CN105764158A - Data communication method and device - Google Patents

Abstract

The invention provides a data communication method and device, and belongs to the technical field of communication. The method comprises the steps that the working frequency band of a first wireless communication module of at least two built-in wireless communication modules of second equipment is selected according to the frequency band supported by first equipment, each wireless communication module is a double-frequency wireless communication module, and the first wireless communication module works in an access point mode; the working frequency band of a second wireless communication module of at least two built-in wireless communication modules of the second equipment is selected according to the frequency band supported by routing equipment, and the second wireless communication module works in a site mode; data connection between the first wireless communication module and the second wireless communication module is established; and control data communication with the first equipment is performed through the first wireless communication module. Control delay can be reduced, and the communication quality can be enhanced by selecting the working frequency band of the built-in wireless communication modules of the second equipment.

Description

Data communications method and device

Technical field

The present invention relates to communication technical field, particularly to a kind of data communications method and device.

Background technology

Along with the development of communication technology, user is more and more higher to the requirement of communication between devices quality, and the improvement of equipment method of attachment becomes one of important means of raising communication quality.

To realize the communication between mobile terminal and game host, at present, data communications method between this mobile terminal and this game host can be: this mobile terminal and this game host are respectively connecting to same router, when this game host to be controlled by mobile terminal, this mobile terminal will control data and send to this router, by this router, these control data are sent to this game host, to realize the control to this game host of this mobile terminal；Correspondingly, when this game host responds this mobile terminal, response data is sent to this router, this router this response data is sent to this mobile terminal.

In the process realizing the present invention, inventor have found that prior art at least there is problems in that

In above-mentioned communication means, owing to requiring over router transfer, the data delay in communication process therefore can be increased, thus affecting communication quality.

Summary of the invention

For overcoming Problems existing in correlation technique, the present invention provides a kind of data communications method and device.

First aspect according to embodiments of the present invention, it is provided that a kind of data communications method, including:

According to the frequency range that the first equipment is supported, select the working frequency range of the first wireless communication module in the built-in at least two wireless communication module of the second equipment, this first equipment and the second equipment are set up by this first wireless communication module connect, each wireless communication module is double-frequency wireless communication module, and this first wireless communication module works in access point mode；

According to the frequency range that routing device is supported, select the working frequency range of the second wireless communication module in the built-in at least two wireless communication module of the second equipment, this routing device is connected by the foundation of this second wireless communication module with this second equipment, and this second wireless communication module works in station mode；

Set up the data cube computation between this first wireless communication module and this second wireless communication module so that this first equipment accesses this routing device by this data cube computation and this second wireless communication module；

It is controlled data communication by this first wireless communication module and this first equipment.

Second aspect according to embodiments of the present invention, it is provided that a kind of data communication equipment, including:

Working frequency range selects module, for the frequency range supported according to the first equipment, select the working frequency range of the first wireless communication module in the built-in at least two wireless communication module of the second equipment, this first equipment and the second equipment are set up by this first wireless communication module connect, each wireless communication module is double-frequency wireless communication module, and this first wireless communication module works in access point mode；

This working frequency range selects module to be additionally operable to the frequency range supported according to routing device, select the working frequency range of the second wireless communication module in the built-in at least two wireless communication module of the second equipment, this routing device is connected by the foundation of this second wireless communication module with this second equipment, and this second wireless communication module works in station mode；

Data cube computation sets up module, for setting up the data cube computation between this first wireless communication module and this second wireless communication module so that this first equipment accesses this routing device by this data cube computation and this second wireless communication module；

Communication module, for being controlled data communication by this first wireless communication module and this first equipment.

The technical scheme that the embodiment of the present invention provides has the benefit that

By at least two double-frequency wireless wireless communication module built-in in the second equipment, being directly connected between this first equipment and this second equipment can not only be realized, when the first equipment sends control data to this second equipment, it is not necessary to routing device transfer, and then manipulation time delay can be reduced.

Accompanying drawing explanation

Accompanying drawing herein is merged in description and constitutes the part of this specification, it is shown that meets embodiments of the invention, and is used for explaining principles of the invention together with description.

