, the mobile station to access the forward D-TCH according to the handover response message.

The procedure further includes the following processes:

after the mobile station has accessed the forward D-TCH, the mobile station accesses the forward S-TCH assigned by the base station in the target cell to one or more other mobile stations in the target cell, releases the forward D-TCH and releases radio resources assigned by the base station in the source cell.

After the mobile station has accessed the forward S-TCH, the processes in the mobile station accessing the forward S-TCH assigned by the base station in the target cell to one or more other mobile stations in the target cell release the forward D -TCH and release the radio resources allocated by the base station in the source cell, the following processes:

sending, by means of the mobile station, a pilot measurement message to the network side if the pilot signals received from the mobile station from the source cell fall below a predetermined release threshold, and the base station in the source cell sends a handover request message to the base station in the target cell upon receipt of the pilot measurement message;

sending, by the base station in the target cell, a handover response message to the base station in the source cell upon receipt of the handover request message, the base station in the source cell directing the mobile station to access the forward S-TCH according to the handover response message, releasing the radio connection to the mobile station and sending a release indication message to the base station in the target cell;

releasing, by means of the base station in the target cell, the forward D-TCH assigned to the mobile station upon receipt of the release indication message.

The handover response message includes the channel parameters for the forward S-TCH assigned by the base station in the target cell to a mobile station in the target cell.

The method further includes the process of:

after the mobile station has accessed the forward D-TCH, releasing, by the mobile station, the radio resources allocated by the base station in the source cell.

The process of releasing by the mobile station the radio resources allocated by the base station in the source cell includes:

sending, by means of the mobile station, a pilot measurement message to the web site if the intensity of the pilot signals received by the mobile station from the source cell falls below a predetermined release threshold;

sending, by means of the base station in the source cell, a handover indication message to the mobile station upon receipt of the pilot measurement message, and the mobile station releasing the radio connection to the source cell upon receipt of the handover indication message.

From the foregoing technical description, it can be seen that in the inter-cell handover method for a mobile station in a central system provided by embodiments of the present invention, when a mobile station performs the inter-cell handover, the base station in the target cell first determines whether a forward-directed S -TCH has been assigned to one or more mobile stations in the group to which the mobile station belongs in the target cell. If the forward S-TCH has been allocated, the mobile station will access the allocated forward S-TCH directly, otherwise a D-TCH will be allocated to the mobile station, which then performs the soft handover to access the forward D -TCH.

In accordance with embodiments of the present invention, under certain conditions the mobile station can access the forward-directed S-TCH directly which is assigned to the mobile station or stations in the group to which the mobile station belongs in the target cell. Under such circumstances, the target cell does not need to assign a D-TCH to the mobile station for further use, therefore, by means of the method provided in embodiments of the present invention, the forward S-TCH assigned by the base station in the target cell can be the mobile stations in the target cell are fully utilized and the system resources of the base station in the target cell are saved.

In the method provided by means of embodiments of the present invention, when the base station in the target cell has assigned a forward-directed S-TCH to the one or more mobile stations in the group to which the mobile station belongs in the target cell, the base station in the target cell can further determine whether the allocated forward S-TCH is suitable for the mobile station to perform the soft handover. And if the assigned forward channel S-TCH is suitable for the mobile station to perform the soft handover, the mobile station performs the soft handover directly to access the assigned forward channel S-TCH in the target cell. If the allocated forward channel S-TCH is not suitable for the mobile station to perform the soft handover, the mobile station can perform the hard handover to the forward S-TCH directly at the edge of the target cell's coverage area. The reliability of handover is thus ensured.

Brief description of the drawings

Figure 1 is a flowchart of the handover between cells for a mobile station in a central system according to a preferred embodiment 1 of the present invention.

Figure 2A is a route diagram for the mobile station in the preferred embodiment 1 according to the present invention.

Figure 2B is a schematic illustration of the channel access status when the mobile station is at position P1 in the preferred embodiment 1 according to the present invention.

Figure 2C is a schematic illustration of the channel axis status when the mobile station is at position P2 in the preferred embodiment 1 according to the present invention.

Figure 2D is a schematic illustration of the channel access status when the mobile station is at position P3 in the preferred embodiment 1 according to the present invention.

