KR20030012555A - Handover algorithm in Bluetooth System - Google Patents

Abstract

PURPOSE: A handover method in bluetooth communication is provided to check signal strength with a mobile set in an access point, and to connect to other access point when the strength breaks away from certain strength, thereby performing handover without influencing data rate efficiency. CONSTITUTION: A terminal attempts to connect to an access point. The access point permits the connection, and completes the connection. The access point checks signal strength. The access point compares the checked signal strength with a preset threshold value. If the signal strength is less than the threshold value, the access point connects to a peripheral access point to attempt a terminal connection, and requests a result. The peripheral access point attempts to connect to the terminal. The peripheral access point reads a signal strength value, and waits until the value reaches a determined threshold value. If the signal strength value is more than the determined threshold value, the peripheral access point requests the access point to transmit terminal information. The access point starts a service. The access point disconnects with the terminal, and transmits a canceling command to another waiting access point.

Description

Handover in Bluetooth communication {Handover algorithm in Bluetooth System}

The present invention relates to a handover method of a device using Bluetooth communication, and more particularly, to check a signal strength with a mobile set in an access point to deviate from a certain strength. If it is, how to switch the connection to another access point.

Bluetooth refers to a standard that can transmit and receive data at high speed using radio frequency without a physical cable for communication between various electronic devices. Currently, to access the Internet using a mobile terminal device, a terminal with a data communication function, a laptop, and a separate cable connecting the two are required. However, when Bluetooth is used, data communication between devices is wireless, and there is no need for cable connection to various devices such as digital cameras and printers with Bluetooth function.

Bluetooth 1.1 of the Bluetooth standard specifies that the data transmission speed is 1Mbps, the transmission distance is 10 ~ 100m. Therefore, compared to the Infrared Data Association (IrDA) using infrared rays, the communication distance is longer and the high radio frequency of 2.4 GHz is used. In addition, Bluetooth consumes less than 100mW at 2.7V. IrDA is a clear advantage for portable devices that need to save power because of the battery's limit of 150mW.

Bluetooth is a proximity wireless data communication standard proposed to transmit and receive data at high speed by using radio frequency (RF) without a physical cable in various electromagnetic periods, and employs voice coding method CVSD (Continuous Variable Slope Delta Modulation) It has the advantage that it is possible to transmit not only text data but also voice everywhere.

In order to communicate between devices operating in such a Bluetooth communication environment, a connection operation must be preceded. In this connection operation, a task of matching RF synchronization, establishing a link between link managers provided in a device to communicate, and a channel is required. It is necessary to go through the setting process to send and receive text data, voice, and the like.

Despite these advantages, Bluetooth systems require lower power consumption in view of their potential for use in portable devices such as mobile terminals.

In such a system using Bluetooth, a handover function is essential for implementing a piconet or a scatternet. Although several proposals have been proposed to implement such a handover function, Algorithm had the same problem of roaming as the disadvantage of asynchronous method. That is, a mobile set must always operate in a discoverable mode, and the access point must periodically perform an inquiry to contact surrounding terminals. This approach allows for the implementation of the handover function, but at the expense of system performance. That is, the terminal should operate in Inquiry scan enable mode and the access point must perform inquiries periodically, which is a major cause of deterioration of system performance, especially power consumption and data rate.

In addition, the handover function is inevitably implemented differently compared to the conventional synchronous communication method. That is, since the communication using Bluetooth is asynchronous, in the synchronous mode, the wireless terminal can monitor the reception strength from all terminals within the cell radius. When the terminal moves to another cell radius, the wireless terminal at the center of the cell radius is the terminal of the terminal. While it is possible to monitor the reception strength, in the asynchronous Bluetooth, the terminal attempts to connect to the central wireless end in one cell to secure the channel, or conversely, after the wireless end attempts to connect to the terminal to secure the channel. Receiving strength can be monitored. In addition, in the Bluetooth communication, even if the terminal moves to the radius of another neighboring cell, the radio terminal at the center of the moved cell radius cannot monitor the reception strength of the terminal.

In the synchronous handover command, the handover is performed on the link having the largest reception strength in the fixed part to which the wireless terminal is connected, whereas in Bluetooth, the reception strength of the terminal to which the access point is currently connected is read and judged. You have no choice but to give a handover.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for performing a handover by checking a reception strength of a currently connected terminal in a Bluetooth system.

1 is a system configuration diagram of a handover method using a fixing part

2 is an operation flowchart of a handover method using a fixing unit

3 is a system configuration diagram of a handover method using no fixing unit

4 is an operation flowchart of a handover method without using a fixing part;

5 is a data flow diagram of the terminal in FIG.

6 is a data flow diagram of the fixing part in FIG.

7 is a data flow diagram of the terminal in FIG.

8 is an operational flow diagram of another access point not activated in FIG.

The present invention for achieving this object provides a method for directly transferring to another mobile set and a method for issuing a handover command from the fixed part to another access point by reporting to a fixed part, such as a router.

