JP2005086234A - Switching system and method of wireless lan, and wireless lan access point - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enhance the throughput of an entire wireless network by effectively utilizing wireless channels. <P>SOLUTION: A wireless LAN switching system for a plurality of wireless clients under the control of wireless LAN access points connected to a backbone network 30 is provided with: a traffic monitoring section 107A for monitoring traffics at the wireless LAN access points among the wireless clients each having functions of an infrastructure mode and an adhoc mode; a wireless setting change instruction section 407B for applying a wireless setting change instruction to the wireless LAN clients to switch the communication from the infrastructure mode to the adhoc mode in response to a connection request between the wireless LAN clients when the monitored traffic is equal to or higher than a prescribed value; and a wireless setting change section 207A whereby the wireless LAN clients switch the operating mode from the infrastructure mode to the adhoc mode according to the instruction from the wireless LAN access point. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a wireless LAN system. In particular, the present invention relates to a wireless LAN switching system, method, and wireless LAN access point that improve throughput against an increase in the number of wireless LAN clients under the control of a wireless LAN access point satellite.

  In the conventional cell ID acquisition method, the wireless LAN terminal can automatically acquire the cell ID. Therefore, when the signal reception quality from the relay device is lowered or when the power is turned on, the wireless LAN terminal limits the connection request signal up to a predetermined number of times. When the authentication signal is wirelessly received with sufficient signal reception quality within a predetermined time after transmitting the connection request signal for wireless transmission repeatedly, the cell ID of the relay apparatus that transmitted the authentication signal is acquired. If the authentication signal cannot be received with sufficient signal reception quality even after waiting for a predetermined time and repeating a predetermined number of times, cell ID = FFFF of the ad hoc network is acquired, and thereafter cell ID verification is stopped. (For example, refer to Patent Document 1).

  Also, in the conventional wireless LAN media access method, the partner terminal is connected to the base terminal in order to enable communication between the wireless terminals without knowing whether the partner wireless terminal can communicate in the base network or the ad hoc network. Whether the terminal is a network or an ad hoc network is stored in a cache table, and this information is changed (see, for example, Patent Document 2).

  In addition, the conventional mobile terminal is a mobile terminal that can move and connect between both networks of the infrastructure NW and the ad hoc NW because the movement between the infrastructure NW and the ad hoc NW is integrated. A form in which an infrastructure NW connection procedure and an ad hoc NW connection procedure are integrated with respect to an address management process, a connection network identification process, and a destination address acquisition process necessary for a terminal to connect to a network and perform communication, That is, it is composed of ad hoc / infrastructure NW integrated address management means, ad hoc / infrastructure integrated movement management means, and ad hoc / infrastructure NW integrated destination address acquisition means. In each processing, a network to which a terminal is connected independently for each processing Is identified as an ad hoc NW or an infrastructure NW, and a procedure corresponding to the connected network is used (see, for example, Patent Document 3).

JP 09-083531 A (Page 7-10, FIG. 5) JP 07-303105 A (page 3, FIG. 1) JP 11-055318 A (Page 7, FIG. 1)

By the way, in recent years, wireless LAN systems have been widely used in place of wired LAN systems in the workplace and at home due to the price reduction of wireless LAN devices, and problems associated with the above-described conventional techniques will be described below.
FIG. 7 is a diagram showing a schematic configuration of a wireless LAN system as a premise of the present invention. Note that the same components are denoted by the same reference numerals and symbols throughout the drawings.

As shown in this figure, a wireless access point (AP) 11 is connected to a backbone network 30 in a wireless LAN system.
A plurality of wireless LAN clients (ST) 21-25 belong to the wireless LAN access point 11, and when they are connected wirelessly, a wireless link state is formed between them.
In the wireless LAN system, one wireless channel is shared by a plurality of wireless LAN clients 21-25, and communication is performed between the plurality of wireless LAN clients 21-25 and the backbone network 30 via the wireless LAN access point 11. In addition, communication is performed between the wireless LAN clients 21-25 via the wireless LAN access point 11.