Fig. 1 is the flow chart of a kind of data communications method that the embodiment of the present invention provides；

Fig. 2 A is the flow chart of a kind of data communications method that the embodiment of the present invention provides；

Fig. 2 B be the embodiment of the present invention provide a kind of first equipment, connection diagram between the second equipment and routing device；

Fig. 3 is a kind of data communication equipment block diagram that the embodiment of the present invention provides.

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention clearly, below in conjunction with accompanying drawing, embodiment of the present invention is described further in detail.

Here in detail exemplary embodiment being illustrated, its example representation is in the accompanying drawings.When as explained below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represents same or analogous key element.Embodiment described in following exemplary embodiment does not represent all embodiments consistent with the present invention.On the contrary, they only with in appended claims describe in detail, the present invention some in the example of consistent apparatus and method.

Fig. 1 is the flow chart of a kind of data communications method that the embodiment of the present invention provides, as it is shown in figure 1, comprise the following steps:

101, the frequency range supported according to the first equipment, select the working frequency range of the first wireless communication module in the built-in at least two wireless communication module of the second equipment, this first equipment and the second equipment are set up by this first wireless communication module connect, each wireless communication module is double-frequency wireless communication module, and this first wireless communication module works in access point mode.

102, the frequency range supported according to routing device, select the working frequency range of the second wireless communication module in the built-in at least two wireless communication module of the second equipment, this routing device is connected by the foundation of this second wireless communication module with this second equipment, and this second wireless communication module works in station mode.

103, the data cube computation between this first wireless communication module and this second wireless communication module is set up so that this first equipment accesses this routing device by this data cube computation and this second wireless communication module.

104, it is controlled data communication by this first wireless communication module and this first equipment.

The method that the embodiment of the present invention provides, by at least two double-frequency wireless wireless communication module built-in in the second equipment, being directly connected between this first equipment and this second equipment can not only be realized, when the first equipment sends control data to this second equipment, without routing device transfer, and then manipulation time delay can be reduced.

In the first possible implementation of the present invention, it is controlled data communication by this first wireless communication module and this first equipment and includes:

Receive this first equipment by this first wireless communication module and send control data；Or,

Response data is sent to this first equipment by this first wireless communication module.

The second in the present invention is likely in implementation, according to the frequency range that the first equipment is supported, selects the working frequency range of the first wireless communication module in the built-in at least two wireless communication module of the second equipment to include:

If this first equipment only supports the first frequency range, by the working frequency range that this first Frequency Band Selection is this first wireless communication module；Or,

If this first equipment supports this first frequency range and the second frequency range, by the working frequency range that this second Frequency Band Selection is this first wireless communication module, this second frequency range is higher than this first frequency range.

In the third possible implementation of the present invention, the method also includes:

If the working frequency range of the working frequency range of this first wireless communication module and this second wireless communication module is the first frequency range, then in this first frequency range, realize this first equipment, communication between this second equipment and this router；Or,

If the working frequency range of the working frequency range of this first wireless communication module and this second wireless communication module is the second frequency range, then in this second frequency range, realize this first equipment, communication between this second equipment and this router；Or,

If the working frequency range of this first wireless communication module is this first frequency range, the working frequency range of this second wireless communication module is this second frequency range, in this first frequency range, then realize the communication between this first equipment and this second equipment, this second frequency range realizes the communication between this second equipment and this router；Or,

If the working frequency range of this first wireless communication module is this second frequency range, the working frequency range of this second wireless communication module is this first frequency range, in this second frequency range, then realize the communication between this first equipment and this second equipment, this first frequency range realizes the communication between this second equipment and this router；

Wherein, this second frequency range is higher than this first frequency range.

In the 4th kind of possible implementation of the present invention, the method also includes:

The solicited message that this first equipment sends is received by this first wireless communication module；

By the connection between the data cube computation between this first wireless communication module and this second wireless communication module, this second wireless communication module and this second wireless communication module and this routing device, this solicited message is sent to this routing device, so that this solicited message is sent to destination client by this routing device.

