CN105307218A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and electronic equipment. The method comprises the following steps: receiving a wireless data transmission request; and making a response to the wireless data transmission request, and meanwhile transmitting data content corresponding to the wireless data transmission request through a wireless local area network and a mobile data network. Through adoption of the method provided by the invention, the technical problem of influence on a wireless data transmission speed caused by a weak signal of a wireless network during wireless data transmission of the electronic equipment in the prior art is solved, and the technical effect of increasing the data transmission rate is achieved.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to electronic technology field, particularly a kind of information processing method and electronic equipment.

Background technology

Along with the development of science and technology, wireless communication technology is more and more flourishing.Electronic equipment of the prior art, when carrying out Wireless Data Transmission, as downloaded movies by wireless network, can be selected to adopt wifi to download, or select to adopt mobile data network (LTE/3G) to download.

Electronic equipment of the prior art, when carrying out Wireless Data Transmission, is needed to pay owing to being carried out transmission by mobile data network, usually pays the utmost attention to and use wifi network to transmit.But the signal strength signal intensity of wifi network is not fixing, the impact of many factors can be subject to, as being connected into the electronic equipment number of wifi network, using the signal disturbing etc. of other equipment of same frequency range with wifi network.Therefore, when carrying out Wireless Data Transmission, there is signal due to wireless network more weak and affect the technical problem of Wireless Data Transmission speed in electronic equipment of the prior art.

Summary of the invention

The embodiment of the present application provides a kind of information processing method and electronic equipment, for solving electronic equipment of the prior art when carrying out Wireless Data Transmission, exist because the signal of wireless network is more weak and affect the technical problem of Wireless Data Transmission speed, achieve the technique effect promoting message transmission rate.

The embodiment of the present application provides a kind of information processing method on the one hand, comprising:

Receiving radio data transmission request;

Respond described Wireless Data Transmission request, transmit the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.

Optionally, described simultaneously by WLAN and the mobile data network transmission data content corresponding with described Wireless Data Transmission request, comprising:

Detect the first signal strength signal intensity of the described WLAN received;

Determine the first signal strength signal intensity interval that described first signal strength signal intensity is corresponding;

Interval based on described first signal strength signal intensity, data volume corresponding for described data content is assigned as the first data volume and the second data volume;

By described WLAN described first data volume of transmission and by described second data volume of described mobile data network transmission.

Optionally, described simultaneously by WLAN and the mobile data network transmission data content corresponding with described Wireless Data Transmission request, comprising:

Corresponding first transmission rate of by described WLAN being transmitted data interval with described first signal strength signal intensity is determined in scheduled rate table;

Determine corresponding transmission rate proportioning interval with described first signal strength signal intensity, wherein, described transmission rate proportioning is the proportioning of being undertaken between the transmission rate of transfer of data and the transmission rate of being carried out transfer of data by described mobile data network by described WLAN;

Based on described first transmission rate and described transmission rate proportioning, determine the second transmission rate by described mobile data network transmission data;

By described WLAN with described first data volume of described first transmission rate transmission, and by described mobile data network with described second data volume of described second transmission rate transmission.

Optionally, described simultaneously by WLAN and the mobile data network transmission data content corresponding with described Wireless Data Transmission request, comprising:

Detect described first signal strength signal intensity and whether be changed to the secondary signal intensity different from described first signal strength signal intensity;

When described first change in signal strength is described secondary signal intensity, determine three transmission rate of by described WLAN being transmitted data corresponding with described secondary signal intensity, and determine the 4th transmission rate by described mobile data network transmission data;

When described first change in signal strength is described secondary signal intensity, be assigned as the 3rd data volume and the 4th data volume by needing the remaining data amount of transmission;

By described WLAN with described 3rd data volume of described 3rd transmission rate transmission, and by described mobile data network with described 4th data volume of described 4th transmission rate transmission.

Optionally, described data volume corresponding for described data content is assigned as the first data volume and the second data volume, comprises:

Obtain the current maximum amount of data allowing transmission of described mobile data network;

Based on described maximum amount of data, data volume corresponding for described data content is assigned as the first data volume and the second data volume, wherein, described second data volume is less than or equal to described maximum amount of data.

Optionally, described data volume corresponding for described data content is assigned as the first data volume and the second data volume after, described method also comprises:

Monitor the remaining data amount that described mobile data network allows transmission;

Based on described remaining data amount, determine by the transmission rate of described mobile data network transmission data and the transmission rate by described WLAN transmission data.

Optionally, before transmitting the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network at the same time, described method also comprises:

Detect the signal to noise ratio of described WLAN;

When described signal to noise ratio is greater than the first default signal to noise ratio, opens the first data channel of described WLAN, and transmit described data content by described first data channel;

When described signal to noise ratio is less than the second default signal to noise ratio, opens the second data channel of described WLAN, and transmit described data content by described second data channel;

Wherein, described first presets signal to noise ratio is greater than the described second default signal to noise ratio, first band of described first data channel is wider than the second bandwidth of described second data channel, and the speed of carrying out Wireless Data Transmission with described first bandwidth is greater than the speed of carrying out Wireless Data Transmission with described second bandwidth.

The embodiment of the present application also provides a kind of electronic equipment, comprising:

Input unit, for receiving radio data transmission request;

Transceiver;

Processor, for responding described Wireless Data Transmission request, controlling described transceiver and transmitting the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.

Optionally, described processor is used for:

Detect the first signal strength signal intensity of the described WLAN received;

Determine the first signal strength signal intensity interval that described first signal strength signal intensity is corresponding;

Interval based on described first signal strength signal intensity, data volume corresponding for described data content is assigned as the first data volume and the second data volume;

Control described transceiver by described WLAN described first data volume of transmission and by described second data volume of described mobile data network transmission.

Optionally, described processor is used for:

Corresponding first transmission rate of by described WLAN being transmitted data interval with described first signal strength signal intensity is determined in scheduled rate table;

Determine corresponding transmission rate proportioning interval with described first signal strength signal intensity, wherein, described transmission rate proportioning is the proportioning of being undertaken between the transmission rate of transfer of data and the transmission rate of being carried out transfer of data by described mobile data network by described WLAN;

Based on described first transmission rate and described transmission rate proportioning, determine the second transmission rate by described mobile data network transmission data;

Control described transceiver by described WLAN with described first data volume of described first transmission rate transmission, and by described mobile data network with described second data volume of described second transmission rate transmission.

