JP4075548B2 - Wireless communication method, wireless communication terminal, and wireless communication control program - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a wireless communication method in which an information device performs wireless communication, and further to a wireless communication control program stored in advance in the wireless communication terminal and the wireless communication terminal.
[0002]
[Prior art]
Already, any one channel has been selected from a group of wireless communication channels having two or more different data communication speeds, such as frequency channels having two or more different frequency bandwidths. There is known a multi-mode wireless communication system in which wireless communication is performed using the channel. FIG. 4 shows a channel arrangement in an example on the multimode wireless communication system.
[0003]
As shown in the drawing, for simplification of the drawings and explanation, two types of wireless communication channels having different data communication speeds, for example, a frequency channel having a wide frequency bandwidth (data communication speed is, for example, 20 Mbps) 1-W-a ˜1-Wc and a frequency channel with a narrow frequency bandwidth (data communication speed is 10 Mbps, for example) 1-Na to 1-Nf are prepared in advance in the wireless communication system. In this case, when one of the frequency channels 1-Wa to 1-Wc is used, the wireless communication terminal performs wireless communication via an access point (so-called hot spot). The communication mode is called a wide mode, and the radio communication terminal uses the frequency channel 1-Na to 1-Nf to perform radio communication via the access point. The communication mode when performing is called a narrow mode.
[0004]
As described above, in a wireless communication terminal, wireless communication is generally performed after any one channel is selected from a wireless communication channel group having two or more types of data communication speeds. Generally defined as multi-mode function. In the wireless communication terminal, one of the communication modes is selected for the data communication speed and the wireless communication is performed. However, which communication mode is selected has not been selected so far. The actual situation depends solely on reception performance (reception field strength, reception error rate, etc.). The optimum communication mode has been selected or switched to the optimum communication mode so that the received electric field strength is increased or the reception error rate is reduced.
[0005]
By the way, a wireless communication terminal used on a wireless Internet access system that can access the Internet using wireless communication is provided with an external interface such as a PC card interface or an Ethernet (registered trademark) interface. Therefore, a wireless communication terminal is used as a wireless communication module as needed for any external information device such as a personal digital assistant (personal digital assistant (portable information communication terminal)) or a personal computer (PC) in various forms. The external information device can access the Internet via a wireless communication terminal and an access point.
[0006]
[Problems to be solved by the invention]
However, if the processing capability of a portable information device such as a PDA (depending on the processing speed of the built-in CPU) and the processing capability of a personal computer or the like (depending on the processing speed of the built-in CPU) are compared, FIG. As shown, the processing capability of a portable information device (for example, PDA) 2 is generally lower than that of a personal computer (desktop type, notebook type, etc.) 3, 4. For this reason, when the wireless communication terminal 1 is connected to an external information device having a high processing capability, the data communication speed between the wireless communication terminal 1 and the access point (wireless communication section) is as follows. It is desirable that the speed is high according to the processing capacity. Conversely, when the wireless communication terminal 1 is connected to an external information device having a low processing capacity, the data communication speed in the wireless communication section is Such high speed is not required.
[0007]
However, in spite of such circumstances, in the past, when the wireless communication terminal 1 is connected to a PDA with low processing capability, the wide mode, which is an overspec wireless channel, has been selected. On the contrary, when the wireless communication terminal 1 is connected to the personal computers 3 and 4 having a high processing capability, the narrow mode is selected, and the processing capability of the personal computers 3 and 4 is sufficiently utilized. There was a problem that it was not done.
[0008]
In conclusion, it can be said that the data communication speed in the wireless communication section is preferably set optimally according to the processing capability of the external information device as the connection destination of the wireless communication terminal. However, since conventional wireless communication terminals have no function of automatically selecting an optimal communication mode according to the processing capability of the external information device, the data communication speed for the wireless communication section is not provided. Actually, the setting of has not necessarily been set optimally.