In the 5th kind of possible implementation of the present invention, this first frequency range is 2.4GHz, and this second frequency range is 5GHz.

In the 6th kind of possible implementation of the present invention, this wireless communication module is double-frequency wireless fidelity WiFi chip.

Above-mentioned all optional technical schemes, it is possible to adopting and arbitrarily combine formation optional embodiment of the present invention, this is no longer going to repeat them.

Fig. 2 A is the flow chart of a kind of data communications method that the embodiment of the present invention provides.Referring to Fig. 2 A, the method includes:

201, the frequency range supported according to the first equipment, select the working frequency range of the first wireless communication module in the built-in at least two wireless communication module of the second equipment, this first equipment and the second equipment are set up by this first wireless communication module connect, each wireless communication module is double-frequency wireless communication module, and this first wireless communication module works in access point mode.

In traditional communication method, first equipment and the second equipment realize the data communication between this first equipment and this second equipment by being respectively connecting to same routing device, that is to say, when the first equipment sends control data to the second equipment, this first equipment needs first to send these control data to this routing device, it is forwarded to this second equipment, to realize this first equipment control to this second equipment by this routing device.

Although above-mentioned communication means is capable of the communication between this first equipment and this second equipment, however it is necessary that through routing device transfer, manipulation time delay can be caused, the problem of communication quality difference；In order to solve the problems referred to above, the invention provides a kind of data communications method: built-in at least two double-frequency wireless communication module in this second equipment, each double-frequency wireless chip supports two different frequency ranges, the direct data communication of this first equipment and this second equipment room is realized, it is not necessary to routing device is as transfer by this at least two double-frequency wireless chip.

In embodiments of the present invention, this double-frequency wireless communication module is double frequency WiFi (WirelessFidelity, Wireless Fidelity) chip, that is to say built-in two double frequency WiFi chip in this second equipment, each double frequency WiFi chip all supports frequency range two kinds different, this first equipment can be mobile phone, apparatus such as computer, and this second equipment can be game host, intelligent home device etc..Owing to this first equipment is probably single-frequency equipment, it is also likely to be dual frequency equipment, therefore, according to the frequency range that the first equipment is supported, select the method for the working frequency range of the first chip in the built-in at least two chip of the second equipment, it is possible to be divided into following two situation to illustrate:

If this first equipment of the first situation only supports the first frequency range, by the working frequency range that this first Frequency Band Selection is this first wireless communication module.In embodiments of the present invention, this first frequency range is 2.4GHz.

Such as, if the frequency range of the first wireless communication module support being built in this second equipment is 2.4GHz and 5GHz, when this first equipment is single-frequency equipment, frequency bands supported for 2.4GHz time, 2.4GHz is chosen as the working frequency range of this first wireless communication module.

If this first equipment of the second situation supports this first frequency range and the second frequency range, by the working frequency range that this second Frequency Band Selection is this first wireless communication module, this second frequency range is higher than this first frequency range.In embodiments of the present invention, this first frequency range is 2.4GHz, and this second frequency range is 5GHz.

Such as, if the frequency range of the first wireless communication module support being built in this second equipment is 2.4GHz and 5GHz, when this first equipment is dual frequency equipment, frequency bands supported for 2.4GHz and 5GHz time, 5GHz is chosen as the working frequency range of this first wireless communication module.

It should be noted that, the first wireless communication module built-in in this second equipment being connected with the first equipment, and this first wireless communication module works in access point (AP, AccessPoint) pattern, make this first wireless communication module can be used as access point to use, it is also possible to second equipment built-in with this second equipment is set up and is connected.

By frequency bands supported according to this first equipment, determine the working frequency range of the first wireless communication module worked under access point mode built-in in this second equipment, can either ensure when this first equipment is single-frequency equipment, use data communications method provided by the present invention, realize directly communicating between this first equipment with this second equipment, it also is able to ensure when this first equipment is dual frequency equipment, make full use of the second frequency range that capacity of resisting disturbance is higher, improve the communication quality between the first equipment and the second equipment and communication stability.