Figure 2E is a schematic illustration of the channel assignment status when the mobile station is at position P4 in the preferred embodiment 1 according to the present invention.

Figure 3 is a flowchart of the handover between cells of a mobile station in a central system in a preferred embodiment 2 according to the present invention.

Figure 4A is a route diagram for the mobile station in the preferred embodiment 2 of the present invention.

Figure 4B is a schematic illustration of the channel access status when the mobile station is at position P1 in the preferred embodiment 2 of the present invention.

Figure 4C is a schematic illustration of the channel access state when the mobile station is at position P2 in the preferred embodiment 2 of the present invention.

Figure 4D is a schematic illustration of the channel access status when the mobile station is at position P3 in the preferred embodiment 2 of the present invention.

Figure 4E is a schematic illustration of the channel access status when the mobile station is at position P4 in the preferred embodiment 2 of the present invention.

Figure 4F is a schematic illustration of the channel access status when the mobile station is at position P5 in the preferred embodiment 2 of the present invention.

Embodiments of the invention

A detailed description of embodiments of the present invention is given below with reference to the attached drawings and embodiments.

In accordance with embodiments of the present invention, the technical solution for the inter-cell handover method of a mobile station in a central system includes a process where the base station in the target cell first determines, when a mobile station performs the inter-cell handover, whether a forward channel S- The TCH has been assigned to one or more other mobile stations in the group to which the mobile station belongs in the target cell. If the forward channel S-TCH has been allocated, the mobile station will access the forward channel S-TCH directly. If the forward channel S-TCH has not been allocated, a forward channel D-TCH will be allocated to the mobile station, and then the mobile station performs the soft handover to access the forward channel D-TCH.

Two preferred embodiments are described in the following to further describe the present invention.

Preferred embodiment 1:

Figure 1 shows a flowchart of the handover between cells for a mobile station in a central system according to a preferred embodiment 1 of the present invention, which includes the following steps.

Step 100: mobile stations in a group in a central communication from different cells access forward channels S-TCH allocated by the base stations in their home cells to respectively maintain radio connections with the base stations. When a mobile station in the group moves to a neighboring cell, the mobile station may enter an area covered by both the base station of the source cell and the base station of the target cell during the movement process.

If the pilot signals received by the mobile station from the target cell are strong enough, the mobile station sends to the base station in the source cell a pilot measurement message containing information regarding the intensity of the pilot signals received by the mobile station from the target cell. The base station in the source cell sends a handover request message to the base station in the target cell on receipt of the pilot measurement message. The handover request message contains parameters for the forward channel S-TCH assigned by the base station in the source cell to the mobile station, including the radio configuration, the long code mask, the frame offset, etc.

Step 101: The base station in the target cell determines whether it has assigned a forward channel S-TCH to one or more mobile stations in the group to which the mobile station belongs in the target cell. Step 104 will be performed if the base station in the target cell has assigned a forward channel S-TCH to one or more mobile stations in the group to which the mobile station belongs in the target cell. Otherwise, step 102 will be performed.

Step 102: The base station in the target cell may assign a forward channel D-TCH to the mobile station according to the channel parameters transmitted in the handover request message, and returns to the base station in the source cell a handover response message containing the parameters of the forward channel D-TCH assigned to it the mobile station of the base station in the target cell.

Step 103: The base station in the source cell directs the mobile station according to the channel parameters transmitted in the received handover response message to access the forward channel D-TCH assigned to the mobile station by the base station in the target cell. If the mobile station moves further towards the target cell and the pilot signals from the source cell drop to a certain level, the mobile station sends a pilot measurement message containing information regarding the intensity of the pilot signals received by the mobile station from the target cell to the base station in the source cell. Upon receipt of the pilot measurement message, the base station in the source cell sends a handover indication message to the mobile station, and then the mobile station releases the radio connection to the base station in the source cell upon receipt of the handover indication message, and terminates the process.

In this step, the parameters of the forward channel D-TCH assigned to the mobile station by the base station in the target cell are identical to the parameters of the forward channel S-TCH assigned to the mobile station by the base station in the source cell, including the radio configuration, the long code mask, the frame offset , etc. The mobile station can therefore receive and process the radio signals from both the base station in the source cell and the base station in the target cell at the same time.