Optionally, described processor is used for:

Detect described first signal strength signal intensity and whether be changed to the secondary signal intensity different from described first signal strength signal intensity;

When described first change in signal strength is described secondary signal intensity, determine three transmission rate of by described WLAN being transmitted data corresponding with described secondary signal intensity, and determine the 4th transmission rate by described mobile data network transmission data;

When described first change in signal strength is described secondary signal intensity, be assigned as the 3rd data volume and the 4th data volume by needing the remaining data amount of transmission;

Control described transceiver by described WLAN with described 3rd data volume of described 3rd transmission rate transmission, and by described mobile data network with described 4th data volume of described 4th transmission rate transmission.

Optionally, described processor is used for:

Obtain the current maximum amount of data allowing transmission of described mobile data network;

Based on described maximum amount of data, data volume corresponding for described data content is assigned as the first data volume and the second data volume, wherein, described second data volume is less than or equal to described maximum amount of data.

Optionally, described electronic equipment also comprises: watch-dog, allows the remaining data amount of transmission for monitoring described mobile data network; Processor is used for based on described remaining data amount, determines by the transmission rate of described mobile data network transmission data and the transmission rate by described WLAN transmission data.

Optionally, described processor also for:

Detect the signal to noise ratio of described WLAN;

Described signal to noise ratio be greater than first preset signal to noise ratio time, open the first data channel of described WLAN, and control described transceiver and transmit described data content by described first data channel;

Described signal to noise ratio be less than second preset signal to noise ratio time, open the second data channel of described WLAN, and control described transceiver and transmit described data content by described second data channel;

Wherein, described first presets signal to noise ratio is greater than the described second default signal to noise ratio, first band of described first data channel is wider than the second bandwidth of described second data channel, and the speed of carrying out Wireless Data Transmission with described first bandwidth is greater than the speed of carrying out Wireless Data Transmission with described second bandwidth.

The embodiment of the present application also provides a kind of electronic equipment, comprising:

Receiving element, for receiving radio data transmission request;

Response unit, for responding described Wireless Data Transmission request, transmits the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.

Above-mentioned one or more technical scheme in the embodiment of the present application, at least has one or more technique effects following:

One, the scheme in the embodiment of the present application, when receiving Wireless Data Transmission request, can carry out transfer of data by WLAN and mobile data network simultaneously.And in the prior art, the one in WLAN or mobile data network can only be selected to transmit data, and if select this wireless network signal poor time, message transmission rate must be affected.Namely, method in the embodiment of the present application is when carrying out Wireless Data Transmission, and do not rely on the signal strength signal intensity of a certain wireless network, therefore, scheme in the embodiment of the present application effectively can solve electronic equipment of the prior art when carrying out Wireless Data Transmission, exist because the signal of wireless network is more weak and affect the technical problem of Wireless Data Transmission speed, achieve and transmit data by WLAN and mobile data network simultaneously, and then promote the technique effect of message transmission rate.

Two, the scheme in the embodiment of the present application can determine the speed of being carried out transfer of data by WLAN based on the signal of WLAN.Because WLAN does not need to pay, therefore, in the good situation of WLAN intensity, pay the utmost attention to and carry out transfer of data by WLAN, namely promote the message transmission rate of WLAN.Visible, the scheme in the embodiment of the present application achieves under the prerequisite ensureing message transmission rate, reduces the technique effect of transfer of data cost.

Three, the scheme in the embodiment of the present application is in data transmission procedure, Real-Time Monitoring is carried out to the signal strength signal intensity of WLAN, when signal strength signal intensity changes, the speed of being carried out transfer of data by WLAN and mobile data network can be adjusted dynamically.As: when signal strength signal intensity grow, promote the message transmission rate of WLAN, reduce the message transmission rate of mobile data network; When signal strength signal intensity dies down, reduce the message transmission rate of WLAN, the message transmission rate of lifting mobile data network.Visible, the scheme in the embodiment of the present application achieves the technique effect of the message transmission rate being carried out dynamic assignment heterogeneous networks by the signal strength signal intensity of WLAN.

Four, the scheme in the embodiment of the present application is by detecting the data volume of the permission transmission of mobile data network, and the data volume controlling to be undertaken transmitting by mobile data network is less than or equal to the described data volume allowing to export.Ensure that in data transmission procedure can not the technique effect of excess flow maximum.Further, the remaining data amount of the scheme in the embodiment of the present application to mobile data network is monitored, and determines the message transmission rate of mobile data network and the message transmission rate of WLAN according to remaining data amount.As: when remaining data amount is larger, and the useful life of data volume near time, can pay the utmost attention to use mobile data network transmit, namely improve the message transmission rate of mobile data network.Therefore, the scheme in the embodiment of the present application can realize the technique effect of the message transmission rate carrying out dynamic assignment heterogeneous networks based on the data volume of mobile data network.

Five, in the scheme in the embodiment of the present application, WLAN comprises two data channel, first data channel and the second data channel, wherein, the band of the first data channel is wider than the bandwidth of the second data channel, and is greater than the speed of being carried out transfer of data by the second data channel by the speed that the first data channel carries out transfer of data.By the signal to noise ratio that Sampling network is current, open the first data channel when signal to noise ratio is higher, open the second data channel when signal to noise ratio is lower.Achieve and select corresponding data channel to transmit according to network state, improve the adaptability of transfer of data.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only the embodiment of the present application, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

The flow chart of a kind of information processing method that Fig. 1 provides for the embodiment of the present application one;

The structured flowchart of a kind of electronic equipment that Fig. 2 provides for the embodiment of the present application two;

The structured flowchart of a kind of electronic equipment that Fig. 3 provides for the embodiment of the present application three.

Embodiment

The embodiment of the present application provides a kind of information processing method and electronic equipment, for solving electronic equipment of the prior art when carrying out Wireless Data Transmission, exist because the signal of wireless network is more weak and affect the technical problem of Wireless Data Transmission speed, achieve the technique effect promoting message transmission rate.

Technical scheme in the embodiment of the present application is solve above-mentioned technical problem, and general thought is as follows:

Receiving radio data transmission request; Respond described Wireless Data Transmission request, transmit the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.