202, the frequency range supported according to routing device, select the working frequency range of the second wireless communication module in the built-in at least two wireless communication module of the second equipment, this routing device is connected by the foundation of this second wireless communication module with this second equipment, and this second wireless communication module works in station mode.

Wherein, the second wireless communication module being built in this second equipment being connected with this routing device, and this second wireless communication module works in website (Station) pattern, make this second equipment can pass through to set up between this second wireless communication module and routing device to be connected, and data cube computation can be set up with the first wireless communication module working in access point mode.

According to the frequency range that routing device is supported, select the frequency range supported according to the first equipment in the method for the working frequency range of the second wireless communication module and step 201 in the built-in at least two wireless communication module of the second equipment, select in the built-in at least two wireless communication module of the second equipment the method for the working frequency range of the first wireless communication module in like manner.Specifically, if the frequency range of the second wireless communication module support being built in this second equipment is 2.4GHz and 5GHz, when this routing device is single-frequency equipment, frequency bands supported for 2.4GHz time, 2.4GHz is chosen as the working frequency range of this first wireless communication module；When this routing device is dual frequency equipment, frequency bands supported for 2.4GHz and 5GHz time, 5GHz is chosen as the working frequency range of this first wireless communication module.

203, the data cube computation between this first wireless communication module and this second wireless communication module is set up so that this first equipment accesses this routing device by this data cube computation and this second wireless communication module.

Fig. 2 B is one the first equipment that the embodiment of the present invention provides, connection diagram between second equipment and routing device, as shown in Figure 2 B, by connecting 1 communication connection realizing between this first equipment and this second equipment between this first equipment and this second equipment, connect 2 as the data cube computation worked between the first wireless communication module of access point mode and the second wireless communication module working in station mode, connect 3 connections realizing between this second equipment and routing device, by the connection that step 201-step 203 is set up, it is capable of the direct communication connection between this first equipment and this second equipment, and when this routing device accesses network, this first equipment and this second equipment also can be successfully accessed network.

The working frequency range of the second wireless communication module that the working frequency range of the first wireless communication module determined according to step 201 and step 202 are determined, the frequency range that this first equipment uses when communicating with this routing device can be divided into following four situation to illustrate, specifically:

If the working frequency range of the working frequency range of this first wireless communication module of the first situation and this second wireless communication module is the first frequency range, then in this first frequency range, realize this first equipment, communication between this second equipment and this router.

That is to say, when this first equipment is single-frequency equipment, frequency bands supported for 2.4GHz, this second equipment is also single-frequency equipment, and frequency bands supported is also 2.4GHz, then this first equipment, communication between this second equipment and this router carry out in 2.4GHz frequency range.

If the working frequency range of the working frequency range of this first wireless communication module of the second situation and this second wireless communication module is the second frequency range, then in this second frequency range, realize this first equipment, communication between this second equipment and this router.

That is to say, when this first equipment is dual frequency equipment, frequency bands supported for 2.4GHz and 5GHz, this second equipment is also dual frequency equipment, frequency bands supported is also 2.4GHz and 5GHz, then this first equipment, communication between this second equipment and this router carry out in 5GHz frequency range.

If the working frequency range of this first wireless communication module of the third situation is this first frequency range, the working frequency range of this second wireless communication module is this second frequency range, in this first frequency range, then realize the communication between this first equipment and this second equipment, this second frequency range realizes the communication between this second equipment and this router.

That is to say, when this first equipment is single-frequency equipment, frequency bands supported for 2.4GHz, this second equipment is dual frequency equipment, frequency bands supported is also 2.4GHz and 5GHz, then the communication between this first equipment and this second equipment carries out in 2.4GHz frequency range, and the communication between this second equipment and this router carries out in 5GHz frequency range.

If the working frequency range of the 4th kind of this first wireless communication module of situation is this second frequency range, the working frequency range of this second wireless communication module is this first frequency range, in this second frequency range, then realize the communication between this first equipment and this second equipment, this first frequency range realizes the communication between this second equipment and this router.

