JP2008283590A - Radio communication terminal, communication method, and radio communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To attain saving of power consumption and to facilitate application to equipment such as a portable terminal of which power capacity is limited. <P>SOLUTION: A radio communication system 100 includes a radio communication terminal 100A constituting a wireless LAN station and a radio communication terminal 100B constituting a wireless LAN access point (AP). The radio communication terminal 100A, 100B comprises an NFC reader/writer 130 that performs short-range radio communication, in addition to a communication apparatus 110 that performs wireless LAN communication. The NFC reader/writer 130 of the radio communication terminal 100A, 100B communicates a password and frame information (beacon, probe request, probe response and the like) required for performing wireless LAN connection setting (WPS). Until wireless LAN authentication is performed, the communication apparatus 110 of the radio communication terminal 100A, 100B can be powered off. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a wireless communication terminal, a semiconductor device, a data communication method, and a wireless communication system suitable for application to, for example, a wireless LAN (Local Area Network) system. Specifically, the present invention includes a first wireless communication unit that performs wireless LAN communication and a second wireless communication unit that performs short-range wireless communication, and the second wireless communication unit is the first wireless communication unit. It relates to a wireless communication terminal that facilitates application to a device with limited power capacity such as a portable terminal by performing wireless communication of frame information necessary for connection setting of a wireless communication unit. Is.

Wi-Fi Protected Setup (WPS) is a standard for easily executing wireless LAN device connection and security settings, and is standardized by the Wi-Fi Alliance (see Non-Patent Document 1). Wi-Fi is a brand name named by WECA (Wireless Ethernet Compatibility Alliance), an industry organization, to deepen consumer awareness of the IEEE 802.11a./IEEE 802.11b wireless LAN standard. It is. In WPS, wireless LAN connection setting is performed by inputting a password. “Ethernet” is a registered trademark.
Wi-FiProtected Setup Specification version 1.0h December 2006

  In the wireless LAN connection setting based on the password input described above, an access point (AP) must always be in a power-on state and continue to transmit beacons. Therefore, it has been difficult to apply to devices with limited power capacity such as portable terminals.

  As an ad hoc connection method between devices, there is a method using an ad hoc (Ad-Hoc) mode of wireless LAN communication. However, this method requires the communication mode of both devices to be ad hoc, and is not very popular from the viewpoint of convenience.

  An object of the present invention is to save power consumption and facilitate application to a device having a limited power capacity such as a portable terminal.

The concept of this invention is
A first wireless communication unit that performs wireless LAN communication;
A second wireless communication unit that performs short-range wireless communication,
The second wireless communication unit is a wireless communication terminal that performs wireless communication of frame information necessary for connection setting of the first wireless communication unit.

  In this invention, the wireless communication terminal includes a second wireless communication unit that performs near field communication such as NFC (Near Field Communication) in addition to the first wireless communication unit that performs wireless LAN communication. The second wireless communication unit performs wireless communication of frame information (beacon, probe request, probe response, etc.) necessary for connection setting of the first wireless communication unit. As described above, since the wireless communication of the frame information necessary for connection setting of the first wireless communication unit that performs wireless LAN communication is performed by the second wireless communication unit, the power of the first wireless communication unit is always turned on. It is not necessary to be in a state of being in a state, and it is possible to save power consumption.

  In the present invention, for example, the first wireless communication unit can operate both as an access point and a station, and based on frame information received by the second wireless communication unit, as an access point or a station. It may be activated. In this case, for example, the first wireless communication unit includes a wireless block that performs wireless communication and a control block that controls the operation of the wireless block, and the control block is received by the second wireless communication unit. Based on the frame information, the radio block is operated as an access point or a station.

  In this case, when the frame information received by the second wireless communication unit is a beacon frame, that is, when the connection partner is an access point, the first wireless communication unit is activated as a station. When the frame information received by the second wireless communication unit is a probe request frame, that is, when the connection partner is a station, the first wireless communication unit is activated as an access point.

  As described above, when the first wireless communication unit is activated as an access point or a station based on the frame information received by the second wireless communication unit, the user can distinguish between the access point and the station. It is possible to easily perform connection settings for the wireless LAN without having to do so.