In technique scheme, when receiving Wireless Data Transmission request, transfer of data can be carried out by WLAN and mobile data network simultaneously.And in the prior art, the one in WLAN or mobile data network can only be selected to transmit data, and if select this wireless network signal poor time, message transmission rate must be affected.Namely, method in the embodiment of the present application is when carrying out Wireless Data Transmission, and do not rely on the signal strength signal intensity of a certain wireless network, therefore, scheme in the embodiment of the present application effectively can solve electronic equipment of the prior art when carrying out Wireless Data Transmission, exist because the signal of wireless network is more weak and affect the technical problem of Wireless Data Transmission speed, achieve and transmit data by WLAN and mobile data network simultaneously, and then promote the technique effect of message transmission rate.

In order to better understand technique scheme, below by accompanying drawing and specific embodiment, technical solution of the present invention is described in detail, the specific features being to be understood that in the embodiment of the present application and embodiment is the detailed description to technical solution of the present invention, instead of the restriction to technical solution of the present invention, when not conflicting, the technical characteristic in the embodiment of the present application and embodiment can combine mutually.

Embodiment one

Please refer to Fig. 1, the embodiment of the present application provides a kind of information processing method, comprising:

S10: receiving radio data transmission request;

S20: respond described Wireless Data Transmission request, transmits the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.

In specific implementation process, described electronic equipment can be mobile phone, panel computer, or other can use the electronic equipment of WLAN or mobile data network transmission data, just do not list one by one at this.In the embodiment of the present application for described electronic equipment for mobile phone, the implementation procedure of the method in the embodiment of the present application is described in detail.

First, step S10 is performed: receiving radio data transmission request.

Specifically, when user uses mobile phone to carry out Wireless Data Transmission, first can need to carry out by clicking the file that transmits, or click the operations such as Online Video and ask to carry out transfer of data.After electronic equipment receives the Wireless Data Transmission request corresponding with user operation, respond this request, and carry out corresponding data transfer operation.For example, when user wants download file or video, user clicks the download button that mobile phone display screen shows, and after mobile phone detects the clicking operation of user, starts to carry out Wireless Data Transmission.For another example, when user and other users carry out video communication, user clicks the button of video communication, after mobile phone detects this button operation, starts to carry out video data transmission.In addition, this Wireless Data Transmission request also can be other Client-initiateds, as other users want with as described in the user of mobile phone send file or carry out video communication time, mobile phone receives the Wireless Data Transmission request that other equipment sends, after the user of described mobile phone confirms this Wireless Data Transmission request, start to carry out transfer of data.Certainly, after receiving Wireless Data Transmission request, the confirmation of user also can not be needed directly to carry out transfer of data, and the application is not specifically limited.

Next, perform step S20: respond described Wireless Data Transmission request, transmit the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.

In specific implementation process, step S20 comprises:

Detect the first signal strength signal intensity of the described WLAN received;

Determine the first signal strength signal intensity interval that described first signal strength signal intensity is corresponding;

Interval based on described first signal strength signal intensity, data volume corresponding for described data content is assigned as the first data volume and the second data volume;

By described WLAN described first data volume of transmission and by described second data volume of described mobile data network transmission.

Specifically, according to the received signal strength (ReceivedSignalStrengthIndication, RSSI) of WLAN, signal strength signal intensity can be divided into several regional extent.In the embodiment of the present application, to divide three signal strength signal intensity regions, these three signal strength signal intensities are respectively strong signal strength signal intensity region (RSSI >=-55dBm), middle signal strength signal intensity region (-65dBm≤RSSI ﹤-55dBm), weak signal strength region (RSSI ﹤-65dBm).For example, when detecting that the first signal strength signal intensity of WLAN is for-50dBm, the first corresponding signal strength signal intensity interval is strong signal area, shows the in good condition of WLAN.If the current data volume needing transmission is 100M, 70M can be transmitted by WLAN, transmit 30M by mobile data network.

The distribution of data volume can set according to actual needs, when signal as WLAN is in strong signal strength signal intensity region, can be the distribution that 5:1 carries out data volume according to the ratio of WLAN and mobile data network, interval in middle signal strength signal intensity, can be the distribution that 1:1 carries out data volume according to the ratio of WLAN and mobile data network, interval in weak signal strength, can be the distribution that 1:3 carries out data volume according to the ratio of WLAN and mobile data network.Those of ordinary skill in the art can arrange concrete ratio according to actual needs, or do not adopt default proportioning, and adopt other mode to carry out distribute data amount, the application is not specifically limited.

In specific implementation process, determine that the speed that WLAN and mobile data network transmit data specifically can include but not limited to following several implementation:

The first implementation:

Corresponding first transmission rate of by described WLAN being transmitted data interval with described first signal strength signal intensity is determined in scheduled rate table;

Determine corresponding transmission rate proportioning interval with described first signal strength signal intensity, wherein, described transmission rate proportioning is the proportioning of being undertaken between the transmission rate of transfer of data and the transmission rate of being carried out transfer of data by described mobile data network by described WLAN;

Based on described first transmission rate and described transmission rate proportioning, determine the second transmission rate by described mobile data network transmission data;

By described WLAN with described first data volume of described first transmission rate transmission, and by described mobile data network with described second data volume of described second transmission rate transmission.

Specifically, the first implementation carrys out the message transmission rate of dynamic assignment heterogeneous networks.After determining the first signal strength signal intensity interval that the first signal strength signal intensity is corresponding, determine the first transmission rate of WLAN transmission data according to scheduled rate table.In the embodiment of the present application, for described scheduled rate table for modulation with coding strategy table (ModulationandCodingScheme, MCS).MCS is communication speed for characterizing WLAN and a kind of representation of proposing, using MCS index as row, forms a Speedometer Drive.Physical transmission rate under one group of parameter that each MCS index is corresponding.Concrete, signal strength signal intensity interval is mapped with MCS index, to determine the transmission rate with the first signal strength signal intensity interval.For example, when bandwidth is 20MHz, and the first signal strength signal intensity is interval corresponding with index value 1, the first transmission rate obtaining current wireless Local Area Network network transmission data of so can tabling look-up is 13Mb/s, and signal strength signal intensity is stronger, corresponding index value is higher, and the first transmission rate is also larger.

