KR20050017514A - Handover Method In The Mobile Communication System - Google Patents

Abstract

PURPOSE: A hand-over method in a mobile communication system is provided to calculate a moving speed and a direction of a mobile terminal, and to make a hand-over cell list according to terminal proximity, thereby attempting a hand-over process to adjacent cells by a priority of the hand-over cell list based on the terminal proximity. CONSTITUTION: A mobile communication terminal periodically tracks a self location according to a location tracking algorithm(S21). Location tracking information is transmitted to a base station controller through a base station(S22). The base station controller analyzes the location tracking information, and outputs a moving speed and a direction of the mobile terminal(S23). On the basis of the moving speed and the direction of the mobile terminal, terminal proximity for adjacent cells is calculated(S24). The base station controller makes a hand-over cell list including channel information on each adjacent cell by high proximity, and regularly renews the hand-over cell list(S25). The base station controller confirms whether a hand-over process is requested to the mobile terminal. If so, the base station controller transmits the hand-over cell list to the mobile terminal through the base station(S26). The mobile terminal searches the hand over cell list, and extracts channel information by high proximity to attempt the hand-over process(S27).

Description

Handover Method In The Mobile Communication System

The present invention relates to a handover of a mobile communication terminal, and in particular, attempts to perform a handover according to a terminal proximity to each neighboring cell based on the moving speed and the directionality of the mobile communication terminal to enable more accurate handover. The present invention relates to a handover method in a mobile communication system.

In general, mobile communication terminals are based on mobility and portability, and research is being actively conducted to improve service quality as the spread thereof spreads. One of these service quality improvements provides mobility without communication disconnection. In order to do this, it can be said to perform a handover function.

On the other hand, the GSM (Global System for Mobile communication) method is a broadband European asynchronous communication standard for roaming between European countries, combining frequency division multiple access (FDMA) and time division multiple access (TDMA) together. Use to accommodate separate subscribers.

In the GSM network, when a mobile communication terminal moves from one cell to another cell, only one handover channel is allocated, and when the handover fails, the channel is allocated to the original serving cell again. Restoring operation.

For example, when an arbitrary mobile communication terminal moves from cell A to cell C, as shown in FIG. 1, when handover with cell C fails, the mobile terminal attempts to restore the channel allocated to cell A, which is a serving cell. However, as shown in FIG. 1, if the mobile communication terminal has already moved to a location close to the cell I, restoration to the channel allocated to cell A is likely to fail, and thus, a call cannot be continued and is disconnected. This will occur.

As described above, according to the handover scheme provided by the conventional GSM protocol, only one handover channel is allocated at the time of handover of the mobile communication terminal, and if the handover fails, it is allocated back to the original serving cell. When the mobile communication terminal is moving, there is a problem that the call cannot be sustained and disconnected because the probability of handover is high.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to calculate a terminal movement speed and directionality based on periodic location tracking information of a mobile communication terminal, and calculate a terminal proximity using the handover cell. By creating a list and transmitting it when handover of the mobile communication terminal, the mobile communication terminal can try to handover to an adjacent cell according to the priority on the handover cell list based on its movement speed and direction. .

Another object of the present invention is to make a handover to an adjacent cell according to the priority on the handover cell list based on the moving speed and the direction of the mobile communication terminal, so that even when the mobile communication terminal is moving more quickly and accurately. It is to allow handover and to maintain a more stable call.

Another object of the present invention is to perform a handover process to a neighbor cell according to the priority on the handover cell list based on the proximity of the terminal, so that even if the handover fails, the channel is immediately restored to recover the frequency of disconnection. To reduce it.

A feature of the present invention for solving the above object is a process of calculating a terminal proximity to each adjacent cell based on the periodic location tracking information of the mobile communication terminal; Creating a handover cell list including channel information of neighbor cells according to the proximity of the terminal and transmitting the handover cell list during handover of the mobile communication terminal; The mobile communication terminal provides a handover method in a mobile communication system comprising the step of attempting to handover to a corresponding neighbor cell by extracting channel information in the order of proximity of the terminal with reference to the handover cell list. .

In the above-described handover method in the mobile communication system, the mobile communication terminal periodically tracks its location and transmits location tracking information including a distance, a direction, and a measurement period at the cell center to a higher system. It characterized in that it further comprises a process.