That is to say, when this first equipment is dual frequency equipment, frequency bands supported for 2.4GHz and 5GHz, this second equipment is single-frequency equipment, frequency bands supported is also 2.4GHz, then the communication between this first equipment and this second equipment carries out in 5GHz frequency range, and the communication between this second equipment and this router carries out in 2.4GHz frequency range.

204, it is controlled data communication by this first wireless communication module and this first equipment.

It is controlled data communication by this first wireless communication module and this first equipment and includes following two process: one, receive this first equipment by this first wireless communication module and send control data；Two, response data is sent by this first wireless communication module to this first equipment.

That is to say, when this first equipment need this second equipment is controlled time, by this first equipment and this be built in the connection between the first wireless communication module in this second equipment, this first equipment to this second equipment send control data；After this second equipment receives these control data by this first wireless communication module, respond, and response data is sent to this first equipment by this first wireless communication module, to realize this first equipment control to this second equipment.

205, the data communication of this first equipment, this second equipment and other clients is realized by this routing device.

When this first equipment needs to carry out data interaction with other clients, concrete grammar can be: this second equipment receives, by this first wireless communication module, the solicited message that this first equipment sends；And by the data cube computation between this first wireless communication module and this second wireless communication module, the connection between this second wireless communication module and this second wireless communication module and this routing device, this solicited message is sent to this routing device, so that this solicited message is sent to destination client by this routing device.

The method that the present embodiment provides, by at least two double-frequency wireless wireless communication module built-in in the second equipment, being directly connected between this first equipment and this second equipment can not only be realized, when the first equipment sends control data to this second equipment, without routing device transfer, and then manipulation time delay can be reduced；Can also realize when the first equipment or routing device are dual frequency equipment, select high band as the working frequency range of wireless communication module built-in in the second equipment, and then the capacity of resisting disturbance in communication process and communication quality can be improved.

Fig. 3 is a kind of data communication equipment block diagram that the embodiment of the present invention provides.With reference to Fig. 3, this device includes working frequency range and selects module 301, and data cube computation sets up module 302 and communication module 303.

Working frequency range selects module 301, for the frequency range supported according to the first equipment, select the working frequency range of the first wireless communication module in the built-in at least two wireless communication module of the second equipment, described first equipment and the second equipment are set up by described first wireless communication module connect, each wireless communication module is double-frequency wireless communication module, and described first wireless communication module works in access point mode；

Described working frequency range selects module 301 to be additionally operable to the frequency range supported according to routing device, select the working frequency range of the second wireless communication module in the built-in at least two wireless communication module of the second equipment, described routing device is connected by described second wireless communication module foundation with described second equipment, and described second wireless communication module works in station mode；

Data cube computation sets up module 302, for setting up the data cube computation between described first wireless communication module and described second wireless communication module so that described first equipment accesses described routing device by described data cube computation and described second wireless communication module；

Communication module 303, for being controlled data communication by described first wireless communication module and described first equipment.

In the first possible implementation provided by the invention, described communication module 303 is used for:

Receive described first equipment by described first wireless communication module and send control data；Or,

Response data is sent to described first equipment by described first wireless communication module.

Being likely in implementation at the second provided by the invention, described working frequency range selects module to be used for:

If described first equipment only supports the first frequency range, by the working frequency range that described first Frequency Band Selection is described first wireless communication module；Or,

If described first equipment supports described first frequency range and the second frequency range, by the working frequency range that described second Frequency Band Selection is described first wireless communication module, described second frequency range is higher than described first frequency range.

Being likely in implementation at provided by the invention the third, described device also includes processing module, and described processing module is used for:

If the working frequency range of the working frequency range of described first wireless communication module and described second wireless communication module is the first frequency range, then in described first frequency range, realize described first equipment, communication between described second equipment and described router；Or,

If the working frequency range of the working frequency range of described first wireless communication module and described second wireless communication module is the second frequency range, then in described second frequency range, realize described first equipment, communication between described second equipment and described router；Or,

If the working frequency range of described first wireless communication module is described first frequency range, the working frequency range of described second wireless communication module is described second frequency range, in described first frequency range, then realize the communication between described first equipment and described second equipment, described second frequency range realizes the communication between described second equipment and described router；Or,

If the working frequency range of described first wireless communication module is described second frequency range, the working frequency range of described second wireless communication module is described first frequency range, in described second frequency range, then realize the communication between described first equipment and described second equipment, described first frequency range realizes the communication between described second equipment and described router；

Wherein, described second frequency range is higher than described first frequency range.

