CN105791413A - Data transmission method and terminal device - Google Patents

Abstract

Embodiments of the invention disclose a data transmission method and a terminal device. In the method, a first operating system is used for controlling a first wireless fidelity module and a second wireless fidelity module, and a second operating system is only used for controlling the second wireless fidelity module. The method comprises the following steps: running the first operating system; receiving a data transmission instruction; determining whether the first wireless fidelity module and the second wireless fidelity module are in an open state in response to the data transmission instruction; and if the first wireless fidelity module and the second wireless fidelity module are in an open state, making the first wireless fidelity module and the second wireless fidelity module carry out transmission respectively from the two ends of a data packet to be transmitted. By implementing the embodiments of the invention, transmission can be carried out from the two ends of the data packet to be transmitted when the terminal device runs the first operating system, so the efficiency of data transmission is improved.

Description

A kind of data transmission method and terminal unit

Technical field

The present invention relates to mobile communication technology field, particularly relate to a kind of data transmission method and terminal unit.

Background technology

Development along with terminal unit technology, nearly all smart mobile phone, panel computer, the terminal units such as notebook computer all support Wireless Fidelity (WirelessFidelity, WIFI) network connection is carried out, but, when the network using WIFI equipment (such as wireless router) to connect, surf the Net when multiple terminal units are connected to same WIFI equipment simultaneously, or, when the transmitted data amount of terminal unit is bigger, when transmission speed is higher, the uploading of terminal unit/speed of download can become very slow, it could even be possible to communication disruption occurs, cause that data transmission bauds is slow, reduce the efficiency of transmission of data.

Summary of the invention

Embodiments provide a kind of data transmission method and terminal unit, when terminal unit runs the first operating system, it is possible to be transmitted respectively from the two ends of data to be transmitted bag, improve the efficiency of transmission of data.

Embodiment of the present invention first aspect discloses a kind of data transmission method, and the first operating system is used for controlling the first wireless fidelity module and the second wireless fidelity module, and the second operating system is only used for controlling the second wireless fidelity module, and described method includes:

Run described first operating system；

Receive data transfer instruction；

Respond described data transfer instruction and determine whether described first wireless fidelity module and described second wireless fidelity module are in opening；

If described first wireless fidelity module and described second wireless fidelity module are in opening, then control described first wireless fidelity module and described second wireless fidelity module is transmitted respectively from the two ends of data to be transmitted bag.

As the optional embodiment of one, before described first wireless fidelity module of described control and described second wireless fidelity module are transmitted respectively from the two ends of data to be transmitted bag, described method also includes:

Data to be transmitted bag is divided into N number of subdata bag, and wherein N is the integer more than 1；

Begin described N number of subdata bag is numbered by positive sequence from initial unwrapping.

As the optional embodiment of one, described first wireless fidelity module of described control and described second wireless fidelity module are transmitted respectively from the two ends of data to be transmitted bag, including:

Control described first wireless fidelity module and unwrap the transmission of beginning positive sequence from initial, and described second wireless fidelity module starts inverted order transmission from end packet.

As the optional embodiment of one, described method also includes:

Judge that whether the packet numbers of described first wireless fidelity module current transmission is identical with the packet numbers of described second wireless fidelity module current transmission；

If described first wireless fidelity module and described second wireless fidelity module are currently all at transmission packet i, and when described packet i is completely received, then stop data transmission, wherein, described packet i is any data bag in described data to be transmitted bag.

As the optional embodiment of one, after the described data transfer instruction of described response determines whether described first wireless fidelity module and described second wireless fidelity module are in opening, described method also includes:

If described first wireless fidelity module or described second wireless fidelity module are not in opening, then export information.

Embodiment of the present invention second aspect discloses a kind of terminal unit, and the first operating system is used for controlling the first wireless fidelity module and the second wireless fidelity module, and the second operating system is only used for controlling the second wireless fidelity module, and described terminal unit includes:

Running unit, is used for running described first operating system；

Receive unit, be used for receiving data transfer instruction；

Determine unit, be used for responding described data transfer instruction and determine whether described first wireless fidelity module and described second wireless fidelity module are in opening；

Control unit, for when described first wireless fidelity module and described second wireless fidelity module are in opening, controlling described first wireless fidelity module and described second wireless fidelity module be transmitted respectively from the two ends of data to be transmitted bag.

