KR20070070496A - A hand-off method for wireless lan mobile voip terminal - Google Patents

Abstract

An AP(Access Point) handoff method of a mobile VoIP(Voice over Internet Protocol) terminal using a wireless LAN(Local Area Network) is provided to be capable of performing handoff according to user's movement in consideration of directivity during handoff between APs, thus the handoff can be more smoothly and quickly performed while the user is moving. A terminal obtains old RSSI(Received Signal Strength Indication) values at a time T1(S410), and obtains new RSSI values at a time T2(S420). The terminal decides whether the first new RSSI value is bigger than the first old RSSI value(S430). If not, the terminal decides whether the first new RSSI value is bigger than a threshold value(S440). If not, the terminal decides whether the first RSSI new value is bigger than the second and third new RSSI values(S450). If not, the terminal compares the first and second vectors(S470). If the first vector is larger than the second vector, the terminal attempts a link to an AP B(S480).

Description

A hand-off method for wireless LAN mobile VoIP terminal using a wireless LAN terminal

1 illustrates access points and a terminal.

2 is a flowchart of an access point handoff method of a mobile VoIP terminal using a wireless LAN according to the present invention.

3 is a diagram illustrating a state in which a terminal moves in a relationship with access points when there are three access points.

4 is a flowchart of an algorithm for determining a motion position according to the present invention applied when there are three access points.

The present invention relates to a method for improving handoff performance between access points when using a VoIP terminal using a WLAN.

In a conventional WLAN system, handoff between an access point (AP) operates as follows.

The terminal periodically obtains RSSI (Receive Signal Strength Indication) value indicating the strength of the signal received from the neighboring access points at regular intervals and handoffs to the access point having the strongest received signal among the neighboring access points. Will try.

Conventionally, after handing off an IP received from a DHCP server from an access point that has been connected for the first time, the moving access point is continuously used to maintain the IP, thereby transmitting and receiving wireless LAN data, thereby interworking with the access point. It is.

Problems in the operation of the VoIP terminal using the conventional WLAN as described above are as follows.

Conventionally, by scanning the neighboring access points at regular intervals, the strength of the RSSI value for each access point is viewed, and the handoff is performed to the access point having the strongest received signal.

If the user proceeds in this way, the user does not consider the directionality when the user is moving, and the access point connection is performed by measuring the received signal based on the point in time.

1 illustrates access points and a terminal.

Referring to FIG. 1, when the WLAN VoIP terminal 150 moves from the location where the access point A 110 is located to the area where the access point B 120 is located or the area where the access point C 130 is located, the access point toward which access point is located. It does not consider whether to move, and handoff is performed based on only the access signal for which access point is the strongest at the time of receiving signal strength measurement.

In this case, for example, if an access point connection is attempted in an area where the area covered by the access point B 120 and the area covered by the access point C 130 overlap, the VoIP terminal 150 receives the reception at that time. The problem arises that the directionality is not taken into account because the access point is attempted using only the signal strength.

The present invention has been made to solve the above problems of the prior art. That is, an object of the present invention is to provide a method for handoff according to a user's movement in consideration of directionality when performing handoff between access points in a VoIP terminal using a WLAN. Through this, the handoff between the access points during the movement of the user can be performed more smoothly and quickly, and to improve the voice quality of the mobile VoIP terminal using the local area network.

In an access point handoff method of a mobile VoIP terminal using a wireless LAN according to the present invention for achieving the above object, the first received signal strength for measuring the received signal strength for each access point in a mobile VoIP terminal using a wireless LAN Measuring step; The second received signal strength measurement for measuring the received signal strength for each access point in the mobile VoIP terminal again after a predetermined time after measuring the received signal strength for each access point in the first received signal strength measurement step step; A received signal strength change measuring step of obtaining a difference for each access point obtained by subtracting the received signal strength measured in the first received signal strength measuring step from the received signal strength measured in the second received signal strength measuring step; And a handoff step of performing a link to the access point having the largest change in the received signal strength in the received signal strength change measurement step.

In the handoff step, when the received signal strength measured in the second received signal strength measurement step is increased with respect to the currently connected access point than the received signal strength measured in the first received signal strength measurement step, the currently accessed access point Maintain a connection to the.

In the handoff step, when the received signal strength measured in the second received signal strength measurement step with respect to the currently connected access point is greater than a threshold, the connection to the currently connected access point is maintained. .