In the 4th kind of possible implementation provided by the invention, described device also includes:

Receiver module, for receiving, by described first wireless communication module, the solicited message that described first equipment sends；

Sending module, for by the connection between the data cube computation between described first wireless communication module and described second wireless communication module, described second wireless communication module and described second wireless communication module and described routing device, the described solicited message received by described receiver module sends to described routing device, so that described solicited message is sent to destination client by described routing device.

In the 5th kind of possible implementation provided by the invention, described first frequency range is 2.4GHz, and described second frequency range is 5GHz.

In the 6th kind of possible implementation provided by the invention, described wireless communication module is double-frequency wireless fidelity WiFi chip.

It should be understood that the data communication equipment that above-described embodiment provides is when handle data communication business, only it is illustrated with the division of above-mentioned each functional module, in practical application, as desired above-mentioned functions distribution can be completed by different functional modules, it is divided into different functional modules, to complete all or part of function described above by the internal structure of equipment.It addition, the device of data communication that above-described embodiment provides belongs to same design with the embodiment of the method for data communication, it implements process and refers to embodiment of the method, repeats no more here.

One of ordinary skill in the art will appreciate that all or part of step realizing above-described embodiment can be completed by hardware, can also be completed by the hardware that program carrys out instruction relevant, described program can be stored in a kind of computer-readable recording medium, storage medium mentioned above can be read only memory, disk or CD etc..

The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, all within the spirit and principles in the present invention, any amendment of making, equivalent replacement, improvement etc., should be included within protection scope of the present invention.

Claims (14)

1. a data communications method, it is characterised in that described method includes:

According to the frequency range that the first equipment is supported, select the working frequency range of the first wireless communication module in the built-in at least two wireless communication module of the second equipment, described first equipment and the second equipment are set up by described first wireless communication module connect, each wireless communication module is double-frequency wireless communication module, and described first wireless communication module works in access point mode；

According to the frequency range that routing device is supported, select the working frequency range of the second wireless communication module in the built-in at least two wireless communication module of the second equipment, described routing device is connected by described second wireless communication module foundation with described second equipment, and described second wireless communication module works in station mode；

Set up the data cube computation between described first wireless communication module and described second wireless communication module so that described first equipment accesses described routing device by described data cube computation and described second wireless communication module；

It is controlled data communication by described first wireless communication module and described first equipment.

2. method according to claim 1, it is characterised in that be controlled data communication by described first wireless communication module and described first equipment and include:

Receive described first equipment by described first wireless communication module and send control data；Or,

Response data is sent to described first equipment by described first wireless communication module.

3. method according to claim 1, it is characterised in that according to the frequency range that the first equipment is supported, selects the working frequency range of the first wireless communication module in the built-in at least two wireless communication module of the second equipment to include:

If described first equipment only supports the first frequency range, by the working frequency range that described first Frequency Band Selection is described first wireless communication module；Or,

If described first equipment supports described first frequency range and the second frequency range, by the working frequency range that described second Frequency Band Selection is described first wireless communication module, described second frequency range is higher than described first frequency range.

4. method according to claim 1, it is characterised in that described method also includes:

If the working frequency range of the working frequency range of described first wireless communication module and described second wireless communication module is the first frequency range, then in described first frequency range, realize described first equipment, communication between described second equipment and described router；Or,

If the working frequency range of the working frequency range of described first wireless communication module and described second wireless communication module is the second frequency range, then in described second frequency range, realize described first equipment, communication between described second equipment and described router；Or,

If the working frequency range of described first wireless communication module is described first frequency range, the working frequency range of described second wireless communication module is described second frequency range, in described first frequency range, then realize the communication between described first equipment and described second equipment, described second frequency range realizes the communication between described second equipment and described router；Or,

If the working frequency range of described first wireless communication module is described second frequency range, the working frequency range of described second wireless communication module is described first frequency range, in described second frequency range, then realize the communication between described first equipment and described second equipment, described first frequency range realizes the communication between described second equipment and described router；

Wherein, described second frequency range is higher than described first frequency range.