Each of the plurality of wireless LAN clients 21-25 is a personal computer (PC), and in particular has a usage method of file sharing by wireless LAN between the personal computers via the wireless LAN access point 11 as a general function.
When the number of wireless LAN clients 21-25 connected to the wireless LAN access point 11 increases, traffic between the wireless LAN client 21-25 via the wireless LAN access point 11 and the backbone network 30 and wireless communication via the wireless LAN access point 11 are increased. Traffic between the LAN clients 21-25 increases.

  Therefore, as the wireless LAN becomes widespread, the number of wireless LAN clients 21-25, which are satellites connected to one wireless LAN access point 11, increases, and the traffic associated with this increases. Since a plurality of wireless LAN clients 21-25 share, when communication between the wireless LAN clients 21-25 occurs, the wireless LAN throughput greatly decreases, and there is a problem that the throughput is not as high as expected. .

  Therefore, in view of the above problems, an object of the present invention is to provide a wireless LAN switching system and method for effectively using wireless channels as much as possible and improving the throughput of the entire wireless network.

  In order to solve the above problems, the present invention provides a wireless LAN switching system for a plurality of wireless LAN clients under the control of a wireless LAN access point connected to a backbone network. In the wireless LAN access point, the infrastructure mode, ad hoc A traffic monitoring unit that monitors traffic between wireless LAN clients having a mode function, and when the traffic monitored by the traffic monitoring unit is higher than a predetermined value, the wireless monitoring unit responds to a connection request between wireless LAN clients. A wireless setting change instruction unit for instructing a LAN client to change a wireless setting so as to switch communication from an infrastructure mode to an ad hoc mode; and, in the wireless LAN client, the wireless LAN access point Providing a switching system of the wireless LAN, characterized in that it comprises a wireless setting change section for switching from the infrastructure mode to the ad-hoc mode according to an instruction from the line setting change instruction unit.

Further, the radio setting change instruction from the radio setting change instruction unit includes an instruction to change from the infrastructure mode to the ad hoc mode, an instruction to change the used radio channel, ESSID, and an instruction to change WEP.
Furthermore, the wireless setting change instruction unit does not issue a wireless setting change instruction when the wireless LAN client requested to connect is connected to another wireless LAN client or the backbone network.
Further, the wireless setting change instruction unit does not issue a wireless setting change instruction when the wireless LAN client requested to connect is connected to another device.
Further, the wireless LAN access point is provided with a latest connection log storage unit, the latest connection log storage unit stores the latest connection log, and the wireless setting change instruction unit refers to the latest connection log storage unit. If it is confirmed that the ad-hoc mode connection between the wireless LAN clients cannot be established, the wireless setting change instruction is not issued.
Further, the latest connection log stored in the latest connection log storage unit is deleted after a predetermined time has elapsed.

Further, the wireless setting change unit disconnects the communication in the ad hoc mode when there is a connection request from the wireless LAN client to another device after establishing the connection in the ad hoc mode between the wireless LAN clients. Notify the change instruction unit of the disconnection information.
Further, the wireless LAN client is provided with a previous wireless setting information storage unit, and the latest connection log storage unit stores wireless communication setting information instructed to change wireless settings from the wireless setting change instruction unit. If the ad hoc mode connection between the wireless LAN clients cannot be established after the change instruction, the ad hoc mode communication is disconnected after the connection is established, or the ad hoc mode communication is terminated, refer to the previous wireless setting information storage unit Then, the wireless LAN client connects to the wireless LAN access point.

Further, when the wireless LAN client connects to the wireless LAN access point, the wireless LAN access point is notified of the wireless status between the wireless LAN clients, and the latest connection log storage unit of the wireless LAN access point is notified. save.
Further, when the connection between the wireless LAN clients cannot be established after the wireless setting change instruction is given, when the communication in the ad hoc mode is disconnected after the connection is established, the wireless LAN clients communicate in the infrastructure mode.

