JP2006311077A - Wireless lan terminal, and method and program for scanning operation of wireless lan terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wireless LAN terminal capable of efficiently connecting with an access point. <P>SOLUTION: The wireless LAN terminal 100 communicates with an authentication gate device 300 installed at the entrance or exit of a specified area for entry/exiting detection, and performs scanning operation for searching for an access point 200 as a connection destination. The wireless LAN terminal 100 normally performs the scanning operation while increasing interval time ΔT of the scanning operation in steps from an initial value T0 with the lapse of time after the scanning operation starts (ST4101 to ST4107). When receiving an entry detection signal that the authentication gate device 300 sends on detecting the entry of the wireless LAN terminal 100 which passes through the entrance or exit of the specified area (ST4201), the wireless LAN terminal sets the interval time ΔT of the scanning operation to the initial value T0 again and performs the scanning operation (ST4202 to ST4206). <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a wireless LAN terminal, a scanning operation method and a scanning operation program for a wireless LAN terminal, and more specifically, for detecting entry / exit with an entrance / exit management device installed at an entrance or exit of a specific area. The present invention relates to a wireless LAN terminal, a scanning operation method for a wireless LAN terminal, and a scanning operation program that perform a scanning operation for scanning and searching for a connection destination access point.

  Conventionally, a wireless local area network (LAN) system with an access point as a control station that transmits and receives data by wireless communication has been built, and a large number of unspecified users can use laptop computers and personal digital assistants (PDAs) ) Is available to connect to the Internet or the like wirelessly. In the wireless LAN system, as a communication standard, a method prescribed by IEEE (Institute of Electrical and Electronics Engineers) 802.11b is mainly used, but a method based on IEEE 802.11a, Bluetooth, and other methods are also available. Used.

For example, a wireless LAN terminal having a wireless LAN communication function is provided in order to realize wireless LAN communication in a specific area (facility) such as a company, a school, or a vacation facility.
Until the wireless LAN terminal connects to the access point and establishes communication, it repeatedly scans and searches for the access point to which it is connected. However, the frequent scan operation always takes into account the battery life. Then, it is not preferable.
Conventionally, there has been proposed a wireless LAN terminal that performs a scanning operation by extending a scanning operation interval stepwise from an initial value at a predetermined rate until connection is established with an access point (for example, a patent) Reference 1).
Japanese Patent Laying-Open No. 2001-298458 (FIG. 3, paragraphs 0006 to 0008)

  However, in the technique described in Patent Document 1, when the wireless LAN terminal cannot connect to the access point for a long time, the scan operation interval may reach several tens of minutes, for example, and the wireless LAN terminal can be connected again. There was a problem that it was not possible to connect to the access point immediately even if it entered the installation area (facility) of the access point.

The wireless LAN terminal according to the present invention is installed at an entrance or exit of a specific area and performs communication for entrance / exit detection with an entrance / exit management device that detects entrance / exit of the wireless LAN terminal, and A wireless LAN terminal that performs a scanning operation for scanning and searching for access points. In normal times, the interval time of the scanning operation is gradually increased from the initial value within a certain range as time elapses after the start of the scanning operation. However, when the scanning operation is performed and the wireless LAN terminal passes through the entrance or exit of the specific area, the entrance / exit management device receives an entrance / exit detection signal transmitted by detecting the entrance / exit of the wireless LAN terminal. A scan operation is performed by changing the setting of the interval time.
By adopting such a configuration, a wireless LAN terminal that can be efficiently connected to an access point can be provided.

  The present invention can provide a wireless LAN terminal that can be efficiently connected to an access point.

A configuration of a wireless LAN communication system including a wireless LAN terminal according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram showing a configuration of a wireless LAN communication system including a wireless LAN terminal according to an embodiment of the present invention.
As shown in FIG. 1, a wireless LAN system 1 includes, for example, a wireless LAN terminal 100, access points 200, 200a, 200b, and 200c as a plurality of control stations, an authentication gate device 300 as an entrance / exit management device, and a network server. 400, a gateway 500, and an authentication server 600. Of the access points 200, 200a, 200b, and 200c, the access points 200a, 200b, and 200c have the same internal configuration as that of the access point 200, and thus the internal configuration diagram is omitted.