In addition, the step of calculating the proximity of the terminal, the step of analyzing the position tracking information periodically transmitted from the mobile communication terminal and calculating the moving speed and the direction of the terminal; And calculating a terminal proximity to each neighboring cell based on the terminal movement speed and the direction calculated above.

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

According to the present invention, a handover cell list is calculated by calculating a proximity of an adjacent cell of a mobile communication terminal based on the mobile speed and the direction of the mobile communication terminal in a base station controller (or a network element above) of a network configuring the mobile communication system. And transmit the data when handover of the mobile communication terminal and the mobile communication terminal attempts handover according to the priority on the handover cell list, so that the handover can be performed more quickly and accurately even when the mobile communication terminal is moving. It becomes possible.

That is, the handover method in the mobile communication system according to the present invention is provided by the interoperability between the mobile communication terminal and the base station controller as described above, wherein the mobile communication terminal periodically tracks its location to track its location. Information is transmitted to the base station controller through the base station, and handover is attempted to the adjacent cell according to the priority with reference to the handover cell list received from the base station controller during handover.

The base station controller analyzes the location tracking information periodically transmitted from the mobile communication terminal, calculates the moving speed and the direction of the mobile station, and calculates the proximity to the adjacent cell of the mobile communication terminal based on this. After the handover cell list is created in order, the handover cell list thus prepared is transmitted upon handover of the corresponding mobile communication terminal.

The handover operation in the mobile communication system according to the present invention based on the interoperability between the mobile communication terminal and the base station controller will be described with reference to FIGS. 1 and 2 as follows.

First, prior to describing the handover operation of the present invention, in order to help the understanding of the description, in the mobile communication system composed of multiple cells as shown in FIG. It will be described assuming a case moving in the direction.

At this time, the mobile communication terminal located in the cell A serving cell transmits the reception level (rxlevel) and the reception quality (rxquality) value measured by itself to the base station of the cell A, that is, the base station A, the base station A from the mobile communication terminal The received reception level value and the reception quality value are analyzed to determine whether a handover is required. In this case, when it is determined that the handover is required, a handover command is requested to the corresponding mobile communication terminal.

Then, the mobile communication terminal transmits the timing information request signal to a cell to be handed over, ie, a C cell, through a random access channel (RACH), and the C cell calculates how far the timing is from the RACH, and transmits it to the mobile communication terminal. By doing so, a handover of the mobile communication terminal is made.

In the situation where handover is performed through this procedure, the mobile communication terminal periodically tracks its location. For example, when a call is in progress, one burst from each adjacent cell is used by using one idle frame every 26 frames. It receives a signal at a burst term and tracks its location periodically according to an existing location tracking algorithm, such as location tracking using GPS satellites (step S21). In addition, location tracking information including a distance, a direction, and a measurement period at the center of the cell A (that is, the base station A), which is a serving cell, is transmitted through the base station A to the base station controller (not shown) (step S22). ).

Accordingly, the base station controller analyzes the position tracking information periodically transmitted from the mobile communication terminal to calculate the moving speed and the direction of the corresponding mobile communication terminal (step S23), and thus calculates the moving speed and the direction of the mobile communication terminal. The terminal proximity is calculated based on the neighboring cells A to K based on the calculated terminal proximity (step S24). A handover cell list to be included is created and updated periodically (step S25).

In addition, the base station controller prepares a handover cell list according to the location tracking information transmitted from the mobile communication terminal and periodically updates it, and checks whether there is a handover request for the corresponding mobile communication terminal. In this case, the handover cell list created above is transmitted to the mobile communication terminal through the base station (step S26).

Subsequently, the mobile communication terminal searches for a handover cell list transmitted from the base station controller, attempts to handover by extracting channel information according to its priority, that is, in order of high terminal proximity (step S27). After extracting the channel information of the neighboring cell having the highest terminal proximity as the channel information to be attempted to handover, the handover is attempted based on this. Thus, the mobile communication terminal performs a handover based on its own moving speed and direction. As the over attempt is attempted, an accurate handover can be performed.