  Furthermore, the present invention provides a wireless LAN switching method for a plurality of wireless LAN clients under the control of a wireless LAN access point connected to a backbone network, wherein the wireless LAN access point has a function of infrastructure mode and ad hoc mode. A process of monitoring traffic between LAN clients, and an infrastructure from the wireless LAN access point to the wireless LAN client in response to a connection request between wireless LAN clients when the monitored traffic becomes higher than a predetermined value. A wireless setting change instruction to switch communication from the mode to the ad hoc mode, and the wireless LAN client that has made the connection request is informed according to the instruction from the wireless LAN access point. It provides a switching method of a wireless LAN, characterized in that it comprises a step of switching from the structure mode to ad hoc mode.

  A wireless LAN access point connected to the backbone network and having a plurality of wireless LAN clients under its control, a traffic monitoring unit for monitoring traffic between wireless LAN clients having infrastructure mode and ad hoc mode functions; and a wireless LAN client The latest connection log storage unit that stores the latest connection log in the ad hoc mode between each other, and when the monitored traffic becomes higher than a predetermined value, refer to the latest connection log storage unit for connection requests between wireless LAN clients And a wireless setting change instruction unit for instructing the wireless LAN client to change communication from the infrastructure mode to the ad hoc mode when a connection in the latest ad hoc mode has been established. Providing wireless LAN access point according to claim.

As described above, according to the present invention, in the conventional wireless LAN system, since one wireless channel is shared by a plurality of wireless LAN clients, when communication between each wireless LAN client occurs, Although the throughput was greatly reduced, communication between wireless LAN clients under the same wireless LAN access point can be separated from the infrastructure mode to the ad hoc mode by using the present wireless LAN switching system.
For this reason, even if communication between clients under the same wireless LAN access point occurs, the throughput in the wireless LAN system does not decrease.
Further, even in the wireless LAN client KAN communication, one wireless channel can be occupied, and wireless LAN communication with high throughput can be realized.

FIG. 1 is a block diagram showing a schematic configuration of a wireless LAN access point 11 in a wireless LAN switching system according to the present invention. As shown in the figure, an antenna 101 is provided in the wireless LAN access point 11 of the wireless LAN switching system, and the antenna 101 has a function of performing wireless communication with the wireless LAN client 21-25.
A radio unit 102 is connected to the antenna 101, and the radio unit 102 has a modulation / demodulation unit, which has a function of demodulating a reception signal from the antenna 101 and modulating the transmission signal to the antenna 101.

A bit synchronization circuit 103 is connected to the wireless unit 102, and the bit synchronization circuit 103 has a function of performing bit synchronization with respect to transmission / reception data.
A communication controller 104 is connected to the bit synchronization circuit 103, and the communication controller 104 has functions for performing packet assembly / disassembly, communication control, frame error check, and the like.

An error encoder / decoder 106 is connected to the communication controller 104, and the error code encoder / decoder 106 has a function of correcting an error during data transfer.
Further, a control unit 107 is connected to the communication controller 104, and the control unit 107 is composed of a CPU (Central Processing Unit) and controls the entire wireless LAN access point 11.
Further, a memory 108 is connected to the communication controller 104, and the memory 108 stores various programs and various data.

Further, a LAN controller 105 is connected to the communication controller 104, and the LAN controller 105 has a function of controlling communication with a wired LAN terminal.
An external interface 109 is connected to the LAN controller 105, and the external interface 109 has a function of performing input / output with respect to the backbone network 30.
Further, the control unit 107 is provided with a traffic monitoring unit 107A, and the traffic monitoring unit 107A has a function of monitoring traffic between the wireless LAN access point 11 and the plurality of wireless LAN clients 21-25.

  Further, the control unit 107 is provided with a wireless setting change instruction unit 107B. When the wireless setting change instruction unit 107B obtains information from the traffic monitoring unit 107A that the traffic is higher than a predetermined value, the subordinate wireless LAN client 21-25. When communicating with each other, the corresponding wireless LAN client 21-25 is instructed to change to the ad hoc mode as an instruction to change the wireless setting, the instruction to change the wireless channel to be used (change to an available wireless channel), ESSID ( It has a function of instructing to change Extended Service Set Identity (WEP) and instructing to change WEP (Wired Equivalent Privacy).