As the optional embodiment of one, described terminal unit also includes:

Division unit, for data to be transmitted bag is divided into N number of subdata bag, wherein N is the integer more than 1；

Numbered cell, for beginning described N number of subdata bag is numbered by positive sequence from initial unwrapping.

As the optional embodiment of one,

Described control unit, unwraps the transmission of beginning positive sequence specifically for controlling described first wireless fidelity module from initial, and described second wireless fidelity module starts inverted order transmission from end packet.

As the optional embodiment of one, described terminal unit also includes:

Judging unit, whether the packet numbers of packet numbers with described second wireless fidelity module current transmission for judging described first wireless fidelity module current transmission is identical；

Performance element, for currently all transmitting packet i at described first wireless fidelity module and described second wireless fidelity module, and when described packet i is completely received, stop data transmission, wherein, described packet i is any data bag in described data to be transmitted bag.

As the optional embodiment of one, described terminal unit also includes:

Tip element, for when described first wireless fidelity module or described second wireless fidelity module are not in opening, exporting information.

As can be seen from the above technical solutions, the embodiment of the present invention has the advantage that in embodiments of the present invention, the first operating system in terminal unit is used for controlling the first wireless fidelity module and the second wireless fidelity module, second operating system is only used for controlling the second wireless fidelity module, by running the first operating system in terminal unit, receive data transfer instruction, respond above-mentioned data transfer instruction and determine whether the first wireless fidelity module and the second wireless fidelity module are in opening, further, when the first wireless fidelity module and the second wireless fidelity module are in opening, control the first wireless fidelity module and the second wireless fidelity module to be transmitted respectively from the two ends of data to be transmitted bag.Implement the embodiment of the present invention, the first wireless fidelity module can be passed through when terminal unit runs the first operating system and the second wireless fidelity module is transmitted respectively from the two ends of data to be transmitted bag, improve the efficiency of transmission of data.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme in the embodiment of the present invention, below the accompanying drawing used required during embodiment is described is briefly introduced, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the schematic flow sheet of a kind of data transmission method disclosed in the embodiment of the present invention；

Fig. 2 is the schematic flow sheet of the disclosed another kind of data transmission method of the embodiment of the present invention；

Fig. 3 is the structural representation of a kind of terminal unit disclosed in the embodiment of the present invention；

Fig. 4 is the structural representation of the disclosed another kind of terminal unit of the embodiment of the present invention；

Fig. 5 is the structural representation of the disclosed another kind of terminal unit of the embodiment of the present invention.

Detailed description of the invention

In order to make the object, technical solutions and advantages of the present invention clearly, below in conjunction with accompanying drawing, the present invention is described in further detail, it is clear that described embodiment is only some embodiments of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, all other embodiments that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

Term " first " and " second " in description and claims of this specification and above-mentioned accompanying drawing are for distinguishing different object, not for describing particular order.Additionally, term " including " and their any deformation, it is intended that cover non-exclusive comprising.Such as contain series of steps or the process of unit, method, system, product or equipment are not limited to step or the unit listed, but also include step or the unit do not listed alternatively, or also include other step intrinsic for these processes, method, product or equipment or unit alternatively.

Embodiments provide a kind of data transmission method and terminal unit, when terminal unit runs the first operating system, it is possible to be transmitted respectively from the two ends of data to be transmitted bag, improve the efficiency of transmission of data.

In the embodiment of the present invention, terminal unit can include mobile phone, panel computer, personal digital assistant (PersonalDigitalAssistant, and mobile internet device (MobileInternetDevice PDA), all kinds of terminal units such as MID), the embodiment of the present invention is follow-up to be not repeated.Wherein, terminal unit includes two operating systems and two wireless fidelity modules, and the first operating system is used for controlling the first wireless fidelity module and the second wireless fidelity module, and the second operating system is only used for controlling the second wireless fidelity module.

Referring to Fig. 1, Fig. 1 is the schematic flow sheet of a kind of data transmission method disclosed in the embodiment of the present invention.In the method shown in Fig. 1, the first operating system is used for controlling the first wireless fidelity module and the second wireless fidelity module, and the second operating system is only used for controlling the second wireless fidelity module, and wherein, the data transmission method shown in Fig. 1 may comprise steps of:

101, the first operating system is run；

In the embodiment of the present invention, terminal unit can support that dual system is run, and in terminal unit, it is previously provided with two independent wireless fidelity modules, use to dual system respectively, respective wireless fidelity module can be independently controlled by dual system, such as the first operating system is corresponding with the first wireless fidelity module, second operating system is corresponding with the second wireless fidelity module, first operating system can be opened or close the first wireless fidelity module, second operating system can be opened or close the second wireless fidelity module, and the first wireless fidelity module and the second wireless fidelity module may be coupled to identical or different WIFI hot spot.