  According to the present invention, there is provided a first wireless communication unit that performs wireless LAN communication and a second wireless communication unit that performs short-range wireless communication, and the second wireless communication unit is a first wireless communication unit. Wireless communication of frame information necessary for connection setting of the communication unit, it is not necessary to keep the power of the first wireless communication unit always on, power consumption can be saved, portable It can be easily applied to devices with limited power capacity such as terminals.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a configuration example of a wireless LAN communication system 100 as an embodiment. The wireless communication system 100 includes a wireless communication terminal 100A that forms a wireless LAN station, and a wireless communication terminal 100B that forms a wireless LAN access point (AP).

  The wireless communication terminal 100A includes a communication device 110 that performs wireless LAN communication, an antenna 120 that is connected to the communication device 110, an NFC reader / writer 130 that performs near field communication, and an NFC reader / writer 130 that is connected to the wireless communication terminal 100A. And an antenna 140. The communication device 110 and the antenna 120 constitute a first wireless communication unit, and the NFC reader / writer 130 and the antenna 140 constitute a second wireless communication unit. The NFC reader / writer 130 performs wireless communication of frame information necessary for connection setting of the communication device 110.

  FIG. 2 shows a configuration example of the communication device 110. The communication apparatus 110 includes a wireless block 112, a storage block 114, and a control block 116. The wireless block 112 performs communication based on, for example, IEEE 802.11a, IEEE 802.11b, IEEE 802.11g, or the like. The storage block 114 stores data to be transmitted and received. The control block 116 controls operations of the radio block 112 and the storage block 114.

  The control block 116 includes a driver 116a for an access point (AP) and a driver 116b for a station (Station). The control block 116 can operate the wireless block 112 and thus the communication device 110 as an access point by selecting the driver 116a for the access point. In addition, the control block 116 can operate the wireless block 112 and thus the communication device 110 as a station by selecting the driver 116b for the station.

  FIG. 3 shows a configuration example of the NFC reader / writer 130. The NFC reader / writer 130 has a wireless block 132, a storage block 134, and a control block 136. The wireless block 132 performs communication (NFC communication) based on, for example, ISO / IEC18092, ISO / IEC21481, and the like. The storage block 134 stores data to be transmitted and received. The control block 136 controls the operation of the radio block 132 and the storage block 134.

  Although not described in detail, the wireless communication terminal 100B also has a communication device 110 that performs wireless LAN communication, an antenna 120 connected to the communication device 110, and a short distance, similar to the wireless communication terminal 100A described above. An NFC reader / writer 130 that performs wireless communication and an antenna 140 connected to the NFC reader / writer 130 are provided.

  Next, a wireless LAN connection setting (WPS) procedure in the wireless LAN communication system 100 shown in FIG. 1 will be described with reference to the sequence diagram of FIG.

  (1) First, the NFC reader / writer 130 of the wireless communication terminal 100A constituting the station (Station) sends the password and the probe request to the NFC of the wireless communication terminal 100B constituting the access point (AP). The data is transmitted to the reader / writer 130. Here, the probe request is a signal for requesting fixed information necessary for wireless communication in the wireless LAN, for example, an ID (Identifier) for identifying an access point, information on a wireless communication system, and the like.

  Then, the NFC reader / writer 130 of the wireless communication terminal 100B transmits a probe response (Probe Response) including fixed information necessary for the wireless communication of the wireless LAN described above in response to the reception of the probe request described above. The data is transmitted to the NFC reader / writer 130 of the terminal 100A.

  Thus, first, the password and the WPS frame information (probe request, probe response) are communicated by NFC between the wireless communication terminal 100A and the wireless communication terminal 100B. In this case, since the communication device 110 of the wireless communication terminal 100A and the communication device 110 of the wireless communication terminal 100B are not used, their power can be turned off.

  (2) Next, based on the password and the WPS frame information communicated by NFC between the communication device 110 of the wireless communication terminal 100A and the communication device 110 of the wireless communication terminal 100B as described above, the WPS Communication for authentication (wireless LAN authentication) is performed, and wireless LAN connection setting is completed after authentication.

  As described above, in the wireless LAN communication system 100 shown in FIG. 1, wireless communication terminals 100A and 100B communicate password and WPS frame information (probe request, probe response, etc.) by NFC. Until the WPS authentication is started between the communication device 110 of the communication terminal 100A and the communication device 110 of the wireless communication terminal 100B, the power of each communication device 110 can be turned off to save power consumption. be able to.

