JP2010171750A - Wireless information processing terminal device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a stable and high-quality wireless LAN installation environment by transmitting the optimal connection conditions held by an STA (Station) to an AP (Access Point) before reconnection. <P>SOLUTION: The STA determines the optimal connection conditions based on information obtained from surrounding radiowave environment and a Web access result to the AP (S50). From the determined connection conditions, the AP is Web-accessed to change setting conditions of the AP (S60). After that, the AP is restarted (S80), the AP forms a network under the new setting conditions. In addition, the STA can accesses the AP only under the new setting conditions, so that the STA is also restarted (S90). <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a wireless information processing terminal device that uses various setting information on a base station and a terminal side and performs wireless communication by connection using an encryption method.

In recent years, a wireless LAN (Local Area Network) is used when a network is used for printing or scanning a document by an information device used in an office such as an MFP (Multi Function Printer) or an LP (Line Printer). It is like that.
This wireless LAN is mounted on a PC (Personal Computer), an office device, or the like based on an access method defined by IEEE (Institut of Electrical and Electronic Engineers) 802.11.
The wireless LAN device is a communication device that is highly evaluated for its convenience of being able to connect to office devices and print information regardless of location because it does not require installation of cables or the like.

On the other hand, as one of the characteristics of the wireless LAN, there is an adverse effect caused by handling radio waves. For example, in an office space, not only radio waves of a wireless LAN fly around innumerably, but also radio waves interfere with a microwave oven or mechanical radiation noise, and communication may not be performed normally.
In such an environment, in order for the wireless LAN device to stably connect and communicate, the connection is performed under the best conditions according to the connection state while monitoring the state of the environment. There is a need. Patent document 1 can be mentioned as an example of the technique.

Japanese Patent No. 3109701

  However, in this method, in order to always perform state monitoring on the wireless terminal side or the base station side, for example, when there are limited memory resources available on the wireless terminal side, information necessary for state monitoring May not be sufficient.

Here, FIG. 4 is a diagram showing an IEEE 802.11 network.
In general, the base station side is called an access point (AP = Access Point), and a terminal hanging under the access point is called a station (STA = Station). This station holds various setting parameters for connecting to the access point.
For example, there are channel number, SSID (Service Set Identifier), compatible standard, presence / absence of encryption, encryption method, encryption key, and the like.
Similarly, the access point holds similar setting parameters. When the station connects to the access point, the station checks the parameter setting value of the access point with respect to the access point, and then performs the connection operation. It is common to do it.
The relationship between the access point and the station is a master-slave relationship in which the station matches the parameters of the access point. This is based on the premise that a plurality of stations are connected to the access point, and is a network limitation unless data can be exchanged between the stations.

FIG. 5 is a diagram showing a general connection sequence.
When a station performs a connection operation to an access point, the station can acquire access point setting information to some extent by a ProbeResponse returned by the access point as a result of sending a ProbeRequest. Using the information in the Probe Response frame, the station determines a connection condition with the access point. After that, a connection state is established through the procedures of Authentication and Association.
However, in such a relationship between the access point and the station, if the setting of the access point is not always correct, the station cannot change the channel in the case of the above-described radio wave interference, for example.
The network administrator who manages the setting of the access point cannot change the setting unless the setting is changed, resulting in forced wireless LAN operation in a poor radio wave condition.
As long as a network administrator is allocated as in a large company, it is not always necessary to set up wireless LAN access points by experienced users or experts. Some people are operating.

  Therefore, an object of the present invention is to allow the station to change the setting of the access point in the situation as described above, thereby transmitting the optimum connection condition possessed by the station to the access point. It is to provide a stable and high-quality wireless LAN installation environment by reconnecting later.

