KR100469412B1 - Handover method for mobile communication device - Google Patents

Abstract

The present invention relates to a handover method of a mobile communication terminal, which stores cell information according to a terminal user's life pattern and utilizes information stored when moving on the same path to enable effective cell search and handover with only a small number of cell information. A second process of receiving a cell information setting command from a user and storing selected current cell information, and periodically measuring neighboring cells to determine whether a better cell is found than a cell to which the current terminal belongs. If the cell is found to be better than the current cell by the determination, selecting the found cell, storing information about the cell, and repeating the process of measuring the neighboring cell until the cell information setting command is released. A first step of storing cell information according to the movement path by three processes; Determining whether the cell exists on the registered path by tracking current cell information; Performing a handover by periodically measuring two neighboring cells on a path with respect to the current cell; If the measured value of the current cell is less than or equal to a predetermined threshold value, it may be achieved by including a fourth step of determining that it is out of a previously stored cell path, releasing the cell information tracking mode, and performing normal cell search and handover. .

Description

HANDOVER METHOD FOR MOBILE COMMUNICATION DEVICE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a handover method of a mobile communication terminal. Particularly, a cell search and handover is effective with only a small number of cell information by storing cell information according to a life pattern of a terminal user and utilizing information stored when moving on the same path. The present invention relates to a handover method of a mobile communication terminal that enables the.

According to the conventional IMT-2000 standard, the terminal periodically measures the neighboring cells (Monitoring Cells) included in the system information (System Information) received from the base station to measure the neighboring cells than the cells currently in service When an event occurs, such as a high value or exceeding a predetermined threshold, the handover is performed through periodic reporting.

In this case, since all the peripheral cells need to be measured in the physical layer, the larger the number of neighboring cells, the greater the load (Load), which is a main cause of terminal battery consumption.

Accordingly, the present invention was created in order to solve the above-mentioned conventional problem, and stores the cell information according to the life pattern of the user of the terminal and utilizes the stored cell information on the same path so that only a small number of cell information is effective. An object of the present invention is to provide a handover method of a mobile communication terminal that enables search and handover.

In order to achieve the above object, the present invention provides a cell having a better cell than a cell to which the current terminal belongs by first measuring a neighboring cell periodically by receiving a cell information setting command received by a user and storing the selected current cell information. In the second step of determining whether to be found, if a cell that is better than the current cell is found by the determination, selecting the found cell to store information on the cell and continuing measuring the neighboring cell is performed. A first step of storing cell information according to a movement path by a third process of repeating until the release is performed; Determining whether the cell exists on the registered path by tracking current cell information; Performing a handover by periodically measuring two neighboring cells on a path with respect to the current cell; If the measured value of the current cell is less than or equal to a predetermined threshold value, it is determined that the cell has been stored out of the previously stored cell path, and releases the cell information tracking mode and performs a normal cell search and handover.

1 is an exemplary view for explaining a cell information tracking process according to a movement path of a terminal according to the present invention.

2 is an exemplary view showing a cell information storage format on a path according to the present invention.

3 is a flowchart illustrating a handover method of a mobile communication terminal according to the present invention.

According to the present invention, the terminal itself stores cell information on a path that is moved while receiving a service, and when reusing the path later, only the cell on the stored path is searched without searching for a new neighbor cell each time. By searching only a number of cells, the load of the terminal can be reduced and a faster search can be made.

That is, considering that most people's life patterns do not deviate from a certain range, the paths of cells belonging to most living areas are memorized, so that the cells to be searched in a specific cell area have a direction, no matter how close the surroundings are. By measuring only up to three or at least one cell, even with a large number of monitoring cells, the best cell can be searched and effectively handed over, and the function can be reduced by reducing the load at the physical layer. The battery consumption can be reduced without deterioration.

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

First, cell information on a path that a user mainly moves is set.

As soon as the user issues a cell information setting command, the terminal starts tracking the cell on the path.

Referring to FIG. 1, when a terminal user inputs a cell information tracking command from cell A, the terminal recognizes information of a cell (Primary Scrambling Code, measured value) that is recognized as the best cell while moving from this time point to cell H, which is a completion time point. The measured value immediately before the handover occurs to one of the threshold values of the cell or one of the other neighboring cells) is stored in the order A → E → H.

The cell information tracking step is next.

That is, after setting the cell information tracking mode on the path as described above, if the terminal moves or stays on the same path again, the terminal may include a primary scrambling code included in the cell information on the stored path. Comparing with the primary scrambling code of the current best cell, cell information tracking starts as soon as it is confirmed that the cell is the same.

If this cell was Cell E in FIG. 1, the terminal performs periodic measurement only on Cell A, Cell E, and Cell H, and the measured value of Cell E is greater than or equal to the threshold stored in the cell information. If it is lower than the measured values of A and Cell H, check whether the cell having the higher value among Cell A and Cell H is included in the neighboring cell received from System Information, and then perform handover to the cell. do.

If cell E is lower than the stored threshold of the cell, but the value is high compared to the measured values of cell A and cell H, stop tracking the cell information on the path and inform the user of the measurement. ).

In this case, it is determined that the terminal has moved from the cell on the path to the cell not stored in the path.