As the optional embodiment of one, first operating system can represent SOS, second operating system can represent normal operating system, and the first wireless fidelity module and the second wireless fidelity module can be controlled in SOS, normal operating system is only capable of control the second wireless fidelity module, avoid operating in normal operating system or controlling the data in security system, improve the safety of data in security system.

As the optional embodiment of one, when terminal unit opening initialization, perform power-up initializing and the function self-inspection of the first wireless fidelity module and the second wireless fidelity module successively, and after completing self-inspection, all enter park mode to save electricity, if user enters SOS or normal operating system, can wireless fidelity module corresponding to selectively unlocking, now, the wireless fidelity module being unlocked will move out resting state and enters duty, the wireless fidelity module that another one is not turned on continues to keep resting state, when user closes some wireless fidelity module, this wireless fidelity module then enters into resting state, the power supply of two wireless fidelity modules is closed after terminal unit shuts down.

As the optional embodiment of one, when carrying out data transmission in the first operating system (i.e. SOS), it is possible to use the first wireless fidelity module and the second wireless fidelity module carry out dual-channel transmission.User can pass through long closing key of pressing and select to enter SOS from the dialog box ejected, or the SOS icon on click display screen enters SOS, or entering SOS by Voice command, concrete which kind of mode of employing enters the SOS embodiment of the present invention and does not do uniqueness restriction.

102, data transfer instruction is received；

In the embodiment of the present invention, controlling terminal unit by step 101 and enter the first operating system, in the first operating system, if needing transmission data, such as uploading/downloading data resource, then user can click and upload/download button.

103, respond above-mentioned data transfer instruction and determine whether the first wireless fidelity module and the second wireless fidelity module are in opening；

In the embodiment of the present invention, after terminal unit receives data transfer instruction by step 102, this terminal unit responds above-mentioned data transfer instruction, and determines whether the first wireless fidelity module in the first operating system and the second wireless fidelity module in the second operating system are in opening.

If 104 first wireless fidelity modules and the second wireless fidelity module are in opening, then control the first wireless fidelity module and the second wireless fidelity module and be transmitted respectively from the two ends of data to be transmitted bag.

In the embodiment of the present invention, after the judgement of step 103, if the first wireless fidelity module and the second wireless fidelity module are in opening, the first wireless fidelity module and the second wireless fidelity module then can be utilized to be transmitted respectively from the two ends of data to be transmitted bag, the end of transmission is then represented when being transferred to identical packet, if the data of uploading, the packet received is attached by network equipment side in order, can obtain complete data, if download data, the packet of download is attached obtaining complete data by terminal equipment side in order.

In the method described by Fig. 1, when terminal unit runs the first operating system, it is possible to be transmitted respectively from the two ends of data to be transmitted bag, improve the efficiency of transmission of data.

Further, the schematic flow sheet that Fig. 2, Fig. 2 are the disclosed another kind of data transmission methods of the embodiment of the present invention is referred to.In the method shown in Fig. 2, the first operating system is used for controlling the first wireless fidelity module and the second wireless fidelity module, and the second operating system is only used for controlling the second wireless fidelity module, and wherein, the data transmission method shown in Fig. 2 may comprise steps of:

201, the first operating system is run；

202, data transfer instruction is received；

203, respond above-mentioned data transfer instruction and determine whether the first wireless fidelity module and the second wireless fidelity module are in opening；

If 204 first wireless fidelity modules or the second wireless fidelity module are not in opening, then export information；

In the embodiment of the present invention, terminal unit is made to run the first operating system by step 201～step 203, receive data transfer instruction, determine whether the first wireless fidelity module in the first operating system and the second wireless fidelity module in the second operating system are in opening, if both have one to be not in opening or two wireless fidelity modules are not located in opening, then exporting information by terminal unit, prompting user opens the wireless fidelity module of correspondence.This information can represent with the form of pop-up box, can specifically write out the title of the wireless fidelity module not started in pop-up box.