Step 104: The base station in the target cell determines, according to the parameters in the received handover request message, whether the forward channel S-TCH assigned by the base station in the target cell to the one or more mobile stations in the group to which the mobile station belongs in the target cell is suitable for the mobile station to perform a soft handover. And step 105 will be performed if the forward channel S-TCH is suitable for the mobile station to perform a soft handover. Step 107 will be performed if the forward channel S-TCH is not suitable for the mobile station to be able to perform a soft handover.

The process of determining whether the forward channel S-TCH is suitable for a soft handover includes the following steps. Determining whether the parameters of the forward channel S-TCH assigned by the base station in the target cell to a mobile station in the target cell, including the radio configuration, the long code mask, the frame offset, etc., are identical to the parameters of the forward channel S-TCH assigned by the base station in the source cell to a mobile station in the source cell. Determining whether the forward channel S-TCH is suitable for the mobile station to perform the soft handover if the parameters of the two channels mentioned above are the same. And to decide whether the forward channel S-TCH is not suitable for the soft handover if the two parameters mentioned above are different.

Step 105: The base station in the target cell returns to the base station in the source cell a handover response message containing the parameters for the forward channel S-TCH assigned by the base station in the target cell to a mobile station in the target cell. Upon receiving the handover response message, the base station in the source cell directs the mobile station to forward access the channel S-TCH, assigned by the base station in the target cell to a mobile station in the target cell according to the channel parameters in the handover response message.

Step 106: If the mobile station moves further towards the target cell and the pilot signals from the source cell drop to a certain level, the mobile station sends a pilot measurement message containing information regarding the intensity of the pilot signals from the source cell to the website. On receipt of the pilot measurement message, the base station in the source cell sends a handover indication message to the mobile station. And then the mobile station releases the radio connection to the base station in the source cell upon receiving the handover indication message. The handover between cells of the mobile station is thus completed.

Step 107: The mobile station performs a hard handover to access the forward channel S-TCH assigned by the base station in the target cell to a mobile station in the target cell, and the hard handover includes the following steps.

The base station in the target cell returns to the base station in the source cell the handover response message containing the parameters for the forward channel S-TCH assigned by the base station in the target cell to a mobile station in the target cell. Upon receiving the handover response message, the base station in the source cell releases the radio connection to the mobile station and directs the mobile station to forward access the channel S-TCH assigned by the base station in the target cell to a mobile station in the target cell according to the channel parameters in the received handover response message.

In step 107, although the mobile station has forwardly accessed the channel S-TCH allocated by the base station in the target cell to the mobile stations in the target cell through hard handover, the mobile station is usually still at the edge of the target cell's coverage area, and the communication of the mobile the station can easily be disconnected during the hard handover when the signals received by the mobile station from the target cell are not strong enough.

The method used in embodiment 1 according to the present invention for handover between cells by the mobile station is explained in more detail below by describing different channel access cases for the mobile station during the handover between cells.

Figure 2A is a route diagram of the mobile station in a preferred embodiment 1 of the present invention. The three circles in the diagram indicate the coverage of cell a, cell b and cell c respectively, points from P1 to P4 indicate different positions where the mobile station may be moving, and the lines with arrows indicate the route of the mobile station. It can be seen from the route diagram that the mobile station can exhibit four different steps during movement. When the mobile station is at position P1, the mobile station is covered by a base station in cell a only. When the mobile station moves to position P2, the mobile station is covered by both the base station in cell a and a base station in cell b. When the mobile station is at position P3, the mobile station is covered by the base station in cell b only. And when the mobile station is at position P4, the mobile station is covered by both the base station in cell b and a base station in cell c.

Provided that each base station in cell a, cell b and cell c covers some mobile stations that are in the same group to which the mobile station moving from P1 to P4 belongs, and if the mobile stations described here all belong to the same the group. When the mobile stations are in the central communication, the mobile stations covered by the base station in cell a forward access the S-TCH channel allocated by the base station in cell a. The mobile stations covered by the base station in cell b forward access the S-TCH channel which is assigned by the base station in cell b. And the mobile stations covered by the base station in cell c access the forward channel S-TCH assigned by the base station in cell c. The forward channel S-TCH assigned by the base station in cell b is suitable for a mobile station in cell a to perform a soft handover while the forward channel S-TCH allocated by the base station in cell c is not suitable for a mobile station in cell b to perform a soft handover.