[0009]
It is an object of the present invention to optimally set a wireless communication channel having a data communication speed corresponding to the processing capability of an information device and to perform wireless communication using this channel .
[0010]
[Means for Solving the Problems]
When an information device and a wireless communication module are connected and wireless communication is performed between the information device and another wireless communication device, the wireless communication module detects the connection when connected to the information device, and the information device The processing capability of the information device is acquired from the device, the acquired processing capability is evaluated, and a wireless communication channel having a data communication speed that satisfies the evaluated processing capability is recommended from two or more data communication speed wireless communication channels. select a mode state, and are not to be performed preferentially radio communication at the recommended communication mode of the radio communication channels, processing capability of the information equipment to be acquired, CPU computing capacity, image processing speed, screen This is at least one of a rendering processing capacity, a capacity of a wireless data storage RAM, an interface specification, and a data transfer speed.
[0011]
Therefore, when connected to an information device, any one wireless communication channel can be automatically and optimally selected from a group of wireless communication channels having two or more different data communication speeds. As a result, As described above, depending on the beacon reception result, in many cases, wireless communication can be performed between the information device and the wireless communication partner at an optimum data communication speed.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
First, a radio communication terminal of the present invention will be described. FIG. 1 shows a block configuration of an example thereof. As shown in the figure, the wireless communication terminal 10 includes a transmission / reception antenna 101 that exchanges radio waves with an access point (not shown), a PHY (physical) layer of IEEE 802.11, and a MAC (media access). Control) A wireless communication unit 102 in which a layer protocol is implemented and an external interface unit 105 having any interface function such as a PC card interface or an Ethernet (registered trademark) interface are provided as existing components. However, in addition to these existing components, a benchmark test unit 104 and a channel control unit 103 are provided as new components.
[0013]
Among these new components, the benchmark test unit 104 directly and indirectly acquires the processing capability of the external information device via the external interface unit 105 when the wireless communication terminal 10 itself is connected to the external information device. In addition, its processing capacity is being evaluated. As a result of the evaluation, a wireless communication channel having an optimum data communication speed is selected as the recommended communication mode. In addition, the channel control unit 103 waits for a beacon periodically transmitted from the access point while the data communication channel is sequentially switched. In this state, the recommended communication mode from the benchmark test unit 104 is performed. When the beacon in the same communication mode can be received, the wireless communication channel in the recommended communication mode is set in the wireless communication unit 102, whereby the external information device can receive the wireless communication terminal 10, Wireless communication to the Internet via an access point is possible.
[0014]
By the way, the acquisition of the processing capability of the external information device will be described. The processing capability includes the processing capability of the built-in CPU, the image processing speed, the screen rendering processing capability, the capacity of the wireless data storage RAM, the interface Specifications (data transfer speed) and the like are listed, and these are acquired by the wireless communication terminal 10. The benchmark test unit 104 actually measures and collects the processing capability via the external interface unit 105, and the processing result of the external information device is acquired as the final result of the measurement and collection. is there. However, when the processing capability information is set in advance in the external information device, the processing capability information is read as the processing capability for the external information device by being read out to the benchmark test unit 104 via the external interface unit 105. It may be.
[0015]
Now, with reference to FIG. 2, a series of operations in the wireless communication terminal of the present invention, that is, from connection of the wireless communication terminal to the external information device to setting of the wireless communication channel to the wireless communication unit is more concrete. This is as follows.
That is, if the external information device requires wireless communication and the wireless communication terminal is connected to the external information device via the external interface unit, this is detected by the external interface unit (process 21). Waiting for this connection detection, the benchmark test department actually measures and collects the processing capacity of the external information device, and acquires the total processing capacity as the final result of this measurement and collection. Evaluation is performed, and as a result of the evaluation, a wireless communication channel having an optimum data communication speed can be selected as the recommended communication mode (process 22). However, when various processing capabilities or overall processing capabilities of the external information device are preset in the external information device (for example, collection setting in advance for a driver installed in the external information device), connection detection is performed. If the various processing capacities or the total processing capacities are later read out to the benchmark test section via the external interface section, the processing capacities are acquired earlier because the measurement of the various processing capacities is unnecessary. Will be.
