JP2014175989A - Wireless access point device, control method therefor, radio communication system and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless access point device, a control method therefor, a radio communication system and a program, capable of reducing power consumption.SOLUTION: A wireless access point device 20 includes a short-range radio communication unit 101, a wireless LAN communication unit 102, a communication detection unit 103 and an activation control unit 104. The communication detection unit 103 detects that the short-range radio communication unit 101 executes short-range radio communication with a user terminal. Based on the detection result of the communication detection unit 103, the activation control unit 104 activates the wireless LAN communication unit 102.

Description

  The present invention relates to a wireless access point device, a wireless access point device control method, a wireless communication system, and a program.

  In recent years, with the development of NFC (near field communication) technology, etc., it has become possible to exchange information in both directions using the inter-terminal communication function at a short distance. For example, Patent Document 1 discloses a technique for connecting a user terminal to a wireless local area network (LAN) access point using NFC.

JP 2009-260666 A

  However, even when the wireless access point is not connected to the user terminal (standby state), the wireless access point needs to periodically transmit Beacon or the like in order to detect the next connection request. In other words, since the wireless access point is waiting to receive a connection request, it is difficult to completely stop the wireless function. Therefore, there is a problem in that the wireless access point consumes useless power even when the user terminal is not connected.

  The present invention has been made to solve such problems, and provides a wireless access point device, a wireless access point device control method, a wireless communication system, and a program capable of reducing power consumption. It is an object.

  A wireless access point device according to the present invention includes a short-range wireless communication unit that performs short-range wireless communication, a wireless LAN communication unit that performs wireless LAN communication, and the short-range wireless communication unit performs short-range wireless communication with a user terminal. Communication detection means for detecting that it has been performed, and activation control means for activating the wireless LAN communication means based on the detection result of the communication detection means.

  A wireless access point device control method according to the present invention is a wireless access point device control method comprising: short-range wireless communication means for performing short-range wireless communication; and wireless LAN communication means for performing wireless LAN communication. Performing near field communication with a user terminal, detecting that the near field communication with the user terminal has been performed, and activating the wireless LAN communication unit based on a detection result. Is.

  A wireless communication system according to the present invention includes a wireless access point device including a short-range wireless communication unit that performs short-range wireless communication, a wireless LAN communication unit that performs wireless LAN communication, and a user terminal. The wireless access point device and the user terminal detect the short-range wireless communication, the communication detection means detects the wireless LAN communication means based on the detection result of the communication detection means And an activation control means for activating.

  A program according to the present invention is a program for controlling a wireless access point device that includes a short-range wireless communication unit that performs short-range wireless communication and a wireless LAN communication unit that performs wireless LAN communication. Performing near field communication with the user terminal, causing the near field wireless communication with the user terminal to be detected, and activating the wireless LAN communication unit based on the detection result. Is.

  According to the present invention, it is possible to provide a wireless access point device, a wireless access point device control method, a wireless communication system, and a program that can reduce power consumption.

1 is a block diagram of a wireless communication system according to a first exemplary embodiment. 3 is a flowchart showing a wireless LAN connection operation according to the first exemplary embodiment; 3 is a flowchart showing an operation for extending a one-time password expiration according to the first embodiment; 3 is a flowchart showing a wireless LAN disconnection operation according to the first exemplary embodiment; FIG. 3 is a block diagram of a wireless communication system according to a second exemplary embodiment. 6 is a flowchart showing a wireless LAN connection operation according to the second exemplary embodiment; It is a block diagram of the wireless access point apparatus concerning this invention.

<Embodiment 1>
Embodiment 1 of the present invention will be described below with reference to the drawings. A block diagram of a wireless communication system according to the present embodiment is shown in FIG. The wireless communication system is a system including a user terminal 10 and a wireless access point device 20.

<Configuration of user terminal 10>
First, the configuration of the user terminal 10 will be described. The user terminal 10 is a terminal having a wireless communication function, and is, for example, a mobile phone, a smartphone, a tablet PC, a notebook PC, a game machine, or the like. The user terminal 10 includes an NFC function unit 11, a control unit 12, a memory 13, and a communication unit 14.

  The NFC function unit 11 performs non-contact short-range wireless communication with the NFC function unit 23 of the wireless access point device 20. The NFC function unit 11 automatically starts communication with the NFC function unit 23 when the distance to the NFC function unit 23 is a predetermined distance or less.