Figure 2B is a schematic illustration of the channel access state when the mobile station is at position P1 in the preferred embodiment 1 of the present invention. As shown in Figure 2B, the mobile station is at position P1 and a solid line with an arrow at one end and a dot at the other end indicates the forward channel S-TCH assigned by the base station in cell a to a mobile station in cell a , and the mobile station maintains radio connection with the base station in cell a through the forward channel S-TCH. Dotted lines with arrow at one end and dot at the other end in cell b and cell c indicate the forward channels S-TCH assigned by the base stations in cell b and cell c respectively. The mobile station in Figure 2B has not yet accessed forward the channel S-TCH assigned by the base station in cell b or cell c, and the dot at the end of the solid line indicates a base station. The dots and lines on the diagrams described below indicate the same as the dots and lines on Figure 2B.

It can be seen from Figure 2B that when the mobile station communicates with others at position P1, the mobile station maintains a radio connection to the base station in cell a through the forward channel S-TCH assigned by the base station in cell a to a mobile station in cell a .

Figure 2C is a schematic illustration of the channel access status when the mobile station is at position P2 in the preferred embodiment 1 of the present invention. As shown in Figure 2C, the mobile station has moved to position P2 and, through a soft handover process, forwardly accesses the channel S-TCH assigned by the base station in cell b to a mobile station in cell b. Therefore, the mobile station not only maintains a radio connection to the base station in cell a through the forward channel S-TCH assigned by the base station in cell a to a mobile station in cell a, but also a radio connection to the base station in cell b through the forward channel S-TCH assigned by the base station in cell b to a mobile station in cell b.

Figure 2D is a schematic illustration of the channel access status when the mobile station is at position P3 in the preferred embodiment 1 according to the present invention. As shown in Figure 2D, the mobile station has moved to position P3. The mobile station sends a pilot measurement message to the base station in cell a if the pilot signals received by the mobile station from cell a fall to a certain level. On receipt of the pilot measurement message, the base station in cell a sends a handover indication message to the mobile station. The mobile station releases the radio connection to cell a upon receipt of the handover indication message. The mobile station only maintains the radio connection to the base station in cell b through the forward channel S-TCH assigned by the base station in cell b to a mobile station in cell b.

Figure 2E is a schematic illustration of the channel access status when the mobile station is at position P4 in the preferred embodiment 1 according to the present invention. As shown in Figure 2E, the mobile station has moved to position P4 and, through a hard handover process, forwardly accesses the channel S-TCH assigned by the base station in cell c to a mobile station in cell c. The base station in cell b releases the radio link to the mobile station. The mobile station only maintains the radio connection with the base station in cell c through the forward channel S-TCH assigned by the base station in cell c to a mobile station in cell c.

Preferred embodiment 2:

A more preferred embodiment of the method according to the present invention for handover between cells of a mobile station is described in the following to solve the problem of communication interruption caused by a hard handover of the mobile station at the edge of the coverage area of a target cell.

Figure 3 is a flowchart of the handover between cells of a mobile station in a central system according to a preferred embodiment 2 of the present invention. In figure 3, the steps from step 300 to step 306 are identical to the steps from step 100 to step 106 in figure 1, and no further description will be given in the following. The most preferred embodiment of the present invention is described in the following from step 307 in Figure 3.

Steps 307-308: After determining that the mobile station is not suitable for a soft handover, the base station in the target cell assigns a forward channel D-TCH to the mobile station according to the channel parameters transmitted in the received handover request message and returns to the base station in the source cell a handover response message containing the channel parameters for the forward channel D-TCH assigned by the base station in the target cell to the mobile station. Upon receiving the handover response message, the base station in the source cell directs the mobile station to forward access the channel D-TCH assigned by the base station in the target cell to the mobile station according to the channel parameters transmitted in the handover response message.

The channel parameters of the forward channel D-TCH assigned to the mobile station by the base station in the target cell are identical to the channel parameters of the forward channel S-TCH assigned to the mobile station by the base station in the source cell, including the radio configuration, the long code mask, the frame offset, etc. The mobile station can therefore receive and process the radio signals from both the base station in the source cell and the base station in the target cell at the same time.

