JP2004096595A - Wireless LAN system, base device and terminal device - Google Patents

Abstract

Provided is a wireless LAN system which accurately grasps radio wave conditions of available wireless channels and makes use of the radio wave conditions.
A base device (101) detects a level of a received signal received through each available channel by a received signal level detecting unit (109) when the base device (101) starts up or when a request is received from a terminal device (102). If the received signal is a wireless LAN signal or a wireless LAN signal, it is determined whether the signal is QoS-guaranteed, and these are held for each wireless channel.
[Selection diagram] Fig. 1

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to, for example, a wireless LAN (Local Area Network) system, a base device used in a wireless LAN system, and a terminal device.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in an office or the like, a LAN system is constructed by connecting a plurality of devices such as a personal computer and a printer by a wire, and various data and hardware resources are shared by the plurality of devices, so that various types of data and It has been attempted to make efficient use of hardware resources and the like.
[0003]
In recent years, a wireless LAN system (wireless LAN system) has been constructed in which each device is connected wirelessly instead of connected by wire. In the case of a wireless LAN system, since each device is connected by radio, there is no need to run a LAN cable, the LAN cable is not exposed indoors and does not impair the aesthetic appearance, and the installation position of the device is also reduced. It can respond flexibly. Recently, wireless LAN systems have been used not only in offices but also in homes.
[0004]
In a wireless LAN system, usually, a plurality of wireless channels (wireless communication channels) can be used, and the wireless channel to be used may be selected or changed. Here, the change of the wireless channel in the conventional wireless LAN system 300 shown in FIG. 6 will be described.
[0005]
The wireless LAN system 300 shown in FIG. 6 includes a base device 301 for substantially selecting and changing a wireless channel, and a terminal device 401. The base device 301 and the terminal device 401 are built in various electronic devices such as a wireless LAN card loaded in a notebook personal computer (hereinafter simply referred to as a notebook personal computer) and a personal computer connected to a wireless LAN system. Corresponding to the wireless LAN module part.
[0006]
Therefore, the base device 301 and the terminal device 401 are electronic devices such as notebook computers that supply data to be transmitted to the base device 301 and the terminal device 401 and receive and process data received through the base device 301 and the terminal device 401. A host device (described as HOST in the figure), which is a device located above the device 401, is connected.
[0007]
In the conventional general wireless LAN system as shown in FIG. 6, the change of the wireless channel is roughly divided into "(1) change to a designated wireless channel by a request from the host device of the terminal device 401", Alternatively, there are two types of “(2) change to designated wireless channel by hard switch 309 in base device 301”. Hereinafter, each of them will be described.
[0008]
First, in the case of a request from the host device of the terminal device 401, a designated wireless channel change request signal 422 is supplied to the signal processing unit 406 from the host device of the terminal device 401 during communication. The designated wireless channel change request signal 422 is supplied to the modulation / demodulation unit 405 as transmission data, and is up-converted into an IF transmission signal.
[0009]
The IF transmission signal formed by up-conversion in modulation section 405 is supplied to frequency conversion section 404, where it is up-converted into an RF transmission signal, amplified in RF transmission / reception section 403, and transmitted from antenna 402. You. The transmitted RF signal is received by the antenna 302 of the base device 301, passes through a circuit of a receiving system of the base device 301, and is supplied to the control unit 307 as a wireless channel change request signal.
[0010]
Here, the control unit 307 temporarily suspends communication with the terminal device 401 and supplies a control signal for changing the wireless channel to the frequency synthesizer unit 308. The frequency synthesizer unit 308 changes the frequency of the RF local signal so as to match the request from the terminal device 401, and changes the wireless channel of the base device 301. In this way, the wireless channel is changed in response to a request from the host device on the terminal device 401 side.
[0011]
Another method of changing the designated wireless channel is to perform the change through the hard switch unit 309 provided in the base device 301. By setting the hard switch unit 309 to be a designated wireless channel, a designated wireless channel change request signal is supplied from the hard switch unit 309 to the control unit 307.
[0012]
The control unit 307 supplies a control signal for changing the wireless channel to the frequency synthesizer unit 308. The frequency synthesizer unit 308 changes the frequency of the RF local signal so as to match the setting of the hard switch unit 309, and changes the wireless channel of the base device 301. In this way, by changing the setting of the hard switch unit 309 by the user (user) of the base device 301, the wireless channel intended by the user is changed.
[0013]
[Problems to be solved by the invention]
However, in the above-described channel change in the conventional general wireless LAN system, if the user does not grasp the radio wave condition of the use environment, there is no guideline for selecting the wireless channel, so the wireless channel is always optimally selected. It is impossible. In connection with this, in the wireless LAN system which is rapidly spreading in recent years, the following problems have occurred.
[0014]
First, for example, when different wireless LAN systems are provided in the same area, the respective wireless LAN systems use the same wireless channel to generate interference signals with each other, resulting in frequent errors in transmission data. Problem.
[0015]
This is because if data transmitted / received via the wireless LAN is download data from the Internet or file transfer data between personal computers, an error occurs in the data, so that retransmission is required and the transmission rate is reduced. In addition, when audio and video are transmitted in real time through a wireless LAN, retransmission is limited, so that video is disturbed and audio is interrupted.
[0016]
In this case, unless it is a special measuring instrument, it is difficult for the user to identify whether the deterioration of communication quality is due to radio interference, and to change the wireless channel to improve communication quality. However, it is difficult to determine which channel is best.
[0017]
Second, in a wireless LAN system using a 2.4 GHz frequency band such as IEEE802.11b or IEEE802.11g, which is a standard protocol of the wireless LAN, the 2.4 GHz frequency band is an ISM band (Industrial Scientific Medical Band) band. Since it is determined, there is a possibility that the wireless LAN systems may receive interference from other wireless devices such as a microwave oven and a Bluetooth device in addition to interference between the wireless LAN systems. In this case as well, it is difficult to identify the cause and determine the optimum wireless channel as in the case described above.
[0018]
In such a case, in the conventional wireless LAN system as shown in FIG. 6, after all, the designated wireless channel change request is issued from the host device side of the terminal device 401 or the hard switch unit 309 of the base device 301 is operated by the user. Has to operate so as to change the wireless channel to be used, and to select the wireless channel with the best reception condition by the user himself.
[0019]
However, it is troublesome for the user to give an instruction to change the wireless channel every time the communication condition of the wireless LAN becomes worse. In addition, if the user is not familiar with the wireless LAN system and does not know that the wireless channel can be changed, the surrounding environment is converted because the wireless channel cannot be changed, and the communication state is naturally changed. Unless the communication quality is improved, it is necessary to always use a wireless channel with poor communication.
[0020]
In view of the above, it is an object of the present invention to provide a wireless LAN system that can eliminate the above problems, and a base device and a terminal device used in the wireless LAN system.