Next, the second transmission rate by mobile data network transmission data is determined.Concrete, first determine the speed proportioning between the first transmission rate and the second transmission rate based on the first signal strength signal intensity.Still for above-mentioned, signal strength signal intensity is divided into strong signal strength signal intensity region, middle signal strength signal intensity region, weak signal strength region.There is speed proportioning corresponding with it in each signal strength signal intensity interval, as: the speed proportioning in strong signal strength signal intensity interval is: the first transmission rate/the second transmission rate >=4, the speed proportioning in middle signal strength signal intensity interval is: 2≤the first transmission rate/the second transmission rate < 4, and the speed proportioning in weak signal strength interval is the first transmission rate/the second transmission rate < 2.For example, when the first signal strength signal intensity is-55dBm, determine that signal strength signal intensity interval is for strong signal strength signal intensity interval, the ratio that can obtain the first transmission rate/the second transmission rate according to speed proportioning is 4.After inquiry MCS obtains interval the first corresponding transmission rate of the first signal strength signal intensity, just can obtain the second transmission rate according to speed proportioning.Certainly, those of ordinary skill in the art can arrange concrete speed ratio range according to the actual requirements, and the application is not specifically limited.

Further, the method in the embodiment of the present application also comprises:

Detect described first signal strength signal intensity and whether be changed to the secondary signal intensity different from described first signal strength signal intensity;

When described first change in signal strength is described secondary signal intensity, determine three transmission rate of by described WLAN being transmitted data corresponding with described secondary signal intensity, and determine the 4th transmission rate by described mobile data network transmission data;

When described first change in signal strength is described secondary signal intensity, be assigned as the 3rd data volume and the 4th data volume by needing the remaining data amount of transmission;

By described WLAN with described 3rd data volume of described 3rd transmission rate transmission, and by described mobile data network with described 4th data volume of described 4th transmission rate transmission.

Specifically, when using mobile phone to carry out Wireless Data Transmission, the signal strength signal intensity of WLAN is not fixing, but real-time change.If speed when using transmission to start is downloaded always, after signal strength signal intensity changes, the speed determined when transmission starts often can not meet the network environment of change.Signal strength signal intensity such as when transmitting beginning is strong signal strength signal intensity, and the message transmission rate of WLAN is than very fast, and the message transmission rate of mobile data network is fuller.But signal strength signal intensity becomes weak signal strength in transmitting procedure, if now still adopt above-mentioned speed to download, display is irrational, WLAN cannot meet above-mentioned transmission rate, that is, the downloading rate adjusting WLAN and mobile data network according to the signal strength signal intensity of reality is needed.

In the embodiment of the present application, electronic equipment is when carrying out Wireless Data Transmission, and electronic equipment can monitor the real-time change of wireless LAN signal intensity.When detecting that signal strength signal intensity changes, when being namely secondary signal intensity by the first change in signal strength, redefining transmission rate corresponding to secondary signal intensity (i.e. the 3rd transmission rate) based on MCS, and determining speed proportioning.According to speed proportioning and the 3rd transmission rate, determine the 4th transmission rate of mobile data network.

Further, due to when carrying out Wireless Data Transmission, within a period of time started, transmit a part of data volume with the first transmission rate and the second transmission rate respectively.For example, the data volume needing transmission is 100M, transmits 30M, now detects that signal strength signal intensity changes, that is need to transmit remaining 70M data volume with the 3rd transmission rate and the 4th transmission rate with the first transmission rate and the second transmission rate.Here, can redistribute according to secondary signal intensity the data volume (the 3rd data volume) transmitted by WLAN, and by data volume (the 4th data volume) that mobile data network transmits.Above-mentionedly redefine transmission rate and redistribute data volume and just can perform when signal strength signal intensity changes, certainly, also can the variable quantity of signal strength signal intensity meet a preset value time perform above-mentioned adjustment operation, as the variable quantity when signal strength signal intensity be greater than ± 10dBm time, just can readjust.Those skilled in the art can set according to actual needs, and the application is not specifically limited.

The second implementation

Obtain the current maximum amount of data allowing transmission of described mobile data network;

Based on described maximum amount of data, data volume corresponding for described data content is assigned as the first data volume and the second data volume, wherein, described second data volume is less than or equal to described maximum amount of data.

Specifically, the second implementation carrys out the message transmission rate of dynamic assignment heterogeneous networks.Still for mobile phone, the flow of usual mobile phone every month is all fixing, namely allows the maximum amount of data transmitted.For example, the data volume carrying out transmitting is needed to be 100M, the maximum amount of data allowing transmission is 1G, namely the maximum amount of data transmitted is allowed to be far longer than the data volume needing transmission, now, if when the signal strength signal intensity of WLAN is more weak, most data can be transmitted by mobile data network, as 70M, the data using WLAN transmission are 30M.In specific implementation process, as long as the data volume of being undertaken transmitting by mobile data network is less than maximum amount of data, those skilled in the art can be arranged according to actual conditions.

Further, the method in the embodiment of the present application also comprises:

Monitor the remaining data amount that described mobile data network allows transmission;

Based on described remaining data amount, determine by the transmission rate of described mobile data network transmission data and the transmission rate by described WLAN transmission data.

Specifically, the flow of mobile data network can be fewer and feweri along with use, do not exceed maximum in order to guaranteed flow and ensure message transmission rate, electronic equipment can adjust the downloading rate of mobile data network and WLAN dynamically based on remaining data amount.When remaining data amount is larger, the transmission rate of mobile data network can be improved; When belonging to data volume and being less, reduce the transmission rate of mobile data network, improve the transmission rate of WLAN.

Further, in specific implementation process, if at the beginning of the month, user does not exceed maximum in order to guaranteed flow, is typically employed on the basis of guarantee transmission rate, considers more use radio data network as far as possible.If at the end of month, when remaining data volume is still large, in order to remaining data amount being finished, the transmission rate of mobile data network can be increased, reduce the transmission rate of WLAN.Certainly, those skilled in the art specifically can be arranged according to actual conditions, and the application is not specifically limited.

