JP5268550B2 - Wireless communication device, gateway device, access point, wireless LAN module, wireless communication system and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To switch a wireless connection mode of wireless communication equipment in accordance with a wireless connection mode in which another wireless communication equipment is to be wirelessly connected and to wirelessly connect to the other wireless communication equipment by using the switched wireless connection mode. <P>SOLUTION: One wireless communication equipment in a wireless communication system comprising the plurality of wireless communication equipment includes: a wireless connection mode switching part which has a plurality of wireless connection modes in a wireless LAN communication system and switches the wireless connection mode of the wireless communication equipment in accordance with the wireless connection mode used for the other wireless communication equipment to be wirelessly connected; and a wireless LAN connection part for wirelessly connecting the wireless communication equipment to the other wireless communication equipment by using the wireless connection mode switched by the wireless connection mode switching part. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a wireless communication system, and more particularly to a system to which a wireless LAN is applied.

  Until now, wireless LAN modules have been almost standardized on notebook PCs. However, in recent years, wireless LAN modules have been mounted on portable terminals other than notebook PCs. For example, each company sells mobile phones in which a wireless LAN module is mounted in addition to a mobile phone communication module. By mounting a wireless LAN module in addition to a mobile phone communication module on a mobile phone, the function of the mobile phone can be improved, and the convenience and attractiveness of the user are improved.

  In addition, an online game that can realize a battle with a remote opponent on the Internet is becoming widespread. In order to utilize this, the mounting of wireless LAN modules is also progressing in some portable game devices.

  Furthermore, wireless LAN modules have begun to be mounted on portable music players and the like in order to download contents easily.

  On the other hand, a system to which a wireless LAN is applied (hereinafter referred to as a wireless LAN system) itself is rapidly spreading. For example, base stations for wireless LAN are available at low cost for consumer use, and are therefore widely used in general households. Also, regarding the installation of wireless LAN base stations in public areas, for example, in order to provide Internet access to customers in a specific area such as a coffee shop, the spread is rapidly progressing.

  In the wireless LAN system, a form called a infrastructure mode in which a plurality of wireless LAN terminals are wirelessly connected to one base station is generally used (see, for example, Non-Patent Document 1). For example, in a wireless LAN system, a format in which a notebook PC or a portable game device is wirelessly connected to a wireless LAN base station installed in an office or a public hotspot where a wireless LAN can be used is common.

Further, as described above, mounting of wireless LAN modules on portable game devices is progressing. In such a portable game device, in addition to a battle mode in which a game is played with another portable game device via an Internet line, a game can be played using an ad hoc mode with another portable game device existing in the same area. The type of battle to be performed is also becoming widespread (for example, see Non-Patent Document 2).
IEEE 802.11 Standard 2003 Edition (A compilation based on IEEE Std 802.11TM-1999 (R2003) and its amendments) IEEE802.11e standard

However, when a mobile terminal equipped with a wireless LAN module (hereinafter referred to as a wireless LAN mobile terminal) is applied to the wireless LAN system, the following problems occur with regard to switching the wireless connection mode and searching for a wireless connection partner. There is a case.
<Switching wireless connection mode>
Generally, the wireless LAN wireless connection mode is generally set in advance or at the timing of wireless connection of a terminal to be newly connected. Here, the wireless connection mode may include an ad hoc mode and an infrastructure mode. The ad hoc mode may include a mesh connection mode. However, for example, selecting the connection destination and switching the wireless connection mode every time a wireless connection is made results in a significant decrease in user convenience. In particular, portable game devices and the like can often communicate only in the ad hoc mode.
<Search for wireless connection partner>
When a wireless LAN mobile terminal uses the ad hoc mode and there are other wireless LAN mobile terminals that use the ad hoc mode in the vicinity, the wireless LAN mobile terminal starts communication using a method defined in the standard. To do. On the other hand, when there is no other wireless LAN mobile terminal that uses the ad hoc mode in the surrounding area, the wireless LAN mobile terminal is a mobile game device or the like, and the communication itself is performed when only the ad hoc mode such as a game device is supported. I can't.

  An example of wireless connection will be described.

  For example, as shown in FIG. 1, a wireless LAN mobile terminal searches for a wireless connection destination by a method called active scan. In the active scan, a wireless LAN mobile terminal requesting a wireless connection transmits a packet called a probe request by broadcasting in order to discover other nearby wireless LAN mobile terminals. On the other hand, other wireless LAN portable terminals that are communicating in the base station or ad hoc mode, and other wireless LAN portable terminals that are capable of communicating in ad hoc mode have a packet called a probe response in response to a probe request. Is transmitted by unicast. In other words, a wireless LAN mobile terminal that is about to start communication newly has a plurality of probe response packets when there are a plurality of wirelessly connectable base stations or other wireless LAN mobile terminals operating in an ad hoc mode in the same area. Receive. A wireless LAN portable terminal that is about to start communication newly starts communication after selecting an optimal wireless connection destination from one or more received Probe Response packets.

  Accordingly, the present invention has been made to solve at least one of the above-described problems, and an object of the present invention is to change the wireless communication device according to a wireless connection mode in which another wireless communication device is to be wirelessly connected. A wireless communication device, a gateway device, an access point, a wireless LAN module, a wireless communication system, and a method capable of wirelessly connecting to another wireless communication device using the switched wireless connection mode It is to provide.

In order to solve the above problems, the wireless communication device
A wireless communication device in a wireless communication system including a plurality of wireless communication devices,
Has multiple wireless connection modes in the wireless LAN communication system,
Depending on the wireless connection mode another wireless communication device to be a wireless connection is used, the wireless connection mode switching unit for switching the wireless connection mode of the wireless communication device,
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device ,
Common notification information generation for generating first common notification information for other wireless communication devices to be wirelessly connected in the ad hoc mode and second common notification information for other wireless communication devices to be wirelessly connected in the infrastructure mode And
A transmission unit configured to transmit the first common notification information and the second common notification information generated by the common notification information generation unit at different times ;
This wireless communication device
A wireless communication device in a wireless communication system including a plurality of wireless communication devices,
Has multiple wireless connection modes in the wireless LAN communication system,
A wireless connection mode switching unit that switches a wireless connection mode of the wireless communication device according to a wireless connection mode used by another wireless communication device to be wirelessly connected;
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device,
A common notification information generating unit that generates third common notification information that is common to the ad hoc mode and the infrastructure mode;
A transmission unit for controlling a transmission interval of the third common notification information generated by the common notification information generation unit;
Have

  The gateway device includes the wireless communication device.

  The access point has the wireless communication device.