If 205 first wireless fidelity modules and the second wireless fidelity module are in opening, then data to be transmitted bag being divided into N number of subdata bag, wherein N is the integer more than 1；

In the embodiment of the present invention, first operating system can control the first wireless fidelity module and the second wireless fidelity module, if the first wireless fidelity module in the first operating system and the second wireless fidelity module in the second operating system are in opening, the first wireless fidelity module can be passed through and the second wireless fidelity module is transmitted respectively from the two ends of data to be transmitted bag, before being transmitted, data to be transmitted bag can be divided into N number of subdata bag, and wherein N is the integer more than 1.

206, begin above-mentioned N number of subdata bag is numbered by positive sequence from initial unwrapping；

After data to be transmitted bag is divided into N number of subdata bag, begin each subdata bag of above-mentioned N is numbered by positive sequence from initial unwrapping.

207, control the first wireless fidelity module and unwrap the transmission of beginning positive sequence from initial, and the second wireless fidelity module starts inverted order transmission from end packet；

After data to be transmitted bag being divided into N number of subdata bag by step 205 and step 206 and is numbered, the first wireless fidelity module that can control in the first operating system unwraps the transmission of beginning positive sequence from initial, and the second wireless fidelity module in the second operating system starts inverted order transmission from end packet.For example, it is possible to packet waiting for transmission is divided into 1,2,3,4,5,6,7,8 have eight packets altogether, then the first wireless fidelity module unwraps the transmission of beginning positive sequence from the 1st number, and the second wireless fidelity module unwraps the transmission of beginning inverted order from the 8th number.

208, judge that whether the packet numbers of the first wireless fidelity module current transmission is identical with the packet numbers of the second wireless fidelity module current transmission；

If 209 first wireless fidelity modules and the second wireless fidelity module are currently all at transmission packet i, and when packet i is completely received, then stop data transmission, wherein, above-mentioned packet i is any data bag in data to be transmitted bag.

The first wireless fidelity module from initial unwrap the transmission of beginning positive sequence and the second wireless fidelity module start inverted order transmission from end packet time, monitor the packet numbers of the first wireless fidelity module current transmission and the packet numbers of the second wireless fidelity module current transmission in real time, and judge that whether two packet numbers are identical, if the first wireless fidelity module and the second wireless fidelity module are currently all at transmission packet i, and packet i is when being completely received, then stop data transmission, wherein, above-mentioned packet i is any data bag in data to be transmitted bag.Such as, first wireless fidelity module is transmitting the 5th number bag, now the second wireless fidelity module is also transmitting the 5th number bag, then after the 5th number bag end of transmission, stopping data transmission, the packet finally at data receiver, the first wireless fidelity module and the second wireless fidelity module transmitted merges by sequence number, can obtain complete data.If the data of uploading, then in network equipment side, packet being merged, if downloading data, then in terminal equipment side, packet being merged.

In the method described by Fig. 2, when terminal unit runs the first operating system, it is possible to be transmitted respectively from the two ends of data to be transmitted bag, improve the efficiency of transmission of data.

Refer to Fig. 3, Fig. 3 is the structural representation of a kind of terminal unit disclosed in the embodiment of the present invention, wherein, first operating system is used for controlling the first wireless fidelity module and the second wireless fidelity module, second operating system is only used for controlling the second wireless fidelity module, as it is shown on figure 3, this terminal unit may include that

Running unit 301, is used for running the first operating system；

In the embodiment of the present invention, terminal unit can support that dual system is run, and in terminal unit, it is previously provided with two independent wireless fidelity modules, use to dual system respectively, respective wireless fidelity module can be independently controlled by dual system, such as the first operating system is corresponding with the first wireless fidelity module, second operating system is corresponding with the second wireless fidelity module, first operating system can be opened or close the first wireless fidelity module, second operating system can be opened or close the second wireless fidelity module, and the first wireless fidelity module and the second wireless fidelity module may be coupled to identical or different WIFI hot spot.

As the optional embodiment of one, first operating system can represent SOS, second operating system can represent normal operating system, and the first wireless fidelity module and the second wireless fidelity module can be controlled in SOS, normal operating system is only capable of control the second wireless fidelity module, avoid operating in normal operating system or controlling the data in security system, improve the safety of data in security system.

As the optional embodiment of one, when carrying out data transmission in the first operating system (i.e. SOS), it is possible to use the first wireless fidelity module and the second wireless fidelity module carry out dual-channel transmission.