  Further, in the wireless LAN communication system 100 shown in FIG. 1, since the password is transmitted from the wireless communication terminal 100A constituting the station (Station) to the wireless communication terminal 100B constituting the access point (AP) by NFC, wireless communication is performed. As compared with the case where the user of the communication terminal 100A manually inputs the password to the wireless communication terminal 100B, it becomes possible to greatly reduce input mistakes and labor.

  Here, for comparison, a wireless LAN connection setting (WPS) procedure in the case where the wireless communication terminals 100A and 100B do not have the NFC reader / writer 130 in the wireless LAN communication system 100 shown in FIG. This will be described with reference to the sequence diagram of FIG.

  (1) First, the communication device 110 of the wireless communication terminal 100B as an access point (AP) is always in a power-on state, and transmits a beacon at a predetermined cycle, for example, every 100 ms. Here, the beacon constitutes frame information for WPS, and includes fixed information necessary for wireless communication in the wireless LAN, for example, an ID (Identifier) for identifying an access point, information on a wireless communication system, and the like.

  (2) Next, the wireless communication terminal 100A as a station (Station) receives the beacon transmitted from the wireless communication terminal 100B as described above, and refers to the information included therein to access point (AP ) Is confirmed to be compatible with WPS. In WPS, control information unique to WPS is included in a beacon (beacon frame). Then, the communication device 110 of the wireless communication terminal 100A transmits a probe request to the communication device 110 of the wireless communication terminal 100B.

  (3) Next, in response to the reception of the probe request, the communication device 110 of the wireless communication terminal 100B transmits a probe response (Probe Response) including fixed information necessary for wireless LAN wireless communication to the wireless communication terminal 100B. The data is transmitted to the communication device 110 of the communication terminal 100A. As described above, the communication of the frame information (probe request, probe response) for WPS is performed between the wireless communication terminal 100A and the wireless communication terminal 100B in order to exchange more detailed information.

  (4) Next, the user of the wireless communication terminal 100A as a station (Station) manually inputs a password into the wireless communication terminal 100B.

  (5) Next, WPS authentication (wireless LAN authentication) is performed between the communication device 110 of the wireless communication terminal 100A and the communication device 110 of the wireless communication terminal 100B based on the above-described password and WPS frame information. Communication is performed, and wireless LAN connection setting is completed after authentication.

  As described above, when the frame information (beacon, probe request, probe response, etc.) is communicated by the wireless LAN, it is necessary to always turn on the communication device 110 of the wireless communication terminals 100A and 100B.

  In the above-described embodiment, the case where the wireless communication terminal 100A constitutes a station and the wireless communication terminal 100B constitutes an access point (AP) has been described. However, the present invention is not limited to an initiator. The present invention is also applicable when the wireless communication terminal (initiator device) is a station or an access point and it is not known whether the target wireless communication terminal (target device) is an access point or a station. Here, an initiator means a device that first transmits information by NFC, and a target means a device that receives information by NFC.

  For example, if the initiator device that is a station is to be connected one-to-one with a target device that does not know whether it is an access point or a station, conventionally, the initiator device has to perform a procedure for switching itself and the target device to the ad hoc mode. there were. On the other hand, in the present invention, the initiator device transmits a password and a probe request to the target device by NFC communication, so that the target device receives the condition “receives a probe request”. From this, it can be determined that the initiator device is a station. As a result, when the target device is activated as an access point, wireless LAN connection can be performed by a widely used connection method (infrastructure mode) of an access point and a station.

  Here, in the wireless LAN communication system 100 shown in FIG. 1, when the wireless communication terminal 100A constitutes a station with an initiator device and the wireless communication terminal 100B is a target device and it is unknown whether it is an access point or a station. The wireless LAN connection setting (WPS) procedure will be described with reference to the sequence diagram of FIG.

  (1) First, the wireless communication device 100A, which is an initiator device and constitutes a station, transmits a password and a probe request to a wireless communication terminal that is a target device by NFC communication. To 100B.

  The wireless communication terminal 100B that has received the password and the probe request determines that the wireless communication terminal 100A is a station based on the condition “receives a probe request” and activates itself as an access point. Then, the wireless communication terminal 100B constituting the access point (AP) transmits a probe response (Probe Response) including fixed information necessary for wireless communication of the wireless LAN to the wireless communication terminal 100A by NFC communication.

  (2) Next, based on the password and the WPS frame information communicated by NFC between the communication device 110 of the wireless communication terminal 100A and the communication device 110 of the wireless communication terminal 100B as described above, the WPS Communication for authentication (wireless LAN authentication) is performed, and wireless LAN connection setting is completed after authentication.

