CN105722060A - Mobile terminal and communication method thereof - Google Patents

Abstract

The invention discloses a mobile terminal and a communication method thereof, and specifically, a first modem acquires information of a first subscriber identity module card, communicates with a first LTE network according to the information of the first subscriber identity module card and performs a voice service and a data service; a second modem acquires information of a second subscriber identity module card, communicates with a second LTE network according to the information of the second subscriber identity module card and performs the voice service and the data service; when a WiFi service sub-module receives a WiFi connection command sent by a WiFi application sub-module, the WiFi service sub-module sends the command to a WiFi processing sub-module; the WiFi processing sub-module sends state information of the WiFi connection to the WiFi service sub-module according to the command and corresponding protocols; when the WiFi service sub-module determines that WiFi connection is successful according to the state information, and the WiFi processing sub-module is in a preset communication state, the WiFi service sub-module starts route configuration. With the mobile terminal and the communication method thereof, accessing efficiency of a mobile terminal network is improved.

Description

Mobile terminal and communication means thereof

Technical field

The present invention relates to technical field of mobile terminals, be specifically related to a kind of mobile terminal and communication means thereof.

Background technology

The double-terminal 95% of existing market all supports a card online, and another card can be made a phone call.But seldom terminal can support that two SIM (SubscribeIdentityModule, Subscriber Identity Module) card is surfed the Net simultaneously.Terminal up-to-date at present can realize two SIM cards and can surf the Net simultaneously, if but 4G (the4thGenerationMobileCommunicationTechnology on a SIM card, forth generation mobile communication technology) LTE (LongTermEvolution, Long Term Evolution), another card can only go up 3G (3rdGeneration, G mobile communication) network, two SIM cards can not use 4G network simultaneously.And existing mobile terminal generally comprises a modem device and an application processor, wherein, modem has been used for protocol processes, and for the communication data of transmitting-receiving is modulated demodulation, to realize the functions such as communication with external communication device.Application processor, for processing the logical operation of complexity and carrying out task distribution, provides the user interactive interface, runs operating system etc..

In order to extend the communication function of mobile terminal, when needing to increase new modem and application processor, but increasing on the basis of new modem and application processor, the protocol stack of mobile terminal or only one of which WiFi chip and correspondence and upper layer application, only support the connection to a Wi-Fi hotspot, and the impact of factor such as limit and the mobile terminal quantity that is connected with Wi-Fi hotspot is too much due to the bandwidth of WiFi, cause that the access efficiency of network is relatively low.

Foregoing is only used for assisting understanding technical scheme, does not represent and admits that foregoing is prior art.

Summary of the invention

The present invention provides a kind of mobile terminal and communication means thereof, it is intended to solve the technical problem that the access efficiency of network is relatively low.

Based on the problems referred to above, the present invention provides a kind of mobile terminal, described mobile terminal includes the first WiFi module, the second WiFi module, WiFi Attendant sub-module, audio-frequency module, the first modem and second modem, wherein, described first WiFi module includes a WiFi application submodule and a WiFi processes submodule, and described second WiFi module includes the 2nd WiFi application submodule and the 2nd WiFi processes submodule；

Described first modem, for obtaining the information of first user identification card, according to the information of described first user identification card and the first LTE network communication, carries out speech business and data service；

Described second modem, for obtaining the information of the second Subscriber Identity Module, according to the information of described second Subscriber Identity Module and the second LTE network communication, carries out speech business and data service；

A described WiFi processes submodule or described 2nd WiFi processes submodule, for carrying out data service when described first modem carries out data service and/or described second modem by described first LTE network by described second LTE network, and when receiving WiFi link order, described WiFi link order is sent to described WiFi Attendant sub-module；

Described WiFi Attendant sub-module, for when receiving described WiFi link order, the described WiFi that described WiFi link order is sent to correspondence processes submodule or described 2nd WiFi process submodule；

A described WiFi processes submodule or described 2nd WiFi processes submodule, sends the WiFi status information connected to described WiFi Attendant sub-module for the agreement according to described WiFi link order and correspondence；

Described WiFi Attendant sub-module, it is additionally operable to determine that WiFi is successfully connected according to described status information, and a described WiFi processes submodule and/or described 2nd WiFi processes submodule when being in default communications status, the routing configuration of the corresponding routing configuration starting single WiFi data or double; two WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service.