In addition, the mobile communication terminal attempts to handover to the neighboring cell having the highest terminal proximity, but when the handover fails, it means that the selection of the neighboring cell for handover is wrong except the error on the system side. In the present invention, when the handover fails, the mobile station attempts to restore the channel allocated to the original serving cell, whereas the present invention considers the mobile speed and the directionality of the mobile communication terminal. By extracting the information as channel information to be handed over and attempting a handover based on this, it is possible to restore the channel immediately even when the handover fails, thereby reducing the frequency of disconnection. In particular, in the above embodiment, when the cell management range is small and the mobile terminal has a high moving speed, even when the handover fails once, the corresponding mobile communication terminal is likely to move to the I cell through the C cell, which is an adjacent cell. In the prior art, the mobile station attempts to perform handover using channel information on an I cell, which is the next higher neighbor terminal, in the present invention.

More preferably, when the handover fails, the mobile station does not attempt to handover by using channel information of a neighboring cell having a high proximity to the terminal. In consideration of this, by controlling the handover to be retried using the channel information of the neighbor cell that failed the handover, more accurate handover can be performed.

For example, as shown in FIG. 1, location tracking information between two viewpoints transmitted from a mobile communication terminal is analyzed, that is, location tracking information when the mobile communication terminal is located in cell A and location tracking information when moving to cell C. Using the following algorithm, the proximity of the terminal can be calculated and the handover cell list can be created. First, in relation to the directionality of the mobile terminal, this is calculated as a directional weight, which indicates that the position of the mobile terminal is' dc <0. 'If the directional weight is' 1', and if 'ba> 0', the directional weight is calculated as' 0.5 '.

And, in relation to the moving speed, if it is calculated as the moving speed weight, it means that the moving speed weight is '* 3' if the terminal moving speed is a constant speed, for example, '100 km / h' or more and the direction (dc or ba) is negative. If the number is positive, the moving speed weight is calculated as '/ 3'. If the terminal moving speed is less than '100Km / h' and the direction (dc or ba) is negative, the moving speed weight is '* 1'. The movement speed weight is calculated as '/ 1'.

In the state of calculating the moving speed and the directionality of the mobile communication terminal as described above, assuming that the current speed of the mobile communication terminal is 160 km / h, and calculating the distance factor between cell A and cell C, cell A is' b ( Distance between the base station and the terminal in the last state) * 0.5 (directional weighting) / 3 (travel speed weighting), and cell C is' d (distance between the base station and the terminal in the last state) * 1 (directional weighting) * 3 ( Moving speed weight). Thus, the distance factor for the C cell is calculated to be a larger value, which means that the current mobile terminal is closer to the C cell.

In this way, after all the above parameters are calculated for the neighboring cells, the channel information of the neighboring cells is sorted in the order of the larger values, and thus the handover cell list based on the position, the moving speed, and the direction of the current mobile communication terminal. In this case, the handover cell list thus transmitted is transmitted to the mobile communication terminal to be handed over, so that a more accurate handover can be attempted.

In addition, the embodiments according to the present invention are 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.

As described above, the present invention calculates the movement speed and the direction of the terminal based on the periodic location tracking information of the mobile communication terminal, calculates the proximity of the terminal using this to create a handover cell list to handover of the mobile communication terminal By transmitting the time and attempting handover to the neighbor cell according to the priority on the handover cell list, the mobile terminal can perform the handover more quickly and accurately even when the mobile terminal is moving. The call can be maintained reliably.

In addition, according to the present invention, by performing a handover process to a neighbor cell according to the priority on the handover cell list based on the proximity of the terminal, the channel can be immediately restored even if the handover fails, thereby reducing the frequency of disconnection. Will be.

1 is a diagram illustrating a network environment for explaining a handover operation for a mobile communication terminal.

2 is a flowchart illustrating a handover method in a mobile communication system according to the present invention.

Claims (3)

Calculating a terminal proximity to each neighboring cell based on periodic location tracking information of the mobile communication terminal; Creating a handover cell list including channel information of neighbor cells according to the proximity of the terminal and transmitting the handover cell list during handover of the mobile communication terminal; Handover method in a mobile communication system, comprising: extracting channel information in order of terminal proximity from the mobile communication terminal by referring to a handover cell list and attempting handover to a corresponding neighbor cell; . The method of claim 1, In the mobile communication system further comprising the step of periodically tracking its location in the mobile communication terminal to transmit the location tracking information including the distance, direction and measurement period at the cell center to the upper system Handover method. The method of claim 1, The step of calculating the proximity of the terminal may include calculating location speed and direction of the terminal by analyzing location tracking information periodically transmitted from the mobile communication terminal; And calculating a terminal proximity to each neighboring cell based on the calculated terminal movement speed and directionality.