Further, the memory 108 is provided with a latest connection log storage unit 108A. The latest connection log storage unit 108A stores the latest connection log between the wireless LAN clients 21-25 switched to the ad hoc mode communication for a certain period of time. It has a function to erase when it has passed. This is because the communication environment changes after a certain period of time and the use of the stored information becomes inappropriate.
FIG. 2 is a block diagram showing a schematic configuration of each of the wireless LAN clients 21-25 in the wireless LAN switching system according to the present invention. As shown in the figure, each of the wireless LAN clients 21-25 in the wireless LAN switching system has a function of performing communication in the infrastructure mode and the ad hoc mode, and further includes an antenna 201. The antenna 201 has a function of performing wireless communication with the antenna 101 of the wireless LAN access point 11.

A radio unit 202 is connected to the antenna 201, and the radio unit 202 has a modulation / demodulation unit, and has a function of demodulating a reception signal from the antenna 201 and modulating the antenna 201 to a transmission signal.
A bit synchronization circuit 203 is connected to the wireless unit 202, and the bit synchronization circuit 203 has a function of taking bit synchronization with respect to transmission / reception data.

A communication controller 204 is connected to the bit synchronization circuit 203, and the communication controller 204 has functions for performing packet assembly / disassembly, communication control, frame error check, and the like.
An error encoder / decoder 206 is connected to the communication controller 204, and the error code encoder / decoder 206 has a function of correcting an error during data transfer.

Further, a control unit 207 is connected to the communication controller 204, and the control unit 207 includes a CPU (Central Processing Unit) and has a function of controlling each of the wireless LAN clients 21-25.
Further, a memory 208 is connected to the communication controller 204, and the memory 208 has a function of storing various programs and various data.

Further, an interface controller 205 is connected to the communication controller 204, and the interface controller 205 has a function of controlling communication with a terminal such as another notebook personal computer (PC).
An external interface 209 is connected to the interface controller 205, and the external interface 209 has a function of performing input / output with respect to terminals such as other notebook personal computers.

Further, the control unit 207 is provided with a wireless setting change unit 207A, and the wireless setting change unit 207A switches from the infrastructure mode to the ad hoc mode in accordance with an instruction from the wireless LAN access point 11 to the wireless setting change instruction unit 107B.
Further, the previous wireless setting information storage unit 208A is provided in the memory 208, and the previous wireless setting information storage unit 208A has a function of storing wireless connection setting information with the previous wireless LAN access point 11.

FIG. 3 is a diagram showing a schematic configuration for explaining a wireless LAN system when traffic is higher than a predetermined value.
When the wireless LAN system is congested, as shown in this figure, as an example, if there is a request to the wireless LAN access point 11 to transmit data in the direction from the wireless LAN client 21 to the wireless LAN client 22, wireless communication is performed. A wireless setting instruction for switching from the infrastructure mode to the ad hoc mode is issued from the LAN access point 11 to the wireless LAN clients 21 and 22.

FIG. 4 is a diagram showing a schematic configuration for explaining the wireless LAN system of FIG. 3 when switching from the infrastructure mode to the ad hoc mode.
As shown in this figure, when communication is performed between the wireless LAN client 21 and the wireless LAN client 22 under the wireless LAN access point 11, the wireless LAN client 21 and the wireless LAN client that request communication within the wireless LAN. 22 is once disconnected from the wireless LAN access point 11, communication between the wireless LAN client 21 and the wireless LAN client 22 is switched to the ad hoc mode, and one-to-one communication is performed.

After the communication is completed, the communication between the wireless LAN client 21 and the wireless LAN client 22 is returned from the ad hoc mode to the infrastructure mode, the wireless LAN access point 11 is set in a wireless standby state, and recovery is performed.
FIGS. 5 and 6 are flowcharts illustrating in detail a series of operations related to the wireless LAN switching system in FIGS. 1 and 2 at the time of switching in FIGS.

As shown in FIG. 5, in step S <b> 301, the wireless LAN client 21 under the wireless LAN access point 11 executes file transfer to the wireless LAN client 22.
In step S302, the wireless setting change instruction unit 107B of the wireless LAN access point 11 determines whether the traffic monitored by the traffic monitoring unit 107A is higher than a predetermined value. If the traffic is low, the process proceeds to step S322.