Step 309: If the mobile station moves further towards the target cell and the pilot signals from the source cell are weakened to a certain level, the mobile station sends a pilot measurement message containing information regarding the intensity of the pilot signals from the source cell to the website. The base station in the source cell resends a handover request message to the base station in the target cell upon receipt of the pilot measurement message. The base station in the target cell returns a handover response message containing the channel parameters for the forward channel S-TCH assigned by the base station in the target cell to a mobile station in the target cell, to the base station in the source cell upon receipt of the handover request message.

Upon receiving the handover response message, the base station in the source cell releases the radio connection to the mobile station and directs the mobile station according to the channel parameters transmitted in the received handover response message to access the forward channel S-TCH assigned by the base station in the target cell to a mobile station in the target cell. Then the base station in the source cell sends another handover request message to the base station in the target cell. On receipt of the handover request message, the base station in the target cell forwards releases the D-TCH channel assigned to the mobile station.

The mobile station then only maintains radio connection with the base station in the target cell through the forward channel S-TCH which is assigned by the base station in the target cell to a mobile station in the target cell.

Step 309 is actually a hard handover process. In step 309, the process in the base station releases the source cell for the forward channel S-TCH assigned to the mobile station, the process in the base station in the source cell directing the mobile station to access the forward channel S-TCH assigned by the base station in the target cell to a mobile station in the target cell, and the process in the base station of the target cell that releases the forward channel D-TCH assigned to the mobile station may be executed one after the other or executed simultaneously.

However, when the mobile station performs the hard handover in step 309, the mobile station has already moved into an area in the coverage area of the base station of the target cell. In the coverage area of the base station in the target cell, the mobile station can receive relatively strong signals from the target cell. The hard handover process described here also implies a low communication interruption frequency, just like the soft handover process known from the prior art, so that communication continuity for the mobile station can be well maintained throughout the intercell handover process.

The method used in an embodiment of the present invention for handover between cells of a mobile station is explained in more detail below in the description of different channel access states for the mobile station during the handover process between cells.

Figure 4A is a flow diagram for the mobile station according to the preferred embodiment 2 of the present invention. The three circles on the diagram indicate the coverage area of cell a, cell b and cell c, dots from P1 to P5 indicate different positions where the mobile station can be while in motion, and the lines with arrows indicate the route of the mobile station. It can be seen from the diagram that the mobile station can experience five different steps while moving. When the mobile station is at position P1, the mobile station is covered by a base station only in cell a. When the mobile station moves to position P2, the mobile station is covered by both the base station in cell a and a base station in cell b. When the mobile station is at position P3, the mobile station is covered by the base station in cell b only. When the mobile station moves to position P4, the mobile station is covered by the base station in both cell b and a base station in cell c. And when the mobile station moves to position P5, the mobile station is covered only by the base station in cell c.

It is assumed that each base station in cell a, cell b and cell c covers some mobile stations that are in the group to which the mobile stations moving from P1 to P5 belong, and the mobile stations described in the following all belong to the same group. When the mobile stations are in a central communication, mobile stations covered by the base station in cell a access a forward channel S-TCH allocated by the base station in cell a. Mobile stations covered by the base station in cell b access a forward channel S-TCH allocated of the base station in cell b. And the mobile stations covered by the base station in cell c access a forward channel S-TCH allocated by the base station in cell c. The forward channel S-TCH allocated by the base station in cell b is suitable for a mobile station in cell a to perform a soft handover while the forward channel S-TCH allocated by the base station in cell c is not suitable for a mobile station in cell b to perform a soft handover.

Figures 4B to 4D in the embodiment are identical to Figures 2B to 2D in the preferred embodiment 1, and no further description will be given in the following. The various channel access states of the mobile station during the handover process between cells in the embodiment are described below in accordance with Figure 4E.

Figure 4E is a schematic illustration of the channel access state when the mobile station is at position P4 in the preferred embodiment 2 according to the present invention. As shown in Figure 4E, the mobile station at position P4 and the base station in cell c are assigned a forward channel D-TCH to the mobile station and sends a message containing channel parameters of D-TCH to the base station in cell b. The base station in cell b can direct the mobile station to access the forward channel D-TCH through a soft handover process. Meanwhile, the forward channel D-TCH has the same parameters as those of the forward channel S-TCH assigned by the base station in cell b to a mobile station in cell b, including the radio configuration, the long code mask and the frame offset, etc.

