KR100748683B1 - Apparatus and method for a connection access point of wireless lan device - Google Patents

Abstract

An apparatus and method for selecting a connection access point of a WLAN terminal according to the present invention may allow a WLAN terminal to store an SSID (Service Set Identifier) of an access point previously connected, and may require connection to a new access point. When it occurs, it extracts only the access points including the same SSID as the stored SSID among the accessible access points and selects the access point to be connected to maintain the connection with the previously connected network. Can improve communication performance.

Description

APAPATUS AND METHOD FOR A CONNECTION ACCESS POINT OF WIRELESS LAN DEVICE}

1 is a signal flow diagram illustrating an access point access procedure of a WLAN terminal.

2 is a view showing a wireless LAN system constituting a wireless LAN terminal and an access point according to an embodiment of the present invention.

3 is a block diagram of a wireless LAN terminal according to an embodiment of the present invention.

4 is a flowchart illustrating a process of selecting an access point of a wireless LAN terminal according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

100: WLAN terminal 200: access point

110: control unit 120: communication unit

130: storage unit

The present invention relates to an apparatus and method for selecting an access point of a wireless LAN terminal.

In general, a wireless LAN is an extension of a wired LAN and uses radio frequency technology to transmit or receive data in the air without a cable connection. Currently used WLAN generally follows the IEEE 802.11 standard.

A wireless LAN system implemented through such a wireless LAN may be configured to include a wireless fidelity (WiFi) terminal and an access point. A WiFi terminal, that is, a wireless LAN terminal, is an Internet telephone that allows an Internet telephone to be used using a wireless LAN environment defined in IEEE 802.11. In order to communicate with a terminal in another location, the WLAN terminal must access an access point and exchange communication signals with an external soft switch connected to the Internet and a network. This is because the hidden node problem occurs because the radio coverage area of the WLAN terminals is narrow, so that the radio coverage area communicates with the Internet and the network through a wide access point.

1 is a signal flow diagram illustrating an access point access procedure of a WLAN terminal.

As illustrated in FIG. 1, when the WLAN terminal 100 intends to access the access point 200, the WLAN terminal 100 transmits a scan request signal (S101).

The WLAN terminal 100 receives a scan response signal corresponding to the transmitted scan request signal from the neighboring access points 200 (S102). The WLAN terminal 100 selects the access point 200 having the highest signal strength among the access points that provide the response signal to the transmitted signal (S103), and accesses the selected access point 200 ( association) (S104).

The WLAN terminal 100 may select and access an access point 200 suitable for performing communication through the above process.

On the other hand, when the wireless LAN terminal connected to the access point and performing communication is moved to another location by the user and the connection with the connected access point is cut off, or the signal strength of the connected access point is weakened, the above-described FIG. The connection process of 1 is performed again to connect to the new access point.

However, different access points may connect to different networks. That is, when the wireless LAN terminal uses only the signal strength of the access point as the selection condition of the access point to be connected, it may occur when connecting to a network other than the network previously connected. In this case, the connection with the existing network may be lost and the communication service that is being performed may be stopped.

Accordingly, the present invention is to solve the above-described problems according to the prior art, the object of the present invention is to terminate the connection with the existing access point to the wireless LAN terminal connected to a new access point, the existing access point is An apparatus and method for selecting an access point of a wireless LAN terminal to maintain a connection with an interworking network is provided.

According to an aspect of the present invention, there is provided a wireless LAN terminal, including: a storage unit storing an SSID (Service Set Identifier) of an access point (Access Point) previously connected; If it is determined that a connection to a new access point is necessary, the access point is scanned, the access points including the same SSID as the SSID stored in the storage unit are extracted from the scanned accessible access points, and And a controller for selecting an access point to be connected among the extracted access points.

The control unit selects an access point having the largest RSSI (Received Signal Strength Indication) value among the extracted access points, and accesses the selected access point.

The control unit obtains the SSID of each access point from the scan response signals received from the scanned access points.

The controller determines that the connection to the new access point is necessary when the connection with the existing access point is terminated or when the strength of the signal received from the existing access point is equal to or less than a preset value.

On the other hand, the access point selection method of the wireless LAN terminal according to another aspect of the present invention for achieving the above object is determined that the connection to a new access point to replace the previously connected access point is determined to be connected Scanning for possible access points; Extracting only the access points among the scanned access points including the same SSID as the SSID of the existing access point; And selecting an access point to connect from among the extracted access points.

Extracting only the access points having the same SSID as the SSID of the existing access point among the scanned access points, the SSID of the existing stored access point and the SSID of each of the scanned access points In comparison, only the access points including the same SSID as the SSID of the existing access point are extracted.

An SSID equal to the SSID of the scanned access points is obtained from a scan response signal received from the scanned access points.

Selecting an access point to access among the extracted access points, selects the access point having the largest RSSI value among the scanned access points.