  The control unit 12 commands each block of the user terminal 10 and controls the user terminal 10 in an integrated manner. The control unit 12 is an arithmetic processing unit including a CPU (Central Processing Unit), for example, and executes various processes based on a processing program stored in advance in the memory 13.

  The memory 13 is a storage device such as a RAM (Random Access Memory) or a ROM (Read Only Memory). The memory 13 stores information related to the communication capability of the wireless function using the communication unit 14 of the user terminal 10 (hereinafter referred to as capability information). Here, the capability information is, for example, information indicating the type of communication standard of the communication unit 14, information on a frequency band (2.4 GHz, 5 GHz, etc.) used by the communication unit 14, and a modulation method in communication of the communication unit 14. Information indicating the type of encryption in the communication of the communication unit 14, information indicating the encoding / decoding method, and the like. The memory 13 also stores an identification ID (Identification) of the user terminal 10.

  The communication unit 14 is connected to a wireless local area network (LAN) and performs wireless communication in accordance with an instruction from the control unit 12. Specifically, the communication unit 14 connects to access points (hereinafter referred to as APs) 24 and 25 of the wireless access point device 20 via a wireless LAN, and performs wireless communication. The communication unit 14 may be connectable not only to a wireless LAN but also to a public communication line network.

<Configuration of Wireless Access Point Device 20>
Next, the configuration of the wireless access point device 20 will be described. The wireless access point device 20 is a relay device that can be connected to the Internet, such as a broadband router or a home gateway. The wireless access point device 20 includes a one-time password management unit 21, a wireless control unit 22, an NFC function unit 23, APs (access points) 24 and 25, and a memory 26.

  The one-time password management unit 21 (password generation means) generates a password necessary for connecting the APs 24 and 25. In other words, the one-time password management unit 21 sets a password for the APs 24 and 25. When the set password is input to the APs 24 and 25, the wireless functions of the APs 24 and 25 are enabled. At this time, the one-time password management unit 21 may set different passwords for the APs 24 and 25.

  The password generated by the one-time password management unit 21 is a password that is valid for a predetermined time and becomes invalid after the predetermined time. The predetermined time may be set in advance, or may be set as appropriate by the administrator of the wireless access point device 20. The one-time password management unit 21 has a timer (not shown) and determines whether a predetermined time has elapsed. That is, the one-time password management unit 21 determines whether or not the password expiration date has passed.

  The wireless control unit 22 (communication detection means, activation control means, capability acquisition means, password input means, setting information transmission means) commands each block of the wireless access point device 20, and controls the wireless access point device 20 in an integrated manner To control. The wireless control unit 22 is an arithmetic processing unit including a CPU, for example, and executes various processes based on a processing program stored in advance in the memory 26.

  Specifically, the wireless control unit 22 controls activation of the APs 24 and 25 and inputs a one-time password for the APs 24 and 25. Further, the radio control unit 22 determines an AP to be activated based on the capability information of the user terminal 10 acquired by the NFC function unit 23.

  Further, the wireless control unit 22 causes the one-time password management unit 21 to generate a one-time password. And it inputs with respect to AP which starts the produced | generated one-time password. As a result, the AP to which the one-time password is input becomes ready for wireless communication. Then, the wireless control unit 22 activates the AP that has entered the one-time password. Further, when the expiration date of the one-time password has elapsed, the activation of the AP to which the one-time password has been input is stopped. The wireless control unit 22 can also extend the expiration date of the one-time password. The extension process will be described later.

  The NFC function unit 23 (short-range wireless communication means) performs non-contact short-range wireless communication with the NFC function unit 11 of the user terminal 10. The NFC function unit 23 automatically starts communication with the NFC function unit 11 when the distance to the NFC function unit 11 is equal to or less than a predetermined distance.

  Between the NFC function unit 11 and the NFC function unit 23, connection setting information for performing wireless communication connection between the APs 24 and 25 and the communication unit 14 of the user terminal 10 is transmitted and received. The connection setting information is, for example, capability information and identification ID of the user terminal 10 and the wireless access point device 20.

  The NFC function unit 23 transmits the identification ID (SSID (Service Set Identifier)) and capability information of the wireless access point device 20 to the NFC function unit 11 in accordance with a command from the wireless control unit 22. In addition, the NFC function unit 23 transmits the received identification ID and capability information of the user terminal 10 to the wireless control unit 22. The wireless control unit 22 stores the received identification ID and capability information of the user terminal 10 in the memory 26.