5. method according to claim 1, it is characterised in that described method also includes:

The solicited message that described first equipment sends is received by described first wireless communication module；

By the connection between the data cube computation between described first wireless communication module and described second wireless communication module, described second wireless communication module and described second wireless communication module and described routing device, described solicited message is sent to described routing device, so that described solicited message is sent to destination client by described routing device.

6. method according to claim 1, it is characterised in that described double-frequency wireless communication module refers to the wireless communication module of 2.4GHz and 5GHz.

7. the method according to any one of claim 1 to 6, it is characterised in that described wireless communication module is double-frequency wireless fidelity WiFi chip.

8. a data communication equipment, it is characterised in that described device includes:

Working frequency range selects module, for the frequency range supported according to the first equipment, select the working frequency range of the first wireless communication module in the built-in at least two wireless communication module of the second equipment, described first equipment and the second equipment are set up by described first wireless communication module connect, each wireless communication module is double-frequency wireless communication module, and described first wireless communication module works in access point mode；

Described working frequency range selects module to be additionally operable to the frequency range supported according to routing device, select the working frequency range of the second wireless communication module in the built-in at least two wireless communication module of the second equipment, described routing device is connected by described second wireless communication module foundation with described second equipment, and described second wireless communication module works in station mode；

Data cube computation sets up module, for setting up the data cube computation between described first wireless communication module and described second wireless communication module so that described first equipment accesses described routing device by described data cube computation and described second wireless communication module；

Communication module, for being controlled data communication by described first wireless communication module and described first equipment.

9. device according to claim 8, it is characterised in that described communication module is used for:

Receive described first equipment by described first wireless communication module and send control data；Or,

Response data is sent to described first equipment by described first wireless communication module.

10. device according to claim 8, it is characterised in that described working frequency range selects module to be used for:

If described first equipment only supports the first frequency range, by the working frequency range that described first Frequency Band Selection is described first wireless communication module；Or,

If described first equipment supports described first frequency range and the second frequency range, by the working frequency range that described second Frequency Band Selection is described first wireless communication module, described second frequency range is higher than described first frequency range.

11. device according to claim 8, it is characterised in that described device also includes processing module, and described processing module is used for:

If the working frequency range of the working frequency range of described first wireless communication module and described second wireless communication module is the first frequency range, then in described first frequency range, realize described first equipment, communication between described second equipment and described router；Or,

If the working frequency range of the working frequency range of described first wireless communication module and described second wireless communication module is the second frequency range, then in described second frequency range, realize described first equipment, communication between described second equipment and described router；Or,

If the working frequency range of described first wireless communication module is described first frequency range, the working frequency range of described second wireless communication module is described second frequency range, in described first frequency range, then realize the communication between described first equipment and described second equipment, described second frequency range realizes the communication between described second equipment and described router；Or,

If the working frequency range of described first wireless communication module is described second frequency range, the working frequency range of described second wireless communication module is described first frequency range, in described second frequency range, then realize the communication between described first equipment and described second equipment, described first frequency range realizes the communication between described second equipment and described router；

Wherein, described second frequency range is higher than described first frequency range.

12. device according to claim 7, it is characterised in that described device also includes:

Receiver module, for receiving, by described first wireless communication module, the solicited message that described first equipment sends；

Sending module, for by the connection between the data cube computation between described first wireless communication module and described second wireless communication module, described second wireless communication module and described second wireless communication module and described routing device, the described solicited message received by described receiver module sends to described routing device, so that described solicited message is sent to destination client by described routing device.

13. the device according to claim 10 or 11, it is characterised in that described first frequency range is 2.4GHz, described second frequency range is 5GHz.

14. according to Claim 8 to the device described in 12 any one, it is characterised in that described wireless communication module is double-frequency wireless fidelity WiFi chip.