After the mobile station accesses, through the soft handover process, the forward channel D-TCH allocated by the base station in cell c, the mobile station not only maintains a radio connection with the base station in cell b through the forward channel S-TCH allocated by the base station in cell b to a mobile station in cell b, but also a radio connection to the base station in cell c through the forward channel D-TCH.

Figure 4F is a schematic illustration of the channel access state when the mobile station is at a position P5 in the preferred embodiment 2 of the present invention. As shown in Figure 4F, the mobile station is at position P5 and performs a hard handover in cell c. The hard handover process includes the following steps, the mobile station releases the forward channel S-TCH allocated by the base station in the source cell, releases the forward channel D-TCH allocated by the base station in the target cell, and forwardly accesses the channel S-TCH allocated by the base station in the target cell to a mobile station in the target cell.

After the hard handover process mentioned above, the mobile station maintains the radio connection to the base station in cell c through the forward channel S-TCH allocated by the base station in cell c to a mobile station in cell c.

In the previous two embodiments, a handover threshold and a release threshold are set in the base stations. And the base stations broadcast the handover threshold and release threshold to mobile stations. The mobile station compares the intensity of the pilot signals received from the target cell with the handover threshold constant, and if the intensity of the pilot signals received from the target cell exceeds the handover threshold, the mobile station determines that the pilot signals received from the target cell are strong enough. That the intensity of the pilot signals exceeds the handover threshold means that the intensity of the pilot signals is greater than or equal to the handover threshold. The mobile station also compares the intensity of the pilot signals received from the source cell with the release threshold constant, and if the intensity of the pilot signals received from the source cell falls below the handover threshold, the mobile station determines that the pilot signals received from the source cell have been attenuated to a certain level.

As shown in Figure 1 and Figure 3 for the two embodiments, when the mobile station performs an inter-cell handover, it must determine whether the base station in the target cell has assigned a forward channel S-TCH to the one or more mobile stations in the group that it the mobile station belongs in the target cell. If the base station in the target cell has not yet assigned a forward channel S-TCH to a mobile station in the target cell, the base station in the target cell assigns a forward channel D-TCH to the mobile station according to the soft handover method previously known, and the mobile station also accesses the forward channel D-TCH according to the soft handover method previously known. The mobile station then releases radio resources allocated by the base station in the source cell when the pilot signals received by the mobile station from the source cell are weakened to a certain level.

The preceding description explains a complete handover process of the mobile station from the source cell to the target cell. It is obvious that the mobile station can also move towards the source cell instead of the target cell after entering the coverage area of both the base station in the source cell and the base station in the target cell, and finally leaving the coverage area of the base station in the target cell. Or the mobile station may move towards another cell outside the source cell and the target cell, eventually leaving the coverage area of the base stations in both the source cell and the target cell. In such a case, when the pilot signals received by the mobile station from a cell drop to a certain level, the mobile station sends the pilot measurement message to the website. On receipt of the pilot measurement message, the cell releases the radio connection to the mobile station.

It can be concluded from the preceding description that in the method of handover between cells of a mobile station in a central system provided by means of embodiments according to the present invention, the forward channel S-TCH assigned by a base station in a cell to a mobile station in the cell, is used completely and system resources in the base station in the cell are thus saved.

Claims (12)