In addition, the method in the embodiment of the present application also comprises:

Detect the signal to noise ratio of described WLAN;

When described signal to noise ratio is greater than the first default signal to noise ratio, opens the first data channel of described WLAN, and transmit described data content by described first data channel;

When described signal to noise ratio is less than the second default signal to noise ratio, opens the second data channel of described WLAN, and transmit described data content by described second data channel;

Wherein, described first presets signal to noise ratio is greater than the described second default signal to noise ratio, first band of described first data channel is wider than the second bandwidth of described second data channel, and the speed of carrying out Wireless Data Transmission with described first bandwidth is greater than the speed of carrying out Wireless Data Transmission with described second bandwidth.

Specifically, in the environment for use of electronic equipment, the electronic equipment often having other produces interference, as wireless consumer products such as bluetooth equipment, microwave oven, wireless simulation video cameras to the signal of WLAN.In the embodiment of the present application, two data channel are set, i.e. the first data channel and the second data channel.Concrete, the first data channel is HT40, and the second data channel is HT20.The bandwidth of HT40 is the bandwidth of 40MHz, HT20 is 20MHz.

Concrete, can environmentally in signal to noise ratio determine the quality of ambient condition, in the embodiment of the present application, environment is divided as well, normally, three kinds of situations of difference.Wherein, the SNR ranges of good environment is: signal to noise ratio >=25dB, and the SNR ranges of home is: 15≤signal to noise ratio < 25dB, and the SNR ranges in difference ring border is: 5dB≤signal to noise ratio < 15dB.In order to reduce the interference of other electronic equipments in the process using WLAN, open HT20 when difference ring border.Further, when good environment, open HT40, now the transmission rate of WLAN has turned over one times compared with the transmission rate of HT20.In normal circumstances, any passage in HT20 or HT40 can be selected as required to transmit.Certainly, those skilled in the art can come specifically to arrange the bandwidth, SNR ranges etc. of passage as required, and the application is not specifically limited.

Embodiment two

Based on the inventive concept identical with the embodiment of the present application one, please refer to Fig. 2, the embodiment of the present application two provides a kind of electronic equipment, comprising:

Input unit 20, for receiving radio data transmission request;

Transceiver 21;

Processor 22, for responding described Wireless Data Transmission request, controlling described transceiver 21 and transmitting the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.

In specific implementation process, described electronic equipment also comprises: memory and I/O interface.Processor 22 can be specifically general central processing unit (CPU), can be that ASIC(Application Specific Integrated Circuit) is (English: ApplicationSpecificIntegratedCircuit, being called for short: ASIC), can be one or more integrated circuits performed for control program.The quantity of memory can be one or more.Memory can comprise read-only memory (English: ReadOnlyMemory, be called for short: ROM), random access memory (English: RandomAccessMemory, RAM) and magnetic disc store be called for short:.These memories, transceiver 21 are connected with processor 22 by bus.Transceiver 21 comprises receiver and transmitter, and receiver and transmitter can be two physically independent elements, also can be same element physically.I/O interface may be used for connecting peripheral apparatus.Instruction can be stored, the instruction that processor 22 can store in execute store in memory.

Further, described processor 22 for:

Detect the first signal strength signal intensity of the described WLAN received;

Determine the first signal strength signal intensity interval that described first signal strength signal intensity is corresponding;

Interval based on described first signal strength signal intensity, data volume corresponding for described data content is assigned as the first data volume and the second data volume;

Control described transceiver 21 by described WLAN described first data volume of transmission and by described second data volume of described mobile data network transmission.

Further, described processor 22 for:

Corresponding first transmission rate of by described WLAN being transmitted data interval with described first signal strength signal intensity is determined in scheduled rate table;

Determine corresponding transmission rate proportioning interval with described first signal strength signal intensity, wherein, described transmission rate proportioning is the proportioning of being undertaken between the transmission rate of transfer of data and the transmission rate of being carried out transfer of data by described mobile data network by described WLAN;

Based on described first transmission rate and described transmission rate proportioning, determine the second transmission rate by described mobile data network transmission data;

Control described transceiver 21 by described WLAN with described first data volume of described first transmission rate transmission, and by described mobile data network with described second data volume of described second transmission rate transmission.

Further, described processor 22 for:

Detect described first signal strength signal intensity and whether be changed to the secondary signal intensity different from described first signal strength signal intensity;

When described first change in signal strength is described secondary signal intensity, determine three transmission rate of by described WLAN being transmitted data corresponding with described secondary signal intensity, and determine the 4th transmission rate by described mobile data network transmission data;

When described first change in signal strength is described secondary signal intensity, be assigned as the 3rd data volume and the 4th data volume by needing the remaining data amount of transmission;

Control described transceiver 21 by described WLAN with described 3rd data volume of described 3rd transmission rate transmission, and by described mobile data network with described 4th data volume of described 4th transmission rate transmission.

Further, described processor 22 for:

Obtain the current maximum amount of data allowing transmission of described mobile data network;

Based on described maximum amount of data, data volume corresponding for described data content is assigned as the first data volume and the second data volume, wherein, described second data volume is less than or equal to described maximum amount of data.

Further, described electronic equipment also comprises: watch-dog, allows the remaining data amount of transmission for monitoring described mobile data network; Processor 22, for based on described remaining data amount, is determined by the transmission rate of described mobile data network transmission data and the transmission rate by described WLAN transmission data.

Further, described processor 22 also for:

Detect the signal to noise ratio of described WLAN;

Described signal to noise ratio be greater than first preset signal to noise ratio time, open the first data channel of described WLAN, and control described transceiver 21 and transmit described data content by described first data channel;

Described signal to noise ratio be less than second preset signal to noise ratio time, open the second data channel of described WLAN, and control described transceiver 21 and transmit described data content by described second data channel;

Wherein, described first presets signal to noise ratio is greater than the described second default signal to noise ratio, first band of described first data channel is wider than the second bandwidth of described second data channel, and the speed of carrying out Wireless Data Transmission with described first bandwidth is greater than the speed of carrying out Wireless Data Transmission with described second bandwidth.

Various variation pattern in information processing method in earlier figures 1 embodiment and instantiation are equally applicable to the electronic equipment of the present embodiment, by the aforementioned detailed description to information processing method, those skilled in the art clearly can know the implementation method of electronic equipment in the present embodiment, so succinct in order to specification, be not described in detail in this.