This wireless LAN module
A wireless LAN module,
Has multiple wireless connection modes in the wireless LAN communication system,
Depending on the wireless connection mode another wireless communication device to be a wireless connection is used, the wireless connection mode switching unit for switching the wireless connection mode of the wireless LAN module,
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device ,
Common notification information generation for generating first common notification information for other wireless communication devices to be wirelessly connected in the ad hoc mode and second common notification information for other wireless communication devices to be wirelessly connected in the infrastructure mode And
A transmission unit configured to transmit the first common notification information and the second common notification information generated by the common notification information generation unit at different times ;
This wireless LAN module
A wireless LAN module,
Has multiple wireless connection modes in the wireless LAN communication system,
A wireless connection mode switching unit that switches a wireless connection mode of the wireless LAN module according to a wireless connection mode used by another wireless communication device to be wirelessly connected,
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device,
A common notification information generating unit that generates third common notification information that is common to the ad hoc mode and the infrastructure mode;
A transmission unit for controlling a transmission interval of the third common notification information generated by the common notification information generation unit;
Have

This wireless communication system
A wireless communication system including a plurality of wireless communication devices,
The wireless communication device included in the wireless communication system has a plurality of wireless connection modes in a wireless LAN communication system,
A wireless connection mode switching unit that switches a wireless connection mode of the wireless communication device according to a wireless connection mode used by another wireless communication device to be wirelessly connected;
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device ,
Common notification information generation for generating first common notification information for other wireless communication devices to be wirelessly connected in the ad hoc mode and second common notification information for other wireless communication devices to be wirelessly connected in the infrastructure mode And
A transmission unit configured to transmit the first common notification information and the second common notification information generated by the common notification information generation unit at different times ;
This wireless communication system
A wireless communication system including a plurality of wireless communication devices,
The wireless communication device included in the wireless communication system has a plurality of wireless connection modes in a wireless LAN communication system,
A wireless connection mode switching unit that switches a wireless connection mode of the wireless communication device according to a wireless connection mode used by another wireless communication device to be wirelessly connected;
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device,
A common notification information generating unit that generates third common notification information that is common to the ad hoc mode and the infrastructure mode;
A transmission unit for controlling a transmission interval of the third common notification information generated by the common notification information generation unit;
Have

This method
A method in one wireless communication device in a wireless communication system including a plurality of wireless communication devices,
The wireless communication device has a plurality of wireless connection modes in a wireless LAN communication system,
Depending on the wireless connection mode another wireless communication device to be a wireless connection is used, the wireless connection mode switching step of switching wireless connection mode of the wireless communication device,
Using the wireless connection mode switched by the wireless connection mode switching step, a wireless LAN connection step for performing wireless connection with the other wireless communication device ,
Common notification information generation for generating first common notification information for other wireless communication devices to be wirelessly connected in the ad hoc mode and second common notification information for other wireless communication devices to be wirelessly connected in the infrastructure mode Steps,
A transmission step of transmitting the first common notification information and the second common notification information generated by the common notification information generation step at different times .
This method
A method in one wireless communication device in a wireless communication system including a plurality of wireless communication devices,
The wireless communication device has a plurality of wireless connection modes in a wireless LAN communication system,
A wireless connection mode switching step of switching a wireless connection mode of the wireless communication device according to a wireless connection mode used by another wireless communication device to be wirelessly connected;
Using the wireless connection mode switched by the wireless connection mode switching step, a wireless LAN connection step for performing wireless connection with the other wireless communication device,
A common notification information generation step for generating third common notification information common to the ad hoc mode and the infrastructure mode;
A transmission step for controlling a transmission interval of the third common notification information generated by the common notification information generation step;
Have

  According to the disclosed wireless communication device, gateway device, access point, wireless LAN module, wireless communication system, and method, the wireless connection of the wireless communication device depends on the wireless connection mode in which the other wireless communication device is to wirelessly connect. The mode is switched, and the switched wireless connection mode is used to wirelessly connect to another wireless communication device. The wireless connection of the wireless communication device depends on the wireless connection mode to which the other wireless communication device is to be wirelessly connected. It is possible to wirelessly connect to another wireless communication device by switching the mode and using the switched wireless connection mode.

Next, the best mode for carrying out the present invention will be described based on the following embodiments with reference to the drawings.
In all the drawings for explaining the embodiments, the same reference numerals are used for those having the same function, and repeated explanation is omitted.
(Wireless communication system)
A radio communication system according to the present embodiment will be described with reference to FIG.

The wireless communication system 1000 includes a gateway device 100 _k (k is an integer of k> 0). The wireless communication system 1000 includes a terminal device (hereinafter referred to as a wireless LAN terminal device) on which a wireless LAN module is mounted. The wireless LAN terminal device may include an access point. Specifically, the wireless LAN terminal device includes a portable game device 200 _l (l is an integer of l> 0), a portable terminal 300 _m (m is an integer of m> 0), and a notebook PC 400 _n (n is an integer of n> 0). As an example, FIG. 2 shows a gateway device 100 ₁ , portable game devices 200 ₁ and 200 ₂ , portable terminals 300 ₁ and 300 ₂ , and notebook PCs 400 ₁ and 400 ₂ .

Gateway device 100 ₁ includes a wireless LAN interface. Further, the gateway device 100 ₁ may have an interface for wide-area wireless network. The gateway device 100 ₁ communicates with the portable game devices 200 ₁ and 200 ₂ , the portable terminals 300 ₁ and 300 ₂ , and the notebook PCs 400 ₁ and 400 ₂ via the wireless LAN interface. Through the interface for wide-area wireless network, and the gateway device 100 ₁ and the wide-area wireless base station 500 is wirelessly connected. The wide area radio base station 500 is connected to the Internet 600 by wire. Here, the wide area wireless network includes a communication network accessible by WiMAX (Worldwide Interoperability for Microwave Access), for example, a mobile phone network.

Incidentally, the gateway device 100 ₁ may be a battery operated, or may be a gateway device of the type that is connected to the power source or the like.
(Wireless communication device)
A wireless communication apparatus 150 according to the present embodiment will be described with reference to FIG. The wireless communication device 150 may be included in the gateway device 100 _k or may be included in the wireless LAN terminal device.

  The wireless communication device 150 includes a wireless LAN communication unit 152, a wide area wireless network communication unit 154, a signal generation unit 156, a beacon generation unit 158, a control unit 160, and a traffic monitoring unit 164. The control unit 160 includes a transmission control unit 162.