[0021]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, a wireless LAN system according to the first aspect of the present invention includes:
In a wireless LAN system in which a base device and one or more terminal devices are wirelessly connected to each other,
The base device,
Receiving means for receiving a channel change request from the terminal device;
Level detection means for detecting the level of the received signal of each available wireless channel, in one or both of the case of activating its own device and the case of receiving the channel change request through the reception means,
Signal determination means for determining whether or not the received signal to be detected for the level is a wireless LAN signal;
When the signal discriminating means determines that the wireless LAN signal is a wireless LAN signal, the wireless LAN signal is a QoS discriminating means for discriminating whether or not the signal is a QoS (Quality of Services, hereinafter the same) signal.
With
The terminal device,
Error detection means for detecting a demodulation error that occurs when the received signal is demodulated, and error amount determination means for determining whether the number of detections of the demodulation error exceeds a predetermined threshold,
Change request generation means for generating the channel change request when the error amount determination means determines that the number of detected demodulation errors exceeds a threshold,
Change request transmitting means for transmitting the channel change request generated by the change request generating means to the base device;
It is characterized by having.
[0022]
According to the wireless LAN system of the first aspect of the present invention, the wireless LAN system includes a base device and one or more terminal devices. When the base device is activated and when a demodulation error from the terminal device increases. And / or a channel change request transmitted to the wireless LAN system, the reception level of the received signal received for each of one or more wireless channels available in the wireless LAN system, The base device detects whether or not the received signal is a LAN system and, if the received signal is a wireless LAN signal, whether or not QoS (Quality of Service: Quality of Service) is assured. Being figured out.
[0023]
The QoS guarantee varies depending on the communication model and the communication system to be applied. For example, transmission delay, fluctuation (variation of delay), minimum guaranteed speed, peak speed, and the like are used as QoS parameters to guarantee quality. This signal indicates whether or not the signal is a signal.
[0024]
Thus, in each available wireless channel, if there is a wireless LAN signal or a signal having an output level equal to or higher than a certain level, it is determined that the channel is a channel in which an interference signal exists. Is able to grasp whether the signal is a signal whose QoS is guaranteed. In this way, the base device of the wireless LAN system itself can accurately grasp the radio wave condition of the available wireless channel.
[0025]
The wireless LAN system according to the second aspect of the present invention
In a wireless LAN system in which a base device and one or more terminal devices are wirelessly connected to each other,
The base device,
Error information receiving means for receiving information on the demodulation error from the terminal device,
Based on the information on the demodulation error received through the error information receiving means, based on the detection number of demodulation errors in the terminal device, a detection means for detecting whether or not exceeds a predetermined threshold,
In one or both of the case where the own device is started and the case where the number of demodulation errors detected exceeds a predetermined threshold by the detection means, the level of the received signal of each available wireless channel is changed. Level detecting means for detecting,
Signal determination means for determining whether or not the received signal to be detected for the level is a wireless LAN signal;
A QoS discriminating means for discriminating whether or not the wireless LAN signal is a QoS guaranteed signal when the signal discriminating means determines that the signal is a wireless LAN signal;
With
The terminal device,
An error detection unit that detects a demodulation error that occurs when a received signal is demodulated; and an error that transmits information corresponding to the demodulation error detected by the error amount detection unit to the base device as information regarding the demodulation error. Information transmission means and
It is characterized by having.
[0026]
According to the wireless LAN system according to the second aspect of the present invention, the wireless LAN system includes a base device and one or more terminal devices. The base device is activated based on demodulation error information from the terminal device. And / or when the base device determines that the demodulation error in the terminal device has increased, the reception level of the received signal received for each of one or more wireless channels available in the wireless LAN system, Whether or not the received signal is a wireless LAN system, and if the received signal is a wireless LAN signal, whether or not QoS (Quality of Services) is guaranteed is detected / determined by a base device. It is made to grasp every time.
[0027]
Thus, in each available wireless channel, if there is a wireless LAN signal or a signal having an output level equal to or higher than a certain level, it is determined that the channel is a channel in which an interference signal exists. Is able to grasp whether the signal is a signal whose QoS is guaranteed. In this way, the base device of the wireless LAN system itself can accurately grasp the radio wave condition of the available wireless channel.
[0028]
A wireless LAN system according to a third aspect of the present invention is the wireless LAN system according to the first or second aspect,
The base device,
Notifying means for notifying the radio wave condition of each wireless channel based on at least one of the detection result of the level detection means, the judgment result of the signal judgment means, and the judgment result of the QoS judgment means. It is characterized by.
[0029]
According to the wireless LAN system of the third aspect of the present invention, the detection result of the reception signal level of each available wireless channel, the determination result of the presence or absence of the wireless LAN signal, and the presence of the wireless LAN signal, The radio wave condition of each wireless channel is notified through the notifying means based on at least one of the wireless LAN signal whose existence is confirmed and the result of the determination as to whether or not the QoS is guaranteed.
[0030]
As a result, the user can grasp the radio wave condition of the usage environment of the wireless LAN system without preparing a special measuring device. Then, such information can be referred to, for example, when a user manually selects a wireless channel.
[0031]
A wireless LAN system according to a fourth aspect of the present invention is the wireless LAN system according to the first or second aspect,
The base device,
And selecting means for selecting an optimum wireless channel based on at least one of a detection result of the level detection means, a determination result of the signal determination means, and a determination result of the QoS determination means. .
[0032]
According to the wireless LAN system of the present invention, one of the signal level detected in each receivable wireless channel, the determination result of the wireless LAN signal, and the determination result of the presence or absence of the QoS guarantee in the base device. Based on the above, by applying a unique wireless channel selection condition, an optimal wireless channel can be automatically selected.
[0033]
As a result, it is possible to perform wireless communication through a wireless channel that is less likely to be interfered by the user without being aware and that is less likely to cause interference to other wireless LAN systems.
[0034]
A wireless LAN system according to a fifth aspect of the present invention is the wireless LAN system according to the fourth aspect,
Based on at least one of the detection result of the level detection means, the determination result of the signal determination means, and the determination result of the QoS determination means, whether an interference wave is present in the wireless channel selected by the selection means. Interfering wave discriminating means for discriminating whether or not there is an interfering wave by the interfering wave discriminating means, and a notifying means for notifying the user of this.
It is characterized by having.
[0035]
According to the wireless LAN system of the fifth aspect of the present invention, as a result of the automatic channel selection of the wireless channel, when a channel that is determined to have an interference signal is selected, the user is notified through the notification means. Is to be.
[0036]
This allows the user of the wireless LAN system to be aware of the communication quality.
[0037]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of a wireless LAN system, a base device, and a terminal device according to the present invention will be described with reference to the drawings.
[0038]
FIG. 1 is a block diagram for explaining a wireless LAN system (wireless LAN system) 100 to which an embodiment of a wireless LAN system, a base device, and a terminal device according to the present invention is applied.