  The APs 24 and 25 (wireless LAN communication means) relay between the user terminal 10 and the Internet (not shown). For example, the APs 24 and 25 are connected to the user terminal 10 using a wireless LAN, and connected to the Internet using a public communication line such as a 3G line. Note that the wireless access point device 20 according to the present embodiment has a multi-SSID function. That is, AP24 and AP25 have different SSIDs.

  The memory 26 is a storage device such as a RAM or a ROM. The memory 26 stores the capability information of the wireless access point device 20, the SSIDs of the APs 24 and 25, the capability information of the user terminal 10 received by the NFC function unit 23, the identification ID, and the like.

<Wireless LAN connection operation>
Next, the wireless LAN connection operation in the wireless communication system according to the present embodiment will be described with reference to the flowchart of FIG. First, when the user terminal 10 approaches the wireless access point device 20, the NFC function unit 11 and the NFC function unit 23 start NFC communication (near field communication) (step S101).

  When detecting the start of NFC communication, the wireless control unit 22 causes the one-time password management unit 21 to generate a one-time password with a time limit (step S102).

  Next, the user terminal 10 and the wireless access point device 20 exchange information such as capability information and identification ID using NFC communication (step S103). Specifically, the wireless control unit 22 receives the capability information and identification ID of the user terminal 10 using NFC communication, and stores the received information in the memory 26. Further, the wireless control unit 22 transmits the capability information of the APs 24 and 25 to the user terminal 10 using NFC communication.

  The radio control unit 22 determines an AP to which the user terminal 10 is connected based on the received capability information (step S104). In the present embodiment, the wireless access point device 20 has two access points AP 24 and 25. For this reason, the radio control unit 22 selects one of the APs 24 and 25 as a connection destination. At this time, the radio control unit 22 selects an AP corresponding to the communication capability of the user terminal 10 based on the capability information of the user terminal 10. The AP corresponding to the communication capability means an AP that can communicate using the communication capability (frequency band, modulation scheme, encryption scheme, etc.) of the communication unit 14 of the user terminal 10.

  The wireless control unit 22 inputs the one-time password generated in step S102 to the AP determined in step S104 (step S105). As a result, the AP to which the one-time password is input can communicate using the wireless LAN. Then, the wireless control unit 22 activates the AP that has entered the one-time password. As a result, the AP starts operating within the time limit of the one-time password (step S106). In this manner, the wireless control unit 22 inputs the password to the AP within the wireless access point device 20. For this reason, the user does not need to input a one-time password to the AP using the user terminal 10. Therefore, convenience in connection setting is improved. Further, the generated one-time password is not transmitted to the outside of the wireless access point device 20 (for example, the user terminal 10). Therefore, security can be improved.

  Next, the wireless control unit 22 transmits information (connection setting information) related to connection settings necessary for connecting to the activated AP to the user terminal 10 using NFC communication (step S107). The control unit 12 of the user terminal 10 stores the received connection setting information in the memory 13. Using the received connection setting information, the user terminal 10 performs a connection process for the AP activated in step S106. In addition, since the connection process with respect to AP is a well-known technique, detailed description is abbreviate | omitted.

  Thereby, the communication unit 14 of the user terminal 10 and the AP of the wireless access point device 20 are connected via the wireless LAN. When the wireless LAN connection is completed, the wireless control unit 22 ends the NFC communication of the NFC function unit 23 (step S108). Thereby, the user terminal 10 and the wireless access point device 20 start communication via the wireless LAN (step S109).

<Extended operation for one-time password expiration>
Next, the extension operation of the one-time password time limit in the wireless communication system according to the present embodiment will be described with reference to the flowchart of FIG. First, according to the above-described procedure, the user terminal 10 and the wireless access point device 20 are connected via a wireless LAN (step S201).

  Next, the wireless control unit 22 determines whether or not there is a request for extending the time limit of the one-time password (step S202). Here, the term extension request means to request extension of the expiration date of the one-time password, but various methods can be used. For example, the user terminal 10 and the wireless access point device 20 may make the NFC communication again before the expiration of the one-time password, as a period extension request. In addition, it may be determined that a predetermined signal is transmitted from the user terminal 10 being connected via the wireless LAN as a time limit extension request.