  The wireless LAN communication unit 152 has a wireless LAN interface and performs communication by wireless LAN. For example, the wireless LAN communication unit 152 has a plurality of wireless connection modes in the wireless LAN communication method, and the wireless connection mode of the wireless communication device depends on the wireless connection mode used by another wireless communication device to be wirelessly connected. Switch. In addition, the wireless LAN communication unit 152 performs wireless connection with another wireless communication apparatus using the switched wireless connection mode. The plurality of wireless connection modes include an infrastructure mode and an ad hoc mode. Further, the wireless connection mode may include a mesh connection mode. The mesh connection mode may be included in the ad hoc mode. The wireless LAN communication unit 152 may be configured by a wireless LAN module.

  The wide area wireless network communication unit 154 has a wide area wireless network interface, and wirelessly connects to the Internet 600 via the wide area wireless network base station 500.

  The beacon generation unit 158 generates a beacon. For example, the beacon generation unit 158 generates a beacon for another wireless communication device that operates in the infrastructure mode or the ad hoc mode.

  The signal generation unit 156 generates a probe response signal (Probe response). The signal generator 156 generates a probe request signal (Probe request). Further, the signal generation unit 156 generates an association request signal. Further, the signal generation unit 156 generates an association response signal.

  The transmission control unit 162 performs beacon transmission control. The transmission control unit 162 performs transmission control of the signal generated by the signal generation unit 156. The signal generated by the signal generator 156 may include a probe response signal, a probe request signal, an association request signal, and an association response signal.

The traffic monitoring unit 164 monitors traffic in another wireless communication device operating in the ad hoc mode or the infrastructure mode wirelessly connected to the wireless communication device 150. The traffic monitoring unit 164 may monitor the traffic for each wireless communication device, or may monitor the traffic for each wireless connection mode. Based on the traffic monitored by the traffic monitoring unit 164, the control unit 160 changes the traffic distribution to other wireless communication devices operating in the ad hoc mode and to other wireless communication devices operating in the infrastructure mode.
(Beacon transmission method)
A beacon transmission method in wireless communication device 150 will be described.

  The beacon generation unit 158 generates an infrastructure mode beacon and an ad hoc mode beacon. Then, as shown in FIG. 4, the transmission control unit 162 controls the infrastructure mode beacon generated by the beacon generation unit 158 and the ad hoc mode beacon to be transmitted from the same interface at different times. . FIG. 4 shows beacon transmission intervals in terminal 1 as a gateway device and beacon transmission intervals in terminals 2 and 3 as wireless LAN terminal devices. Terminals 2 and 3 try to connect wirelessly in ad hoc mode. According to FIG. 4, when transmitting the infrastructure mode beacon and the ad hoc mode beacon, the terminal 1 transmits the infrastructure mode beacon during the ad hoc mode beacon transmission interval. As for the transmission interval of the infrastructure mode beacon and the ad hoc mode beacon, as shown in FIG. This is desirable from the viewpoint of avoiding (beacon) collisions.

In the wireless LAN infrastructure mode, a beacon is periodically transmitted from an access point in order for a nearby wireless LAN terminal to discover an access point and to acquire common information necessary for wireless connection. The For example, as shown in FIG. 6, beacons are periodically transmitted in a wireless LAN infrastructure mode. The beacon transmission time is called a target beacon transmission time (TBTT). The time when the wireless LAN terminal to be wirelessly connected in the infrastructure mode transmits a beacon is indicated by T _{TBTT_I} . Actually, the beacon is transmitted in consideration of the transmission status of surrounding terminals by the carrier sense of the wireless section before the access point transmits. This is called random back-off, and a packet is transmitted after selecting a random time within a certain time range for each packet transmission. In FIG. 6, random backoff is indicated by “random time”. On the other hand, in the ad hoc mode, a beacon packet is transmitted fairly by all terminals operating in the ad hoc mode in the same area. For example, as illustrated in FIG. 7, the terminal 1-3 in the ad hoc mode transmits a beacon at a beacon transmission time. In FIG. 7, the terminal 1-3 tries to transmit a beacon at the beacon transmission time. At the first beacon transmission time, the terminals 2 and 3 perform carrier sense so that the terminal 1 transmits a beacon signal. Do not send to detect sending. At the next beacon transmission time, the terminals 1 and 3 do not transmit to detect that the terminal 2 transmits a beacon signal by performing carrier sense. The time when the wireless LAN terminal in the ad hoc mode transmits a beacon is indicated by _{TTBTT_A} . However, actual beacon transmission in the ad hoc mode is not performed when it is confirmed that another terminal has transmitted a beacon. Therefore, the actual beacon transmission interval is expressed by the following equation (1).

BINT_A = BINT_ORG_A / NA (1)
In Expression (1), BINT_A is an actual packet transmission interval in the ad hoc mode, BINT_ORG_A is an initial value of the beacon transmission interval, and NA is the number of terminals performing communication in the ad hoc mode.

Also, the value of an announcement traffic information message window (ATIM (Announcement Traffic Information Message) Window) will be described. The ATIM Window indicates a short time immediately after the transmission of each beacon in the ad hoc network. In this ATIM Window, it is possible to transmit a power save frame (ATIM) for the ad hoc mode. The value of this ATIM Window may be changed according to the transmission interval of the infrastructure mode beacon. In this way, useless packet collision can be prevented. For example, when the value of ATIM Window is T _ATIM , the beacon transmission time for ad hoc mode is T _{TBTT_A,} and the beacon transmission time for infrastructure mode is T _{TBTT_I} , The beacon transmission interval or ATIM window size for the mode may be set.
T _{TBTT_I} -T _{TBTT_A} > T _ATIM (2)
Further, when the wireless communication device 150 is included in the battery-driven gateway device 100 _k , it is desirable to reduce wasteful power consumption by reducing the number of packet transmissions as much as possible. For example, the control unit 160 may set the transmission interval of the infrastructure mode beacon according to the remaining battery level (P _Left ) as shown in the following equation (3).

BINT_I = BINT_ORG_A / P _Left (3)
In Expression (3), BINT_I is an actual packet transmission interval in the infrastructure mode, BINT_ORG_A is an initial value of the beacon transmission interval for the ad hoc mode, and P _Left is a remaining battery level.

In addition, the beacon generation unit 158 may newly generate a beacon frame (hereinafter referred to as a common beacon frame) that is common in the ad hoc mode and the infrastructure mode. For example, the beacon generation unit 158 may generate a common beacon frame by the following method.
(I) Independent basic service set parameter set (IBSS) inserted only in a beacon (ad hoc mode beacon frame) transmitted in normal ad hoc mode into a beacon frame (infrastructure mode beacon frame) transmitted in infrastructure mode Add (Independent Basic Service Set) Parameter Set) field.
(II) In the beacon frame, a type (Type) and a subtype (Subtype) are newly defined and defined as a new frame.
(III) In the beacon frame, a new mode is defined for performance information (Capability Information).