The wireless LAN terminal 100 and the access points 200, 200a, 200b, and 200c are wirelessly connected according to, for example, IEEE 802.11 or IEEE 802.11b.
The wireless LAN terminal 100 and the gate authentication device 300 are wirelessly connected in accordance with, for example, ISO (International Organization for Standardization) / IEC (International Electro technical Commission) IS 18092.
First, the internal configuration of the wireless LAN terminal 100 will be described with reference to the drawings.
As shown in FIG. 1, a wireless LAN terminal 100 includes a wireless LAN antenna 101, a wireless LAN wireless communication unit 102, a contactless card function antenna 103, a contactless card function wireless communication unit 104, a storage unit 105, and a control unit. 106 is provided.

A wireless LAN wireless communication unit 102 as a second wireless unit is connected to the wireless LAN antenna 101 and the control unit 106. When the wireless LAN wireless communication unit 102 is not connected to any of the access points 200, 200 a, 200 b, 200 c, the access point 200, the connection destination access point 200, via the wireless LAN antenna 101, according to the instruction of the control unit 106. 200a, 200b, and 200c are scanned and transmitted for search. Specifically, setting information (first setting information, second setting information) for performing a scanning operation for scanning and searching connection destination access points 200, 200a, 200b, and 200c stored in the storage unit 105 to be described later. According to the setting information). The transmission wave transmitted during the scanning operation by the wireless LAN terminal 100 includes a connection request (Probe Request).
Further, when the wireless LAN wireless communication unit 102 is connected to any one of the access points 200, 200a, 200b, and 200c (for example, 200), the wireless LAN wireless communication unit 102 communicates with the access point 200 that is the connection destination according to an instruction from the control unit 106. , Send and receive data.

  The contactless card function wireless communication unit 104 as the first wireless unit is connected to the contactless card function antenna 103 and the control unit 106. The contactless card function wireless communication unit 104 mainly performs communication for entry / exit detection with the authentication gate device 300 via the contactless card function wireless communication antenna 103. Specifically, for example, the contactless card function wireless communication unit 104 is used for contactless card function wireless communication in accordance with an instruction from the control unit 106 when the wireless LAN terminal 100 passes through an entrance or exit of a specific area (area). The identification information of the wireless LAN terminal 100 stored in the storage unit 105 is transmitted to the authentication gate device 300 via the antenna 103. Further, the non-contact card function wireless communication unit 104 receives an entrance / exit detection signal that the authentication gate device 300 detects and transmits the entrance / exit of the wireless LAN terminal 100 after the authentication process.

The storage unit 105 is connected to the control unit 106. The storage unit 105 stores setting information for performing a scanning operation for scanning and searching for the access points 200, 200a, 200b, and 200c that are connection destinations.
This setting information includes first setting information and second setting information. This setting information may be provided as a program. The program related to the setting information can be obtained, for example, by provision via the Internet from a storage medium storing the program related to the setting information or a server storing the program related to the setting information.

The first setting information is the setting information related to the scan operation at the normal time.For example, the interval time of the scan operation is increased stepwise from the initial value within a certain range according to the elapse of time after the start of the scan operation. However, the program information is set to perform the scan operation.
The second setting information is an entrance / exit detection signal that the authentication gate device 300 detects and transmits when the wireless LAN terminal 100 passes through the entrance or exit of a specific area (facility). The program information is set so that the scan operation interval is changed and the scan operation is set. Specifically, for example, when the wireless LAN terminal 100 passes through the entrance of a specific area (facility), when the authentication gate device 300 receives an entrance detection signal transmitted by detecting the entrance of the wireless LAN terminal 100, scanning is performed. The program information is set to perform the scan operation while resetting the operation interval time to the initial value and gradually increasing the scan operation interval time.

Regarding the first setting information, specifically, as shown in FIG. 2, for example, the interval time of the scanning operation is varied.
FIG. 2 is a diagram illustrating the relationship between the scan operation interval time ΔT and the elapsed time t after the start of the scan operation.
As shown in FIG. 2, for example, the scan operation interval time ΔT after the scan start is set to ΔT0 (initial value), and the scan operation interval time T is stepwise according to the elapsed time t after the scan operation starts. Increasing. At the elapsed time t1 after the start of the scan operation, the scan operation interval time reaches ΔT1. After the elapsed time t1 after the start of the scan operation, the increase amount of the interval time per unit time is increased, and the interval time T of the scan operation is increased stepwise until the elapsed time t2 after the start of the scan operation. After the elapsed time t2 after the start of the scan operation, the scan operation interval time ΔT is set to ΔT2 (a constant value).