[0039]
As shown in FIG. 1, a wireless LAN system 100 according to the present embodiment includes a base device 101 as a parent device (server) and a terminal device 201 as a child device (client). Here, the base device 101 and the terminal device 201 correspond to wireless LAN modules incorporated in various electronic devices such as a wireless LAN card loaded in a notebook personal computer and a personal computer connected to a wireless LAN system. It is.
[0040]
Therefore, the base device 101 and the terminal device 201 are electronic devices such as notebook computers that supply data to be transmitted to the base device 101 and the terminal device 201 and that receive and process data received through the base device 101 and the terminal device 201. A host device unit (described as HOST in FIG. 1), which is an electronic device located above the device 401, is connected.
[0041]
As shown in FIG. 1, the base device 101 includes an antenna 102, an RF transmitting / receiving unit 103, a frequency converting unit 104, a modem unit 105, a signal processing unit 106, a control unit 107, a frequency synthesizer unit 108, a detection / judgment result display unit. 111, and an alarm display unit 112. The modulation / demodulation section 105 includes a reception signal level detection section 109, and the signal processing section 106 includes a demodulation data determination section 110.
[0042]
On the other hand, the terminal device 201 includes an antenna 202, an RF transmission / reception unit 203, a frequency conversion unit 204, a modulation / demodulation unit 205, a signal processing unit 206, a control unit 207, and a frequency synthesizer unit 208. The signal processing unit 206 includes a demodulated data error detection unit 213.
[0043]
Next, how to recognize the radio wave condition of the usage environment and perform control accompanying the recognition will be described with reference to FIG. In this embodiment, the timing of the recognition of the radio wave condition includes “when the base terminal 101 is activated” and “data detected by the demodulated data error detection unit 213 incorporated in the signal processing unit 206 of the terminal device 201 during communication”. When the error exceeds the threshold value ".
[0044]
First, a process performed at “when the base device 101 is started” will be described. The control unit 107 is a microcomputer including a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like. All circuits of section 103, frequency conversion section 104, modulation / demodulation section 105, and signal processing section 106 are switched to the reception state. Specifically, the transmission / reception changeover switch is switched so that the reception side is set to a through state, or the power of the active element of the transmission system (for example, a power amplifier) is cut off, and the power is supplied to the active element of the reception system.
[0045]
At the same time, the control unit 107 controls the frequency synthesizer unit 108 with the frequency synthesizer control signal CT, and transmits the RF local signal (RF LOCAL signal) RFL to the frequency conversion unit 104 and the IF local signal (IF LOCAL signal) IFL to the modulation / demodulation unit 105. Supply. These local signals RFL and IFL are supplied to a down-conversion mixer of a circuit section to which the signals are supplied.
[0046]
The control unit 107 sequentially changes the frequency of the RF local signal RFL in particular by the frequency synthesizer control signal CT. Thus, the base device 101 can switch to all receivable wireless channels.
[0047]
At the time of startup, the base device 101 that has been in the receiving state on the first receivable channel receives a signal from the antenna 102 when there is any RF signal in the use environment. The RF signal received by the antenna 102 is passed through a filter or amplified by an RF transmission / reception unit 103, and then supplied to a frequency conversion unit 104 as an RF reception signal RFR.
[0048]
The RF reception signal RFR is down-converted by the RF local signal RFL supplied from the frequency synthesizer section 108 in a mixer built in the frequency conversion section 104, and supplied to the modulation / demodulation section 105 as an IF reception signal IFR.
[0049]
The modulation / demodulation section 105 detects the reception signal level of the IF reception signal IFR supplied thereto by the reception signal level detection section 109 and supplies this to the control section 107 as reception signal level data LV. Also, the modem 105 down-converts the IF reception signal IFR supplied thereto into a baseband signal by an IF local signal IFL supplied from the frequency synthesizer 108 in a mixer built in the modem 105. This is demodulated into data by a demodulation circuit, and the demodulated F data is supplied to the signal processing unit 106 as received data RDT.
[0050]
The signal processing unit 106 guarantees the received data RDT supplied thereto in the demodulated data determination unit 110 of the signal processing unit 106 based on the data format if the data is a wireless LAN signal or a wireless LAN signal. It is determined whether the received signal is a decoded signal, and the determination result is supplied to the control unit 107 as a demodulated data determination signal AS.
[0051]
As a specific process in the demodulated data determination unit 110, the demodulated data has a predetermined format as a wireless LAN signal, and determines whether or not the data is meaningful as a wireless LAN signal. It is possible to determine whether or not there is a LAN signal. If the signal is a wireless LAN signal having a predetermined format, it is possible to determine whether or not the signal is a QoS guaranteed wireless LAN signal by further referring to the QoS information in the header portion of the signal, for example.
[0052]
Then, the above-described RF signal is received through the antenna 102, the received signal level is detected by the received signal level detection unit 109 of the modulation / demodulation unit 105, and the presence / absence of the wireless LAN signal is determined by the demodulation data determination unit 110 of the signal processing unit 106. If the signal is a wireless LAN signal, the processing up to the determination of whether or not the QoS is guaranteed is repeated for all receivable (available) wireless channels as the wireless channels are sequentially switched.
[0053]
At the point of time from the reception of signals on all wireless channels to each determination process, the control unit 107 has received signal level data LV and demodulation data determination signal AS for each wireless channel, and these are, for example, It is stored in a memory such as a RAM of the control unit 107.
[0054]
Here, the control unit 107 detects the detection / judgment result signal OT1 including the reception signal level of each channel, the presence / absence of a wireless LAN signal, and the determination result of the QoS guarantee if the signal is a wireless LAN signal. To 111. The detection / determination result display unit 111 displays the result to the outside by various methods.
[0055]
FIG. 2 is a diagram illustrating the configuration of the detection / detection determination result display unit 111 and a display example of the detection / determination result. Here, the wireless LAN system 100 according to the present embodiment uses three wireless channels whose frequency bands are determined in advance: A channel (A-CH), B channel (B-CH), and C channel (C-CH). Shall be available.
[0056]
In this example, three LEDs (Light Emitting Diodes) are provided for each channel. Specifically, as shown in FIG. 2, for each channel, an LED (A1, B1, C1) indicating whether there is a received signal of a predetermined level or more, and an LED indicating whether there is a wireless LAN signal. (A2, B2, C2), and LEDs (A3, B3, C3) for indicating the presence or absence of a wireless LAN signal guaranteed for QoS.
[0057]
Then, in the case of a channel with a wireless LAN signal for which QoS is guaranteed, all of the LEDs (A1), (A2), and (A3) are turned on as shown in channel A (A-CH) in FIG. To be done. Further, in the case of a channel having a wireless LAN signal for which QoS is not guaranteed, two LEDs of the LEDs (A1) and (A2) are turned on as shown in the B channel (B-CH) in FIG. Is to be.
