KR20000007771A - Method for hand-over controlling of mobile communication system - Google Patents

Abstract

PURPOSE: Method of mobile communication system problem to be solved; A hand-over control method of a mobile communication system is provided to measure the intensity of an electric power received by a terminal of the signal from surrounding base stations and control the hand-over by connecting the terminal to the cell of which signal is measured the highest. CONSTITUTION: The hand-over control device comprises; the 1st step to have the base of each near-by cell of the one with which the line is connected, measure the intensity of electric power received by the terminal when a hand-over is requested by a base with which the communication is going on; the 2nd step to inform a hand-over attempt to the selected cell which has the strongest signal power received from the base; the 3rd step to receive the input of a new wireless channel and a hand-over start up signal from the base to which a hand-over is made, transmitting it the base of the current cell.

Description

Handover Control Method of Mobile Communication System

The present invention relates to a handover control method of a mobile communication system. In particular, when a cell moves between a terminal that cannot transmit / receive two signals in hardware, a central base station receives a received power strength of a terminal received from a base station around the terminal. The present invention relates to a handover control method of a mobile communication system for controlling a handover by connecting a terminal to a cell whose signal is measured highest.

In general, in the mobile communication environment, in order to overcome the limitation of the service area and the capacity of the subscriber, the concept of 'cellular' is introduced to divide the service area into several small areas, or 'cells', so that two cells are far enough apart from each other. In order to ensure sufficient subscriber capacity by increasing the number of channels by using the same frequency band in the system, when the user having a terminal moves from the area of cell 1 to cell 2 in the layout of the cell configured as shown in FIG. Handover is a feature that connects a user's current call to cell 2 so that the user can keep the call and keeps the call connected when moving between cells.

There are various conventional handover methods depending on the system, and most of them are performed at the terminal side.

That is, the terminal is equipped with a device capable of receiving two kinds of radio signals at the same time in hardware, when the terminal moves the cell receives the signals from the two cells at the same time in the overlap region of cell 1 and cell 2, Received Signal Strength Indication (RSSI) of the received signals is compared with each other to maintain the call using the cell where the signal is strong.

However, in the conventional handover method, the handover is possible only when the terminal itself is provided with a device capable of receiving two kinds of radio signals at the same time, thus complicating the circuits at the time of manufacturing the terminal and making the unit cost. There was a problem going up.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and the reception of the terminal received from the base station around the terminal in the central base station during the inter-cell movement of the terminal that can not transmit / receive two signals in hardware It is an object of the present invention to provide a handover control method of a mobile communication system for controlling a handover by connecting a terminal to a cell whose signal is measured with the highest power intensity.

1 illustrates an exemplary cell overlap.

2 is an exemplary view showing a relationship between a cell, a base station, and a central base station in the present invention.

3 is a data flow diagram between a terminal, a base station, and a central base station during handover according to the present invention;

The present invention for achieving the above object, if a handover request is input from the base station of the cell holding the current call with the terminal to control the received power strength of the terminal to the base station of each cell in close proximity to the current cell A first step; A second step of informing a handover attempt by selecting a cell having the strongest signal strength from the received power strength received from the base station of each cell by the first step; A third step of receiving a new radio channel and a handover start signal from a base station of a cell to be handed over by the second step and transmitting call reconfiguration data to a base station of a cell which maintains current communication; In the third step, the terminal changes to a new call channel and is achieved by a fourth step of completing a handover by receiving a handover complete signal from a base station of a new cell in which the handover is performed. An example will be described in detail with reference to FIGS. 2 and 3 as follows.

2 is a diagram illustrating a relationship between a cell, a base station, and a central base station in the present invention, wherein a base station for establishing and maintaining a constant call radius and communication channel in each region divided into cells (cells 1, 2, and 3) is shown. (10a, 10b, 10c); And a central base station 20 for controlling each of the base stations 10a, 10b, and 10c. FIG. 3 is a data flow diagram between a wireless terminal, a base station, and a central base station during handover according to the present invention. When the terminal user connects a call in cell 1 and moves to cell 2, the base station 10a of cell 1 detects a wireless signal received from the terminal and receives a predetermined time when the received power strength of the signal is lower than a preset threshold. It is determined that the call out of the call radius and transmits a handover request signal to the central base station (20).

At this time, the central base station 20 which has received the handover request signal from the base station 10a of the cell 1 determines all the cells in the vicinity of the cell (cell 1) to which the current call is connected to determine which cell the wireless terminal is moving to. A control signal is output to cells 2 and 3 so as to measure the received power strength of the terminal currently talking on cell 1.

Accordingly, the base stations 10b and 10c of the cell 2 and the cell 3 that have received the received power strength measurement request from the central base station 20 measure the received power strength of the terminal and transmit the result back to the central base station 20. do.

The central base station 20 compares the received power strengths of the terminals received from the base stations 10b and 10c of each cell, and then the terminal to the base station 10b of the cell 2 having the highest received power intensity. Informs that the mobile station is moving to the corresponding cell and transmits a control signal to connect to the terminal using a new wireless channel.

At this time, the base station 10b of the cell 2 selects the channel having the lowest received power strength as the channel to move from the cell 1 to the cell 2, and transmits the new radio channel data to the central base station 20. At the same time, a call is attempted on the new wireless channel.

Accordingly, the central base station 20 receiving the radio channel data transmits new radio channel data to the base station 10a of the cell 1, and the base station 10a of the cell 1 transmits the radio channel data to the radio terminal, thereby creating a new radio. The channel of the terminal is reset so that the call is reopened to the channel.

Next, after resetting the channel to a new wireless channel, the terminal waits for a reception signal from the base station 10b of cell 2, and when a wireless signal is received, establishes a new wireless connection and maintains a call previously. At 10b, while continuously attempting a call over a new wireless channel, if a response message is received from the terminal, the terminal establishes synchronization and sends a handover completion signal to the central base station 20, and the central base station 20 receives the handover of the terminal. After the handover is recognized, the new base station 10b maintains a call with the terminal.

As described above, the handover control method of the mobile communication system according to the present invention measures the received power strength of the terminal received from the base station around the terminal at the central base station during the cell-to-cell movement of the terminal that cannot transmit / receive two signals in hardware. By connecting the terminal to the cell where the signal is measured the highest and controlling the handover, the manufacturing cost of the terminal is lowered, the circuit configuration becomes easier, and it is easily applied to the in-house wireless system that does not currently apply the handover radius. There is an effect that can be expanded freely.

Claims (3)

A first step of controlling, when a handover request is input from a base station of a cell holding a current call with the terminal, the received power strength of the terminal is measured at a base station of each cell proximate to the current cell; A second step of informing a handover attempt by selecting a cell having the strongest signal strength from the received power strength received from the base station of each cell by the first step; A third step of receiving a new radio channel and a handover start signal from a base station of a new cell to be handed over by the second step and transmitting call reconfiguration data to a base station of a cell maintaining current communication; In the third step, the mobile station changes to a new call channel and receives a handover complete signal from a base station of a new cell in which the handover is completed. Control method. The mobile station of claim 1, wherein the base station of the new cell to be handed over selects a channel having the lowest received power strength as a channel for a call to the terminal moving from the conventional cell, and then centers the new radio channel data. A method for controlling handover in a mobile communication system, characterized by transmitting to a base station and simultaneously attempting a call with a terminal on a new wireless channel. The mobile station of claim 1, wherein the base station of the cell that maintains the current call transmits the wireless channel data received from the central base station to the wireless terminal in step 4, thereby resetting the channel of the terminal so that the call is reopened to a new wireless channel. Handover control method of a mobile communication system, characterized in that.