Receive unit 302, be used for receiving data transfer instruction；

Determine unit 303, be used for responding above-mentioned data transfer instruction and determine whether the first wireless fidelity module and the second wireless fidelity module are in opening；

Control unit 304, for when the first wireless fidelity module and the second wireless fidelity module are in opening, controlling the first wireless fidelity module and the second wireless fidelity module and be transmitted respectively from the two ends of data to be transmitted bag.

In the embodiment of the present invention, after entering the first operating system by running unit 301, data transfer instruction is received by receiving unit 302, the data transfer instruction being determined by unit 303 response reception unit 302 determines whether the first wireless fidelity module and the second wireless fidelity module are in opening, control unit 304, when the first wireless fidelity module and the second wireless fidelity module are in opening, control the first wireless fidelity module and the second wireless fidelity module and is transmitted respectively from the two ends of data to be transmitted bag.

In the terminal unit described by Fig. 3, when terminal unit runs the first operating system, it is possible to be transmitted respectively from the two ends of data to be transmitted bag, improve the efficiency of transmission of data.

See also the structural representation that Fig. 4, Fig. 4 are the disclosed another kind of terminal units of the embodiment of the present invention.Wherein, the terminal unit shown in Fig. 4 is that terminal unit as shown in Figure 3 is optimized and obtains, and compared with the terminal unit shown in Fig. 3, the terminal unit shown in Fig. 4 also includes:

Tip element 305, for when the first wireless fidelity module or the second wireless fidelity module are not in opening, exporting information.

In the embodiment of the present invention, after being determined by unit 303 and determining whether the first wireless fidelity module and the second wireless fidelity module are in opening, if the first wireless fidelity module or the second wireless fidelity module are not in opening, then export information, be used for pointing out user to open corresponding wireless fidelity module.

Alternatively, the terminal unit shown in Fig. 4 can also include:

Division unit 306, for data to be transmitted bag is divided into N number of subdata bag, wherein N is the integer more than 1；

Numbered cell 307, for beginning above-mentioned N number of subdata bag is numbered by positive sequence from initial unwrapping.

In the embodiment of the present invention, it is determined by after unit 303 determines whether the first wireless fidelity module and the second wireless fidelity module are in opening, if the first wireless fidelity module and the second wireless fidelity module are in opening, then by division unit 306, data to be transmitted bag is divided into N number of subdata bag, wherein N is the integer more than 1, then passes through numbered cell 307 and begins above-mentioned N number of subdata bag is numbered by positive sequence from initial unwrapping.

Alternatively, in terminal unit as shown in Figure 4,

Control unit 304, unwraps the transmission of beginning positive sequence specifically for controlling the first wireless fidelity module from initial, and the second wireless fidelity module starts inverted order transmission from end packet.

In the embodiment of the present invention, after by division unit 306 and numbered cell 307 packet to be transmitted being divided and numbers, control unit 304 controls the first wireless fidelity module and unwraps the transmission of beginning positive sequence from initial, and the second wireless fidelity module starts inverted order transmission from end packet.

Alternatively, the terminal unit shown in Fig. 4 can also include:

Judging unit 308, whether the packet numbers of packet numbers with the second wireless fidelity module current transmission for judging the first wireless fidelity module current transmission is identical；

Performance element 309, for currently all transmitting packet i at the first wireless fidelity module and the second wireless fidelity module, and when packet i is completely received, stops data transmission, and wherein, above-mentioned packet i is any data bag in data to be transmitted bag.

In the embodiment of the present invention, control unit 304 controls the first wireless fidelity module and unwraps the transmission of beginning positive sequence from initial, and second wireless fidelity module from end packet start inverted order transmission after, judging unit 308 monitors the packet numbers of the first wireless fidelity module current transmission and the packet numbers of the second wireless fidelity module current transmission in real time, and judge that whether both packet numbers are identical, performance element 309 is currently all transmitting packet i at the first wireless fidelity module and the second wireless fidelity module, and packet i is when being completely received, stop data transmission, wherein, above-mentioned packet i is any data bag in data to be transmitted bag.

In the embodiment of the present invention, above-mentioned unit or subelement can merge according to actual needs, divide and delete.