According to the first aspect of the present invention, in a wireless information processing terminal device that can be wirelessly connected to a predetermined base station, connection means for wirelessly connecting to the base station, and information regarding the setting of the base station via the connection means Regarding base station information acquisition means to be acquired, connection condition determination means for determining a suitable connection condition regarding the connection with the base station, information acquired by the base station information acquisition means, and determination by the connection condition determination means When it is determined that the setting of the base station needs to be changed as a result of the comparison by the comparison means and the comparison means, the base station logs in to the base station via the connection means, and A change means for changing various settings of the base station, a base station restarting means for restarting the base station after the change by the change means is completed, and after the change by the change means is completed, the radio information And restarting means for restarting the management terminal device itself, further comprising a characterized.
The invention according to claim 2 is the invention according to claim 1, wherein, in order to determine the radio wave environment, the measurement means for measuring the number of acquired beacons and the number of received frames in the channel, and the measurement result by the measurement means, Selecting means for selecting the channel with the smallest number of acquired beacons or the number of received frames, and the connection condition determining means determines a suitable connection condition based on the selection by the selecting means. It is characterized by.
According to a third aspect of the present invention, in the first or second aspect of the present invention, when the encryption method is WEP (Wired Equivalent Privacy) from the information acquired by the base station information acquisition means, the change is made. The means is characterized in that the encryption method is changed to TKIP (Temporal Key Integrity Protocol) or CCMP (CTR with CBC-MAC Protocol).

  In the present invention, the installation can be easily performed by the terminal station user who cannot sufficiently manage the setting information of the base station, and at the same time, the optimum connection quality can be ensured on the station side. Wireless connection with quality and stability is possible.

It is the block diagram which showed the structural example of the Example of this invention. It is the flowchart which showed the process sequence of the station in a present Example. It is the figure which showed the example of setting information of the access point. It is the figure which showed the network of IEEE802.11. It is the figure which showed the connection sequence.

Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to FIGS. 1 to 3.
FIG. 1 is a block diagram showing a wireless information processing terminal and a configuration example according to an embodiment of the present invention.
The station 1 includes a CPU (Central Processing Unit) 10, a memory (program, data) 20, a wireless MAC (Media Access Control) / PHY (Physical Layer) 30, an IF (Interface) 40, and the like. .
The station 1 is connected to the MFP / PC main body 50 and transfers transmission / reception data via the IF 40.
Similarly, the access point 2 side includes a CPU 60, a memory (Web server function, setting information) 70, a MAC / PHY 80, an ETHER-IF 90, and the like. Then, communication with the backbone network 110 is performed through the HUB 100.
Since the access point 2 has a Web (World Wide Web) server function, the wireless setting information of the access point 2 can be referred to and acquired by Web access from the station 1.
The setting information acquired by the station 1 is stored in the memory 20. The information includes information that can be acquired in the connection sequence with the access point 2 as described above, and information that can be acquired only by Web access.
In this embodiment, the setting information of the access point 2 is acquired by both methods, and after the station 1 changes the setting of the access point 2 in consideration of the surrounding radio wave information in addition to the setting information, It is characterized by connecting.

FIG. 2 is a flowchart showing the processing procedure of the station 1 in this embodiment.
In the present embodiment, the station 1 once connects a normal connection with the access point 2 in accordance with the setting of the access point 2 at that time (step 10).
First, the station 2 acquires access point information from the result of connection (step 20). For example, the MAC address of the connection destination access point 2 is acquired, and the manufacturer of the access point 2 is acquired. In addition, SSID, channel, compatible standard, and no encryption are also information that can be acquired at the time of connection.

On the other hand, individual setting information of the access point 2 that cannot be obtained simply by connecting needs to log in to the access point 2. At that time, as described above, Web login is performed from the station 1 to the access point 2 (step 30).
Since the access point 2 is equipped with a Web server function, by accessing from the station 1, the setting screen as shown in FIG. 3 can be entered and the internal setting information of the access point 2 can be acquired (step 40). ).
Examples of internal setting information that can be acquired include an encryption method and an encryption key. At this time, to log in is based on the premise that the authority to change the setting of the access point 2 is given to the station 1.
Since the station 1 has acquired the information that can be set by the access point 2 from the manufacturer information of the access point 2 and the like, the station 1 determines the setting information that can be accessed by each connection access point 2. it can.
At this time, the station 1 makes these determinations using a program installed in the memory.