[0058]
In the case of a channel where there is no wireless LAN signal but a reception signal of a predetermined level or higher, only the LED (A1) is turned on as shown in the C channel (C-CH) in FIG. Is done. In the case of a channel having neither a wireless LAN signal nor any other reception signal, none of the three LEDs is turned on.
[0059]
By doing so, the user of the wireless LAN system 100 confirms the display of the detection / determination result display section 111 of the base device 100, and thereby, the channel with the QoS guaranteed wireless LAN signal and the QoS guaranteed A channel with a wireless LAN signal that has not been transmitted, or a channel that is not a wireless LAN signal but has some received signal of a predetermined level or more is notified. That is, it is possible to clearly notify a wireless channel having a signal that is likely to be an interference signal and a wireless channel having no received signal that is an interference signal.
[0060]
At the same time, the control unit 107 starts automatic selection of the optimal wireless channel for communication using the received signal level data LV of each wireless channel and the demodulated data determination signal AS. The selection method is as follows. First, the demodulation data determination signal AS of each wireless channel is compared, and the wireless channel on which the signal whose QoS is guaranteed is received is avoided first.
[0061]
Next, of the remaining wireless channels, the wireless channel on which the wireless LAN signal is received is avoided. Next, among the remaining wireless channels, the wireless channel having the lowest received signal level is determined using the received signal level data LV, and this is selected as the wireless channel used for communication.
[0062]
The reception signal level data LV is also used when there is a wireless LAN signal whose QoS is guaranteed for all wireless channels or when there is a wireless LAN signal whose QoS is not guaranteed for all wireless channels. The wireless channel with the lowest signal level is determined, and this is selected as the wireless channel used for communication.
[0063]
Similarly, even when a reception signal of a predetermined level or more exists in the remaining wireless channels except for a channel in which a QoS-guaranteed wireless LAN signal or a non-QoS-guaranteed wireless LAN signal exists, the reception signal level data LV is used. Then, the wireless channel having the lowest received signal level is determined, and this is selected as the wireless channel used for communication.
[0064]
Of course, even if not all wireless channels are wireless LAN signals, but a received signal of a predetermined level or more is present, the received signal level data LV is used to determine the wireless channel with the lowest received signal level. Is selected as a wireless channel used for communication.
[0065]
Then, control section 107 supplies control signal CT to frequency synthesizer section 108 so as to match the automatically selected wireless channel, and fixes RF local signal RFR supplied from frequency synthesizer section 108 to frequency conversion section 104. .
[0066]
At the same time, the control unit 107 determines whether the automatically selected wireless channel is a wireless channel that has received a wireless LAN signal, a wireless channel that has received a wireless LAN signal and a signal whose QoS is guaranteed, Alternatively, if the received signal level is not a wireless LAN signal but is high enough so that the received signal level exceeds the threshold, an alarm signal is issued to warn that a channel in which a signal that may be an interference wave exists is selected. The AL is supplied to the alarm display unit 112.
[0067]
The alarm display unit 112 externally displays an alarm corresponding to each state by various methods according to the alarm signal AL from the control unit 107. FIG. 3 is a diagram for explaining a configuration of the alarm display unit 112 and a display mode of the alarm. In this example, the alarm display unit 112 includes an LED 1121 indicating whether there is a received signal of a predetermined level or higher, an LED 1122 indicating the presence or absence of a wireless LAN signal, and an LED 1123 indicating the presence or absence of a wireless LAN signal guaranteed for QoS. It has three LEDs.
[0068]
Then, when a QoS-guaranteed wireless LAN signal exists in the selected wireless channel, all the LEDs 1121, 1122, and 1123 are turned on as shown in the pattern 1 of FIG. . Also, when QoS is not guaranteed for the selected wireless channel but a wireless LAN signal is present, two LEDs 1121 and 1122 are turned on as shown in pattern 2 of FIG. Remains off.
[0069]
Furthermore, when there is no selected wireless LAN signal with guaranteed QoS or no wireless LAN signal without guaranteed QoS, but a wireless channel in which a signal of a predetermined level or higher exists is selected, the pattern of FIG. As shown in FIG. 3, only the LED 1121 is turned on, and the LEDs 1122 and 1123 remain off.
[0070]
Of course, when a wireless channel in which none of the QoS guaranteed wireless LAN signal, the QoS guaranteed wireless LAN signal, and the reception signal of the predetermined level or higher is present is selected, the three LEDs 1121 of the alarm display unit 112, Both 1122 and 1123 remain off. When none of the three LEDs 1121, 1122, and 1123 is lit, the base device 101 and the terminal device 201 can perform wireless communication through a wireless channel in which there is no signal that can be an interference wave.
[0071]
Then, as described above, after the base device 101 automatically selects a wireless channel, the terminal device 201 searches for the wireless channel determined by the base device 101 and starts communication.
[0072]
Next, a process performed when “a data error detected by the demodulated data error detection unit 213 incorporated in the signal processing unit 206 of the terminal device 201 during communication exceeds a threshold” will be described.
[0073]
During communication, a data error is constantly monitored by a demodulated data error detection unit 213 built in the signal processing unit 206 of the terminal device 201, and a data error detection signal ER is supplied to the control unit 207. The control unit 207 is a microcomputer including a CPU, a ROM, a RAM, and the like, and determines whether or not the number of detected data errors exceeds the threshold based on the data error detection signal ER and a predetermined threshold. .
[0074]
If the control unit 207 determines that the number of detected data errors exceeds the threshold, the control unit 207 supplies a wireless channel change request signal RQ to the signal processing unit 206 and sends the switching control signal SR to the RF transmitting / receiving unit 203 The signals are supplied to the conversion unit 204, the modulation / demodulation unit 205, and the signal processing unit 206, and all of these circuits are switched to the transmission state.
[0075]
The wireless channel change request signal RQ is supplied to the modulation / demodulation unit 205 as transmission data SD, where it is up-converted into an IF transmission signal IFS, and supplied to the frequency conversion unit 204. The frequency conversion unit 204 up-converts the supplied IF transmission signal IFS into an RF transmission signal RFS, and supplies the RF transmission signal RFS to the RF transmission / reception unit 203. The RF transmission / reception unit 203 amplifies the supplied RF transmission signal RFS and transmits the amplified RF transmission signal to the base device 101 via the antenna 202.
[0076]
In this way, the wireless channel change request transmitted from the terminal device 201 is received by the antenna 102 of the base device 101, and the reception system of the RF transmission / reception unit 103, the frequency conversion unit 104, the modulation / demodulation unit 105, and the signal processing unit 105 Is supplied to the control unit 107 as a wireless channel change request signal RQ.