[0016]
As a specific example of the processing 22, for example, the data communication speeds in the narrow mode and the wide mode are 3 to 18 Mbps and 6 to 36 Mbps, respectively, and the interface with the external information device is Ethernet (registered trademark). Assuming that the measurement result that the data communication speed between the terminal and the external information device is 3 Mbps at the maximum is acquired by the benchmark test unit, the processing capability of the external information device is sufficiently satisfied in the narrow mode. The narrow mode is selected as the recommended communication mode in terms of speed.
[0017]
As described above, the optimum recommended communication mode is selected by the processing 22. However, when the optimum recommended communication mode is selected, it is supported for a certain period under the control of the channel control unit. For all the wireless communication channels, beacon standby from the access point is performed while the wireless communication channels are sequentially switched (process 23). As a result of this beacon standby, if a beacon can be received on at least the wireless communication channel in the same communication mode as the recommended communication mode, the channel control unit selects the wireless communication channel in the recommended communication mode, and then the wireless communication unit By setting to, wireless communication is performed (processes 24 and 25).
[0018]
More specifically, as shown in FIG. 3A, for example, when beacon standby is sequentially performed in each of frequency channels 1-Wa, 1-Nd, and 1-Nf. If a beacon is received on each of the frequency channels 1-Wa, 1-Nd, 1-Nf, and the recommended communication mode at that time is the narrow mode, the frequency channel 1-N- Any one of the frequency channels d, 1-Nf is selected and set in the wireless communication unit so that wireless communication can be performed.
[0019]
If a beacon can be received on at least a wireless communication channel in the same communication mode as the recommended communication mode, the processing flow is as described above, but instead, a wireless communication channel of a communication mode different from the recommended communication mode is used. If only the beacon can be received, the wireless communication channel in the different communication mode is selected and set in the wireless communication unit (processes 24 and 26). In such a case, even if the external information device has a high processing capability, even if the wireless communication is performed through a wireless communication channel with a low data communication speed, or the external information device has a low processing capability, the high data communication Wireless communication is performed through a high-speed wireless communication channel, but is unavoidable.
[0020]
In any case, if the beacon is received only in the frequency channel of a certain communication mode as a result of the beacon standby, the frequency channel in that communication mode is determined regardless of the recommended communication mode from the benchmark test unit. Wireless communication is performed after being set in the wireless communication unit.
[0021]
By the way, in the beacon standby method shown in FIG. 3A, in the beacon standby order, the beacon standby in the recommended communication mode is not necessarily performed in preference to the beacon standby in the other communication mode. It may take a lot of time to select the wireless communication channel. In order to solve such a problem, it is conceivable to perform beacon standby in the recommended communication mode with priority over beacon standby in the other communication mode. As shown in FIG. 3B, for example, when the narrow mode is selected as the recommended communication mode, beacon standby is preferentially performed sequentially in the frequency channels 1-Nd and 1-Nf in the narrow mode. When the beacon cannot be received on both the frequency channels 1-Nd and 1-Nf, the beacon is switched to the frequency channel 1-Wa in the wide mode for the first time. It is conceivable to wait. If a beacon is received on the frequency channel 1-Wa, the frequency channel 1-Wa is set in the wireless communication unit and wireless communication may be performed.
[0022]
Although the present invention has been described above, various wireless communication channels other than frequency channels are possible. In short, it may be anything that generates two or more types of data communication speeds, and may be a wireless communication channel in which two or more types of modulation schemes (for example, BPSK and QPSK) can be switched.