  If there is a time limit extension request (step S202: Yes), the wireless control unit 22 instructs the one-time password management unit 21 to extend the time limit of the one-time password (step S203). For example, the one-time password management unit 21 resets a timer that measures the usage time of the one-time password. Thereby, the expiration date (predetermined time) of the one-time password is extended. The extended password validity period may be the same period as the initially set validity period or may be a different period.

  On the other hand, when there is no request for extension of the time limit (step S202: No), the one-time password expiration date expires (step S204).

<Wireless LAN disconnection operation>
Here, the wireless LAN disconnection operation after the expiration date of the one-time password has expired (step S204 in FIG. 3) will be described with reference to the flowchart in FIG. First, there is no request for extension of the above-mentioned one-time password expiration date, and the expiration date expires (step S301). That is, the one-time password management unit 21 determines that the expiration date has expired based on the time measured by the timer. Then, the one-time password management unit 21 notifies the wireless control unit 22 that the expiration date has expired.

  When receiving the notification that the one-time password has expired, the wireless control unit 22 transmits a wireless disconnection instruction (DeAuth (Deauthentication) signal) to the user terminal 10 via the wireless LAN (step S302). When the user terminal 10 receives the wireless disconnection instruction, the wireless LAN connection between the user terminal 10 and the wireless access point device 20 is forcibly disconnected.

  When the wireless LAN connection is disconnected, the wireless control unit 22 stops the wireless function of the AP (step S303). That is, the wireless control unit 22 automatically stops the operation of the AP whose wireless LAN connection has been disconnected. Therefore, the AP stops the wireless function simultaneously with the expiration of the expiration date of the one-time password. At this time, the operation stop of the AP is not a standby state (a state in which Beacon or the like is periodically transmitted to wait for reception of a wireless LAN connection) but a state in which the function is completely stopped without supplying power to the AP. . As a result, the AP does not consume power after the expiration date. Even if the AP stops operating, the NFC function unit 23 does not stop operating and enters a standby state. Therefore, the NFC function unit 23 can detect the next wireless LAN connection request via NFC.

  As described above, according to the configuration of the wireless access point device 20 according to the present embodiment, the NFC function unit 23 performs NFC communication with the user terminal 10. Then, when detecting that NFC communication is performed by the NFC function unit 23, the wireless control unit 22 activates the AP and enables the wireless communication function. For this reason, the wireless access point device 20 can stop the AP until the NFC communication starts. For this reason, the AP does not consume power while the AP is stopped. As a result, power consumption in the standby state of the wireless access point device 20 can be reduced.

  In addition, the wireless access point device 20 operates the APs 24 and 25 using a one-time password with a time limit. For this reason, since the password is periodically updated (changed), security can be improved. After the expiration of the one-time password (after a predetermined time has elapsed), the wireless control unit 22 automatically stops the operation of the AP. For this reason, it is possible to prevent wasteful power consumption.

  Further, the wireless access point device 20 transmits connection setting information using short-range communication. For this reason, it is difficult to perform wireless setting from a terminal remote from the wireless access point device 20. As a result, it is possible to prevent an unspecified number of terminals and the wireless access point device 20 from being connected, and security can be improved.

  In addition, the APs 24 and 25 of the wireless access point device 20 are activated using NFC communication by the NFC function unit 23 as a trigger. For this reason, a terminal remote from the wireless access point device 20 cannot activate the AP. Therefore, it is possible to prevent the AP from being activated unnecessarily by detecting a connection request from another user terminal from which the APs 24 and 25 are separated. As a result, power consumption can be reduced.

<Embodiment 2>
A second embodiment according to the present invention will be described. FIG. 5 shows a block diagram of the wireless communication system according to the present embodiment. The wireless communication system illustrated in FIG. 5 includes user terminals 10 and 30 and a wireless access point device 20.

  In the present embodiment, the wireless access point device 20 includes a user management unit 51 (permission means) in addition to the configuration of FIG. The other configurations of the user terminal 10 and the wireless access point device 20 are the same as the configurations shown in FIG.

<Configuration of user terminal 30>
The user terminal 30 includes a control unit 31, a memory 32, and a communication unit 33. The control unit 31 instructs each block of the user terminal 30 and controls the user terminal 30 in an integrated manner. The control unit 31 is an arithmetic processing unit including a CPU, for example, and executes various processes based on a processing program stored in advance in the memory 32.

  The memory 32 is a storage device such as a RAM or a ROM. The memory 32 stores capability information and identification ID of the user terminal 30.