[0077]
Here, upon receiving the wireless channel change request signal RQ from the terminal device 201, the control unit 107 temporarily suspends communication with the terminal device 201, and performs a process similar to that at the time of starting the base device 101 described above. Recognizes the radio wave condition of the wireless channel.
[0078]
That is, as described above, the control unit 107 performs, for each wireless channel, detection of the reception signal level, determination of the presence or absence of a wireless LAN signal, and determination of the presence or absence of a wireless LAN signal guaranteed for QoS. Then, the control unit 107 displays these recognition results (detection / judgment results), automatically selects a wireless channel optimal for communication, and displays an alarm for the selected wireless channel.
[0079]
As described above, “when the base terminal 101 is activated” and “when the data error detected by the demodulated data error detection unit 213 incorporated in the signal processing unit 206 of the terminal device 201 during communication exceeds the threshold” Recognizes the radio wave condition of the usage environment and reselects the optimal wireless channel.
[0080]
Then, wireless communication is performed between the base device 101 and the terminal device 201 through the wireless channel automatically selected in the base device 101. That is, the transmission data from the host device on the base device 101 side is supplied to the control unit 107 of the base device 101 through the interface 120, and the control unit 107 transmits the data to the control unit 107 in the same manner as when the terminal device 201 transmits the channel change request RQ. From 107, the signal is transmitted to the terminal device 201 through the antenna 102 and the transmission system of the signal processing unit 106, the modulation / demodulation unit 105, the frequency conversion unit 104, and the RF transmission / reception unit 103.
[0081]
The terminal device 201 receives the signal transmitted from the base device 101 and addressed to itself, via the antenna 202, and performs the RF transmission / reception unit 203 and the frequency conversion unit 204 in the same manner as when the base device 101 receives the RF signal. , Through the receiving system of each part of the modulation / demodulation unit 205 and the signal processing unit 206, and supplies the received data to the control unit 207. The control unit 207 supplies the received data to the host device on the terminal device 201 side through the interface 220. .
[0082]
The transmission data transmitted from the host device on the terminal device 201 side to the host device on the base device 101 side is transmitted from the host device on the terminal device 201 side via the interface 234 to the terminal device 201 in the same manner as in the case of the channel change request described above. The signal is supplied to the control unit 207, and is transmitted from the control unit 207 to the base device 101 via the antenna 102 and the transmission system of each circuit of the signal processing unit 206, the modulation / demodulation unit 205, the frequency conversion unit 204, and the RF transmission / reception unit 203.
[0083]
The base device 101 receives the signal transmitted from the terminal device 201 and addressed to itself, via the antenna 102, and performs the RF transmission / reception unit 103, the frequency conversion unit 104, the modulation / demodulation unit 105 as in the case of the reception of the RF signal described above. The data is fetched through the reception system of the signal processing unit 106 and supplied to the control unit 107, and the control unit 107 supplies the received data to the host device on the base device 101 side via the interface 120.
[0084]
Next, automatic selection of a wireless channel and display processing of a radio wave state and the like performed in the base device 101 of the wireless LAN system 100 shown in FIG. 1 will be described with reference to the flowcharts of FIGS.
[0085]
FIGS. 4 and 5 are flowcharts for explaining the automatic selection of the wireless channel and the display processing of the radio wave condition and the like performed in the base device 101 of the wireless LAN system 100. The processing shown in FIGS. 4 and 5 is performed when the base device 101 is activated and when the data error at the time of demodulation in the terminal device 201 exceeds the threshold, as described above. Is performed in response to a request from the terminal device 201.
[0086]
Here, in this wireless LAN system 100, it is assumed that there are a plurality (MAX) of available wireless channels, and N can be used as one or more variables to specify the frequency used for each channel (N). The following is an explanation of this case.
[0087]
First, the control unit 107 of the base device 101 initializes, for example, a variable N for specifying an available wireless channel and sets it to 1 (step S101). Then, a control signal CT is formed so as to select the channel (N), and this is supplied to the frequency synthesizer 108 (step S102).
[0088]
Then, the level of the signal received through the selected channel (N) (received signal level) is detected by the received signal level detector 109, and this is detected as the received signal level data LV (N) of the channel (N) by the controller 107. (Step S103).
[0089]
Next, the control unit 107 determines whether or not the received signal received through the channel (N), which is the currently selected wireless channel, is demodulated as meaningful data by the demodulated data determination unit 110, that is, a predetermined It is determined whether or not demodulation was possible as a wireless LAN signal in the format of the above. If it was determined that demodulation was possible as a wireless LAN signal, it was further determined from the information of the received signal whether or not the QoS was guaranteed. The determination result is notified to the control unit 107 as a demodulated data determination signal AS (N) (step S104).
[0090]
Next, the control unit 107 determines whether or not the processing from step S102 to step S104 has been performed for all of the available wireless channels (step S105), and determines that the processing has not been completed for all of the wireless channels. When it is determined, 1 is added to a variable N for specifying an available wireless channel (step S106), and the processing from step S102 is repeated.
[0091]
In the determination processing of step S105, when it is determined that the processing has been completed for all the wireless channels, the control unit 107 proceeds to the processing shown in FIG. 5, and firstly, the reception signal acquired by the series of processing shown in FIG. From the level data (1) to the received signal level data (MAX) and the demodulated data determination signal AS (1) to the demodulated data determination signal AS (N), for example, a detection / determination result is obtained in the manner shown in FIG. It is displayed on the detection / judgment result display section 111 (step S107).
[0092]
Then, control section 107 performs automatic control of the wireless channel based on received signal level data (1) to received signal level data (MAX) and demodulated data determination signal AS (1) to demodulated data determination signal AS (N). The selection is started (step S108). First, the control unit 107 determines, based on the demodulated data determination signal AS (1) to the demodulated data determination signal AS (N), whether or not a wireless LAN signal whose QoS is guaranteed exists in all wireless channels (see FIG. 4). Step S109).
[0093]
If it is determined in step S109 that there is a wireless LAN signal whose QoS is guaranteed in all the wireless channels, the reception signal level data (1) to the reception signal level data (MAX) are used to determine the most The wireless channel having a low signal level is selected to be used (step S110), and a notification is displayed on the alarm display unit 112 in the pattern 1 shown in FIG. 3A (step S111). Is completed.
[0094]
In the determination processing of step S109, when it is determined that the wireless LAN signal whose QoS is guaranteed does not exist in all the wireless channels, the control unit 107 sets the demodulated data determination signal AS (1) to the demodulated data determination signal AS (N). Based on this, it is determined whether or not any wireless LAN signal other than the wireless LAN signal whose QoS is guaranteed exists in all the wireless channels (step S112).
[0095]
In the determination process of step S112, when it is determined that a wireless LAN signal other than the wireless LAN signal whose QoS is guaranteed exists in all the wireless channels, the control unit 107 determines whether the received signal level data (1) to the received signal level data (MAX) ), A channel is selected to use the channel with the lowest received signal level (step S113), and a notification is displayed on the alarm display unit 112 in the pattern 2 shown in FIG. 3B (step S114). Then, the processing shown in FIGS. 4 and 5 is ended.