Embodiment three

Based on the inventive concept identical with the embodiment of the present application one, the embodiment of the present application three provides a kind of electronic equipment, please refer to Fig. 3, comprising:

Receiving element 31, for receiving radio data transmission request;

Response unit 32, for responding described Wireless Data Transmission request, transmits the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.

Further, described response unit 32, comprising:

First detection sub-unit, for detecting the first signal strength signal intensity of the described WLAN received;

First determines subelement, for determining the first signal strength signal intensity interval that described first signal strength signal intensity is corresponding;

First distributes subelement, for interval based on described first signal strength signal intensity, data volume corresponding for described data content is assigned as the first data volume and the second data volume;

First transmission subelement, for transmitting described first data volume and transmitting described second data volume by described mobile data network by described WLAN.

Further, described response unit 32, comprising:

Second determines subelement, for determining corresponding first transmission rate of by described WLAN being transmitted data interval with described first signal strength signal intensity in scheduled rate table;

3rd determines subelement, for determining corresponding transmission rate proportioning interval with described first signal strength signal intensity, wherein, described transmission rate proportioning is the proportioning of being undertaken between the transmission rate of transfer of data and the transmission rate of being carried out transfer of data by described mobile data network by described WLAN;

First process subelement, for based on described first transmission rate and described transmission rate proportioning, determines the second transmission rate by described mobile data network transmission data;

Second transmission subelement, for transmitting described first data volume by described WLAN with described first transmission rate, and by described mobile data network with described second data volume of described second transmission rate transmission.

Further, described response unit 32, comprising:

Whether the second detection sub-unit, be changed to the secondary signal intensity different from described first signal strength signal intensity for detecting described first signal strength signal intensity;

4th determines subelement, for when described first change in signal strength is described secondary signal intensity, determine three transmission rate of by described WLAN being transmitted data corresponding with described secondary signal intensity, and determine the 4th transmission rate by described mobile data network transmission data;

Second distributes subelement, when described first change in signal strength is described secondary signal intensity, is assigned as the 3rd data volume and the 4th data volume by needing the remaining data amount of transmission;

3rd transmission subelement, for transmitting described 3rd data volume by described WLAN with described 3rd transmission rate, and by described mobile data network with described 4th data volume of described 4th transmission rate transmission.

Further, described first distributes subelement, comprising:

Acquisition module, for obtaining the current maximum amount of data allowing transmission of described mobile data network;

Distribution module, for based on described maximum amount of data, is assigned as the first data volume and the second data volume by data volume corresponding for described data content, wherein, described second data volume is less than or equal to described maximum amount of data.

Further, described electronic equipment also comprises:

Monitoring unit, allows the remaining data amount of transmission for monitoring described mobile data network;

Determining unit, for based on described remaining data amount, determines by the transmission rate of described mobile data network transmission data and the transmission rate by described WLAN transmission data.

Further, described electronic equipment also comprises:

Detecting unit, for detecting the signal to noise ratio of described WLAN;

First control unit, when described signal to noise ratio is greater than the first default signal to noise ratio, opens the first data channel of described WLAN, and transmits described data content by described first data channel;

Second control unit, when described signal to noise ratio is less than the second default signal to noise ratio, opens the second data channel of described WLAN, and transmits described data content by described second data channel;

Wherein, described first presets signal to noise ratio is greater than the described second default signal to noise ratio, first band of described first data channel is wider than the second bandwidth of described second data channel, and the speed of carrying out Wireless Data Transmission with described first bandwidth is greater than the speed of carrying out Wireless Data Transmission with described second bandwidth.

Various variation pattern in information processing method in earlier figures 1 embodiment and instantiation are equally applicable to the electronic equipment of the present embodiment, by the aforementioned detailed description to information processing method, those skilled in the art clearly can know the implementation method of electronic equipment in the present embodiment, so succinct in order to specification, be not described in detail in this.

Above-mentioned one or more technical scheme in the embodiment of the present application, at least has one or more technique effects following:

One, the scheme in the embodiment of the present application, when receiving Wireless Data Transmission request, can carry out transfer of data by WLAN and mobile data network simultaneously.And in the prior art, the one in WLAN or mobile data network can only be selected to transmit data, and if select this wireless network signal poor time, message transmission rate must be affected.Namely, method in the embodiment of the present application is when carrying out Wireless Data Transmission, and do not rely on the signal strength signal intensity of a certain wireless network, therefore, scheme in the embodiment of the present application effectively can solve electronic equipment of the prior art when carrying out Wireless Data Transmission, exist because the signal of wireless network is more weak and affect the technical problem of Wireless Data Transmission speed, achieve and transmit data by WLAN and mobile data network simultaneously, and then promote the technique effect of message transmission rate.

Two, the scheme in the embodiment of the present application can determine the speed of being carried out transfer of data by WLAN based on the signal of WLAN.Because WLAN does not need to pay, therefore, in the good situation of WLAN intensity, pay the utmost attention to and carry out transfer of data by WLAN, namely promote the message transmission rate of WLAN.Visible, the scheme in the embodiment of the present application achieves under the prerequisite ensureing message transmission rate, reduces the technique effect of transfer of data cost.

Three, the scheme in the embodiment of the present application is in data transmission procedure, Real-Time Monitoring is carried out to the signal strength signal intensity of WLAN, when signal strength signal intensity changes, the speed of being carried out transfer of data by WLAN and mobile data network can be adjusted dynamically.As: when signal strength signal intensity grow, promote the message transmission rate of WLAN, reduce the message transmission rate of mobile data network; When signal strength signal intensity dies down, reduce the message transmission rate of WLAN, the message transmission rate of lifting mobile data network.Visible, the scheme in the embodiment of the present application achieves the technique effect of the message transmission rate being carried out dynamic assignment heterogeneous networks by the signal strength signal intensity of WLAN.

Four, the scheme in the embodiment of the present application is by detecting the data volume of the permission transmission of mobile data network, and the data volume controlling to be undertaken transmitting by mobile data network is less than or equal to the described data volume allowing to export.Ensure that in data transmission procedure can not the technique effect of excess flow maximum.Further, the remaining data amount of the scheme in the embodiment of the present application to mobile data network is monitored, and determines the message transmission rate of mobile data network and the message transmission rate of WLAN according to remaining data amount.As: when remaining data amount is larger, and the useful life of data volume near time, can pay the utmost attention to use mobile data network transmit, namely improve the message transmission rate of mobile data network.Therefore, the scheme in the embodiment of the present application can realize the technique effect of the message transmission rate carrying out dynamic assignment heterogeneous networks based on the data volume of mobile data network.