  Also, for example, when the initiator device that is an access point wants to make a one-to-one connection with a target device that does not know whether it is an access point or a station, the initiator device has conventionally performed a procedure for switching itself and the target device to an ad hoc mode. Was necessary. On the other hand, in the present invention, the initiator device transmits the beacon to the target device by NFC communication, so that the target device is the access point from the condition that “the beacon is received”. It can be judged. As a result, when the target device starts itself as a station, wireless LAN connection can be performed by a widely used connection method (infrastructure mode) of an access point and a station.

  Here, in the wireless LAN communication system 100 shown in FIG. 1, when the wireless communication terminal 100B forms an access point with an initiator device, and it is unknown whether the wireless communication terminal 100A is a target device and is an access point or a station. The wireless LAN connection setting (WPS) procedure will be described with reference to the sequence diagram of FIG.

  (1) First, the wireless communication terminal 100B, which is an initiator device and constitutes an access point (AP), transmits a beacon to the wireless communication terminal 100A, which is a target device, by NFC communication.

  (2) Next, the wireless communication terminal 100A determines that the wireless communication terminal 100B is an access point from the condition “receives a beacon” and activates itself as a station.

  (3) Next, the wireless communication terminal 100A transmits a password and a probe request to the wireless communication terminal 100B by NFC communication. Then, in response to receiving the probe request, the wireless communication terminal 100B transmits a probe response (Probe Response) including fixed information necessary for wireless communication in the wireless LAN to the wireless communication terminal 100A by NFC communication. .

  (4) Next, based on the password and WPS frame information communicated by NFC between the communication device 110 of the wireless communication terminal 100A and the communication device 110 of the wireless communication terminal 100B as described above, Communication for authentication (wireless LAN authentication) is performed, and wireless LAN connection setting is completed after authentication.

  In this way, the target device determines whether the initiator device is a station (Station) based on frame information (probe request, beacon, etc.) transmitted from the initiator device via NFC. AP is activated as an access point when the initiator device is a station, and conversely, it is activated as a station when the initiator device is an access point.

  Therefore, even if the initiator device is a station or an access point and it is not known whether the target device is an access point or a station, both the initiator device and the target device do not switch to the ad hoc mode. By following the mode change, it becomes possible to establish a wireless LAN connection by a widely used connection method (infrastructure mode) of an access point and a station.

  Next, processing of the wireless communication terminal as the initiator device or target device when performing the above-described wireless LAN connection setting (WPS) will be described with reference to the flowchart of FIG.

  First, in step ST1, the wireless communication terminal starts a setting process, and then moves to step ST2. In step ST2, the wireless communication terminal determines whether it is an initiator device. Whether the wireless communication terminal is an initiator device or a target device is set in advance by the user. When the wireless communication terminal is set as the initiator device, a screen as shown in FIG. 9A is displayed on the display unit. For example, the user can determine whether the wireless communication terminal is activated as a station or an access point by selecting a station (Station) or an access point (AP) and operating a setting start button. The system may automatically make this determination.

  When the wireless communication terminal is an initiator device, in step ST3, the wireless communication terminal performs transmission processing by NFC communication. The transmission process will be described with reference to the flowchart of FIG.

  First, in step ST11, the wireless communication terminal starts transmission processing, and then moves to step ST12. In step ST12, the wireless communication terminal polls the target device. Then, in step ST13, the wireless communication terminal determines whether polling has been successful. When the polling is not successful, the wireless communication terminal returns to step ST12 and polls the target device again. On the other hand, when the polling is successful, in step ST14, the wireless communication terminal performs frame information (probe request (Probe Request) when itself is a station, beacon (Beacon) when itself is an access point) in NFC communication. ) To the target device. And a wireless communication terminal complete | finishes a transmission process in step ST15 after the process of step ST14.

  Returning to the flowchart of FIG. 8, when the device itself is not the initiator device but the target device in step ST2, in step ST4, reception processing by NFC communication is performed. The reception process will be described with reference to the flowchart of FIG.

  First, in step ST21, the wireless communication terminal starts reception processing, and then moves to step ST22. In step ST22, the wireless communication terminal receives polling from the initiator device. In step ST23, the wireless communication terminal determines whether or not the polling has been successfully received.