[0096]
In the determination processing of step S112, when it is determined that there is no wireless LAN signal other than the wireless LAN signal whose QoS is guaranteed in all the wireless channels, the control unit 107 determines whether the received signal level data (1) to the received signal level data ( MAX), it is determined whether or not the signal level of the received signal received through the channel having the lowest received signal level other than the wireless LAN signal is equal to or higher than a predetermined threshold (step S115).
[0097]
In the determination processing of step S115, when it is determined that the signal level of the received signal received through the channel having the lowest received signal level other than the wireless LAN signal is equal to or higher than the predetermined threshold, the control unit 107 Based on the level data (1) to the received signal level data (MAX), the channel with the lowest received signal level is selected (step S116), and a notification is displayed on the alarm display unit 112 in the pattern 3 shown in FIG. (Step S117), and the processing shown in FIGS. 4 and 5 ends.
[0098]
In the determination process of step S115, when it is determined that the signal level of the received signal other than the wireless LAN signal through the channel having the lowest received signal level is not equal to or higher than the predetermined threshold, the control unit 107 On the basis of the level data (1) to the received signal level data (MAX), the channel with the lowest received signal level is selected (step S118), and the alarm display unit 112 does not perform notification display (step S119). Then, the processing shown in FIGS. 4 and 5 is ended.
[0099]
As described above, in the wireless LAN system 100 according to the present embodiment, in the base device 101, as the wireless channel actually used for communication, the optimum wireless channel is automatically selected from a plurality of available wireless channels. . Accordingly, the wireless LAN system 100 can automatically select an optimal channel without bothering the user and perform wireless communication between the base device 101 and the terminal device 102.
[0100]
In addition, since the radio wave condition of each available wireless channel can be notified to the user through the detection / judgment result display unit 111, the user can use the wireless LAN system without using any special measuring device. It is made possible to appropriately grasp the use environment of the system. As a result, optimization of the installation position of the base apparatus 101 or the terminal apparatus 201 and, when, for example, manual selection of a wireless channel is enabled, use as effective information such as selection criteria for manual selection of a wireless channel. Will be able to.
[0101]
In addition, a wireless LAN signal whose QoS is guaranteed exists in the wireless channel automatically selected as the optimum one in the base apparatus 101, a wireless LAN signal whose QoS is not guaranteed but exists, or a wireless LAN signal which is not guaranteed. However, if a received signal of a predetermined level or more is present, this is reported to the user, so that the radio wave condition of the wireless channel used for communication can be appropriately recognized without using a special measuring device. Then, it is possible to appropriately recognize the data transfer time, the tendency of error occurrence, and the like, and to properly use the wireless LAN system 100.
[0102]
In the above-described embodiment, the base device 101 changes the wireless channel and receives the radio wave of each available wireless channel both when the base device 101 starts up and when a channel change request is received from the terminal device 102. Although the status is displayed and the radio wave status of the selected wireless channel is reported, the present invention is not limited to this. You may make it perform only in either one.
[0103]
That is, the change of the wireless channel, the display of the radio wave condition of each available wireless channel, and the notification of the radio wave condition of the selected wireless channel may be performed only when the base device 101 is activated. In this case, the terminal device 102 does not need the demodulated data error detection unit 213. Conversely, only when a channel change request is received from the terminal device 102, the wireless channel is changed, the radio wave condition of each available wireless channel is displayed, and the radio wave condition of the selected wireless channel is notified. Is also good.
[0104]
Therefore, when the wireless LAN system 100 is used in an environment where the radio wave condition is good, only when the base device 101 is started, the wireless channel is changed, the radio wave status of each available wireless channel is displayed, and the selected wireless channel is displayed. When the wireless LAN system 100 is used in an environment where the radio wave condition is likely to fluctuate, both when the base device 101 is activated and when the demodulation data error in the terminal device 201 increases. It is also possible to use them properly.
[0105]
Further, in the above-described embodiment, the base device 101 determines whether or not the number of detected demodulated data errors has exceeded the threshold value in the terminal device 102, and when the detected value exceeds the threshold value, sends the channel change request to the base device. In response, the base device 101 changes the wireless channel, displays the radio wave condition of each available wireless channel, and reports the radio wave condition of the selected wireless channel.
[0106]
However, the present invention is not limited to this. For example, the terminal device 102 transmits demodulation error information such as the number of detected demodulated data errors or the ratio of the number of detected errors to the predetermined data amount to the base device 101 at predetermined timings. The base device 101 determines whether or not the number of demodulated data errors detected by the terminal device 102 has exceeded a threshold. If the number of detected demodulated data errors has exceeded the threshold, the base station 101 changes the wireless channel and displays the radio wave condition of each available wireless channel. The radio wave condition of the selected wireless channel may be displayed.
[0107]
Of course, also in this case, the wireless channel can be changed and used at one or both of the time when the base device 101 is activated and the case where the base device 101 determines that the number of detections of the demodulated data error of the terminal device exceeds the threshold. The display of the radio wave condition of each wireless channel and the notification of the radio wave condition of the selected wireless channel can be performed.
[0108]
In addition, at the time of starting the base device 101 and at the time of the increase of the demodulation data error in the terminal device 201, the wireless channel described above is transmitted at various timings such as a predetermined time or a timing at a predetermined time interval. And the display of the radio wave condition of each available wireless channel and the notification of the radio wave condition of the selected wireless channel can be performed.
[0109]
In this case, a clock circuit is provided in the base device 101 so that the control unit 107 monitors the clock circuit, or the control unit 107 receives time information from a host device connected to the base device 101. And can be realized.
[0110]
In addition, when a channel change request is generated in response to a user's channel change instruction input from a host device connected to the base device 101 or the terminal device 201, change and use of the wireless channel at a timing according to the user's request. The display of the radio wave condition of each possible wireless channel and the notification of the radio wave condition of the selected wireless channel may be performed.
[0111]
In the above-described embodiment, the detection / judgment result display unit 111 and the alarm unit 112 have been described as being configured using LEDs, but the present invention is not limited to this. For example, an LCD (Liquid Crystal Display) may be provided on the base device 101, and notification information and warning information may be displayed on the LCD in various modes.
[0112]
In the above-described embodiment, the detection / judgment result display unit 111 determines whether there is a wireless LAN signal for which QoS is guaranteed for each wireless channel, whether there is a wireless LAN signal for which QoS is not guaranteed, or Although a notification is made as to whether there is a received signal that is not a LAN signal but has a predetermined level or more, the present invention is not limited to this.