In step S303, when the traffic is higher than the predetermined value, the wireless setting change instruction unit 107B confirms the communication status of the wireless LAN clients 21 and 22. In this confirmation, the content at the time of ad-hoc mode communication between the previous wireless LAN clients 21-22 stored in the latest connection log storage unit 108A of the memory 108 is searched and confirmed.
In step S304, the wireless setting change instruction unit 107B confirms whether the wireless LAN client 22 is connected to another terminal or the backbone network 30. If it is connected, the process proceeds to step S322. This is because the improvement of the throughput between the wireless LAN clients 21-22 is taken into consideration.

In step S305, when not connected to another terminal or the backbone network 30, the wireless setting change instruction unit 107B determines whether or not the wireless LAN clients 21 and 22 are communicating with other devices. If it is communicating, the process proceeds to step S322. This is because the improvement of the throughput between the wireless LAN clients 21-22 is taken into consideration.
In step S306, the wireless setting change instruction unit 107B not performing the communication refers to the latest connection log storage unit 108A of the memory 108, and the presence / absence of the latest connection log between the wireless LAN clients 21-22 stored for a certain period of time. If the latest connection log is stored, it is confirmed whether or not the ad hoc mode connection between the wireless LAN clients 21 and 22 has been performed without any problem. If the latest connection log is saved and it is confirmed that there is a problem with the ad hoc mode connection, the process proceeds to step S320. This is because the improvement of the throughput between the wireless LAN clients 21-22 is taken into consideration.

In step S307, if the latest connection log is not stored in the latest connection log storage unit 108A and it is confirmed that the latest connection log is stored and there is no problem in the ad hoc mode connection, the wireless setting change instruction unit of the wireless access point 11 A wireless setting change instruction packet is transmitted from the wireless LAN client 107B to the wireless LAN clients 21 and 22.
This wireless setting change instruction packet includes an instruction to change to an ad hoc mode, an instruction to change a wireless channel to be used (change to an available wireless channel), an instruction to change an ESSID to avoid crosstalk, and a WEP to ensure confidentiality. Includes change instructions.

In step S308, the wireless LAN clients 21 and 22 receive the wireless setting change packet from the wireless setting change instruction unit 107B, change the wireless setting in the wireless setting change unit 207A, and attempt connection in the ad hoc mode.
As shown in FIG. 6, in step S309, the wireless setting changing unit 207A of the wireless LAN clients 21 and 22 determines whether or not the connection can be established within a predetermined time. If it cannot be established, the process proceeds to step S319.

In step S310, when the wireless LAN clients 21-22 can be established, data transfer is started.
In step S311, it is determined whether the wireless LAN clients 21 and 22 are attempting to connect to another device. If so, the process proceeds to step S318.
In step S312, if connection to another device is not attempted, transfer between the wireless LAN clients 21-22 is continued.

In step S313, it is determined whether the transfer of the wireless LAN clients 21 and 22 has been completed. If not completed, the process returns to step S311.
If the transfer is completed in step S314, the wireless LAN clients 21 and 22 use the previous wireless setting information stored in the previous wireless setting information storage unit 208A of the memory 208 (wireless setting with the wireless LAN access point 11). And attempts to connect to the wireless LAN access point 11. Furthermore, the already set ESSID change and WEP change are restored.

  In step S315, the wireless LAN clients 21 and 22 are connected to the wireless LAN access point 11, and the wireless state between the wireless LAN clients 21 and 22 is notified to the wireless LAN access point 11. As described above, when the data transfer between the wireless LAN clients 21 and 22 is successfully completed, the wireless LAN clients 21 and 22 return the wireless setting to the state before the change, and notifies the wireless LAN access point 11 that the communication has been successfully completed. Is done.

  In step S316, when the wireless LAN access point 11 receives wireless state communication between the wireless LAN clients 21-22, the information is stored in the latest connection log storage unit 108A of the memory 108 for a certain period of time. The stored information is used to determine whether or not to change to the ad hoc mode and instruct during subsequent communication between the same wireless LAN clients 21 and 22.