Five, in the scheme in the embodiment of the present application, WLAN comprises two data channel, first data channel and the second data channel, wherein, the band of the first data channel is wider than the bandwidth of the second data channel, and is greater than the speed of being carried out transfer of data by the second data channel by the speed that the first data channel carries out transfer of data.By the signal to noise ratio that Sampling network is current, open the first data channel when signal to noise ratio is higher, open the second data channel when signal to noise ratio is lower.Achieve and select corresponding data channel to transmit according to network state, improve the adaptability of transfer of data.

The present invention describes with reference to according to the flow chart of the method for the embodiment of the present invention, equipment (system) and computer program and/or block diagram.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can being provided to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computer or other programmable data processing device produce device for realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices is provided for the step realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

Specifically, the computer program instructions that information processing method in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, read by an electronic equipment when the computer program instructions corresponding with information processing method in storage medium or when being performed, comprise the steps:

Receiving radio data transmission request;

Respond described Wireless Data Transmission request, transmit the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.

Optionally, store in described storage medium with step: describedly transmitting computer program instructions corresponding to the data content corresponding with described Wireless Data Transmission request when being performed by WLAN and mobile data network simultaneously, comprising:

Detect the first signal strength signal intensity of the described WLAN received;

Determine the first signal strength signal intensity interval that described first signal strength signal intensity is corresponding;

Interval based on described first signal strength signal intensity, data volume corresponding for described data content is assigned as the first data volume and the second data volume;

By described WLAN described first data volume of transmission and by described second data volume of described mobile data network transmission.

Optionally, store in described storage medium with step: describedly transmitting computer program instructions corresponding to the data content corresponding with described Wireless Data Transmission request when being performed by WLAN and mobile data network simultaneously, comprising:

Corresponding first transmission rate of by described WLAN being transmitted data interval with described first signal strength signal intensity is determined in scheduled rate table;

Determine corresponding transmission rate proportioning interval with described first signal strength signal intensity, wherein, described transmission rate proportioning is the proportioning of being undertaken between the transmission rate of transfer of data and the transmission rate of being carried out transfer of data by described mobile data network by described WLAN;

Based on described first transmission rate and described transmission rate proportioning, determine the second transmission rate by described mobile data network transmission data;

By described WLAN with described first data volume of described first transmission rate transmission, and by described mobile data network with described second data volume of described second transmission rate transmission.

Optionally, store in described storage medium with step: describedly transmitting computer program instructions corresponding to the data content corresponding with described Wireless Data Transmission request when being performed by WLAN and mobile data network simultaneously, comprising:

Detect described first signal strength signal intensity and whether be changed to the secondary signal intensity different from described first signal strength signal intensity;

When described first change in signal strength is described secondary signal intensity, determine three transmission rate of by described WLAN being transmitted data corresponding with described secondary signal intensity, and determine the 4th transmission rate by described mobile data network transmission data;

When described first change in signal strength is described secondary signal intensity, be assigned as the 3rd data volume and the 4th data volume by needing the remaining data amount of transmission;

By described WLAN with described 3rd data volume of described 3rd transmission rate transmission, and by described mobile data network with described 4th data volume of described 4th transmission rate transmission.

Optionally, store in described storage medium with step: described the first data volume and computer program instructions corresponding to the second data volume of data volume corresponding for described data content being assigned as, when being performed, comprising:

Obtain the current maximum amount of data allowing transmission of described mobile data network;

Based on described maximum amount of data, data volume corresponding for described data content is assigned as the first data volume and the second data volume, wherein, described second data volume is less than or equal to described maximum amount of data.

Optionally, store in described storage medium with step: at described the first data volume and computer program instructions corresponding to data content corresponding to the second data volume of data volume corresponding for described data content being assigned as after being performed, also to perform computer program instructions corresponding to the following step:

Monitor the remaining data amount that described mobile data network allows transmission;

Based on described remaining data amount, determine by the transmission rate of described mobile data network transmission data and the transmission rate by described WLAN transmission data.

Optionally, store in described storage medium with step: transmit computer program instructions corresponding to the data content corresponding with described Wireless Data Transmission request before being executed by WLAN and mobile data network at the same time, also will perform computer program instructions corresponding to the following step:

Detect the signal to noise ratio of described WLAN;

When described signal to noise ratio is greater than the first default signal to noise ratio, opens the first data channel of described WLAN, and transmit described data content by described first data channel;

When described signal to noise ratio is less than the second default signal to noise ratio, opens the second data channel of described WLAN, and transmit described data content by described second data channel;

Wherein, described first presets signal to noise ratio is greater than the described second default signal to noise ratio, first band of described first data channel is wider than the second bandwidth of described second data channel, and the speed of carrying out Wireless Data Transmission with described first bandwidth is greater than the speed of carrying out Wireless Data Transmission with described second bandwidth.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (15)

1. an information processing method, comprising:

Receiving radio data transmission request;

Respond described Wireless Data Transmission request, transmit the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.

2. the method for claim 1, is characterized in that, described simultaneously by WLAN and the mobile data network transmission data content corresponding with described Wireless Data Transmission request, comprising:

Detect the first signal strength signal intensity of the described WLAN received;

Determine the first signal strength signal intensity interval that described first signal strength signal intensity is corresponding;

Interval based on described first signal strength signal intensity, data volume corresponding for described data content is assigned as the first data volume and the second data volume;

By described WLAN described first data volume of transmission and by described second data volume of described mobile data network transmission.

3. method as claimed in claim 2, is characterized in that, described simultaneously by WLAN and the mobile data network transmission data content corresponding with described Wireless Data Transmission request, comprising:

Corresponding first transmission rate of by described WLAN being transmitted data interval with described first signal strength signal intensity is determined in scheduled rate table;

Determine corresponding transmission rate proportioning interval with described first signal strength signal intensity, wherein, described transmission rate proportioning is the proportioning of being undertaken between the transmission rate of transfer of data and the transmission rate of being carried out transfer of data by described mobile data network by described WLAN;

Based on described first transmission rate and described transmission rate proportioning, determine the second transmission rate by described mobile data network transmission data;

By described WLAN with described first data volume of described first transmission rate transmission, and by described mobile data network with described second data volume of described second transmission rate transmission.