Refer to the structural representation that Fig. 5, Fig. 5 are the disclosed another kind of terminal units of the embodiment of the present invention.Wherein, in the terminal unit shown in Fig. 5, the first operating system is used for controlling the first wireless fidelity module and the second wireless fidelity module, and the second operating system is only used for controlling the second wireless fidelity module.As it is shown in figure 5, this terminal unit may include that

The assemblies such as input block 501, processor unit 502, output unit 503, memory element the 504, first wireless fidelity module the 505, second wireless fidelity module 506 and power supply 507.These assemblies are communicated by one or more bus.It will be appreciated by those skilled in the art that, the structure of the terminal unit shown in Fig. 5 is not intended that limitation of the invention, it both can be busbar network, it can also be hub-and-spoke configuration, parts more more or less of than the structure shown in Fig. 5 can also be included, or combine some parts, or different parts are arranged.In embodiments of the present invention, the terminal unit shown in Fig. 5 includes but not limited to the various terminal units such as mobile phone, removable computer, panel computer, personal digital assistant (PersonalDigitalAssistant, PDA).

Input block 501 is input in terminal unit with the mutual of terminal unit and/or information for realizing user.In the specific embodiment of the invention, input block 501 can be contact panel, and contact panel also referred to as touch screen or touch screen, can be collected user and touch thereon or close operational motion.Such as user uses the operational motion of any applicable object such as finger, stylus or the adnexa position on contact panel or close to contact panel, and drives corresponding connecting device according to formula set in advance.Optionally, contact panel can include touch detecting apparatus and two parts of touch controller.Wherein, the touch operation of touch detecting apparatus detection user, and the touch operation detected is converted to the signal of telecommunication, and send the signal of telecommunication to touch controller；Touch controller receives the signal of telecommunication from touch detecting apparatus, and is converted into contact coordinate, then gives processor unit 502.Touch controller can also receive order that processor unit 502 sends and perform.Furthermore, it is possible to adopt the polytypes such as resistance-type, condenser type, infrared ray (Infrared) and surface acoustic wave to realize contact panel.

Processor unit 502 is the control centre of terminal unit, utilize various interface and the various piece of the whole terminal unit of connection, it is stored in the program code in memory element 504 and/or module by running or performing, and call the data being stored in memory element 504, to perform the various functions of terminal unit and/or to process data.Processor unit 502 can by integrated circuit (IntegratedCircuit is called for short IC) composition, for instance can be made up of the IC of single encapsulation, it is also possible to be made up of the encapsulation IC connecting many identical functions or difference in functionality.For example, processor unit 502 can only include central processing unit (CentralProcessingUnit, it is called for short CPU), can also be CPU, digital signal processor (digitalsignalprocessor, be called for short DSP), the combination of control chip (such as baseband chip) in graphic process unit (GraphicProcessingUnit, be called for short GPU) and communication unit.In embodiments of the present invention, CPU can be single arithmetic core, it is also possible to include multioperation core.

Output unit 503 can include but not limited to image output unit, voice output and sense of touch output unit.Image output unit is for output character, picture and/or video.Image output unit can include display floater, for example with LCD (LiquidCrystalDisplay, liquid crystal display), OLED (OrganicLight-EmittingDiode, Organic Light Emitting Diode), the display floater that configures of the form such as Field Emission Display (fieldemissiondisplay, be called for short FED).Or image output unit can include reflected displaying device, for instance electrophoresis-type (electrophoretic) display, or utilize the display of interference of light modulation tech (InterferometricModulationofLight).Image output unit can include individual monitor or various sizes of multiple display.In the specific embodiment of the present invention, the contact panel that above-mentioned input block 501 adopts also can simultaneously as the display floater of output unit 503.Although in Figure 5, input block 501 and output unit 503 are to realize input and the output function of intelligent terminal as two independent parts, but in some embodiments it is possible to by integrated to contact panel and display floater and realize input and the output function of intelligent terminal.