In step S317, the wireless LAN clients 21 and 22 enter the wireless standby state (the state shown in FIG. 7), and the process ends.
In step S318, when trying to connect to another device, the communication partner is notified of the purpose of disconnecting the communication in the ad hoc mode, and the communication in the ad hoc mode is disconnected. In the middle of communication, if the wireless LAN client 21 or 22 wishes to connect to another device, this is notified to the wireless LAN client of the communication partner so that the wireless setting can be returned to before the change. is there. The process proceeds to step S319. This is to notify the wireless LAN access point 11 together with the wireless status at that time that the wireless connection in the ad hoc mode has been disconnected at the request of the wireless LAN clients 21 and 22 after the link with the wireless LAN access point 11 is established.

  In step S319, if the wireless LAN client 21-22 cannot be established within a predetermined time, it is determined that the wireless state between the wireless LAN clients 21-22 is bad, and the wireless LAN clients 21, 22 store the memory 208 in order to return to the wireless setting before the change. The previous wireless setting (wireless setting with the wireless LAN access point 11) stored in the previous wireless setting information storage unit 208A is read, a connection to the wireless LAN access point 11 is attempted, and the process proceeds to step S320.

At this time, each of the wireless LAN clients 21 and 22 to which the wireless setting is restored acquires the IP address again from a DHCP (Dynamic Host Configuration Protocol) server (not shown) if it is not a fixed IP (Internet Protocol).
In step S320, the wireless LAN clients 21 and 22 are connected to the wireless LAN access point 11, and the wireless state between the wireless LAN clients 21 and 22 is notified to the wireless LAN access point 11.

In step S321, when the wireless LAN access point 11 receives wireless state communication between the wireless LAN clients 21-22, the information is stored in the latest connection log storage unit 108A of the memory 108 for a certain period of time. The stored information is used to determine whether or not to change to the ad hoc mode when instructing communication between the same wireless LAN clients 21 and 22 thereafter.
In step S322, the wireless LAN clients 21 and 22 start data transfer by communication in the infrastructure mode, and the process ends.

1 is a block diagram showing a schematic configuration of a wireless LAN access point 11 in a wireless LAN switching system according to the present invention. FIG. It is a block diagram which shows schematic structure of each of the wireless LAN client 21-25 in the switching system of the wireless LAN which concerns on this invention. It is a figure which shows schematic structure explaining a wireless LAN system when traffic is higher than a predetermined value. It is a figure which shows schematic structure explaining the wireless LAN system of FIG. 3 in the case of switching from infrastructure mode to ad hoc mode. 5 is a flowchart for explaining in detail a series of operations related to the wireless LAN switching system in FIGS. 1 and 2 at the time of switching in FIGS. 5 is a flowchart for explaining in detail a series of operations related to the wireless LAN switching system in FIGS. 1 and 2 at the time of switching in FIGS. It is a figure which shows schematic structure of the wireless LAN system used as the premise of this invention.

Explanation of symbols

11 ... Wireless LAN access point 21-25 ... Wireless LAN client 30 ... Core network 101, 201 ... Antenna 102, 202 ... Wireless section 103, 203 ... Bit synchronization circuit 104, 204 ... Communication controller 105 ... LAN controller 106, 206 ... Error Encoder / decoder 107, 207 ... Control unit 107A ... Traffic monitoring unit 107B ... Radio setting change instruction unit 108, 208 ... Memory 108A ... Latest connection log storage unit 109, 209 ... External interface 205 ... Interface controller 207A ... Radio setting change 208A: Previous wireless setting information storage unit

Claims (12)