The significance of increasing the scan operation interval ΔT stepwise from the initial value ΔT0 at a predetermined rate until communication is established after connecting to the access points 200, 200a, 200b, and 200c will be described. In other words, the access points 200, 200a, 200b, and 200c are securely connected to the access points 200, 200a, 200b, and 200c everywhere in each specific area (facility) depending on the relationship between the installation location of the access points 200, 200b, and 200c, the output level of the transmission wave, and the like. Is difficult to establish.
When the wireless LAN terminal 100 moves in a specific area (facility), the wireless LAN terminal 100 cannot be connected to any of the access points 200, 200a, 200b, and 200c depending on the location, and may be out of service. is assumed. In this case, it may be preferable to search the access points 200, 200a, 200b, and 200c as connection destinations early by shortening the time interval of the scanning operation.

  However, if the wireless LAN terminal 100 has been unable to find the access points 200, 200a, 200b, and 200c to be connected for a long time, the wireless LAN terminal 100 has already installed the access points 200, 200a, 200b, and 200c. It is also assumed that it is away from the specified area (facility). Considering the battery life, for example, as shown in FIG. 2, the interval time ΔT of the scanning operation is changed from the initial value ΔT0 until the connection is established by connecting to the access points 200, 200a, 200b, 200c. It is preferable to increase or extend stepwise at a predetermined rate. The maximum value ΔT2 is preferably about several minutes to several tens of minutes in consideration of the battery life of the general wireless LAN terminal 100 and the like.

  Further, the amount of increase in the scan operation interval time ΔT per unit time around the elapsed time t1 after the start of the scan operation is changed because, for example, the user of the wireless LAN terminal 100 is in a specific area or facility. This is because the staying time is assumed to be t1. That is, it is assumed that the wireless LAN terminal 100 exists in the specific area (facility) before the elapsed time t1 after the start of the scanning operation, and the increase rate of the scanning operation interval time ΔT is suppressed low, and the wireless LAN terminal after t2. Assuming that 100 does not exist in the specific area (facility), the increasing speed of the scan operation interval time ΔT is increased. The embodiment shown in FIG. 2 is an example of the present invention, and of course, the increase amount per unit time of the scan operation interval time ΔT may not be changed around the elapsed time t1 after the start of the scan operation. . Further, the increase amount per unit time of the interval time ΔT of the scan operation may be changed three times or more.

The storage unit 105 stores a connection destination candidate list (profile) as shown in FIG. 3, for example.
FIG. 3 is a diagram showing the contents of the access point candidate list of connection destinations stored in the storage unit 105 of the wireless LAN terminal 100.
For each profile, profile name, SSID (Service Set Identifier), IP (Internet Protocol) address setting, DNS (Domain Name System) setting, Proxy setting, communication channel setting, security method setting (for example, Information such as WEP (Wired Equivalent Privacy) and SIP server settings is stored. According to this profile, the wireless LAN terminal 100 scans and searches for connection destination access points 200, 200a, 200b, and 200c, and wirelessly connects to the access point that has responded.

Note that one or a plurality of profiles can be stored, and can be automatically input by an operation unit (not shown) by the user of the wireless LAN terminal 100 or from an access point existing around the wireless LAN terminal 100. It is set by acquiring.
The control unit 106 is connected to the wireless LAN wireless communication unit 102, the contactless card function wireless communication unit 104, and the storage unit 105, and controls the entire wireless LAN terminal 100 including these units.

Next, the internal configuration of the access point 200 will be described with reference to the drawings.
As shown in FIG. 1, the access point 200 includes a wireless LAN antenna 201, a wireless LAN wireless communication unit 202, a wired communication unit 203, a storage unit 204, and a control unit 205.
The wireless LAN wireless communication unit 202 is connected to the wireless LAN antenna 201 and the control unit 205. The wireless LAN wireless communication unit 102 transmits various information such as SSID on radio waves (beacon packets) via the wireless LAN antenna 201 in accordance with instructions from the control unit 205. In addition, the wireless LAN wireless communication unit 102 sends a connection response (Probe Response) to the connection request source wireless LAN terminal in response to a connection request (Probe Request) transmitted during a scanning operation by the wireless LAN terminal 100. To 100. When connected to the wireless LAN terminal 100, the wireless LAN wireless communication unit 202 transmits and receives data to and from the wireless LAN terminal 100 in accordance with instructions from the control unit 205.