[0113]
For example, a wireless LAN signal with a guaranteed QoS is notified only with a certain wireless channel, a wireless channel with a wireless LAN signal is notified only with or without a QoS guarantee. Only wireless channels above the level can be notified.
[0114]
In addition, when any of a wireless LAN signal for which QoS is guaranteed, a wireless LAN signal for which QoS is not guaranteed, and a received signal which is not a wireless LAN signal but is equal to or higher than a predetermined level, it is notified that an interference signal is present. It may be. In this case, the notification can be made if there is one LED for each channel.
[0115]
Alternatively, the detection result of the reception signal level, the determination result of the presence / absence of the wireless LAN signal, and when it is determined that the wireless LAN signal is present, whether or not the wireless LAN signal is a QoS guaranteed wireless LAN signal is determined. Based on one or more of the results, it may be determined whether or not there is an interfering signal, and this may be notified.
[0116]
Similarly, in the case of the display performed through the alarm display unit 112, only when the selected wireless channel has a wireless LAN signal whose QoS is guaranteed, the wireless LAN signal is notified. It is also possible to broadcast only when there is, or to broadcast only a wireless channel of a predetermined level or higher regardless of the type of signal.
[0117]
In addition, when any of a wireless LAN signal for which QoS is guaranteed, a wireless LAN signal for which QoS is not guaranteed, and a received signal which is not a wireless LAN signal but is equal to or higher than a predetermined level, it is notified that an interference signal is present. It may be. In this case, the alarm display unit 112 can be notified if there is one LED.
[0118]
Alternatively, the detection result of the reception signal level, the determination result of the presence / absence of the wireless LAN signal, and when it is determined that the wireless LAN signal is present, whether or not the wireless LAN signal is a QoS guaranteed wireless LAN signal is determined. Based on one or more of the results, it may be determined whether or not there is an interfering signal, and this may be notified through the alarm display unit 112.
[0119]
Also, when a wireless channel to be actually used for communication is selected, a detection result of a reception signal level, a determination result of the presence / absence of a wireless LAN signal, and a determination that there is a wireless LAN signal indicate that the wireless LAN signal is present. The signal may be made based on one or more of the results of determining whether or not the signal is a wireless LAN signal for which QoS is guaranteed.
[0120]
However, as described in the above-described embodiment, by preferentially excluding a wireless channel having a wireless LAN signal whose QoS is guaranteed and a wireless channel having a wireless LAN signal whose QoS is not guaranteed from selection targets, In relation to other wireless LAN systems, a wireless LAN system having a high affinity can be realized.
[0121]
Further, in relation to another wireless LAN system, in a case where a plurality of wireless LAN systems to which the present invention is applied are provided such that overlapping portions of the area occur, in one wireless LAN system, A wireless channel in which a QoS-guaranteed wireless LAN signal exists is preferentially excluded from selection, and in the other wireless LAN system, even if a wireless channel in which a QoS-guaranteed wireless LAN signal exists, a predetermined channel is selected. By providing a difference such that selection can be made when there is no signal higher than the level, a favorable use environment of the wireless LAN system can be prepared.
[0122]
Of course, only the necessary change of the wireless channel, the display of the radio wave condition of each available wireless channel, and the notification of the radio wave condition of the selected wireless channel may be performed. Further, for example, only when there is an instruction from the user, it is possible to display only the radio wave condition of each available wireless channel.
[0123]
Further, in the above-described embodiment, both the notification of the radio wave condition of each available wireless channel and the notification of the radio wave condition of the selected wireless channel are performed by the display device such as an LED or an LCD provided on the base device 101. However, the present invention is not limited to this.
[0124]
For example, information indicating the radio wave condition of each available wireless channel or information indicating the radio wave condition of the selected wireless channel is transmitted to the host device side, and this is displayed on a display element such as an LED, LCD, or CRT on the host side. You may make it.
[0125]
Further, a sound emitting unit may be provided in the base apparatus 101 to notify the radio wave condition of each available wireless channel or the radio wave condition of the selected wireless channel by sound such as an alarm sound.
[0126]
Further, the present invention can be applied to a wireless LAN system in which a plurality of terminal devices perform wireless communication with one base device through different wireless channels.
[0127]
Further, both functions of the base device 101 shown in FIG. 1 and the terminal device 102 shown in FIG. 2, specifically, a reception signal level detection unit 109, a demodulation data determination unit 110, and a demodulation data error detection A terminal device for wireless LAN having the unit 213 may be configured.
[0128]
By doing so, the communication device for the wireless LAN started first becomes the base device (server), and the communication device connected later becomes the terminal device (client). For example, the present invention can be applied to a wireless LAN system that becomes a base device and a terminal device at each time.
[0129]
Further, the base device 101 and the terminal device 201 according to the present invention have, for example, a television receiving function and can be applied to a receiver for wirelessly transmitting a received television signal to a display device and the display device, or a modem or an ADSL modem. The present invention is applied to various electronic devices wirelessly connected by wireless LAN technology, such as application to a router connected to the router and various electronic devices such as a personal computer and a television receiver wirelessly connected to the router. It is possible.
[0130]
【The invention's effect】
As described above, according to the present invention, the base device itself of the wireless LAN system can recognize the presence of a wireless LAN signal of another communication device or a signal having a predetermined output level or more as an interference signal.
[0131]
In addition, by displaying the radio wave condition of each wireless channel recognized by the base device of the wireless LAN system on a display device and outputting it, the user can recognize the radio wave condition of the use environment without using a special measuring instrument. can do.
[0132]
In addition, the base device of the wireless LAN system automatically selects the most suitable wireless channel for communication from the recognized radio wave condition of each wireless channel, so that the user can always select the optimal wireless channel without being conscious of the radio wave condition of the use environment. You can communicate by channel.
[0133]
Also, as a result of automatic selection of a wireless channel, when a channel recognized as having an interference signal is selected, this is reported, so that the user can be aware of the cause of deterioration in communication quality.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating an embodiment of a wireless LAN system, a base device, and a terminal device according to the present invention.
FIG. 2 is a diagram for explaining a configuration and a display mode of a detection / determination result display unit provided in the base device shown in FIG.
FIG. 3 is a diagram for explaining a configuration and a display mode of an alarm display unit provided in the base device shown in FIG. 1;
FIG. 4 is a flowchart for explaining processing such as a change of a wireless channel performed in the base device of the wireless LAN system shown in FIG. 1;
FIG. 5 is a flowchart following the flowchart shown in FIG. 4;
FIG. 6 is a block diagram showing an example of a conventional wireless LAN system.