Memory element 504 can be used for storing program code and module, and processor unit 502 is stored in program code and the module of memory element 504 by running, thus performing the various functions application of terminal unit and realizing data process.Memory element 504 mainly includes program storage area and data storage area, wherein, program storage area can store the program code needed for operating system, at least one function, such as run the first operating system, receive data transfer instruction, determine whether the first wireless fidelity module 505 and the second wireless fidelity module 506 are in opening, and when being both in opening, control the first wireless fidelity module 505 and the second wireless fidelity module 506 is transmitted respectively from the two ends of data to be transmitted bag；Data storage area can store the data (such as video/audio, text data etc.) etc. that the use according to terminal unit creates.nullIn the specific embodiment of the invention，Memory element 504 can include volatile memory，Such as non-volatile DRAM (Dynamic Random Access Memory) (NonvolatileRandomAccessMemory，It is called for short NVRAM)、Phase change random access memory (PhaseChangeRAM，It is called for short PRAM)、Magnetic-resistance random access memory (MagetoresistiveRAM，It is called for short MRAM) etc.，Nonvolatile memory can also be included，Such as at least one disk memory、Electronics can be erased and can be planned read only memory (ElectricallyErasableProgrammableRead-OnlyMemory，It is called for short EEPROM)、Flush memory device，Such as anti-or flash memory (NORflashmemory) or anti-and flash memory (NANDflashmemory).Nonvolatile storage stores the operating system performed by processor unit and program code.Processor unit is stored in mass storage from nonvolatile storage load operating program and data to internal memory and by digital content.Operating system includes for controlling and managing general system tasks, for instance memory management, storage device control, power management etc., and contributes to various assemblies and/or the driver of communication between various software and hardware.In embodiments of the present invention, operating system can be the Windows operating system etc. of the android system of Google company, the iOS system of Apple company exploitation or Microsoft Corporation exploitation, or the embedded OS that Vxworks is this kind of.

First wireless fidelity module 505 and the second wireless fidelity module 506 can be connected to identical or different WIFI hot spot, and in the dual system of terminal unit, first operating system can control the first wireless fidelity module 505 and the second wireless fidelity module 506, and the second operating system is only used for controlling the second wireless fidelity module 506.

Power supply 507 runs for being powered maintaining it to the different parts of terminal unit.Understanding as generality, power supply 507 can be built-in battery, for instance common lithium ion battery, Ni-MH battery etc., also includes directly to the external power supply of power terminal equipment, for instance AC adapter etc..In certain embodiments of the present invention, power supply 507 can also be made more to define widely, such as can also include power-supply management system, charging system, power failure detection circuit, power supply changeover device or inverter, power supply status indicator (such as light emitting diode), and generate, manage and be distributed other any assemblies being associated with the electric energy of terminal unit.

In the terminal unit shown in Fig. 5, processor unit 502 can call the program code of storage in memory element 504, is used for performing following operation:

Run the first operating system of memory element 504 storage；

Receive the data transfer instruction that user is inputted by input block 501；

Respond above-mentioned data transfer instruction and determine whether the first wireless fidelity module 505 and the second wireless fidelity module 506 are in opening；

If the first wireless fidelity module 505 and the second wireless fidelity module 506 are in opening, then control the first wireless fidelity module 505 and the second wireless fidelity module 506 is transmitted respectively from the two ends of data to be transmitted bag.

As the optional embodiment of another kind, processor unit 502 calls the program code of storage in memory element 504, is additionally operable to perform following operation:

If the first wireless fidelity module 505 or the second wireless fidelity module 506 are not in opening, then export information by output unit 503.

As the optional embodiment of another kind, processor unit 502 calls the program code of storage in memory element 504, is additionally operable to perform following operation:

If the first wireless fidelity module 505 and the second wireless fidelity module 506 are in opening, then data to be transmitted bag being divided into N number of subdata bag, wherein N is the integer more than 1；

Begin above-mentioned N number of subdata bag is numbered by positive sequence from initial unwrapping；

Control the first wireless fidelity module 505 and unwrap the transmission of beginning positive sequence from initial, and the second wireless fidelity module 506 starts inverted order transmission from end packet.

As the optional embodiment of another kind, processor unit 502 calls the program code of storage in memory element 504, is additionally operable to perform following operation:

Judge that whether the packet numbers of the first wireless fidelity module 505 current transmission is identical with the packet numbers of the second wireless fidelity module 506 current transmission；

If the first wireless fidelity module 505 and the second wireless fidelity module 506 are current all at transmission packet i, and when packet i is completely received, then stop data transmission, wherein, above-mentioned packet i is any data bag in data to be transmitted bag.

In the terminal unit described by Fig. 5, when terminal unit runs the first operating system, it is possible to be transmitted respectively from the two ends of data to be transmitted bag, improve the efficiency of transmission of data.

It should be noted that in the embodiment of above-mentioned terminal unit, included unit is carry out dividing according to function logic, but is not limited to above-mentioned division, as long as being capable of corresponding function；It addition, the concrete title of each functional unit is also only to facilitate mutually distinguish, it is not limited to protection scope of the present invention.