  The wired communication unit 203 is connected to the control unit 205. The wired communication unit 203 is connected to the network server 400, the gateway 500, and the like via the LAN wiring LINE1. The wired communication unit 203 relays communication between the wireless LAN terminal 100 and the network 400 or the like via the LAN line LINE1. The wired communication unit 203 is connected to the gateway 500 via the LAN line LINE2, and further connected to the external Internet via the gateway 500.

The storage unit 204 is connected to the control unit 205. The storage unit 204 stores various settings for the access point 200 to communicate with the wireless LAN terminal 100 and the like, including the SSID. The storage unit 204 is also used for temporarily storing communication data.
The control unit 205 is connected to the wireless LAN wireless communication unit 202, the wired communication unit 203, and the storage unit 204. The control unit 205 includes these units and controls the access point 200 as a whole.

Next, the internal configuration of the authentication gate device 300 will be described with reference to the drawings.
The authentication gate device 300 is installed, for example, at the entrance or exit of a specific area (facility). At least one access point 200c is installed in the specific area (facility). For convenience, FIG. 1 shows only one access point 200c. Every time the wireless LAN terminal 100 passes through the authentication gate device 300 installed at the exit or entrance of the specific area (facility), the authentication gate device 300 communicates with the wireless LAN terminal 100 for entry / exit detection. And the entry / exit of the wireless LAN terminal 100 is detected.
As shown in FIG. 1, the authentication gate device 300 includes a contactless card function antenna 301, a contactless card function wireless communication unit 302, a wired communication unit 303, a storage unit 304, and a control unit 305.

  The contactless card function wireless communication unit 302 is connected to the contactless card function antenna 301 and the control unit 305. The contactless card function wireless communication unit 302 performs communication for entry / exit detection with the wireless LAN terminal 100 via the contactless card function wireless communication antenna 301. Specifically, for example, the contactless card function wireless communication unit 302 receives the identification information of the wireless LAN terminal 100 transmitted from the wireless LAN terminal 100 via the contactless card function wireless communication antenna 301 and performs control. Input to the unit 305. At this time, the control unit 305 detects entry of the wireless LAN terminal 100 into the specific area (facility) or exit from the specific area (facility). The contactless card function wireless communication unit 302 transmits an entry / exit detection signal to the wireless LAN terminal 100 when the control unit 305 detects entry / exit of the wireless LAN terminal 100. Further, the authentication result (for example, admission permission, entry refusal, exit permission, exit refusal, etc.) of the wireless LAN terminal 100 received by the control unit 305 from the authentication server 600 via the wired communication unit 303 is used as the wireless communication function wireless. The data is transmitted to the wireless LAN terminal 100 via the communication antenna 301.

The wired communication unit 303 is connected to the control unit 305. The wired communication unit 303 is connected to the authentication server 600 and the access point 200c via the LAN wiring LINE2. The wired communication unit 303 transmits the identification information of the wireless LAN terminal 100 input from the control unit 305 to the authentication server 600 via the LAN line LINE2.
Further, the wired communication unit 303 receives the authentication result (for example, entry permission, entry rejection, exit permission, exit rejection, etc.) of the wireless LAN terminal 100 transmitted from the authentication server 600 via the LAN wiring LINE2.

The storage unit 304 is connected to the control unit 305. The storage unit 304 stores various settings for the authentication gate device 300 to communicate with the wireless LAN terminal 100 or the authentication server 600, including the IP address and the like. The storage unit 304 is also used for temporarily storing communication data.
The control unit 305 is connected to the contactless card function wireless communication unit 302, the wired communication unit 303, and the storage unit 304. The control unit 305 includes these units and controls the entire authentication gate device 300. In particular, as described above, when the identification information of the wireless LAN terminal 100 is input from the contactless card function wireless communication unit 302, the control unit 305 enters or specifies the specific area (facility) of the wireless LAN terminal 100. Detect exit from an area (facility).