  (II) will be described. FIG. 8 shows an example of a beacon frame. With reference to FIG. 8, a method of defining Type and Subtype in a new beacon frame is shown. A beacon frame includes a plurality of fields. The plurality of fields include Frame Control, Duration, DA, SA, BSS ID, Sequence Control, Frame Body, and FCS. In FIG. 8, the numerical value shown above each field is the information amount (in bytes) of each field. Among these fields, the frame control field includes Protocol Version, Control, Subtype, ToDS, From DS, More Frag, Retry, Pwr Mgt, More Data, WEP, and Order B15. In FIG. 8, the numerical value shown below each field is the information amount (bit unit) of each field.

  As described above, the beacon frame includes a 2-byte field called a frame control field. The frame control field includes a 2-bit field and a 4-bit field called a Type field and a Subtype field, respectively. The wireless communication device 150 determines the packet type of the received frame based on the values of the Type field and the Subtype field. Usually, the beacon frame is set to Type = 00 and Subtype = 1000. For example, Type = 00 and Subtype = 1111 are set as beacons common to the new infrastructure mode and the ad hoc mode. By doing so, the wireless communication device 150 can determine that it is a new common beacon frame.

(III) will be described. FIG. 9 shows an example of a frame body in the beacon frame described with reference to FIG. Referring to FIG. 9, a method for adding a new mode to the performance information fixed field will be described. The frame body includes a capability information fixed field. The Capability Information fixed field includes ESS, IBSS, CF Pollable, CF-Poll Request, Privacy, Short Preamble, PBCC, Channel Agility, Common Beacon, and Reserved. By including Common Beacon in the Capability Information fixed field, it is possible to notify the wireless communication apparatus that the common mode frame is supported for the normal beacon frame. The Capability Information fixed field may be included not only in the beacon frame but also in other frames such as a probe response.
(Probe response transmission method)
A probe response transmission method in the wireless communication apparatus 150 will be described. For example, the wireless communication 150 transmits a plurality of probe response signals in the active scan method. The probe response signal may include an infrastructure mode probe response signal and an ad hoc mode probe response signal. For example, the signal generation unit 156 generates a probe response signal for the infrastructure mode and a probe response signal for the ad hoc mode.

  The probe request frame generally includes a field for identifying whether another wireless communication device to be connected is connected wirelessly in the ad hoc mode or in the infrastructure mode. Absent. For this reason, the wireless communication apparatus that is the connection destination cannot identify whether the wireless communication apparatus that requests wireless connection is operating in the ad hoc mode or the infrastructure mode.

Since the wireless communication apparatus 150 according to the present embodiment supports both the ad hoc mode and the infrastructure mode, the wireless communication apparatus 150 operates in the infrastructure mode even when the wireless communication apparatus that requests the wireless connection operates in the ad hoc mode. Even if it is, it is possible to establish a wireless connection in any wireless connection mode. As illustrated in FIG. 10, the wireless communication device 150 transmits probe response frames in both wireless connection modes. For example, probe response frames in both wireless connection modes may be transmitted at different times. By doing so, it becomes possible to accept a wireless connection request (probe request) regardless of the wireless connection mode of the wireless communication device that requests wireless connection. For example, a probe response frame that is common to both modes may be newly defined. Specifically, it can be defined by the method (I)-(III) described above.
(Admission control)
The wireless communication device 150 according to the present embodiment includes a wireless communication device in which the wireless communication device and a plurality of other wireless communication devices are wirelessly connected, and the plurality of other wireless communication devices operate in an ad hoc mode. Admission control is performed for a case including a wireless communication device operating in a mode. In other words, when another wireless communication device operating in the ad hoc mode and another wireless communication device operating in the infrastructure mode coexist, the wireless communication device performs admission control.

  Wireless LAN communication quality control technology includes priority control (EDCA: Enhanced Distribution Channel Access) standardized by IEEE802.11e. In EDCA, traffic in a wireless LAN is associated with four priorities (AC_VO, VI, BE, BK) to provide a plurality of communication qualities for a wireless LAN base station and a wireless LAN terminal. In addition to the priority control, admission control for permitting the use of radio resources may be performed only when the communication quality requested by the user can be provided based on the status of the radio resources.

  In admission control, processing for increasing the number of accommodated traffic such as other traffic with good behavior is performed by prohibiting the setting of a route through which traffic with poor behavior or traffic with poor accommodation efficiency flows. Admission control detects traffic behavior and the state of the link along the route to be set, prohibits transmission of bad traffic, and transmits traffic that consumes a large amount of bandwidth. You may make it perform prohibiting.

  The admission control performed in the control unit 160 will be described with reference to FIG.

  The wireless communication device 150 monitors the traffic of the wireless communication device wirelessly connected in the ad hoc mode (step S1102). For example, the traffic monitoring unit 164 monitors the traffic of a wireless communication device wirelessly connected in the ad hoc mode.

  The wireless communication device 150 monitors the traffic of the wireless communication device wirelessly connected in the infrastructure mode (step S1104). For example, the traffic monitoring unit 164 monitors traffic of a wireless communication device wirelessly connected in the infrastructure mode.

  The wireless communication device 150 performs traffic distribution calculation (step S1106). For example, the control unit 164 may use the traffic and infrastructure in the wireless communication device wirelessly connected in the ad hoc mode based on the traffic of the wireless communication device wirelessly connected in the infrastructure mode or the ad hoc mode monitored by the traffic monitoring unit 164. The traffic distribution in the wireless communication apparatus wirelessly connected in the mode is determined. For example, the traffic in the wireless communication device wirelessly connected in the ad hoc mode may be distributed so that the traffic in the wireless communication device wirelessly connected in the infrastructure mode becomes equal.

  The wireless communication device 150 receives an ADDTS (ADD Traffic Stream) request transmitted from another wireless communication device (step S1108). In the IEEE802.11e standard, TSPEC (Traffic SPECification) negotiation is defined in admission control in EDCA. For example, when other wireless communication devices start high-priority (AC_VO, VI) communication such as VoIP and video, parameters indicating the required quality of applications to be used from now on, such as average speed, packet length, physical speed, etc. Set to TSPEC and notify by ADDTS request.