The determining that the connection to the new access point is necessary may include: connecting to the new access point when the connection with the existing connected access point is terminated or when the strength of the signal received from the previously connected access point is less than or equal to a preset value. I think this is necessary.

Hereinafter, an apparatus and method for selecting access point of a WLAN terminal according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a diagram illustrating a WLAN system constituting a WLAN terminal and an access point according to an embodiment of the present invention.

As shown in FIG. 2, the WLAN system may be configured to include a WLAN terminal 100 and an access point 200.

In the WLAN system, the WLAN terminal 100 accesses the access point 200 and performs communication with other WLAN terminals, the Internet, and a network. The wireless LAN terminal 100 selects a new access point 200 when the connection to the access point 200 that is being connected is lost or the strength of the signal received from the access point 200 being connected is weakened. (association)

The WLAN terminal 100 may store a service set identifier (SSID) of a network to which an access point 200 previously connected is interworked, and extract the access point 200 including the same SSID as the stored SSID. Can be connected. 'SSID' is a 32-byte unique identifier added to each header of packets transmitted through the WLAN, and distinguishes one wireless network from another network. In addition, the WLAN terminal 100 may analyze the RSSI (Received Signal Strength Indication) value of the access point 200, and may select and access the access point 200 having the largest RSSI value. 'RSSI' is a degree indicating received signal strength.

For example, referring to FIG. 1, the operation of the WLAN terminal will be described. 1 may assume a situation in which the access point 200a and the access point 200c are linked to the same network, and the access point 200b is linked to another network. In this case, the WLAN terminal 100 may initially connect with the access point 200a at the P1 location for communication with the counterpart terminal to communicate with. The wireless LAN terminal 100 may store the SSID of the connected access point 200a when communication with the counterpart terminal is performed through the connected access point 200a.

On the other hand, when the WLAN terminal 100 is moved from the P1 position to the position of P3 by the user during a call, the connection to the access point 200a initially connected during the movement is cut off, or the access point 200a. The strength of the signal received from may be weakened. In this case, the WLAN terminal 100 attempts to access a new access point 200.

For example, when the WLAN terminal 100 attempts to access a new access point 200 at the location of P2, the WLAN terminal 100 may access the new access point 200 at the location of P2. The scan request signal may be transmitted, and scan response signals corresponding to the transmitted signal may be provided from three access points 200a, 200b, and 200c.

When the WLAN terminal 100 receives the scan response signals from the three access points 200a, 200b, and 200c, the WLAN terminal 100 may acquire the SSIDs of the access points 200a, 200b, and 200c included in the received scan response signals. have. In addition, the WLAN terminal 100 compares the SSIDs of the respective access points 200a, 200b, and 200c with the SSIDs stored therein, and includes the access point 200a including the same SSID as the SSIDs stored therein. And the access point 200c may be extracted. When the WLAN terminal 100 extracts the access points 200a and 200c having the same SSID as the self, the WLAN terminal 100 selects an access point having a larger RSSI value from the extracted two access points 200a and 200b and selects the selected access point 200. ) Can be accessed.

Therefore, the WLAN terminal 100 has an advantage of having the largest RSSI value because it is located at the closest distance from the position of P2, but the access point 200b that uses a different network from the access point 200a that has been previously connected. ), You can stay connected to your existing network.

3 is a block diagram of a wireless LAN terminal according to an embodiment of the present invention.

As shown in FIG. 3, the wireless LAN terminal 100 may be configured to include a controller 110, a communication unit 120, and a storage unit 130.

The controller 110 may control the overall operation of the WLAN terminal 100 and may analyze the SSID of the access point 200 connected and the SSID of the access points accessible. In addition, the controller 110 may compare and analyze the RSSI values of the accessible access points 200.

The communicator 120 performs wireless communication with the access point 200.

The storage unit 130 may store the SSID of the access point 200 initially connected for communication with the counterpart terminal to communicate with.

Referring to the operation of the WLAN terminal 100 having such a configuration, first, the control unit 110 of the WLAN terminal 100 receives a communication request signal with a counterpart terminal to communicate with the user through the communication unit 120. By transmitting a scan request signal, the accessible access points 200 may be scanned.

When the accessible access points 200 are scanned, the controller 110 selects one of the scanned access points 200 having the largest RSSI value, and performs access to the selected access point 200 through the communication unit 120. do. The controller 110 analyzes the SSID of the connected access point 200 and stores the SSID in the storage 130, and communicates with the counterpart terminal through the communication unit 120.

On the other hand, the controller 110 is disconnected or connected to the access point 200 that is connected when the case where the WLAN terminal 100 is moved to another location by the user during communication with the other terminal, etc. It may be determined that the RSSI value received from the access point 200 that has been weakened. In this case, the controller 110 transmits a scan request signal through the communication unit 120 to receive a scan response signal from the newly accessible access points 200 to access the new access point 200.