The network server 400 provides various information to the wireless LAN terminal 100 connected via the access points 200, 200a, 200b, the LAN wiring LINE1, and the like.
The gateway 500 connects communication devices such as the access points 200, 200a, and 200b and the network server 400 connected to the LAN line LINE1 to the Internet line or the like.
The authentication server 600 authenticates the identification information of the wireless LAN terminal 100 input from the wired communication unit 303 of the authentication gate device 300. In the authentication server 600, for example, identification information of a plurality of wireless LAN terminals subject to authentication permission is stored in advance. The authentication server 600 compares and collates the input identification information of the wireless LAN terminal 100 with the identification information of the wireless LAN terminal stored in advance, and if they match, the authentication server 600 sends a permission notification of entry or exit. If it does not match, an entry or exit rejection notice is sent to the gate device 300.

Next, an operation between the wireless LAN terminal and the access point according to the embodiment of the present invention will be described with reference to the drawings.
FIG. 4 is a sequence diagram showing processing during a scanning operation between the wireless LAN terminal and the access point according to the embodiment of the present invention.
First, when the power of the wireless LAN terminal 100 is turned on, the control unit 106 of the wireless LAN terminal 100 executes a program related to the first setting information stored in the storage unit 105 (step (STEP (hereinafter referred to as ST and ST)). 4101). Then, the wireless LAN wireless communication unit 102 of the wireless LAN terminal 100 accesses the connection destination via the wireless LAN antenna 101 according to the first setting information stored in the storage unit 105 according to an instruction from the control unit 106. A transmission wave (probe request) for searching for points 200, 200a, 200b, and 200c is transmitted. At this time, the wireless LAN wireless communication unit 102 sequentially transmits transmission waves corresponding to the profiles stored in the storage unit 105 while changing channels, for example (ST4102, ST4103). Here, it is assumed that there is no response (Probe Response) from the access points 200, 200a, 200b, and 200c to the transmission wave from the wireless LAN wireless communication unit 102.

In FIG. 4, as an example, only two profiles are stored in the storage unit 105. In FIG. 4, the profiles stored in the storage unit 105 are shown as profile # 1 and profile # 2. Note that the profile may be additionally stored in the storage unit 105 by being automatically acquired from access points existing around the wireless LAN terminal 100. In this case, the wireless LAN wireless communication unit 102 sends out transmission waves for the profiles stored in the storage unit 105 including the added profiles.
While the scan operation is being executed, the power of the wireless LAN wireless communication unit 102 is turned on. When the scan operation is not being executed, the power of the wireless LAN wireless communication unit 102 is turned off. Therefore, the longer the scan operation interval time (the time during which the scan operation is not executed), the smaller the power consumption, and the life of the battery (not shown) of the wireless LAN terminal 100 can be extended.

Further, as shown in FIG. 2, the scan operation interval time ΔT is increased stepwise from ΔT0 immediately after the start of the scan operation according to the elapsed time t after the start of the scan operation (for example, per unit time). The amount of increase of α is α) After the elapsed time t1 after the start of the scan operation, the increase amount of the interval time per unit time is increased, and the interval time T of the scan operation is increased stepwise until the elapsed time t2 after the start of the scan operation. After the elapsed time t2 after the start of the scan operation, the scan operation interval time ΔT is set to ΔT2 (a constant value).
This scanning operation is repeated until the wireless LAN terminal 100 is connected to any of the access points 200, 200a, 200b, 200c (ST4104, ST4105,...). In FIG. 4, for the sake of convenience, the scanning operation processing for the third time (ST4106, ST4107) is shown, and the scanning operations for the fourth time and thereafter are omitted.

Next, in a state where there is no response from any of the access points 200, 200a, 200b, and 200c with respect to the transmission wave from the wireless LAN terminal 100, the wireless LAN terminal 100 has at least one or more accesses. Assume that you enter a specific area (facility) with points.
When the wireless LAN terminal 100 approaches the authentication gate device 300, the contactless card function wireless communication unit 104 of the wireless LAN terminal 100 receives the wireless stored in the storage unit 105 via the contactless card function wireless communication antenna 103. The identification information of the LAN terminal 100 is transmitted to the authentication gate device 300.
The contactless card function wireless communication unit 302 of the authentication gate device 300 receives the identification information of the wireless LAN terminal 100 transmitted from the wireless LAN terminal 100 via the contactless card function wireless communication antenna 301, and the control unit 305. To enter. At this time, the control unit 305 detects that the wireless LAN terminal 100 has entered or left the specific area (facility). At this time, the identification information of the wireless LAN terminal 100 may be temporarily stored in the storage unit 304.