  The wireless communication device 150 transmits an ADDTS (ADD Traffic Stream) response (step S1110). For example, the wireless communication device 150 determines whether or not the ADDTS transmitted by another wireless communication device can be accepted, and transmits the result using an ADDTS response.

Other wireless communication devices start high-priority communication when reception of an ADDTS response is permitted.
(Modification)
This modification will be described with reference to FIG.

FIG 12, a portable game device 200 ₃ and 200 _4, via the gateway device 100 ₂ and 100 _3, a state of performing wireless communication with the remote is indicated by the ad-hoc mode. FIG. 12 shows a state in which the notebook PCs 400 ₃ and 400 ₄ are wirelessly connected to the gateway terminals 100 ₂ and 100 ₃ and wirelessly connected to the Internet 600 via the mobile phone line 700 and the gateway 800, respectively. It is.

According to this modification, the gateway device 100 ₂ and 100 _3, wirelessly connected terminal (respectively, the portable game machine 200 ₃ and 200 ₄₎ or transfers the packet received from the mobile phone line 700 side, or folding And autonomously determine whether to transfer to other terminals existing in the same area. That is, the gateway device 100 ₂ and 100 _3, the received packet radio the connected terminal (portable game device ₂₀₀ 3, 200 ₄ and 200 _5, note PC 400 ₃ and 400 ₄₎ or transferred to, autonomously to decide. By doing in this way, the gateway apparatus can assist the communication between terminals, without adding a new function.

For example, the portable game machine 200 ₃ performing communications in the ad-hoc mode, by sending a probe packet or the like, to initiate communication with the portable game device 200 ₅ is located in the neighborhood. However, when the distance between the portable game device 200 ₃ and 200 ₅ are separated usually for radio wave propagation distance increases it can not communicate. Therefore, the gateway device 100 _2, the portable game machine 200 ₃ and 200 ₅ Despite the implement communications in the ad-hoc mode, operates as a virtual relay device, the portable game device 200 ₃ and 200 ₅ Help communication between.

  The wireless communication apparatus 150 according to this modification determines whether or not the subordinate terminals are communicating in the ad hoc mode. Then, wireless communication apparatus 150 determines whether the received packet is transmitted (turned back) to another terminal or transferred to mobile phone line 700 side.

  As illustrated in FIG. 13, the wireless communication device 150 according to this modification includes the terminal management table 166 in the wireless communication device described with reference to FIG. 3. The terminal management table 166 records the MAC address and / or IP address of the terminal being associated. The terminal management table 166 can manage the packet path between the wireless communication device 150 and another wireless communication device.

  The wireless communication device 150 refers to the terminal management table 166 and determines whether the received packet is transmitted (turned back) to another wireless communication device or transferred to the mobile phone line 700 side. For example, when the destination of the received packet is included in the associated terminal recorded in the terminal management table 160, the packet may be transferred to the terminal.

  Further, the wireless communication device 150 may determine whether or not other subordinate wireless communication devices are actually communicating in the ad hoc mode based on the TODS / FROMDS bit included in the packet. For example, it is determined that ad-hoc communication is being performed for a node transmitting data in which both bits of TODS and FROMDS are set to 1. Alternatively, if the terminal is transmitting a beacon packet, confirm that the IBSS flag, IBSS Parameter set, etc. in the performance information fixed field described above are included, so that the IBSS flag, IBSS Parameter set, etc. May be determined that communication is performed in the ad hoc mode.

  In addition, a specific frame may be transmitted from the gateway device and discriminated from the response information from the other wireless communication device as long as it allows the implementation of a new function on the other wireless communication device. . For example, an ad hoc communication execution confirmation frame for confirming whether ad hoc communication is being performed is transmitted from the gateway device 100. When the other wireless communication device receives the ad hoc communication execution confirmation frame, it transmits the confirmation response frame. Other wireless communication devices may transmit the confirmation response frame when ad hoc communication is performed.

  By doing in this way, the gateway apparatus can confirm that other subordinate wireless communication apparatuses are communicating in the ad hoc mode.

  The gateway device mediates the ad hoc mode communication packet and transmits it to the other wireless communication device of the destination. In the ad hoc mode, transmission to the other wireless communication device is usually performed between the wireless communication devices. According to this modification, transmission of the destination to another wireless communication device is relayed by the gateway device located between the transmission source and the destination. For example, in the packet address field, when the packet is relayed, the source address field is rewritten to the wireless communication device (that is, the address of the gateway device). In this modification, the gateway device receives the received packet. Is transferred as it is. As a result, the gateway device does not newly implement a function and can assist communication between other wireless communication devices in the vicinity.

Further, when the distance between the other wireless communication device is away, for example, between the portable game device 200 ₃ and 200 ₄ is operating in the ad hoc mode, for example, and a gateway device 100 ₂ and 100 ₃ Internet Wireless connection is established via the network 600. In this case, the gateway device 100 ₂ and 100 ₃ ad hoc mode frame can be notified via counterpart gateway 800 via the Internet 600 to each other. As a result, a wireless frame is transmitted to the portable game device 200 ₃ , the gateway device 100 ₂ , the Internet 600, the gateway device 100 ₃ , and the portable game device 200 ₃ , thereby causing the portable game device 200 ₃ operating in the ad hoc mode to it can communicate between 200 _4.

  For example, the gateway device 100 is equipped with a protocol stack as shown in FIG. In the protocol stack shown in FIG. 14, a cellular network, a VPN, and a wireless LAN MAC frame are shown as the first layer, the second layer, and the third layer, respectively. VPNs include IPSEC (IPsec: Security Architecture for Internet Protocol), PPP OE (PPPoE: PPP (Point to Point Protocol) over Ethernet (registered trademark)), and PTP (Point-to-Point Tunneling Protocol). May be applied.

  According to FIG. 14, wireless connection by VPN (Virtual Private Network) can be performed between gateway device terminals via a cellular network. For example, by mounting a wireless LAN MAC frame that operates in an ad hoc mode on a VPN as it is, packets can be transmitted and received without changing the wireless communication device.

  In this embodiment, when a probe request frame is received, a wireless communication device that implements a wireless LAN interface does not depend on the wireless connection mode (for example, infrastructure mode) of another wireless communication device that has transmitted the probe request frame. The frames for both wireless connection modes may be transmitted separately.

  In the present embodiment, the association request frame separately transmitted by the wireless communication apparatus during wireless connection does not depend on the wireless connection mode, and not only the association request frame for the infrastructure mode but also the association request frame for the ad hoc mode. You may make it transmit at the time of.