Alternatively, described WiFi Attendant sub-module, it is additionally operable to when determining that WiFi is successfully connected according to described status information, sends the acquisition instruction obtaining IP address and process submodule and described 2nd WiFi process submodule to a described WiFi；

A described WiFi processes submodule and described 2nd WiFi processes submodule, is additionally operable to send corresponding IP address to described WiFi Attendant sub-module according to described acquisition instruction；

Described WiFi Attendant sub-module, is additionally operable to determine that a described WiFi processes submodule and described 2nd WiFi processes whether submodule is in default communications status according to the IP address obtained；

Described WiFi Attendant sub-module, if being additionally operable to a described WiFi process submodule or described 2nd WiFi processing submodule and is in default communications status, then start the routing configuration of single WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service；

Described WiFi Attendant sub-module, if being additionally operable to a described WiFi process submodule and described 2nd WiFi processing submodule and is in presetting communications status, then start the routing configuration of double; two WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service.

Alternatively, a described WiFi process submodule includes the first WiFi framework unit, a WiFi protocol element and the first WiFi chip；Described 2nd WiFi processes submodule and includes the second WiFi framework unit, the 2nd WiFi protocol element and the second WiFi chip；

Described first WiFi framework unit or described second WiFi framework unit, it is additionally operable to when receiving described WiFi link order, obtain the relevant information of WiFi, and be sent to a described WiFi protocol element or described 2nd WiFi protocol element by corresponding with described WiFi link order for described relevant information；

A described WiFi protocol element or described 2nd WiFi protocol element, it is additionally operable to when receiving described relevant information and described WiFi link order, select corresponding agreement according to described relevant information, and be sent to described first WiFi chip or described second WiFi chip by corresponding with described WiFi link order for described agreement；

Described first WiFi chip or described second WiFi chip, when being additionally operable to receive described agreement and described WiFi link order, connect according to described agreement and described WiFi link order correspondence establishment WiFi, and the status information that described WiFi connects is sent to described WiFi Attendant sub-module.

Alternatively, described WiFi Attendant sub-module, it is additionally operable to WiFi status information is sent to a described WiFi application submodule or described 2nd WiFi application submodule；

A described WiFi application submodule or described 2nd WiFi application submodule, when being additionally operable to receive described status information, export information according to described status information.

Alternatively, described mobile terminal also includes coding/decoding module and the first data processing module；

Described audio-frequency module, is used for gathering voice signal, and described voice signal is sent to coding/decoding module；

Described coding/decoding module, for when receiving described voice signal, being transferred to the first data processing module after described voice signal is carried out analog digital conversion；

Described first data processing module, for carrying out Audio Processing and being transferred to described first modem to the described voice signal received.

Alternatively, described mobile terminal the second data processing module；

Described first data processing module, is transferred to the second data processing module after being additionally operable to the described voice signal received is carried out Audio Processing；

Described second data processing module, the transmitting voice signal being used for receiving is to described second modem.

Further, it is also proposed that a kind of communication means, described communication means includes:

First modem, second modem, audio-frequency module, WiFi Attendant sub-module, the first WiFi module and the second WiFi module are provided, the first application processor being connected with described first modem, the second application processor being connected with described second modem, wherein, described first WiFi module includes a WiFi application submodule and WiFi process submodule；Described second WiFi module includes the 2nd WiFi application submodule and the 2nd WiFi processes submodule；

Described first modem obtains the information of first user identification card, according to the information of described first user identification card and the first LTE network communication, carries out speech business and data service；

Described second modem obtains the information of the second Subscriber Identity Module, according to the information of described second Subscriber Identity Module and the second LTE network communication, carries out speech business and data service；

Data service is carried out by described second LTE network when described first modem carries out data service and/or described second modem by described first LTE network, and a described WiFi application submodule or described 2nd WiFi application submodule are when receiving WiFi link order, described WiFi link order is sent to described WiFi Attendant sub-module by a described WiFi application submodule or described 2nd WiFi application submodule；

When described WiFi Attendant sub-module receives described WiFi link order, the described WiFi that described WiFi link order is sent to correspondence processes submodule or described 2nd WiFi process submodule；

A described WiFi processes submodule or described 2nd WiFi processes submodule and sends the WiFi status information connected to described WiFi Attendant sub-module according to the agreement of described WiFi link order and correspondence；

When according to described status information, described WiFi Attendant sub-module determines that WiFi is successfully connected, and a described WiFi processes submodule and/or described 2nd WiFi processes submodule when being in default communications status, described WiFi Attendant sub-module correspondence starts the routing configuration of single WiFi data or the routing configuration of double; two WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service.