Next, the wired communication unit 303 of the authentication gate device 300 transmits the identification information of the wireless LAN terminal 100 input from the control unit 305 to the authentication server 600 via the LAN wiring LINE2.
The authentication server 600 compares and collates the input identification information of the wireless LAN terminal 100 with the identification information of the wireless LAN terminal stored in advance. If they match as a result of the comparison / collation, an entry or exit permission notification is transmitted to the gate device 300. If they do not match, an entry or exit rejection notification is transmitted to the authentication gate device 300.

Next, the wireless communication unit 302 of the contactless card function 300 of the authentication gate device 300 receives the authentication result of the wireless LAN terminal 100 from the authentication server 600 via the wired communication unit 303 (for example, entry permission, entry rejection, exit permission, exit rejection, etc. ).
The contactless card function wireless communication unit 302 of the authentication gate device 300 transmits an entry / exit detection signal to the wireless LAN terminal 100 when the control unit 305 detects entry / exit of the wireless LAN terminal 100.
Further, the non-contact card function wireless communication unit 302 of the authentication gate device 300 uses the authentication result of the wireless LAN terminal 100 received from the authentication server 600 (for example, admission permission, admission refusal, exit permission, exit refusal, etc.) as a non-contact card. The data is transmitted to the wireless LAN terminal 100 via the functional wireless communication antenna 301.

Next, the contactless card function wireless communication unit 104 of the wireless LAN terminal 100 receives the entry / exit detection signal and the authentication result of the wireless LAN terminal 100 from the authentication gate device 300 via the contactless card function wireless communication antenna 103 ( (E.g., admission permission, admission refusal, exit permission, exit refusal).
When the wireless LAN terminal 100 receives the entrance detection signal (ST4201), the control unit 106 of the wireless LAN terminal 100 executes a program related to the second setting information stored in the storage unit 105 (ST4202).

Then, the wireless LAN wireless communication unit 102 of the wireless LAN terminal 100 accesses the connection destination via the wireless LAN antenna 101 according to the second setting information stored in the storage unit 105 according to an instruction from the control unit 106. A transmission wave (Probe Request) for searching for points 200, 200a, 200b, and 200c is transmitted for the profile (ST4203, ST4204).
That is, when the contactless card function wireless communication unit 104 receives the entrance detection signal from the authentication gate device 300, the scan operation interval time ΔT is reset to the initial value ΔT0 (ST4203, ST4204), and is shown in FIG. As described above, the scan operation is performed while increasing the scan operation interval time ΔT stepwise (for example, the increase amount per unit time is α) (ST4205, ST4206,...). In FIG. 4, for the sake of convenience, the third and subsequent scan operations are omitted.

  When the wireless LAN terminal 100 receives the entrance detection signal, the control unit 106 of the wireless LAN terminal 100 executes the program related to the second setting information stored in the storage unit 105. However, the entrance detection signal Only when the admission permission notification is received, the control unit 106 of the wireless LAN terminal 100 may execute a program related to the second setting information stored in the storage unit 105.

Thus, when the wireless LAN terminal passes through the entrance of the specific area (facility) and receives the entrance detection signal from the authentication gate device 300 installed at the entrance of the specific area (facility), the interval time ΔT of the scanning operation is calculated. Since the scan operation is performed while resetting the initial value ΔT0 and gradually increasing the scan operation interval time ΔT, after entering the specific area (facility), the wireless LAN terminal 100 sets the scan operation interval time ΔT. As a result of performing a scanning operation to scan and search the access points 200, 200a, 200b, and 200c that are connection destinations frequently and shortened, it is possible to connect to the access points efficiently.
As described above, according to the present invention, a wireless LAN terminal that can be efficiently connected to an access point can be provided.

Next, a first modification of the wireless LAN terminal according to the embodiment of the present invention will be described.
In the description of the wireless LAN terminal according to the above embodiment, the second setting information is the initial interval time ΔT of the scanning operation when the contactless card function wireless communication unit 104 receives the entrance detection signal from the authentication gate device 300. The program information is set to perform the scan operation while increasing the interval time of the scan operation stepwise by resetting to the value T0, whereas the wireless LAN terminal according to the embodiment of the present invention is modified. In the example, when the contactless card function wireless communication unit 104 receives the exit detection signal from the authentication gate device 300, the second setting information sets the scan operation interval time ΔT to the maximum value T2 within a certain range, This is program information of processing for performing a scanning operation.