Further, in the handoff step, in the second received signal strength measurement step for the access points that the received signal strength measured in the second received signal strength measurement step for the currently connected access point is not currently connected; When compared with all of the measured received signal strengths, it is characterized in that the connection to the currently accessed access point is maintained.

Further, in the handoff step, in the second received signal strength measurement step for the access points that the received signal strength measured in the second received signal strength measurement step for the currently connected access point is not currently connected; If less than any one of the measured received signal strength is characterized in that the connection to the access point that is not currently connected.

According to the present invention, it is a basic technical idea to determine an access point to be connected when a terminal moves to an area covered by another access point by using a vector of direction components for a user's movement.

The vector of the direction component is a vector of a movement occurring while the user connects to one access point and moves to an area covered by another access point.

As shown in FIG. 1, the vector component generated by moving from the region of the access point A 110 to the region of the access point B 120 becomes the vector 1 and the access point B (the region of the access point A 110). 120) The vector component generated by moving to the region becomes the vector (2).

In the operation of the present invention, as shown in Fig. 1, the local area IP is obtained from the DHCP server by performing a link-up to the AP in the region A to use the mobile VoIP phone for the first WLAN in the access point region A.

The obtained IP is used to make a Voice Over Internet Protocol (VoIP) call using a wireless LAN terminal in the A region.

If the user who initiated the call in region A makes a call and moves to the access point B region or the access point C region as shown in Figure 1, the connection is made and then scanned around the RSSI value at the current A position. Record the RSSI values of both the access point B and the access point C.

If the user is moving while talking on the phone, if access point scanning is performed while moving, checking the RSSI value of each access point may have changed.

The changed RSSI value is used to obtain a motion vector of a user moving during a call.

In the present invention, the RSSI_old values of all the access points scanned at the current user's location are obtained using a moving location algorithm as shown in FIG. 4. Then, as shown in Figure 1, when moving in the direction of (1) or (2), after a certain time, neighboring access points again use the RSSI value of each current access point obtained by scanning (1) or (2). We get the directional vector for).

When the direction of (1) or (2) is known, scanning is performed based on the access point associated with the direction, and the access point link process as shown in FIG. 2 is performed.

As shown in FIG. 2, by using a result obtained by applying a moving location algorithm, a continuous link-up is prepared for an access point related to a user's progress in the future. Hand-Off is more smooth than when moving to the B or C area.

2 is a flowchart of an access point handoff method of a mobile VoIP terminal using a wireless LAN according to the present invention.

The terminal periodically scans the access point (S210), and obtains an RSSI value for each access point (S220). The motion position algorithm (Fig. 4) is applied using the RSSI value (S230). As a result of the application of the motion position algorithm, it is determined whether a change has occurred in access point connection (S240). If there is no change, the process returns to step S210 and periodically scans the access point, and if there is a change, performs a link to a newly accessed access point ( S250). When the link is completed, the terminal maintains the call state (S260).

3 is a diagram illustrating a state in which a terminal moves in a relationship with access points when there are three access points.

3, three access points of the access point A 310, the access point B 320, and the access point C 330 are located, and the terminal 350 is located close to the access point A 310 at the time T1. At time T2, it moves to a location close to access point B 320.

The terminal 350 obtains RSSI values for the access point A 310, the access point B 320, and the access point C 330 at the time T1. The RSSI value obtained by the terminal 350 for the access point A 310 at the T1 time is RSSI_A_old, and the RSSI value obtained by the terminal 350 for the access point B 320 at the T1 time is RSSI_B_old and the terminal 350. The RSSI value obtained for the access point C 330 at time T1 is RSSI_C_old.

When the time T2 comes after the time T1, the terminal 350 obtains RSSI values for the access point A 310, the access point B 320, and the access point C 330 at the time T2. The RSSI value obtained by the terminal 350 for the access point A 310 at the T2 time is RSSI_A_new, and the RSSI value obtained by the terminal 350 for the access point B 320 at the T2 time is RSSI_B_new and the terminal 350. The RSSI value obtained for the access point C 330 at time T2 is RSSI_C_new.

A method of performing handoff between access points using a directional vector using the RSSI values obtained as described above is shown in the flowchart of FIG. 4.

4 is a flowchart of an algorithm for determining a motion position according to the present invention applied when there are three access points.

It is assumed that the terminal is initially connected to the access point A.

The terminal calculates RSSI_A_old, RSSI_B_old, and RSSI_C_old values at the time T1 (S410). Thereafter, the terminal calculates RSSI_A_new, RSSI_B_new, and RSSI_C_new values at time T2 (S420).

After all the RSSI values are obtained, a calculation for determining an access point is performed.