[Explanation of symbols]
100 wireless LAN system, 101 base device, 201 terminal device, 102, 202 antenna, 103, 203 RF transmission / reception unit, 104, 204, frequency conversion unit, 105, 205 modulation / demodulation unit, 106, 206 ... Signal processing unit, 107, 207 control unit, 108, 208 frequency synthesizer unit, 109 reception signal level detection unit, 110 demodulation data determination unit, 111 detection / determination result display unit, 112 alarm display unit, 213 ... Demodulation data error detector

Claims (13)

In a wireless LAN system in which a base device and one or more terminal devices are wirelessly connected to each other,
The base device,
Receiving means for receiving a channel change request from the terminal device;
Level detection means for detecting the level of the received signal of each available wireless channel, in one or both of the case of activating its own device and the case of receiving the channel change request through the reception means,
Signal determination means for determining whether or not the received signal to be detected for the level is a wireless LAN signal;
When the signal determination unit determines that the wireless LAN signal is a wireless LAN signal, the wireless LAN signal includes a QoS (Quality of Services, hereinafter the same) signal that determines whether or not the signal is a signal guaranteed. Prepare,
The terminal device,
Error detection means for detecting a demodulation error that occurs when the received signal is demodulated, and error amount determination means for determining whether the number of detections of the demodulation error exceeds a predetermined threshold,
Change request generation means for generating the channel change request when the error amount determination means determines that the number of detected demodulation errors exceeds a threshold,
A wireless LAN system comprising: a change request transmitting unit configured to transmit the channel change request generated by the change request generating unit to the base device. In a wireless LAN system in which a base device and one or more terminal devices are wirelessly connected to each other,
The base device,
Error information receiving means for receiving information on the demodulation error from the terminal device,
Based on the information on the demodulation error received through the error information receiving means, based on the detection number of demodulation errors in the terminal device, a detection means for detecting whether or not exceeds a predetermined threshold,
In one or both of the case where the own device is started and the case where the number of demodulation errors detected exceeds a predetermined threshold by the detection means, the level of the received signal of each available wireless channel is changed. Level detecting means for detecting,
Signal determination means for determining whether or not the received signal to be detected for the level is a wireless LAN signal;
When the signal determining unit determines that the wireless LAN signal is a wireless LAN signal, the wireless LAN signal includes a QoS determining unit that determines whether the signal is a signal guaranteed for QoS,
The terminal device,
An error detection unit that detects a demodulation error that occurs when a received signal is demodulated; and an error that transmits information corresponding to the demodulation error detected by the error amount detection unit to the base device as information regarding the demodulation error. A wireless LAN system comprising: an information transmission unit. The wireless LAN system according to claim 1 or 2, wherein
The base device,
Notifying means for notifying the radio wave condition of each wireless channel based on at least one of the detection result of the level detection means, the judgment result of the signal judgment means, and the judgment result of the QoS judgment means. A wireless LAN system characterized by the following. The wireless LAN system according to claim 1 or 2, wherein
The base device,
And selecting means for selecting an optimum wireless channel based on at least one of a detection result of the level detection means, a determination result of the signal determination means, and a determination result of the QoS determination means. Wireless LAN system. The wireless LAN system according to claim 4, wherein
Based on at least one of the detection result of the level detection means, the determination result of the signal determination means, and the determination result of the QoS determination means, whether an interference wave is present in the wireless channel selected by the selection means. A wireless LAN system comprising: an interfering wave discriminating unit for discriminating whether or not there is an interfering wave; and a notifying unit for notifying a user of an interfering wave when the interfering wave discriminating unit determines that there is an interfering wave. The base device used in a wireless LAN system in which a base device and one or more terminal devices are wirelessly connected and formed,
A level detecting means for detecting a level of a received signal of each available wireless channel when the own device is started;
Signal determination means for determining whether or not the received signal to be detected for the level is a wireless LAN signal;
A base device comprising: a QoS discriminating unit for discriminating whether or not the wireless LAN signal is a QoS guaranteed signal when the signal discriminating unit determines that the signal is a wireless LAN signal. . The base device used in a wireless LAN system in which a base device and one or more terminal devices are wirelessly connected and formed,
Receiving means for receiving a channel change request from the terminal device;
Level detection means for detecting the level of the received signal of each available wireless channel, in one or both of the case of activating its own device and the case of receiving the channel change request through the reception means,
Signal determination means for determining whether or not the received signal to be detected for the level is a wireless LAN signal;
A base device comprising: a QoS discriminating unit for discriminating whether or not the wireless LAN signal is a QoS guaranteed signal when the signal discriminating unit determines that the signal is a wireless LAN signal. . The base device used in a wireless LAN system in which a base device and one or more terminal devices are wirelessly connected and formed,
Error information receiving means for receiving information on the demodulation error from the terminal device,
Based on the information on the demodulation error received through the error information receiving means, based on the detection number of demodulation errors in the terminal device, a detection means for detecting whether or not exceeds a predetermined threshold,
In one or both of the case where the own device is started and the case where the number of demodulation errors detected exceeds a predetermined threshold by the detection means, the level of the received signal of each available wireless channel is changed. Level detecting means for detecting,
Signal determination means for determining whether or not the received signal to be detected for the level is a wireless LAN signal;
A base device comprising: a QoS discriminating unit for discriminating whether or not the wireless LAN signal is a QoS guaranteed signal when the signal discriminating unit determines that the signal is a wireless LAN signal. . The base device according to claim 6, claim 7, or claim 8,
Notifying means for notifying the radio wave condition of each wireless channel based on at least one of the detection result of the level detection means, the judgment result of the signal judgment means, and the judgment result of the QoS judgment means. A base device characterized by the above-mentioned. 10. The base device according to claim 6, 7, 8, or 9, wherein a detection result of the level detection unit, a determination result of the signal determination unit, and a determination result of the QoS determination unit. A base device, comprising: selecting means for selecting an optimal wireless channel based on at least one of the following. The base device according to claim 10,
Based on at least one of the detection result of the level detection means, the determination result of the signal determination means, and the determination result of the QoS determination means, whether an interference wave is present in the wireless channel selected by the selection means. A base apparatus comprising: an interference wave determination unit that determines whether or not there is an interference wave; and a notifying unit that notifies a user when an interference wave is determined to be present by the interference wave determination unit. A terminal device used in a wireless LAN system formed by connecting a base device and one or more terminal devices wirelessly,
Error detection means for detecting a demodulation error that occurs when the received signal is demodulated, and error amount determination means for determining whether the number of detections of the demodulation error exceeds a predetermined threshold,
Change request generation means for generating the channel change request when the error amount determination means determines that the number of detected demodulation errors exceeds a threshold,
A terminal device, comprising: a change request transmitting unit that transmits the channel change request generated by the change request generating unit to the base device. A terminal device used in a wireless LAN system in which a base device and one or more terminal devices are wirelessly connected to each other, wherein the base device determines a channel change timing.
An error detection unit that detects a demodulation error that occurs when a received signal is demodulated; and an error that transmits information corresponding to the demodulation error detected by the error amount detection unit to the base device as information regarding the demodulation error. A terminal device comprising: an information transmission unit.

Images