In the above-described embodiments, the description of each embodiment is all emphasized particularly on different fields, certain embodiment there is no the part described in detail, it is possible to referring to the associated description of other embodiments.

Additionally, one of ordinary skill in the art will appreciate that all or part of step realized in above-mentioned each embodiment of the method can be by the hardware that program carrys out instruction relevant and completes, corresponding 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..

These are only the present invention preferably detailed description of the invention; but protection scope of the present invention is not limited thereto; any those familiar with the art in the technical scope that the embodiment of the present invention discloses, the change that can readily occur in or replacement, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with scope of the claims.

Claims (10)

1. a data transmission method, it is characterised in that the first operating system is used for controlling the first wireless fidelity module and the second wireless fidelity module, and the second operating system is only used for controlling the second wireless fidelity module, and described method includes:

Run described first operating system；

Receive data transfer instruction；

Respond described data transfer instruction and determine whether described first wireless fidelity module and described second wireless fidelity module are in opening；

If described first wireless fidelity module and described second wireless fidelity module are in opening, then control described first wireless fidelity module and described second wireless fidelity module is transmitted respectively from the two ends of data to be transmitted bag.

2. method according to claim 1, it is characterised in that before described first wireless fidelity module of described control and described second wireless fidelity module are transmitted respectively from the two ends of data to be transmitted bag, described method also includes:

Data to be transmitted bag is divided into N number of subdata bag, and wherein N is the integer more than 1；

Begin described N number of subdata bag is numbered by positive sequence from initial unwrapping.

3. method according to claim 2, it is characterised in that described first wireless fidelity module of described control and described second wireless fidelity module are transmitted respectively from the two ends of data to be transmitted bag, including:

Control described first wireless fidelity module and unwrap the transmission of beginning positive sequence from initial, and described second wireless fidelity module starts inverted order transmission from end packet.

4. method according to claim 3, it is characterised in that described method also includes:

Judge that whether the packet numbers of described first wireless fidelity module current transmission is identical with the packet numbers of described second wireless fidelity module current transmission；

If described first wireless fidelity module and described second wireless fidelity module are currently all at transmission packet i, and when described packet i is completely received, then stop data transmission, wherein, described packet i is any data bag in described data to be transmitted bag.

5. method according to Claims 1-4 any one, it is characterised in that after the described data transfer instruction of described response determines whether described first wireless fidelity module and described second wireless fidelity module are in opening, described method also includes:

If described first wireless fidelity module or described second wireless fidelity module are not in opening, then export information.

6. a terminal unit, it is characterised in that the first operating system is used for controlling the first wireless fidelity module and the second wireless fidelity module, and the second operating system is only used for controlling the second wireless fidelity module, and described terminal unit includes:

Running unit, is used for running described first operating system；

Receive unit, be used for receiving data transfer instruction；

Determine unit, be used for responding described data transfer instruction and determine whether described first wireless fidelity module and described second wireless fidelity module are in opening；

Control unit, for when described first wireless fidelity module and described second wireless fidelity module are in opening, controlling described first wireless fidelity module and described second wireless fidelity module be transmitted respectively from the two ends of data to be transmitted bag.

7. terminal unit according to claim 6, it is characterised in that described terminal unit also includes:

Division unit, for data to be transmitted bag is divided into N number of subdata bag, wherein N is the integer more than 1；

Numbered cell, for beginning described N number of subdata bag is numbered by positive sequence from initial unwrapping.

8. terminal unit according to claim 7, it is characterised in that

Described control unit, unwraps the transmission of beginning positive sequence specifically for controlling described first wireless fidelity module from initial, and described second wireless fidelity module starts inverted order transmission from end packet.

9. terminal unit according to claim 8, it is characterised in that described terminal unit also includes:

Judging unit, whether the packet numbers of packet numbers with described second wireless fidelity module current transmission for judging described first wireless fidelity module current transmission is identical；

Performance element, for currently all transmitting packet i at described first wireless fidelity module and described second wireless fidelity module, and when described packet i is completely received, stop data transmission, wherein, described packet i is any data bag in described data to be transmitted bag.

10. terminal unit according to Claims 1-4 any one, it is characterised in that described terminal unit also includes:

Tip element, for when described first wireless fidelity module or described second wireless fidelity module are not in opening, exporting information.