  Thus, when the exit is detected by the authentication gate device 300 installed at the exit of the specific area (facility), the scan operation is performed by setting the scan operation interval time ΔT to the maximum value T2 within a certain range. After leaving the specific area (facility), the wireless LAN terminal 100 performs a scan operation to search for the access points 200, 200a, and 200b to be connected by increasing the scan operation interval time ΔT and reducing the number of scans. The number of useless scan operations can be reduced.

  When the wireless LAN terminal 100 receives the exit detection signal, the control unit 106 of the wireless LAN terminal 100 executes the program related to the second setting information stored in the storage unit 105. However, the exit detection signal At the same time, the control unit 106 of the wireless LAN terminal 100 may execute a program related to the second setting information stored in the storage unit 105 only when an exit permission notice is received.

Next, a second modification of the wireless LAN terminal according to the embodiment of the present invention will be described.
At least one or more access points 200c are installed in the specific area (facility), and the authentication gate device 300 holds profile information regarding the access points 200c installed in the specific area (facility).
Then, the authentication gate device 300 provides the profile information held to the wireless LAN terminal 100 entering the specific area (facility). Profile information related to the access point 200c installed in the specific area (facility) is stored in the storage unit 304.

Then, when the wireless LAN terminal 100 passes through the entrance of the specific area (facility), the authentication gate device 300 causes the entrance detection signal and the authentication result of the wireless LAN terminal 100 (for example, entry permission, entry rejection, exit permission, exit rejection, etc.) In addition, the profile information stored in the storage unit 305 is transmitted to the wireless LAN terminal 100.
The wireless LAN terminal 100 receives the profile information provided from the authentication gate device 300 using the contactless card function wireless communication unit 104. The wireless LAN wireless communication unit 102 performs a scanning operation for searching for the access point 200c based on the received profile information. That is, the wireless LAN wireless communication unit 102 scans and searches only the access point 200c installed in the specific area (facility).

  As described above, after entering the specific area (facility), the wireless LAN terminal 100 performs a scanning operation to scan and search only the access point 200c installed in the specific area (facility). The access point (for example, 200, 200a, 200b) installed in the area (facility) is not scanned unnecessarily as a connection destination access point. For this reason, the wireless LAN terminal 100 can be more efficiently connected to the access point.

  The above description is for explaining the embodiment of the present invention, and the present invention is not limited to the above embodiment. Moreover, those skilled in the art can easily change, add, and convert each element of the above embodiment within the scope of the present invention.

It is a figure which shows the structure of the wireless LAN communication system containing the wireless LAN terminal which concerns on embodiment of this invention. It is a figure which shows the relationship between interval time (DELTA) T of the scanning operation | movement in normal time, and the elapsed time t after a scanning operation | movement start. It is a figure which shows the content of the access point candidate list | wrist of a connecting point memorize | stored in the memory | storage part of a wireless LAN terminal. It is a sequence diagram which shows the process at the time of the scanning operation | movement between the wireless LAN terminal and access point which concerns on embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Wireless LAN system 100 Wireless LAN terminal 101 Wireless LAN antenna 102 Wireless LAN wireless communication part 103 Contactless card function antenna 104 Contactless card function wireless communication part 105 Storage part 106 Control part 200, 200a, 200b, 200c Access point 201 Wireless LAN antenna 202 Wireless LAN wireless communication unit 203 Wired communication unit 204 Storage unit 205 Control unit 300 Authentication gate device 301 Contactless card function antenna 302 Contactless card function wireless communication unit 303 Wired communication unit 304 Storage unit 305 Control unit 400 Network server 500 Gateway 600 Authentication server

Claims (10)