Here, the measured value may be various, but should include a signal-to-noise ratio (Ec / No), RSCP (Received Signal Code Power).

Next, the cell information tracking mode on the path is released.

Cell information tracking mode can be released by two methods.

That is, the user of the terminal may manually cancel the mode by issuing a cell information tracking mode release command, and as described above, even if the terminal user does not command the cell information tracking mode release on the path of the terminal user, the terminal is stored. If you are out of range of the cell on the path, the mode is automatically released.

2 is an exemplary view showing a cell information storage format on a path.

Here, each cell on the path is classified as a primary scrambling code (PSC), and the threshold 1 stores the measured values of cell H and cell E at the time of handover when the terminal moves from cell H to cell E to cell A, respectively. Doing.

In addition, the threshold 2 stores the measured values of Cell A and Cell E at the time of handover when the terminal moves from Cell A to Cell E to Cell H, respectively.

If a cell on a path with a higher measurement than the current cell is not found in an area below this threshold, the path tracking mode is immediately canceled and normal cell search and handover is performed by measuring the neighboring cell received from the system information. do.

3 is a flowchart illustrating a handover method of a mobile communication terminal according to the present invention. When a user inputs a cell information setting command to a terminal (S101), the terminal stores the selected current cell information (S102).

The cell information includes a primary scrambling code of the current cell, a threshold (limit value) of the current cell, and a measurement value of the current cell.

Next, by measuring a neighboring cell periodically (S103), it is determined whether a better cell is found than the cell to which the current terminal belongs (S104).

As a result of the comparison, when a cell that is better than the current cell is found (S108), the cell information setting command is canceled by selecting the found cell (S108), storing information about the cell (S102), and continuing measuring the neighboring cell. Repeat until (S105).

When the cell information according to the movement path of the user is registered by the above process (S106), the cell information (S107) on the registered path is used after the cell search and handover during the same path movement.

That is, when the cell information tracking mode is set by the user (S201), it is determined whether to track manually or automatically (S202).

First, in the case of manually tracking cell information, a path is selected by the user (S203), and it is determined whether the current cell exists on the selected path (S204), and if the cell does not exist on the path, the cell information tracking mode is performed. It releases (S214), and switches to the normal cell search and handover process (S215).

Next, if cell information is automatically tracked, the cell information to which the terminal belongs is searched in the registered path (S205), and it is determined whether the current cell exists on the previously registered path (S206).

If the current cell does not exist on the previously registered path, the cell information tracking mode is released (S214), and the normal cell search and handover process is switched (S215). If the cell exists in the path, the path is selected (S207), the position of the current cell is detected on the path (S209), and cell tracking on the path is started (S209).

In this case, even when there are many cells around the current cell, only two neighboring cells on the path are periodically measured with respect to the current cell using the cell information on the registered path (S210). If a cell better than the current cell is found (S211), the found cell selection and handover are performed (S212), and the processes S210 and S211 are repeated.

If the measurement value of the current cell is repeatedly performed until the measurement value of the current cell is less than or equal to the predetermined threshold value, and the measurement value of the current cell is less than or equal to the predetermined threshold value (S213), The cell information tracking mode is released (S214), and the process switches to a normal cell search and handover process (S215).

In this case, when the measured value of the current cell is less than or equal to a predetermined threshold value, the cell information tracking mode is canceled because the cell information tracking mode compares only two neighboring cells in the current cell. This is because the measured value is below the threshold.

As described above, the present invention stores cell information according to a user's movement path, and utilizes the same in cell selection / cell reselection and handover, thereby making the terminal itself efficient in cell selection and handover. It can increase.

In addition, by optimizing the direction in advance along a designated path without performing the measurement of all the cells around the terminal, the optimal cell search is possible by performing the measurement on at least one to three cells.

As described above, in the handover method of the mobile communication terminal according to the present invention, when the predetermined path corresponding to the cell information stored in the terminal is moved, the number of cells to be measured by the terminal is reduced, and all neighboring cells are periodically By reducing the load that can be generated by performing a cell search and handover by measuring, not only fast cell search and handover but also an effect of saving battery can be achieved.

Claims (4)

A second step of receiving a cell information setting command from a user and storing selected current cell information; periodically measuring neighboring cells to determine whether a better cell is found than a cell to which the current terminal belongs; If a better cell is found than the current cell, the third step of selecting a cell and storing information about the cell, and continuing measuring the neighboring cell until the cell information setting command is released is performed. Storing the cell information according to the movement path by the first step; Determining whether the cell exists on the registered path by tracking current cell information; Performing a handover by periodically measuring two neighboring cells on a path with respect to the current cell; And a fourth step of releasing the cell information tracking mode and performing normal cell search and handover when it is determined that the measured value of the current cell is less than or equal to a predetermined threshold value and performs a normal cell search and handover. Handover method of communication terminal. The handset of claim 1, wherein the cell information includes a primary scrambling code of the current cell, a threshold (limit value) of the current cell, and a measurement value of the current cell. Over way. The handover method of claim 2, wherein the measured value includes a signal to noise ratio (Ec / No) and a received signal code power (RSCP). delete