4. method as claimed in claim 3, is characterized in that, described simultaneously by WLAN and the mobile data network transmission data content corresponding with described Wireless Data Transmission request, comprising:

Detect described first signal strength signal intensity and whether be changed to the secondary signal intensity different from described first signal strength signal intensity;

When described first change in signal strength is described secondary signal intensity, determine three transmission rate of by described WLAN being transmitted data corresponding with described secondary signal intensity, and determine the 4th transmission rate by described mobile data network transmission data;

When described first change in signal strength is described secondary signal intensity, be assigned as the 3rd data volume and the 4th data volume by needing the remaining data amount of transmission;

By described WLAN with described 3rd data volume of described 3rd transmission rate transmission, and by described mobile data network with described 4th data volume of described 4th transmission rate transmission.

5. method as claimed in claim 2, is characterized in that, described data volume corresponding for described data content is assigned as the first data volume and the second data volume, comprising:

Obtain the current maximum amount of data allowing transmission of described mobile data network;

Based on described maximum amount of data, data volume corresponding for described data content is assigned as the first data volume and the second data volume, wherein, described second data volume is less than or equal to described maximum amount of data.

6. method as claimed in claim 5, is characterized in that, described data volume corresponding for described data content is assigned as the first data volume and the second data volume after, described method also comprises:

Monitor the remaining data amount that described mobile data network allows transmission;

Based on described remaining data amount, determine by the transmission rate of described mobile data network transmission data and the transmission rate by described WLAN transmission data.

7. the method for claim 1, is characterized in that, before transmitting the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network at the same time, described method also comprises:

Detect the signal to noise ratio of described WLAN;

When described signal to noise ratio is greater than the first default signal to noise ratio, opens the first data channel of described WLAN, and transmit described data content by described first data channel;

When described signal to noise ratio is less than the second default signal to noise ratio, opens the second data channel of described WLAN, and transmit described data content by described second data channel;

Wherein, described first presets signal to noise ratio is greater than the described second default signal to noise ratio, first band of described first data channel is wider than the second bandwidth of described second data channel, and the speed of carrying out Wireless Data Transmission with described first bandwidth is greater than the speed of carrying out Wireless Data Transmission with described second bandwidth.

8. an electronic equipment, comprising:

Input unit, for receiving radio data transmission request;

Transceiver;

Processor, for responding described Wireless Data Transmission request, controlling described transceiver and transmitting the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.

9. electronic equipment as claimed in claim 8, it is characterized in that, described processor is used for:

Detect the first signal strength signal intensity of the described WLAN received;

Determine the first signal strength signal intensity interval that described first signal strength signal intensity is corresponding;

Interval based on described first signal strength signal intensity, data volume corresponding for described data content is assigned as the first data volume and the second data volume;

Control described transceiver by described WLAN described first data volume of transmission and by described second data volume of described mobile data network transmission.

10. electronic equipment as claimed in claim 9, it is characterized in that, described processor is used for:

Corresponding first transmission rate of by described WLAN being transmitted data interval with described first signal strength signal intensity is determined in scheduled rate table;

Determine corresponding transmission rate proportioning interval with described first signal strength signal intensity, wherein, described transmission rate proportioning is the proportioning of being undertaken between the transmission rate of transfer of data and the transmission rate of being carried out transfer of data by described mobile data network by described WLAN;

Based on described first transmission rate and described transmission rate proportioning, determine the second transmission rate by described mobile data network transmission data;

Control described transceiver by described WLAN with described first data volume of described first transmission rate transmission, and by described mobile data network with described second data volume of described second transmission rate transmission.

11. electronic equipments as claimed in claim 10, it is characterized in that, described processor is used for:

Detect described first signal strength signal intensity and whether be changed to the secondary signal intensity different from described first signal strength signal intensity;

When described first change in signal strength is described secondary signal intensity, determine three transmission rate of by described WLAN being transmitted data corresponding with described secondary signal intensity, and determine the 4th transmission rate by described mobile data network transmission data;

When described first change in signal strength is described secondary signal intensity, be assigned as the 3rd data volume and the 4th data volume by needing the remaining data amount of transmission;

Control described transceiver by described WLAN with described 3rd data volume of described 3rd transmission rate transmission, and by described mobile data network with described 4th data volume of described 4th transmission rate transmission.

12. electronic equipments as claimed in claim 9, it is characterized in that, described processor is used for:

Obtain the current maximum amount of data allowing transmission of described mobile data network;

Based on described maximum amount of data, data volume corresponding for described data content is assigned as the first data volume and the second data volume, wherein, described second data volume is less than or equal to described maximum amount of data.

13. electronic equipments as claimed in claim 12, it is characterized in that, described electronic equipment also comprises: watch-dog, allows the remaining data amount of transmission for monitoring described mobile data network; Processor is used for based on described remaining data amount, determines by the transmission rate of described mobile data network transmission data and the transmission rate by described WLAN transmission data.

14. electronic equipments as claimed in claim 8, is characterized in that, described processor also for:

Detect the signal to noise ratio of described WLAN;

Described signal to noise ratio be greater than first preset signal to noise ratio time, open the first data channel of described WLAN, and control described transceiver and transmit described data content by described first data channel;

Described signal to noise ratio be less than second preset signal to noise ratio time, open the second data channel of described WLAN, and control described transceiver and transmit described data content by described second data channel;

Wherein, described first presets signal to noise ratio is greater than the described second default signal to noise ratio, first band of described first data channel is wider than the second bandwidth of described second data channel, and the speed of carrying out Wireless Data Transmission with described first bandwidth is greater than the speed of carrying out Wireless Data Transmission with described second bandwidth.

15. 1 kinds of electronic equipments, comprising:

Receiving element, for receiving radio data transmission request;

Response unit, for responding described Wireless Data Transmission request, transmits the data content corresponding with described Wireless Data Transmission request by WLAN and mobile data network simultaneously.