  In this embodiment, when a wireless communication device receives an association request frame from another wireless communication device, both wireless devices do not depend on the wireless connection mode (for example, infrastructure mode) included in the received association request frame. You may make it transmit the frame of a connection mode separately.

  In the present embodiment, a beacon frame, a probe request frame, a probe response frame, an association request frame, and an association response frame that can be shared in the ad hoc mode and the infrastructure mode may be newly defined.

  In this embodiment, when the wireless communication apparatus transmits infrastructure mode and ad hoc mode beacons at different times, the transmission interval of the beacons is based on the power consumption of the wireless communication apparatus. It is desirable to set the mode. The beacon transmission time is called TBTT. In infrastructure mode, TBTT is defined at a fixed period. On the other hand, in the ad hoc mode, the beacon itself needs to be transmitted by each wireless communication device. Therefore, the beacon frame for the ad hoc mode may be transmitted less frequently than the beacon for the infrastructure mode.

  According to this embodiment, a terminal operating in the ad hoc mode and a terminal operating in the infrastructure mode can coexist. Until now, a terminal operating in the ad hoc mode and a terminal operating in the infrastructure mode could not be wirelessly connected to the same device at the same time. According to the present embodiment, a wireless communication device that implements a wireless LAN interface can be used for any wireless connection mode of another wireless communication device, regardless of which wireless connection mode is set for the other wireless communication device. Regardless of this, wireless connection is possible.

  According to the present embodiment, a wireless communication device that implements a wireless LAN interface separates the beacon for the ad hoc mode from the beacon for the infrastructure mode, as well as the beacon for the infrastructure mode, from the wireless LAN interface. Send at the time.

  According to the present embodiment, the wireless communication device that implements the wireless LAN interface also enters the wireless connection mode for the probe request frame that is transmitted for discovery of the peripheral node to be wirelessly connected by the wireless communication device, apart from the beacon. Regardless, not only the probe request frame for the infrastructure mode but also the probe request frame for the ad hoc mode is transmitted at another time.

  According to the present embodiment, when a probe request frame is received, a wireless communication device that implements a wireless LAN interface enters a wireless connection mode (for example, an infrastructure mode) of another wireless communication device that has transmitted the probe request frame. Regardless, the frames of both wireless connection modes are transmitted separately.

  According to the present embodiment, the association request frame separately transmitted by the wireless communication apparatus at the time of wireless connection does not depend on the wireless connection mode, and is not only the association request frame for the infrastructure mode but also the association request frame for the ad hoc mode. Also send at another time.

  According to the present embodiment, when a wireless communication device receives an association request frame from another wireless communication device, both of them do not depend on the wireless connection mode (for example, infrastructure mode) included in the received association request frame. The wireless connection mode frame is transmitted separately.

  According to the present embodiment, a beacon frame, a probe request frame, a probe response frame, an association request frame, and an association response frame for ad hoc mode and infrastructure mode may be newly defined.

  According to this embodiment, when the wireless communication device transmits the beacon for the infrastructure mode and the ad hoc mode at different times, the transmission interval of the beacon is saved based on the power consumption of the wireless communication device. It is desirable to set the power operation mode. The beacon transmission time is called TBTT. In infrastructure mode, TBTT is defined at a fixed period. On the other hand, in the ad hoc mode, the beacon itself needs to be transmitted by each wireless communication device. Therefore, the beacon frame for the ad hoc mode may be transmitted less frequently than the infrastructure beacon. Further, when the wireless communication device is included in the gateway device, the beacon transmission interval may be set according to the remaining battery level. For example, another wireless communication device under the control of the remaining battery notifies the wireless communication device, and when the remaining wireless communication device under the control of the wireless communication device is low, the DTIM (Delivery Traffic Indication Message) By setting a longer interval, a longer interval for other wireless communication devices to wake-up is set. As a result, the battery consumption of other wireless communication devices can be reduced. The DTIM is a signal transmitted from the wireless communication device to another wireless communication device in a nap state so that it can be quickly received when data addressed to the other wireless communication device arrives.

  Further, the common notification information for the ad hoc mode may be relayed to another wireless communication device operating in the ad hoc mode wirelessly connected to the wireless communication device.

  According to the present embodiment, when a wireless communication device wirelessly connected in the ad hoc mode and a wireless communication device wirelessly connected in the infrastructure mode are mixed, the communication charge of the ad hoc mode is considered in the admission control method on the infrastructure side. can do. For example, in the gateway device, when both the wireless communication device wirelessly connected in the ad hoc mode and the wireless communication device wirelessly connected in the infrastructure mode are simultaneously wirelessly connected, the gateway device wirelessly connects in the ad hoc mode. It is possible to monitor communication device traffic.

According to the present embodiment, the value of the ATIM Window that can transmit the power save frame (ATIM) for the wireless communication device wirelessly connected in the ad hoc mode is changed according to the transmission interval of the infrastructure mode beacon. May be. Thereby, useless packet collision can be prevented. For example, when the value of ATIM Window is T _ATIM , the beacon transmission time for ad hoc mode is T _{TBTT_A} , and the beacon transmission time for infrastructure mode is T _{TBTT_I} , the beacon A transmission interval or ATIM window size may be set.

  According to the present embodiment, the beacon transmission interval may be controlled according to the number of other wireless communication devices under the control of the wireless communication device. In this case, control may be performed according to the number of other wireless communication devices for each wireless connection mode. For example, when the number of wireless communication devices operating in the ad hoc mode increases, it is desirable to set the beacon transmission interval for the infrastructure mode according to the number of wireless communication devices operating in the ad hoc mode. Specifically, when the number of other wireless communication devices operating in the ad hoc mode under the wireless communication device is NA, the beacon transmission interval for the infrastructure mode is expressed by the following equation (4). May be set.

BINT_I = BINT_ORG / NA (4)
In Expression (4), BINT_I is a beacon transmission interval in the actual infrastructure mode, and BINT_ORG is a beacon transmission interval set initially. By setting the beacon interval for the infrastructure mode as shown by the equation (4), it is possible not only to avoid packet collision between beacon packets but also to reduce the amount of radio bandwidth consumed by the beacon. .

  According to this embodiment, a packet received from another wireless communication device operating in the ad hoc mode is forwarded to the cellular side or other than the other wireless communication device that has transmitted the packet existing in the same area. It is possible to determine whether to transmit again to the other wireless communication apparatus. Some wireless LAN terminals such as game devices can operate only in the ad hoc mode. Therefore, in order to communicate with other terminals in the same area, it is common that communication cannot be performed via a relay terminal. According to the present embodiment, the destination field of the packet transmitted by the game device is monitored, and the gateway device that relays the packet confirms the presence of a terminal operating in the adjacent ad hoc mode, thereby allowing communication between the game devices. Can support.