[0023]
Moreover, in the above description, the benchmark test unit and the channel control unit are considered to be independent from each other in terms of hardware and software, but the functions of the benchmark test unit and the channel control unit are as follows. It can be replaced with a series of wireless communication control programs. The operation flow shown in FIG. 2 is realized by this wireless communication control program, and this wireless communication control program needs to be stored in advance in the wireless communication device. It consists of various steps.
[0024]
That is, when a wireless communication terminal is connected to an external information device, a processing capability acquisition step for acquiring processing capability for the external information device, and a processing capability evaluation for evaluating the processing capability acquired in the processing capability acquisition step And a channel selection step of selecting a wireless communication channel having an optimum data communication speed as a recommended communication mode from two or more types of wireless communication channels having a data communication speed based on the evaluation result in the processing capacity evaluation step; Based on the beacon standby step for beacon standby in all supported wireless communication channels, the beacon standby result in the beacon standby step and the recommended communication mode, the wireless communication channel used for wireless communication is determined. A channel control step for performing wireless communication using the wireless communication channel; Structured to include at least.
[0025]
In the beacon standby step, beacon standby in the same speed mode as the recommended communication mode may be performed prior to beacon standby in the other speed mode, and in the processing capability acquisition step, an external information device As a result of the measurement / collection, the processing capability is acquired or the processing capability information preset in the external information device is the external information. The processing capability information may be acquired as the processing capability by being read from the device.
[0026]
Incidentally, in addition to the above inventions, the following inventions (1) and (2) are also conceivable.
That is,
(1) In a wireless communication terminal in a wireless communication system having a multi-mode function, a wireless communication terminal provided with a function for evaluating the processing capability of a device detachably connected to the wireless communication terminal .
(2) In a wireless communication terminal in a wireless communication system having a multi-mode function, a bandwidth channel is optimally selected according to the processing capability of a device that is detachably connected to the wireless communication terminal and then used for wireless communication A wireless communication terminal provided with a function to perform.
[0027]
As mentioned above, the invention made by the present inventor has been specifically described based on the embodiment. However, the present invention is not limited to the above embodiment, and various modifications can be made without departing from the scope of the invention. Needless to say.
[0028]
【The invention's effect】
When a wireless communication terminal is connected to an arbitrary external information device, the wireless communication terminal sets the wireless communication channel with the data communication speed optimally according to the processing capability of the external information device, and this channel Provided is a wireless communication method in which an information device can perform wireless communication with a wireless communication partner via a wireless communication terminal.
Also, when connected to any external information device, one of the two or more types of wireless communication channel groups having different data communication speeds is optimally selected, and wireless communication with the external information device is performed using this channel. A wireless communication terminal capable of performing wireless communication with a partner is provided.
Furthermore, by pre-stored in the wireless communication device, when the wireless communication device is connected to any external information device, any one of two or more types of wireless communication channel groups having different data communication speeds is selected. A radio communication control program is provided in which one channel is optimally selected and radio communication between the external information device and the radio communication partner can be performed using this channel.
[Brief description of the drawings]
FIG. 1 is a diagram showing a block configuration of an example of a wireless communication terminal according to the present invention.
FIG. 2 is a diagram showing an operation flow in an example of the wireless communication terminal.
FIG. 3 is also a diagram showing beacon standby methods (part 1 and part 2) in the wireless communication terminal.
FIG. 4 is a diagram showing a channel arrangement in an example on a multi-mode wireless communication system.