  The communication unit 33 connects to the wireless LAN and performs wireless communication in accordance with an instruction from the control unit 31. Specifically, the communication unit 33 performs wireless communication with the AP of the wireless access point device 20 via the wireless LAN.

<Wireless LAN connection operation>
Next, a wireless LAN connection operation in the wireless communication system according to the present embodiment will be described with reference to a flowchart shown in FIG. First, based on the flowchart of FIG. 2 described above, the user terminal 10 is connected to the AP 24 of the wireless access point device 20 via the wireless LAN (step S401).

  The wireless control unit 22 grants a setting authority (owner authority) for connection permission / rejection of other user terminals to the user terminal 10 connected to the wireless LAN (step S402). In other words, the radio control unit 22 permits the user terminal 10 to transmit connection setting information to another user terminal (user terminal 30). Note that the radio control unit 22 stores, for example, the identification ID of the user terminal 10 in the memory 26 in order to store the user terminal having the owner authority.

  Next, the user terminal 10 communicates with the user terminal 30 (step S403). In addition, although communication with the user terminal 10 and the user terminal 30 is performed using the communication part 14 and the communication part 33, a communication system is not specifically limited. For example, the user terminal 10 and the user terminal 30 are connected using infrared communication, Bluetooth communication, Wi-Fi direct communication, or the like.

  When the user terminal 10 and the user terminal 30 are connected, the control unit 12 of the user terminal 10 requests the wireless access point device 20 to generate a one-time password for the user terminal 30 via the wireless LAN. To do. Then, upon receiving the one-time password generation request, the wireless control unit 22 causes the one-time password management unit 21 to generate a one-time password for the user terminal 30. The wireless control unit 22 inputs the generated one-time password to the vacant (not activated) AP 25 (step S404), and activates the AP that has entered the one-time password. As a result, the AP 25 starts operating within the time limit of the set one-time password (step S405). Note that the expiration dates of the one-time passwords input to the AP 24 and the AP 25 may be different expiration dates.

  The control unit 12 of the user terminal 10 transmits connection setting information for wireless LAN connection to the user terminal 30 after transmitting a one-time password generation request. Thereby, the user terminal 30 acquires the connection setting information, and stores the acquired connection setting information in the memory 32 (step S406).

  The user terminal 30 performs connection processing for the AP 25 using the acquired connection setting information. Accordingly, the communication unit 33 of the user terminal 30 and the AP 25 of the wireless access point device 20 are connected via the wireless LAN, and communication via the wireless LAN is started (step S407).

  As described above, according to the configuration of the wireless access point device 20 according to the present embodiment, the user management unit 51 gives the owner authority to the user terminal 10 connected to the wireless LAN. For this reason, even if it does not perform NFC communication with the wireless access point device 20, if it can communicate with the user terminal 10 having the owner authority, it can be connected to the AP of the wireless access point device 20. Therefore, even a user terminal that is located away from the wireless access point device 20 or a user terminal that does not have an NFC function unit can perform wireless LAN communication with the wireless access point device 20. As a result, convenience in wireless LAN connection can be improved.

  In addition, a user terminal to which the owner authority is granted can temporarily set connection permission / rejection for other terminals. For this reason, without allowing direct access to the wireless access point device 20, it is possible to set connection permission / rejection of other terminals at the intention of the user terminal having the owner authority.

  Note that the present invention is not limited to the above-described embodiment, and can be changed as appropriate without departing from the spirit of the present invention. For example, the short-range wireless communication means is not limited to NFC, and may be other communication methods (infrared communication, Bluetooth communication, Wi-Fi direct communication, etc.). However, in the case of NFC, since no connection is required and the user terminal is connected only by approaching the wireless access point device 20, the convenience of the user can be improved.

  Further, as shown in FIG. 7, the wireless access point device 20 according to the present invention includes at least a short-range wireless communication unit 101, a wireless LAN communication unit 102, a communication detection unit 103, and an activation control unit 104. It only has to have. The short-range wireless communication unit 101 performs short-range wireless communication with the user terminal. The wireless LAN communication unit 102 performs communication with the user terminal via the wireless LAN. The communication detection unit 103 detects that the short-range wireless communication unit 101 has performed short-range wireless communication with the user terminal. The activation control unit 104 activates the wireless LAN communication unit 102 based on the detection result of the communication detection unit 103. Thereby, the wireless LAN communication unit 102 can be stopped until short-range wireless communication is performed. Therefore, the power consumption of the wireless access point device 20 can be reduced.