  According to the present embodiment, the communication area of the terminal operating in the ad hoc mode can be expanded. In the ad hoc mode, the communication area is limited, but according to the present embodiment, the communication area of the ad hoc mode terminal can be expanded without changing the terminal side by relaying with the gateway terminal.

  Although the present invention has been described with reference to particular embodiments, they are merely exemplary and those skilled in the art will appreciate various variations, modifications, alternatives, substitutions, and the like. Although specific numerical examples have been described in order to facilitate understanding of the invention, these numerical values are merely examples and any appropriate values may be used unless otherwise specified. The division of the embodiments or items is not essential to the present invention, and the matters described in two or more embodiments or items may be used in combination as necessary. For convenience of explanation, an apparatus according to an embodiment of the present invention has been described using a functional block diagram. However, such an apparatus may be implemented by hardware, software, or a combination thereof. The present invention is not limited to the above embodiments, and various modifications, modifications, alternatives, substitutions, and the like are included in the present invention without departing from the spirit of the present invention.

It is explanatory drawing which shows an active scan. It is explanatory drawing which shows the radio | wireless communications system which concerns on one Example. It is a functional block diagram which shows the radio | wireless communication apparatus which concerns on one Example. It is explanatory drawing which shows the beacon transmission method which concerns on one Example. It is explanatory drawing which shows the beacon transmission method which concerns on one Example. It is explanatory drawing which shows the beacon transmission method in the terminal of infrastructure mode. It is explanatory drawing which shows the beacon transmission method in the terminal of ad hoc mode. It is explanatory drawing which shows the beacon frame which concerns on one Example. It is explanatory drawing which shows the beacon frame which concerns on one Example. It is explanatory drawing which shows the transmission method of the probe response signal which concerns on one Example. It is a flowchart which shows the admission control which concerns on one Example. It is explanatory drawing which shows the radio | wireless communications system which concerns on one modification. It is a functional block diagram which shows the radio | wireless communication apparatus which concerns on one modification. It is explanatory drawing which shows the protocol stack which concerns on an example of an example.

Explanation of symbols

100 _k (k is an integer of k> 0) Gateway device 150 Wireless communication device 152 Wireless LAN communication unit 154 Wide area wireless network communication unit 156 Signal generation unit 158 Beacon generation unit 160 Control unit 162 Transmission control unit 164 Traffic monitoring unit 166 Terminal management table 200 _l (l is an integer where l> 0) portable game device 300 _m (m is an integer where m> 0) portable terminal 400 _n (n is an integer where n> 0) notebook PC
500 Wireless base station 600 Communication network (Internet)
700 Mobile phone line 800 Internet gateway 1000 Wireless communication system

Claims (27)