On the other hand, the station 1 obtains the ambient radio wave environment, the number of access points 2 and the congestion status separately from the connection by other means (for example, changing channels one by one) (step 45). .
For example, the number of access points 2 on which radio waves come in for each setting channel and radio wave congestion information are acquired. This can be obtained in a simple way. What is necessary is just to count the beacon number which is a signal which only gives out the access point 2 for a certain time from 1 channel when there exist 1-13 channels.
In addition, since the number of radio waves can be determined by counting all received frames including beacons received by the station within a certain period, it is possible to determine the radio wave congestion environment on that channel.
In addition to this method, the radio wave environment can be monitored by the intensity of incoming radio waves. These detections are performed by the wireless MAC / PHY and determined by a program.

Thereafter, the station 1 determines the optimum connection condition based on information obtained from the surrounding radio wave environment and the Web access result to the access point 2 (step 50).
In the second embodiment, the number of acquired beacons and the number of received frames are added for each channel, and the channel with the smallest addition value is determined as the channel with the fewest incoming radio waves.
In the third embodiment, the encryption method can be changed to a more robust encryption method.
Since the encryption method is determined by the setting on the access point 2 side at the time of connection, the station 1 side cannot change the setting of the access point 2 before connection. Therefore, once the connection is made with a weak encryption strength, the encryption strength of the access point 2 is changed and the connection is made again.
Web access to the access point 2 is performed from these determined connection conditions, and the setting conditions of the access point 2 are changed (step 60). At this time, the station needs to hold new setting conditions (step 70).
Since the access point 2 is restarted after the change (step 80), the access point 2 forms a network with the new setting conditions.
Further, since the station 1 cannot be connected to the access point 2 unless the new setting condition is satisfied, the station 1 itself restarts (step 90).
After the station 1 is restarted, the connection with the access point 2 is performed according to the connection sequence in the same manner as the connection with the normal access point 2 (step 100).
As a result, since the station 1 is connected under the optimum conditions intended, high-quality network connection with stable connection is possible.

FIG. 3 is a diagram showing an example of setting information (Web access) of the access point 2.
The access point 2 holds various parameters as described above, and the station 1 similarly holds various parameters.
Among these parameters, those set by the user include, for example, displaying information of the access point 2 by Web access, and changing necessary settings from the displayed settings as necessary. To change the channel, there is a method of restarting the access point 2 by changing the display from 6 channels to 11 channels.

1 Station 10, 60 CPU
20, 70 Memory 30, 80 MAC / PHY
40 IF
50 MFP / PC 2 Access Point 90 ETHER-IF
100 HUB
110 backbone network

Claims (3)

In a wireless information processing terminal device that can wirelessly connect to a predetermined base station,
A connection means for performing wireless connection to the base station;
Base station information acquisition means for acquiring information regarding the setting of the base station via the connection means;
Connection condition determining means for determining a suitable connection condition for the connection with the base station;
Comparison means for comparing the information acquired by the base station information acquisition means with the connection conditions determined by the connection condition determination means;
As a result of comparison by the comparison means, when it is determined that the setting of the base station needs to be changed, the change means for logging in to the base station via the connection means and changing various settings of the base station; ,
Base station restarting means for restarting the base station after the change by the changing means is completed;
A wireless information processing terminal device comprising: restarting means for restarting the wireless information processing terminal device itself after the change by the changing means is completed. In order to determine the radio wave environment, measuring means for measuring the number of acquired beacons and the number of received frames in the channel,
From the measurement result by the measurement means, comprising a selection means for selecting the channel with the smallest number of beacons acquired or the number of received frames,
The wireless information processing terminal device according to claim 1, wherein the connection condition determination unit determines a suitable connection condition based on the selection by the selection unit. From the information acquired by the base station information acquisition means, when the encryption method is WEP (Wired Equivalent Privacy),
3. The wireless information processing terminal device according to claim 1, wherein the changing unit changes the encryption method to TKIP (Temporal Key Integrity Protocol) or CCMP (CTR with CBC-MAC Protocol).

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