  When the target device has successfully received the polling, a screen as shown in FIG. 9B is displayed on the display unit. When the user selects “Yes” meaning start of setting based on this screen, the process proceeds to step ST24. In step ST24, the wireless communication terminal receives frame information (a beacon when it is a station or a probe request when it is an access point) from the initiator device by NFC communication.

  And a wireless communication terminal complete | finishes a reception process in step ST25 after the process of step ST24. As described above, the target device is configured to allow the user to select whether or not to start the setting (see FIG. 9B) because there is a security problem when the setting is automatically started. It is.

  In the target device that performs reception processing as shown in FIG. 11, the standby power of NFC communication can be saved by configuring the internal circuit to start the operation triggered by polling transmitted from the initiator device. It becomes possible.

  Returning to the flowchart of FIG. 8, the wireless communication terminal proceeds to step ST5 after the process of step ST3 and after the process of step ST4. In step ST5, the wireless communication terminal performs an activation process of an access point (AP) or a station (Station). With reference to the flowchart of FIG. 12, an activation process of an access point (AP) or a station (Station) will be described.

  First, in step ST31, the wireless communication terminal starts activation processing, and then proceeds to step ST32. In step ST32, the wireless communication terminal determines whether it is an initiator device. When the wireless communication terminal itself is an initiator device, in step ST33, the wireless communication terminal determines whether or not it is an access point.

  When the wireless communication terminal itself is an access point (AP), the wireless communication terminal is activated as an access point in step ST34. In this case, since the wireless communication terminal is an initiator device and constitutes an access point, after being activated as an access point, a probe response is transmitted to the target device by NFC communication in response to a probe request from the target device. (See FIG. 7). The wireless communication terminal ends the activation process in step ST35 after the process in step ST34.

  Further, when the mobile station itself is not an access point at the above-described step ST33, that is, when the mobile station itself is a station, the wireless communication terminal is activated as a station at step ST36. The wireless communication terminal ends the activation process in step ST35 after the process in step ST36.

  When the wireless communication terminal itself is not the initiator device in step ST32 described above, that is, when it is the target device, the wireless communication terminal performs frame information determination processing in step ST37, and then performs activation processing in step ST35. finish. The frame information determination process will be described with reference to the flowchart of FIG.

  First, in step ST41, the wireless communication terminal starts determination processing, and then proceeds to step ST42. In step ST42, the wireless communication terminal determines whether or not the reception data received in step ST4 (see FIG. 8) includes a beacon. When there is a beacon, the wireless communication terminal can determine that the initiator device is an access point, and activates itself as a station in step ST43.

  In this case, since the wireless communication terminal is a target device and constitutes a station, after being activated as a station, the wireless communication terminal transmits a password and a probe request to the initiator device by NFC communication (FIG. 7). reference). After the process of step ST43, the wireless communication terminal ends the determination process in step ST44.

  When there is no beacon in the received data in step ST42, the radio communication terminal proceeds to step ST45. In step 45, the wireless communication terminal determines whether there is a probe request in the received data. When there is a probe request, the wireless communication terminal can determine that the initiator device is a station, and activates itself as an access point (AP) in step ST46.

  In this case, since the wireless communication terminal is a target device and constitutes an access point, after being activated as an access point, a probe response is transmitted to the initiator device by NFC communication in response to a probe request from the initiator device. (See FIG. 6). The wireless communication terminal ends the determination process in step ST44 after the process in step ST46.

  When there is no probe request in the received data in step ST45, the wireless communication terminal performs error processing in step ST47, and thereafter ends the determination processing in step ST44. Here, the error process is, for example, a process of displaying an error message such as “An unknown device has been detected” on the screen shown in FIG. 9B, and can prompt the user to interrupt the process.

  Returning to the flowchart of FIG. 8, the wireless communication terminal proceeds to step ST6 after the process of step ST5. In step ST6, the wireless communication terminal performs wireless LAN authentication processing by wireless LAN communication, and then ends the setting processing in step ST7.

  As described above, a wireless communication terminal as a target device is activated as an access point or a station based on frame information received by NFC communication, and the user distinguishes between an access point and a station. In addition, the wireless LAN connection setting can be easily performed.

  In the above-described embodiment, the second wireless communication unit that performs short-range wireless communication is the one that performs NFC communication. However, near field communication is not limited to NFC communication, and infrared data communication (IrDA), Bluetooth (Bluetooth), etc. can also be used.