When the control unit 110 receives the scan response signal, the controller 110 may acquire SSIDs of the accessible access points 200 included in the received signal. The controller 110 compares the SSIDs of the accessible access points 200 and the SSIDs stored in the storage unit 130, and compares only the access points 200 including the same SSID as the SSIDs stored in the storage unit 130. Can be extracted. When the controller 110 extracts only the access points 200 including the same SSID as the SSID stored in the storage 130, the controller 110 selects the access point 200 having the largest RSSI value among the extracted access points 200. Can be connected.

As described above, the wireless LAN terminal 100 stores the SSID of the network to which the previously connected access point 200 is linked to the storage unit 130, and then accesses the new access point 200 when the wireless access point 200 needs to be connected. The access point 200 including the same SSID as the SSID stored in the storage unit 130 among the 200 may maintain a connection with an existing connected network.

4 is a flowchart illustrating an access access point selection process of a wireless LAN terminal according to an embodiment of the present invention.

4 omits the initial access point access procedure of the WLAN terminal 100 and the SSID storage process of the WLAN terminal 100.

As shown in FIG. 4, when the WLAN terminal 100 storing the SSID of the access point 200 connected in the communication with the counterpart terminal is moved by a user, etc., It may be determined whether the connection with the connected access point 200 is terminated (S201).

If it is determined that the access point 200 is disconnected, the WLAN terminal 100 transmits a scan request signal for access to the new access point 200 (S203), and newly accesses the access point 200. Scan)

The WLAN terminal 100 compares the SSIDs included in the scanned access points 200 with the SSIDs stored therein, and only the access points 200 including the same SSIDs as the SSIDs stored therein. Can be extracted (S204).

The WLAN terminal 100 selects the access point 200 having the largest RSSI value among the extracted access points 200 (S205), and accesses the selected access point 200 (S206).

On the other hand, the WLAN terminal 100 may determine whether the RSSI value received from the access point 200 is weakened (S202). Here, the WLAN terminal 100 may preset the threshold value for the RSSI value, and may determine that the signal is weakened when the RSSI value below the set threshold value is received from the access point 200.

If it is determined that the RSSI value of the connected access point 200 is not weakened, the WLAN terminal 100 continuously performs communication with the counterpart terminal through the connected access point 200. However, if it is determined that the RSSI value of the accessed access point is weakened, the WLAN terminal 100 transmits a scan request signal as described above (S203), scans an accessible access point, and scans the accessed access points 200. Among them, an access point including the same SSID as the SSID stored therein may be extracted (S204).

The WLAN terminal 100 selects an access point 200 having the largest RSSI value among the extracted access points 200 (S205) and accesses it (S206).

Apparatus and method for selecting an access point of a wireless LAN terminal according to the present invention as described above, if the wireless LAN terminal stores the SSID of the previously connected access point, if a connection to a new access point occurs, Improves the communication performance of the WLAN terminal by extracting only access points including the same SSID as the stored SSID among the accessible access points, and selecting an access point to be connected to maintain the connection with an existing connected network. You can.

Claims (9)

In a wireless LAN terminal, A storage unit for storing an SSID (Service Set Identifier) of an access point previously connected; Wow If it is determined that a connection to a new access point is necessary, the access point is scanned, the access points including the same SSID as the SSID stored in the storage unit are extracted from the scanned accessible access points, and A WLAN terminal comprising a control unit for selecting an access point having the largest RSSI value among the extracted access points. delete The method of claim 1, The control unit, Wireless LAN terminal to obtain the SSID of each access point from the scan response signals received from the scanned access points. The method of claim 1, The control unit, The WLAN terminal determines that the connection to the new access point is necessary when the connection with the existing access point is terminated or the strength of the signal received from the existing access point is less than or equal to a preset value. In the connection access point selection method of a wireless LAN terminal, Scanning for accessible access points as it is determined that a connection to a new access point is required to replace the previously connected access point; Extracting only the access points among the scanned access points including the same SSID as the SSID of the existing access point; And Selecting an access point having the largest RSSI value among the extracted access points. The method of claim 5, Extracting only the access points among the scanned access points that include the same SSID as the SSID of the existing access point, Method for selecting an access point of a wireless LAN terminal by comparing the SSID of the previously stored access point and the SSID of each of the scanned access point to extract only the access points including the same SSID as the SSID of the existing access point. The method of claim 5, SSID equal to the SSID of the scanned access points, The method of selecting an access point of a WLAN terminal obtained from a scan response signal received from the scanned access points. delete The method of claim 5, The determining that the connection to the new access point is necessary, A method of selecting an access point of a wireless LAN terminal which determines that connection to a new access point is necessary when connection with an existing connected access point is terminated or the strength of a signal received from an existing connected access point is less than or equal to a preset value.

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