In a wireless LAN switching system for a plurality of wireless LAN clients under the control of a wireless LAN access point connected to a backbone network,
A traffic monitoring unit for monitoring traffic between wireless LAN clients having the functions of an infrastructure mode and an ad hoc mode at the wireless LAN access point;
When the traffic monitored by the traffic monitoring unit becomes higher than a predetermined value, in response to a connection request between wireless LAN clients, the wireless LAN client is instructed to change wireless settings so that the wireless LAN client switches communication from infrastructure mode to ad hoc mode. A wireless setting change instruction unit for performing
The wireless LAN switching system, wherein the wireless LAN client includes a wireless setting change unit that switches from an infrastructure mode to an ad hoc mode in accordance with an instruction from the wireless setting change instruction unit of the wireless LAN access point. The wireless setting change instruction from the wireless setting change instruction unit includes an instruction to change from the infrastructure mode to the ad hoc mode, an instruction to change the wireless channel used, an ESSID change instruction, and a WEP change instruction. Item 10. A character input system for a portable information terminal according to Item 1. The wireless setting change instruction unit does not issue a wireless setting change instruction when a wireless LAN client requested to connect is connected to another wireless LAN client or the backbone network. Input system for personal digital assistants. The mobile information terminal according to claim 1, wherein the wireless setting change instruction unit does not issue a wireless setting change instruction when a wireless LAN client having a connection request is connected to another device. Character input system. The wireless LAN access point is provided with a latest connection log storage unit, the latest connection log storage unit stores the latest connection log, and the wireless setting change instruction unit refers to the latest connection log storage unit, and 2. The character input system for a portable information terminal according to claim 1, wherein when it is confirmed that connection between the wireless LAN clients cannot be established in the ad hoc mode, the wireless setting change instruction is not issued. 6. The wireless LAN switching system according to claim 5, wherein the latest connection log stored in the latest connection log storage unit is deleted after a predetermined time has elapsed. The wireless setting change unit disconnects the ad hoc mode communication when there is a connection request from the wireless LAN client to another device after establishing the connection between the wireless LAN clients in the ad hoc mode, and the wireless setting change instruction The character input system of the portable information terminal according to claim 1, wherein cutting information is notified to the unit. The wireless LAN client is provided with a previous wireless setting information storage unit, and the latest connection log storage unit stores wireless communication setting information instructed to change wireless settings from the wireless setting change instruction unit. When the ad hoc mode connection between the wireless LAN clients cannot be established later, when the ad hoc mode communication is disconnected after the connection is established, or when the ad hoc mode communication is terminated, refer to the previous wireless setting information storage unit The wireless LAN switching system according to claim 1, wherein the wireless LAN client connects to the wireless LAN access point. When the wireless LAN client connects to the wireless LAN access point, the wireless LAN access point is notified of the wireless status between the wireless LAN clients and stored in the latest connection log storage unit of the wireless LAN access point. The character input system for a portable information terminal according to claim 1, wherein: When the wireless LAN clients cannot establish a connection after a wireless setting change instruction, the wireless LAN clients communicate with each other in infrastructure mode when the ad hoc mode communication is disconnected after establishing the connection. Item 10. A character input system for a portable information terminal according to Item 1. In a wireless LAN switching method for a plurality of wireless LAN clients under the control of a wireless LAN access point connected to a backbone network,
Monitoring traffic between wireless LAN clients having infrastructure mode and ad hoc mode functions at the wireless LAN access point;
When the monitored traffic becomes higher than a predetermined value, wireless communication is performed so as to switch communication from the infrastructure mode to the ad hoc mode from the wireless LAN access point to the wireless LAN client in response to a connection request between wireless LAN clients. A step of instructing setting change;
The wireless LAN client having a connection request includes a step of switching from an infrastructure mode to an ad hoc mode in accordance with an instruction from the wireless LAN access point. In a wireless LAN access point connected to a backbone network and having a plurality of wireless LAN clients under control,
A traffic monitoring unit that monitors traffic between wireless LAN clients having the functions of infrastructure mode and ad hoc mode;
The latest connection log storage unit for storing the latest connection log in the ad hoc mode between wireless LAN clients;
When the monitored traffic becomes higher than a predetermined value, the wireless LAN is connected when the latest ad hoc mode connection is established with reference to the latest connection log storage unit in response to a connection request between wireless LAN clients. A wireless LAN access point, comprising: a wireless setting change instruction unit that issues a wireless setting change instruction that enables a client to switch communication from an infrastructure mode to an ad hoc mode.

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