First, it is determined whether the RSSI_A_new value is greater than or equal to the RSSI_A_old value (S430). If the RSSI_A_new value is greater than or equal to the RSSI_A_old value, the terminal has moved to the access point A or maintains the same position. Therefore, the access point A currently being accessed is maintained without performing a handoff (S460).

If the RSSI_A_new value is smaller than the RSSI_A_old value as a result of the determination in step S430, it is determined whether the RSSI_A_new value is greater than or equal to the threshold value (S440). If a received signal received by the terminal from a certain access point is greater than or equal to a certain size, there is no problem even if the access point continues to be used. The predetermined magnitude of the received signal is the threshold. If the received signal RSSI_A_new received from the current access point A is greater than or equal to the threshold value, even if the RSSI_A_new value is smaller than the RSSI_A_old value, there is no problem even if the access point A is used continuously. A is maintained (S460).

If the RSSI_A_new value is smaller than the threshold in step S440, it is determined whether the RSSI_A_new value is equal to or greater than the RSSI_B_new value or the RSSI_C_new value (S450). If the RSSI_A_new value is equal to or greater than the RSSI_B_new value or the RSSI_C_new value, the signal received by the terminal at the access point A is greater than the signal received at the terminal at the access point B or the access point C, so that the current access point may be maintained. Therefore, in this case, the access point A currently connected is maintained without performing handoff (S460).

If the RSSI_A_new value is smaller than the RSSI_B_new value and smaller than the RSSI_C_new value as a result of the determination in step S450, the vector 1 and the vector 2 are compared (S470). Vector 1 is a directional vector from access point A toward access point B and vector 2 is a directional vector from access point A towards access point C.

As a result of comparing the vector (1) and the vector (2), if the vector (1) is larger than the vector (2), the terminal has moved in the direction of the access point B, and thus attempts to link to the access point B (S480), and the vector (2). Is greater than the vector 1, the terminal has moved in the direction of the access point C and attempts to link to the access point C (S490).

In the above, the access point handoff method of the mobile VoIP terminal using the wireless LAN according to the present invention has been described.

Although the present invention has been described herein through separate embodiments, the scope of the access point handoff method of a mobile VoIP terminal using a wireless LAN according to the present invention is not limited to that described in the present application, but the specification and the appended claims. It includes all the modified and modified forms belonging to the technical spirit described in.

According to the present invention, when performing handoff between access points in a VoIP terminal using a WLAN, handoff may be performed according to a user's movement. Through this, handoff between access points of a user's movement can be performed more smoothly and quickly, thereby improving the voice quality of a mobile VoIP terminal using a local area network.

Claims (5)

A first received signal strength measurement step of measuring received signal strength for each access point in a mobile VoIP terminal using a wireless LAN; The second received signal strength measurement for measuring the received signal strength for each access point in the mobile VoIP terminal again after a predetermined time after measuring the received signal strength for each access point in the first received signal strength measurement step step; A received signal strength change measuring step of obtaining a difference for each access point obtained by subtracting the received signal strength measured in the first received signal strength measuring step from the received signal strength measured in the second received signal strength measuring step; And a handoff step of performing a link to an access point having the largest change in the received signal strength in the received signal strength change measurement step. The method of claim 1, wherein in the handoff step, If the received signal strength measured in the second received signal strength measurement step increases with respect to the currently connected access point than the received signal strength measured in the first received signal strength measurement step, the connection to the currently connected access point is maintained. Access point handoff method of a mobile VoIP terminal using a wireless LAN, characterized in that. The method of claim 1, wherein in the handoff step, When the received signal strength measured in the second received signal strength measurement step for the currently connected access point is greater than the threshold value of the mobile VoIP terminal using a wireless LAN, characterized in that for maintaining the connection to the currently connected access point Access Point Handoff Method. The method of claim 1, wherein in the handoff step, The received signal strength measured in the second received signal strength measurement step with respect to the currently connected access point and the received signal strengths measured in the second received signal strength measurement step with respect to the access points that are not currently connected; When compared, the access point handoff method of a mobile VoIP terminal using a wireless LAN, characterized in that for maintaining the connection to the access point currently connected. The method of claim 1, wherein in the handoff step, Any one of the received signal strengths measured in the second received signal strength measurement step for the access points that are not currently connected to the received signal strength measured in the second received signal strength measurement step for the currently connected access point If smaller, the access point handoff method of a mobile VoIP terminal using a wireless LAN characterized in that the connection to the access point that is not currently connected.

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