In such a system, a method of handover by first reporting to a fixed part is described as in FIG. 1.

The method includes a fixed part providing multiple addressable client access points, an access point connected to the fixed part for providing address sharing, and one or more mobile sets connected to the access point at any time. It assumes a system composed of Mobile Set).

The fixed part can have multiple client access points and can be a router as providing address sharing. The fixed unit and all the access points are always in a serviceable state when the connection is completed, and the fixed unit can control all the access points. In addition, the access point (Access Point) is a terminal (Mobile Set), as shown in a may be connected, one or more terminals (Mobile Set) 2 as corresponding to the synchronous wireless end moves in A_1, A_2, A_3 direction do.

The way to implement handover in this system is

The mobile set attempting to connect to the access point;

Allowing the access point to which the connection was attempted to connect the mobile set that attempted the connection and completing the connection of the access point on the mobile set;

Reporting, by the access point, to a router information about the newly connected mobile set;

The router receiving the report assigns a channel for the service and the access point starts the service through the router;

Checking the signal strength when the service is started to check the channel condition at a suitable interval;

If the signal strength is lower than a reference threshold value, informing the route to inform the route of the mobile set currently owned by the access point and perform a handover to another access point;

Instructing the requested route to attempt to connect to the mobile set to be handed over to all other access points;

All other access points controlled by the route attempting to connect to a mobile set in accordance with the command;

Reading the signal strength value and reporting the value to the router among the access points that have completed connection among the access points attempting to connect;

The router receiving the report compares the values to switch the channel to the access point that provides the strongest signal strength, and sends a cancellation command to the access point that provided the service to the mobile set before handover with the other access point occurred. ;

Characterized in that consists of.

Meanwhile, another handover method in Bluetooth communication is as follows.

The second method assumes a system consisting of an access point to which a plurality of terminals can be connected as shown in FIG. 3 and a terminal connected to the access point and moving in the directions A_1, A_2, A_3 ... A_n. In the system, there is no connection between access points unless a handover occurs. Each terminal has its own unique address and it is assumed that the access point knows the address of a neighboring access point in advance.

The handover method in such a system is

The terminal attempting to connect to the access point for service;

Allowing the access point receiving the connection request to connect the terminal and completing the connection;

Checking, by an access point, signal strength at an appropriate interval after the connection is completed;

Comparing the checked signal strength with a preset threshold value;

Requesting to connect to the surrounding access point and report the result when the signal strength checked according to the comparison result is less than or equal to the set threshold value;

The access point receiving the command attempts to connect to the terminal;

Reading the signal strength value at an appropriate interval when the connection with the terminal is completed and waiting until the terminal reaches a predetermined threshold value;

Requesting information about a terminal from the first connected access point when the signal strength value is greater than or equal to a predetermined threshold value;

The new access point receiving the information immediately starts service;

The first access point reported that the service has been started, disconnecting the terminal and giving a cancellation command to another waiting access point;

Characterized in that consists of.

When using this method, handover is possible in a line that minimizes power consumption of the terminal in Bluetooth communication, and communication is ensured above a certain threshold value, thereby enabling handover without compromising the efficiency of data transmission. will be.

Claims (2)

The terminal attempting to connect to the access point for service; Allowing the access point receiving the connection request to connect the terminal and completing the connection; Checking, by an access point, signal strength at an appropriate interval after the connection is completed; Comparing the checked signal strength with a preset threshold value; Requesting to connect to the surrounding access point and report the result when the signal strength checked according to the comparison result is less than or equal to the set threshold value; The access point receiving the command attempts to connect to the terminal; Reading the signal strength value at an appropriate interval when the connection with the terminal is completed and waiting until the terminal reaches a predetermined threshold value; Requesting information about a terminal from the first connected access point when the signal strength value is greater than or equal to a predetermined threshold value; The new access point receiving the information immediately starts service; The first access point reported that the service has been started, disconnecting the terminal and giving a cancellation command to another waiting access point; Handover method in Bluetooth communication, characterized in that consisting of The mobile set attempting to connect to the access point; Allowing the access point to which the connection was attempted to connect the mobile set that attempted the connection and completing the connection of the access point on the mobile set; Reporting, by the access point, to a router information about the newly connected mobile set; The router receiving the report assigns a channel for the service and the access point starts the service through the router; Checking the signal strength when the service is started to check the channel condition at a suitable interval; If the signal strength is lower than a reference threshold value, informing the route to inform the route of the mobile set currently owned by the access point and perform a handover to another access point; Instructing the requested route to attempt to connect to the mobile set to be handed over to all other access points; All other access points controlled by the route attempting to connect to the mobile set in accordance with the command; Reading the signal strength value and reporting the value to the router among the access points that have completed connection among the access points attempting to connect; The router receiving the report compares the values to switch the channel to the access point that provides the strongest signal strength, and sends a cancellation command to the access point that provided the service to the mobile set before handover with the other access point occurred. ; Handover method in Bluetooth communication, characterized in that consisting of