  Further, arbitrary processing of the above-described wireless access point device and user terminal can be realized by causing a CPU (Central Processing Unit) to execute a computer program. In this case, the computer program can be stored using various types of non-transitory computer readable media and supplied to the computer. Non-transitory computer readable media include various types of tangible storage media. Examples of non-transitory computer-readable media include magnetic recording media (for example, flexible disks, magnetic tapes, hard disk drives), magneto-optical recording media (for example, magneto-optical disks), CD-ROMs (Read Only Memory), CD-Rs, CD-R / W, semiconductor memory (for example, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM), flash memory, RAM (random access memory)) are included. The program may also be supplied to the computer by various types of transitory computer readable media. Examples of transitory computer readable media include electrical signals, optical signals, and electromagnetic waves. The temporary computer-readable medium can supply the program to the computer via a wired communication path such as an electric wire and an optical fiber, or a wireless communication path.

  In addition to the case where the function of the above-described embodiment is realized by the computer executing the program that realizes the function of the above-described embodiment, this program is not limited to the OS ( A case where the functions of the above-described embodiment are realized in cooperation with an operating system or application software is also included in the embodiment of the present invention. Furthermore, the present invention is also applicable to the case where the functions of the above-described embodiment are realized by performing all or part of the processing of the program by a function expansion board inserted into the computer or a function expansion unit connected to the computer. It is included in the embodiment.

10, 30 User terminal 11 NFC function unit 12, 31 Control unit 13, 32 Memory 14, 33 Communication unit 20 Wireless access point device 21 One-time password management unit 22 Wireless control unit 23 NFC function unit 24, 25 Access point (AP)
26 Memory 51 User management section

Claims (10)

Short-range wireless communication means for performing short-range wireless communication;
Wireless LAN communication means for performing wireless LAN communication;
Communication detection means for detecting that the short-range wireless communication means has performed the short-range wireless communication with a user terminal;
An activation control means for activating the wireless LAN communication means based on a detection result of the communication detection means;
A wireless access point device.   The wireless access point device according to claim 1, wherein the activation control unit stops the wireless LAN communication unit when a predetermined time has elapsed after activation of the wireless LAN communication unit.   3. The wireless access point according to claim 2, wherein the activation control unit extends the predetermined time when there is an extension request from the user terminal before the predetermined time elapses after activation of the wireless LAN communication unit. apparatus. Capability acquisition means for acquiring capability information related to communication capability of the communication means of the user terminal using the short-range wireless communication,
There are a plurality of the wireless LAN communication means,
The activation control unit activates a wireless LAN communication unit corresponding to the communication capability of the user terminal among a plurality of the wireless LAN communication units based on the capability information of the user terminal. The wireless access point device according to any one of Password generating means for generating a one-time password for connecting to the wireless LAN communication means;
Password input means for inputting the generated one-time password to the wireless LAN communication means, and
The wireless access point device according to any one of claims 1 to 4, wherein the password input unit inputs the one-time password to the wireless LAN communication unit based on a detection result of the communication detection unit.   The wireless access point according to any one of claims 1 to 5, further comprising setting information transmitting means for transmitting connection setting information necessary for setting a wireless LAN connection to the user terminal using the short-range wireless communication. apparatus.   The wireless access point device according to claim 6, further comprising permission means for permitting the user terminal connected using the wireless LAN to transmit the connection setting information to another user terminal. A wireless access point device control method comprising: short-range wireless communication means for performing short-range wireless communication; and wireless LAN communication means for performing wireless LAN communication,
Performing near field communication with a user terminal;
Detecting the short-range wireless communication with the user terminal;
Activating the wireless LAN communication means based on a detection result;
A method for controlling a wireless access point device. A wireless communication system comprising a short-range wireless communication means for performing short-range wireless communication, a wireless access point device having a wireless LAN communication means for performing wireless LAN communication, and a user terminal,
Communication detecting means for detecting that the wireless access point device and the user terminal have performed the short-range wireless communication;
An activation control means for activating the wireless LAN communication means based on a detection result of the communication detection means;
A wireless communication system comprising: A program for controlling a wireless access point device comprising a short-range wireless communication means for performing short-range wireless communication and a wireless LAN communication means for performing wireless LAN communication,
On the computer,
A step of performing short-range wireless communication with the user terminal;
Detecting the short-range wireless communication with the user terminal;
Activating the wireless LAN communication means based on a detection result;
A program that executes

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