Patent claims 1. Method of handover between cells of a mobile station in a central system, comprising the following steps: sending, by means of a base station in a source cell, a handover request message to a base station in a target cell when the mobile station enters the coverage area of the target cell; determining (101, 301), by means of the base station in the target cell, whether the base station in the target cell has assigned a forward shared traffic channel (S-TCH) to one or more other mobile stations in a group to which the mobile station belongs in the target cell; if the base station in the target cell has assigned a forward channel S-TCH to one or more other mobile stations in the group, the mobile station accesses the forward channel S-TCH and terminates the process; if the base station in the target cell has not assigned a forward channel S-TCH to one or more other mobile stations in the group, (102, 302) the base station in the target cell assigns a forward dedicated traffic channel (D-TCH) to the mobile station according to the handover request message which is sent by the base station in the source cell, and the mobile station accesses (103, 303) the allocated forward channel D-TCH. 2. Method according to claim 1, where the process of a base station in a source cell sending a handover request message to a base station in a target cell comprises: sending (100, 300), by the mobile station, a pilot measurement message to the web site if pilot signals received by the mobile station from the target cell exceed a predetermined handover threshold; and sending (100, 300), by means of the base station in the source cell, the handover request message to the base station in the target cell upon receipt of the pilot measurement message. 3. Method according to claim 1 or 2, wherein the handover request message comprises: parameters for the forward channel S-TCH which is assigned by the base station in the source cell to a mobile station in the source cell. 4. Method according to 3, before the mobile station accesses the forward channel S-TCH, further comprising: the base station in the target cell determines (104, 304) whether the S-TCH is suitable for the mobile station to perform a soft handover according to whether channel parameters in the handover request message sent by the base station in the source cell are identical to channel parameters in the forward channel S-TCH assigned by the base station in the target cell to one or more other mobile stations in the group to which the mobile station belongs in the target cell; if the forward channel S-TCH is suitable for the mobile station to perform the soft handover, the mobile station accesses the forward channel S-TCH assigned by the base station in the target cell to one or more other mobile stations in the group in the target cell, and terminates the process; if the forward channel S-TCH is not suitable for the mobile station to perform the soft handover, the base station in the target cell assigns a forward channel D-TCH to the mobile station according to the channel parameters transmitted in the handover request message sent by the base station in the source cell, and the mobile station accesses (107) forward the channel D-TCH. 5. Method according to claim 4, where the process of accessing the forward channel S-TCH comprises: sending (105, 305), by means of the base station in the target cell, a handover response message to the base station in the source cell; directing (105, 305), by means of the base station in the source cell, the mobile station to access the forward channel S-TCH according to the handover response message. 6. Method according to claim 5, where the handover response message comprises: the channel parameters for the forward channel S-TCH which is assigned by the base station in the target cell to one or more other mobile stations in the group to which the mobile station belongs in the target cell. 7. Method according to claim 4, where the process in the mobile station that accesses the forward channel D-TCH comprises: sending (307), by means of the base station in the target cell, a handover response message to the base station in the source cell; directing (308), by means of the base station in the source cell, the mobile station to access the forward channel D-TCH according to the handover response message. 8. Method according to claim 4, further comprising: after the mobile station has accessed the forward channel D-TCH, the mobile station accesses (309) the forward channel S-TCH assigned by the base station in the target cell to one or more other mobile stations in the target cell, releasing (309) the forward channel D- TCH, and frees (309) radio resources allocated by the base station in the source cell. 9. Method according to claim 8, wherein, after the mobile station has accessed the forward channel S-TCH, the processes in the mobile station to access the forward channel S-TCH assigned by the base station in the target cell to one or more other mobile stations in the target cell, to release (309) the forward channel D-TCH, and to release (309) the radio resources allocated by the base station in the source cell, comprising: sending, by means of the mobile station, a pilot measurement message to the web site if the pilot signals received by the mobile station from the source cell fall below a predetermined release threshold, and the base station in the source cell sends a handover request message to the base station in the target cell upon receipt of the pilot measurement message; sending, by means of the base station in the target cell, a handover response message to the base station in the source cell upon receipt of the handover request message, the base station in the source cell directing the mobile station to access the forward channel S-TCH according to the handover response message, releasing the radio connection to the mobile station and sending a release indication message to the base station in the target cell; to release, by means of the base station in the target cell, the forward channel D-TCH assigned to the mobile station upon receipt of the release indication message. 10. Method according to claim 9, where the handover response message comprises: the channel parameters for the forward channel S-TCH which is assigned by the base station in the target cell to a mobile station in the target cell. 11. Method according to 1, further comprising: after the mobile station has accessed the forward channel D-TCH, the radio resources assigned by the base station in the source cell are released (309) by means of the mobile station. 12. Method according to 11, wherein the process of releasing (309), by means of the mobile station, the radio resources allocated by the base station in the source cell, comprises: sending, by means of the mobile station, a pilot measurement message to the web site if the intensity of the pilot signals received by the mobile station from the source cell falls below a predetermined release threshold; sending, by means of the base station in the source cell, a handover indication message to the mobile station upon receipt of the pilot measurement message, and the mobile station releasing the radio connection to the source cell upon receipt of the handover indication message.