FIG. 5 is a diagram for explaining a problem when a data communication channel is not optimally selected.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Wireless communication terminal, 101 ... Transmission / reception antenna, 102 ... Wireless communication part, 103 ... Channel control part, 104 ... Benchmark test part, 105 ... External interface part

Claims (10)

A wireless communication method in which an information device and a wireless communication module are connected, and wireless communication is performed between the information device and another wireless communication device,
Detecting the connection when connected to the information device in the wireless communication module;
Obtaining the processing capability of the information device from the information device;
Evaluating the acquired processing capacity, and selecting, as a recommended communication mode, a wireless communication channel having a data communication speed satisfying the evaluated processing capacity from wireless communication channels having two or more data communication speeds. ,
The processing capability of the information device acquired from the information device is at least one of a CPU processing capability, an image processing speed, a screen rendering processing capability, a wireless data storage RAM capacity, an interface specification, and a data transfer rate. ,
A wireless communication method for preferentially performing wireless communication on a wireless communication channel in the recommended communication mode. The radio communication channel according to claim 1, wherein when the recommended communication mode is selected, a radio communication channel to be used for radio communication is determined based on a beacon reception result for all supported radio communication channels and the recommended communication mode. Method. The wireless communication method according to claim 2, wherein when receiving the beacon, beacon reception in the same speed mode as the recommended communication mode is performed in preference to beacon reception in the other speed mode. The processing capability of the information device is acquired by the wireless communication module measuring and collecting the processing capability of the information device, or the wireless communication module reads processing capability information preset in the information device. The wireless communication method according to claim 1, wherein the wireless communication method is acquired. A wireless communication terminal in which an information device and a wireless communication module are connected to perform wireless communication between the information device and another wireless communication device, in addition to the existing wireless communication means,
Connection detecting means for detecting the connection when connected to the information device;
Processing capability acquisition means for acquiring processing capability of the information device from the information device;
The processing capability acquired by the processing capability acquisition means is evaluated, and a wireless communication channel having a data communication rate that satisfies the evaluated processing capability is selected as a recommended communication mode from wireless communication channels having two or more data communication rates. Channel selection means to
Beacon receiving means for receiving beacons on all supported wireless communication channels;
Upon receipt of a radio communications channel beacons of the recommended communication mode as a result of the beacon received from the beacon reception unit, a channel control unit to perform wireless communication with the wireless communication unit by wireless communication channel of the recommended communication mode including the will,
The processing capability of the information device acquired by the processing capability acquisition means is at least one of CPU processing capability, image processing speed, screen rendering processing capability, capacity of wireless data storage RAM, interface specifications, and data transfer rate. Is a wireless communication terminal. The processing capability acquisition means acquires various processing capacities for the information device, and acquires the processing capability as a final result of the measurement / collection, or is preset in the information device. 6. The wireless communication terminal according to claim 5, wherein said processing capability information is obtained by reading from the information device. The wireless communication terminal according to claim 5, wherein the beacon receiving unit performs beacon reception in the same speed mode as the recommended communication mode in preference to beacon reception in another speed mode. A wireless communication control program for connecting an information device and a wireless communication module to execute wireless communication between the information device and another wireless communication device,
Detecting the connection when connected to the information device in the wireless communication module;
Obtaining the processing capability of the information device from the information device;
Evaluating the acquired processing capacity and selecting a wireless communication channel having a data communication speed satisfying the evaluated processing capacity as a recommended communication mode from wireless communication channels having two or more data communication speeds;
A beacon receiving step for receiving beacons on all supported wireless communication channels;
A channel control step of determining a wireless communication channel to be used for wireless communication based on a beacon reception result in the beacon standby step and the recommended communication mode, and performing wireless communication using the determined wireless communication channel. The
The processing capability of the information device acquired from the information device is at least one of CPU processing capability, image processing speed, screen rendering processing capability, wireless data storage RAM capacity, interface specifications, and data transfer rate. Wireless communication control program. The wireless communication control program according to claim 8, wherein in the beacon receiving step, beacon reception in the same speed mode as the recommended communication mode is performed in preference to beacon reception in another speed mode. In the processing capability acquisition step, the processing capability of the information device is measured and collected, and the processing capability is acquired as a final result of the measurement and collection, or preset in the information device. The program for wireless communication control according to claim 8, wherein the processing capability information is obtained by reading from the information device.

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