A wireless communication device in a wireless communication system including a plurality of wireless communication devices,
Has multiple wireless connection modes in the wireless LAN communication system,
Depending on the wireless connection mode another wireless communication device to be a wireless connection is used, the wireless connection mode switching unit for switching the wireless connection mode of the wireless communication device,
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device ,
Common notification information generation for generating first common notification information for other wireless communication devices to be wirelessly connected in the ad hoc mode and second common notification information for other wireless communication devices to be wirelessly connected in the infrastructure mode And
A wireless communication apparatus comprising: a transmission unit configured to transmit the first common notification information and the second common notification information generated by the common notification information generation unit at different times . A wireless communication device in a wireless communication system including a plurality of wireless communication devices,
Has multiple wireless connection modes in the wireless LAN communication system,
Depending on the wireless connection mode another wireless communication device to be a wireless connection is used, the wireless connection mode switching unit for switching the wireless connection mode of the wireless communication device,
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device ,
A common notification information generating unit that generates third common notification information that is common to the ad hoc mode and the infrastructure mode;
A wireless communication apparatus comprising: a transmission unit that controls a transmission interval of the third common notification information generated by the common notification information generation unit . The wireless communication device according to claim 1 ,
And the transmission unit, on the basis of the remaining amount of the battery of the wireless communication device, wherein a first common broadcast, radio communication apparatus and controls the transmission interval of the second common broadcast. The wireless communication device according to claim 1 ,
The transmission unit controls a transmission interval between the first common notification information and the second common notification information based on the number of other wireless communication devices to be wirelessly connected. apparatus. The wireless communication device according to claim 1 ,
The wireless communication apparatus, wherein the transmission unit controls an ATIM (Announce Traffic Information Message) Window value based on a transmission interval of the second common notification information. The wireless communication apparatus according to claim 1 or 2 ,
A probe response generation unit for generating a probe response to a probe request transmitted by another wireless communication device to be wirelessly connected;
The transmitter transmits the probe response generated by the probe response generator,
The probe response generation unit generates a probe response for another wireless communication device to be wirelessly connected in an ad hoc mode or an infrastructure mode. The wireless communication apparatus according to claim 6 , wherein
The wireless communication apparatus according to claim 1, wherein the probe response generation unit generates a probe response that is common to the ad hoc mode and the infrastructure mode . The wireless communication device according to claim 6 or 7 ,
A wireless communication apparatus, comprising: a probe request generation unit that generates a probe request that is common to an ad hoc mode and an infrastructure mode . The wireless communication device according to any one of claims 6 to 8 ,
Based on the probe response transmitted by the other wireless communication device, to the radio communication device the other wireless communication device to be wirelessly connected, the association request comprising a common ad hoc mode and infrastructure mode A wireless communication apparatus comprising: an association request generation unit for generating. The wireless communication device according to claim 9 , wherein
On the basis of the association request, wherein when the wireless communication apparatus performs the other wireless communication device and the wireless connection, to have an association response generator for generating an association response as a common ad hoc mode and infrastructure mode A wireless communication device. The wireless communication apparatus according to claim 1 or 2 ,
A monitoring unit for monitoring the traffic of a plurality of other wireless communication devices that wirelessly connect the wireless communication device wirelessly connected to the ad-hoc mode or infrastructure mode,
A wireless communication device comprising: a traffic control unit that changes a distribution of traffic to the plurality of other wireless communication devices based on traffic monitored by the monitoring unit. The wireless communication apparatus according to claim 1 or 2,
A mobile phone communication unit wirelessly connected to a base station connected to a wide area network;
A wireless connection mode determination unit, wherein the wireless communication device wirelessly connected to another wireless communication apparatus determines whether communicating in ad hoc mode,
Based on the determination in wireless connection mode determination unit, and a transfer destination determining section for determining whether to forward the received packet said to said to be forwarded to the base station communication apparatus wirelessly connected to other wireless communication devices,
A wireless communication apparatus, comprising: a transfer unit that transfers the packet according to a determination result in the transfer destination determination unit. The wireless communication device according to claim 12 , wherein
The transfer unit, when forwarding the packet to the wireless-connected other wireless communication device, by referring to the association device table including an identifier of the wireless communication device and another wireless communication device in a wireless connection, the destination Another wireless communication device is determined. The wireless communication device according to claim 12 , wherein
The received packet includes information on whether or not the other wireless communication device that transmitted the packet is operating in the ad hoc mode,
The wireless connection mode determination unit, by monitoring the packet, wherein said wireless communication device wirelessly connected to another wireless communication apparatus determines whether communicating in the ad-hoc mode wireless Communication device. The wireless communication device according to claim 12 , wherein
A wireless connection mode confirmation frame transmission unit for transmitting a wireless connection mode confirmation frame for confirming the wireless connection mode to another wireless communication device wirelessly connected;
The wireless connection mode determination unit, based on a response to the wireless connection mode confirmation frame, determines whether the wireless communication device wirelessly connected to another wireless communication device is wirelessly connected in the ad hoc mode,
When another wireless communication device wirelessly connected to the wireless communication device receives a wireless connection mode confirmation frame, the wireless communication device returns a wireless connection mode confirmation frame including the wireless connection mode information of the other wireless communication device. A wireless communication apparatus. The wireless communication device according to claim 1 ,
And the transmission unit, a radio communication apparatus characterized by relaying the first common broadcast, the other wireless communication device that is wirelessly connected with the wireless communication device wirelessly connected ad hoc mode. The wireless communication apparatus according to claim 1 or 2 ,
A wireless communication device, comprising: a wireless connection mode determining unit that determines a wireless connection mode of the wireless communication device based on a wireless communication state in a wireless communication system including the wireless communication device. The wireless communication device according to claim 17 ,
It said another wireless communication apparatus around the wireless communication apparatus transmits the information of the wireless communication device operating in ad-hoc mode that is the another wireless communication device and a wireless connection,
The wireless connection mode determination unit, based on the information of the notified radio communication apparatus by the other wireless communication device, a wireless communication apparatus characterized by determining a wireless connection mode of the wireless communication device. The wireless communication device according to claim 17 ,
Other wireless communication devices, the wireless connection mode instruction to the wireless communication device,
The wireless connection mode determining unit in accordance with the instruction by the another radio communication apparatus, a wireless communication apparatus characterized by determining a wireless connection mode of the wireless communication device. Gateway apparatus characterized by having a wireless communication apparatus according to any one of claims 1 to 19. An access point comprising the wireless communication device according to any one of claims 1 to 19 . A wireless LAN module,
Has multiple wireless connection modes in the wireless LAN communication system,
Depending on the wireless connection mode another wireless communication device to be a wireless connection is used, the wireless connection mode switching unit for switching the wireless connection mode of the wireless LAN module,
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device ,
Common notification information generation for generating first common notification information for other wireless communication devices to be wirelessly connected in the ad hoc mode and second common notification information for other wireless communication devices to be wirelessly connected in the infrastructure mode And
A wireless LAN module , comprising: a transmission unit configured to transmit the first common notification information and the second common notification information generated by the common notification information generation unit at different times . A wireless LAN module,
Has multiple wireless connection modes in the wireless LAN communication system,
Depending on the wireless connection mode another wireless communication device to be a wireless connection is used, the wireless connection mode switching unit for switching the wireless connection mode of the wireless LAN module,
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device ,
A common notification information generating unit that generates third common notification information that is common to the ad hoc mode and the infrastructure mode;
A wireless LAN module , comprising: a transmission unit that controls a transmission interval of the third common notification information generated by the common notification information generation unit . A wireless communication system including a plurality of wireless communication devices,
The wireless communication device included in the wireless communication system has a plurality of wireless connection modes in a wireless LAN communication system,
A wireless connection mode switching unit that switches a wireless connection mode of the wireless communication device according to a wireless connection mode used by another wireless communication device to be wirelessly connected;
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device ,
Common notification information generation for generating first common notification information for other wireless communication devices to be wirelessly connected in the ad hoc mode and second common notification information for other wireless communication devices to be wirelessly connected in the infrastructure mode And
A wireless communication system , comprising: a transmission unit that transmits the first common notification information and the second common notification information generated by the common notification information generation unit at different times . A wireless communication system including a plurality of wireless communication devices,
The wireless communication device included in the wireless communication system has a plurality of wireless connection modes in a wireless LAN communication system,
A wireless connection mode switching unit that switches a wireless connection mode of the wireless communication device according to a wireless connection mode used by another wireless communication device to be wirelessly connected;
Using the wireless connection mode switched by the wireless connection mode switching unit, a wireless LAN connection unit that performs wireless connection with the other wireless communication device ,
A common notification information generating unit that generates third common notification information that is common to the ad hoc mode and the infrastructure mode;
A wireless communication system , comprising: a transmission unit that controls a transmission interval of the third common notification information generated by the common notification information generation unit . A method in one wireless communication device in a wireless communication system including a plurality of wireless communication devices,
The wireless communication device has a plurality of wireless connection modes in a wireless LAN communication system,
Depending on the wireless connection mode another wireless communication device to be a wireless connection is used, the wireless connection mode switching step of switching wireless connection mode of the wireless communication device,
Using the wireless connection mode switched by the wireless connection mode switching step, a wireless LAN connection step for performing wireless connection with the other wireless communication device ,
Common notification information generation for generating first common notification information for other wireless communication devices to be wirelessly connected in the ad hoc mode and second common notification information for other wireless communication devices to be wirelessly connected in the infrastructure mode Steps,
A method comprising: a transmission step of transmitting the first common notification information and the second common notification information generated by the common notification information generation step at different times . A method in one wireless communication device in a wireless communication system including a plurality of wireless communication devices,
The wireless communication device has a plurality of wireless connection modes in a wireless LAN communication system,
Depending on the wireless connection mode another wireless communication device to be a wireless connection is used, the wireless connection mode switching step of switching wireless connection mode of the wireless communication device,
Using the wireless connection mode switched by the wireless connection mode switching step, a wireless LAN connection step for performing wireless connection with the other wireless communication device ,
A common notification information generation step for generating third common notification information common to the ad hoc mode and the infrastructure mode;
A transmission step of controlling a transmission interval of the third common notification information generated by the common notification information generation step .

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