  In the above-described embodiment, the NFC reader / writer 130 of the wireless communication terminal 100A and the NFC reader / writer 130 of the wireless communication terminal 100B have been described as performing direct NFC communication. However, this NFC communication is performed using an NFC card. It is also possible to do it indirectly.

  According to the present invention, the frame information necessary for setting the connection of the first wireless communication unit that performs wireless LAN communication is communicated by the second wireless communication unit that performs short-range wireless communication, thereby saving power consumption. For example, it can be applied to devices with limited power capacity such as portable terminals.

It is a block diagram which shows the structural example of the wireless LAN communication system as embodiment of this invention. It is a block diagram which shows the structural example of the communication apparatus which performs the wireless LAN communication which the wireless communication terminal which comprises a wireless LAN communication system has. It is a block diagram which shows the structural example of the NFC reader-writer which performs the NFC communication which the wireless communication terminal which comprises a wireless LAN communication system has. It is a sequence diagram for demonstrating the procedure of the connection setting (WPS) of the wireless LAN in a wireless LAN communication system. It is a sequence diagram for demonstrating the procedure (comparative example) of the connection setting (WPS) of wireless LAN in a wireless LAN communication system. A wireless LAN connection setting (WPS) procedure when the wireless communication terminal 100A constitutes a station with an initiator device and the wireless communication terminal 100B is a target device and it is unknown whether it is an access point or a station will be described. FIG. A wireless LAN connection setting (WPS) procedure when the wireless communication terminal 100B configures an access point with an initiator device and the wireless communication terminal 100A is a target device and it is unknown whether it is an access point or a station will be described. It is a figure for doing. 6 is a flowchart for explaining processing of a wireless communication terminal as an initiator device or a target device when performing wireless LAN connection setting (WPS). It is a figure which shows the example of a screen display by the side of an initiator. It is a figure which shows the example of a screen display by the side of a target. It is a flowchart for demonstrating the transmission process of NFC in an initiator apparatus. It is a flowchart for demonstrating the reception process of NFC in a target apparatus. It is a flowchart for demonstrating the starting process of an access point (AP) or a station (Station). It is a flowchart for demonstrating the frame information discrimination | determination process in a target apparatus.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 100 ... Wireless LAN communication system, 100A, 100B ... Wireless communication terminal, 110 ... Communication apparatus, 112 ... Wireless block, 114 ... Storage block, 116 ... Control block, 116a ... Driver for access point (AP) 116b Driver for station 120, 140 ... Antenna, 130 ... NFC reader / writer, 132 ... Wireless block, 134 ... Memory Block, 136 ... Control block

Claims (7)

A first wireless communication unit that performs wireless LAN communication;
A second wireless communication unit that performs short-range wireless communication,
The wireless communication terminal, wherein the second wireless communication unit performs wireless communication of frame information necessary for connection setting of the first wireless communication unit. The first wireless communication unit is
Both access point and station operations are possible,
The wireless communication terminal according to claim 1, wherein the wireless communication terminal is activated as the access point or the station based on the frame information received by the second wireless communication unit. When the frame information received by the second wireless communication unit is a beacon frame,
The wireless communication terminal according to claim 2, wherein the first wireless communication unit is activated as the station. When the frame information received by the second wireless communication unit is a probe request frame,
The wireless communication terminal according to claim 2, wherein the first wireless communication unit is activated as the access point. The first wireless communication unit is
A wireless block for wireless communication;
A control block for controlling the operation of the wireless block,
The wireless communication terminal according to claim 1, wherein the control block operates the wireless block as an access point or a station based on frame information received by the second wireless communication unit. A communication method for communicating frame information necessary for connection setting of a wireless communication unit that performs wireless LAN communication,
Provide a short-range wireless communication unit that performs short-range wireless communication,
A communication method, wherein the frame information is communicated using the short-range wireless communication unit. A first wireless communication terminal comprising: a first wireless communication unit that performs wireless LAN communication; and a first short-range wireless communication unit that performs short-range wireless communication;
A second wireless communication terminal including a second wireless communication unit that performs wireless LAN communication and a second short-range wireless communication unit that performs short-range wireless communication;
The first short-range wireless communication unit and the second short-range wireless communication unit directly or indirectly include a frame necessary for connection setting of the first wireless communication unit and the second wireless communication unit. A wireless communication system characterized by performing wireless communication of information.

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