Scan that is installed at the entrance or exit of a specific area and performs communication for entry / exit detection with an entrance / exit management device that detects entry / exit of a wireless LAN terminal, and scans and searches for an access point at the connection destination A wireless LAN terminal that operates,
Normally, the scan operation is performed while gradually increasing the interval time of the scan operation from the initial value within a certain range in accordance with the passage of time after the start of the scan operation,
When the wireless LAN terminal passes the entrance or exit of the specific area, when the entrance / exit management device receives an entrance / exit detection signal transmitted by detecting the entrance / exit of the wireless LAN terminal, the interval time of the scanning operation A wireless LAN terminal characterized in that the scan operation is performed by changing the setting.   When the wireless LAN terminal passes through the entrance of the specific area, when the entrance / exit management device receives an entrance detection signal transmitted by detecting the entrance of the wireless LAN terminal, the interval time of the scanning operation is set to the initial value. The wireless LAN terminal according to claim 1, wherein the scan operation is performed while the interval time of the scan operation is increased stepwise.   When the wireless LAN terminal passes the exit of the specific area, when the entrance / exit management device receives an exit detection signal transmitted by detecting the exit of the wireless LAN terminal, the interval time of the scanning operation is set to the predetermined range. The wireless LAN terminal according to claim 1, wherein the scanning operation is performed by setting the maximum value of the wireless LAN terminal. Scan that is installed at the entrance or exit of a specific area and performs communication for entry / exit detection with an entrance / exit management device that detects entry / exit of a wireless LAN terminal, and scans and searches for an access point at the connection destination A wireless LAN terminal that operates,
A first wireless unit that performs communication for entrance / exit detection with the entrance / exit management device;
A second wireless unit that transmits a transmission wave to scan and search the access point of the connection destination;
A storage unit for storing setting information for performing a scanning operation for scanning and searching for the access point of the connection destination;
The above setting information includes
The first setting information in which the program setting for performing the scanning operation is performed while the interval time of the scanning operation is gradually increased from the initial value within a certain range in accordance with the lapse of time after the start of the scanning operation. When,
When the wireless LAN terminal passes the entrance or exit of the specific area, when the entrance / exit management device receives an entrance / exit detection signal transmitted by detecting the entrance / exit of the wireless LAN terminal, the interval time of the scanning operation And the second setting information in which the program setting for performing the scanning operation is made, and
The wireless LAN terminal, wherein the second wireless unit transmits the transmission wave according to the first and second setting information.   When the wireless LAN terminal passes through the entrance of the specific area, the second setting information includes the scan when the entrance / exit management device receives an entrance detection signal transmitted by detecting the entrance of the wireless LAN terminal. 5. The radio according to claim 4, wherein a program setting for performing the scan operation is performed while resetting the operation interval time to the initial value and gradually increasing the scan operation interval time. LAN terminal.   When the wireless LAN terminal passes the exit of the specific area, the second setting information is the scan information when the entrance / exit management device receives an exit detection signal transmitted by detecting the exit of the wireless LAN terminal. 5. The wireless LAN terminal according to claim 4, wherein a program setting for performing the scanning operation is performed by setting an operation interval time to a maximum value in the certain range.   5. The wireless LAN terminal according to claim 1, wherein communication with the entrance / exit management device is performed using short-range wireless communication. There are access points in the specific area,
The entrance / exit management device has profile information relating to an access point installed in the specific area, and provides the profile to the wireless LAN terminal entering the specific area,
When the wireless LAN terminal passes through the entrance of the specific area, the profile information provided from the entrance / exit management device is received,
The wireless LAN terminal according to claim 1, wherein the scanning operation is performed based on the profile information. Scan that is installed at the entrance or exit of a specific area and performs communication for entry / exit detection with an entrance / exit management device that detects entry / exit of a wireless LAN terminal, and scans and searches for an access point at the connection destination A wireless LAN terminal scanning operation method for performing an operation,
Normally, the scan operation is performed while gradually increasing the interval time of the scan operation from the initial value within a certain range in accordance with the passage of time after the start of the scan operation,
When the wireless LAN terminal passes through the entrance or exit of the specific area, the entrance / exit management device receives an entrance / exit detection signal transmitted by detecting entry / exit from the specific area of the wireless LAN terminal, A scan operation method for a wireless LAN terminal, characterized in that the scan operation is performed by changing the interval time of the scan operation. Scan that is installed at the entrance or exit of a specific area and performs communication for entry / exit detection with an entrance / exit management device that detects entry / exit of a wireless LAN terminal, and scans and searches for an access point at the connection destination A program for causing a wireless LAN terminal that performs an operation to perform a scanning operation,
Normally, the scan operation is performed while gradually increasing the interval time of the scan operation from the initial value within a certain range in accordance with the passage of time after the start of the scan operation,
When the wireless LAN terminal passes through the entrance or exit of the specific area, the entrance / exit management device receives an entrance / exit detection signal transmitted by detecting entry / exit from the specific area of the wireless LAN terminal, A scan operation program for performing the scan operation by changing the interval time of the scan operation.

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