Alternatively, described determine that WiFi is successfully connected according to described status information when described WiFi Attendant sub-module, and a described WiFi processes submodule and/or described 2nd WiFi processes submodule when being in default communications status, described WiFi Attendant sub-module correspondence starts the routing configuration of single WiFi data or the routing configuration of double, two WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, the described first LTE network communication step that in communicating with described second LTE network, at least one or two or more combination carries out described data service includes:

When according to described status information, described WiFi Attendant sub-module determines that WiFi is successfully connected, described WiFi Attendant sub-module sends the acquisition instruction obtaining IP address and processes submodule and described 2nd WiFi process submodule to a described WiFi；

A described WiFi processes submodule and sends corresponding IP address to described WiFi Attendant sub-module with described 2nd WiFi process submodule according to described acquisition instruction；

According to the IP address obtained, described WiFi Attendant sub-module determines that a described WiFi processes submodule and described 2nd WiFi processes whether submodule is in default communications status；

If a described WiFi processes submodule or described 2nd WiFi processes submodule and is in default communications status, described WiFi Attendant sub-module then starts the routing configuration of single WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service；

If a described WiFi processes submodule and described 2nd WiFi processes submodule and is in presetting communications status, described WiFi Attendant sub-module then starts the routing configuration of double; two WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service.

Alternatively, a described WiFi process submodule includes the first WiFi framework unit, a WiFi protocol element and the first WiFi chip；Described 2nd WiFi processes submodule and includes the second WiFi framework unit, the 2nd WiFi protocol element and the second WiFi chip, and a described WiFi processes submodule or described 2nd WiFi processes submodule and includes to the step of described WiFi Attendant sub-module according to the agreement transmission WiFi of described WiFi link order and the correspondence status information connected:

When described first WiFi framework unit or described second WiFi framework unit receive described WiFi link order, obtain the relevant information of WiFi, and be sent to a described WiFi protocol element or described 2nd WiFi protocol element by corresponding with described WiFi link order for described relevant information；

When a described WiFi protocol element or described 2nd WiFi protocol element receive described relevant information and described WiFi link order, select corresponding agreement according to described relevant information, and be sent to described first WiFi chip or described second WiFi chip by corresponding with described WiFi link order for described agreement；

When described first WiFi chip or described second WiFi chip receive described agreement and described WiFi link order, connect according to described agreement and described WiFi link order correspondence establishment WiFi, and the status information that described WiFi connects is sent to described WiFi Attendant sub-module.

Alternatively, described determine that WiFi is successfully connected according to described status information when described WiFi Attendant sub-module, and a described WiFi processes submodule and/or described 2nd WiFi processes submodule when being in default communications status, described WiFi Attendant sub-module correspondence also includes after starting the step of the routing configuration of single WiFi data or the routing configuration of double; two WiFi data:

WiFi status information is sent to a described WiFi application submodule or described 2nd WiFi application submodule by described WiFi Attendant sub-module；

When a described WiFi application submodule or described 2nd WiFi application submodule receive described status information, export information according to described status information.

Alternatively, described first modem obtains the information of described first user identification card, and according to the information of described first user identification card and the first LTE network communication, the step carrying out speech business includes:

Described audio-frequency module gathers voice signal, and described voice signal is sent to coding/decoding module；

When described coding/decoding module receives described voice signal, described coding/decoding module is transferred to the first data processing module after described voice signal is carried out analog digital conversion；

The described voice signal received is carried out Audio Processing and is transferred to described first modem by the first data processing module.

Alternatively, described when described coding/decoding module receives described voice signal, described coding/decoding module also includes after being transferred to the step of the first data processing module after described voice signal is carried out analog digital conversion:

Described first data processing module is transferred to the second data processing module after the described voice signal received is carried out Audio Processing；

The transmitting voice signal that receives is given described second modem by described second data processing module.

The present invention provides the first modem, second modem, audio-frequency module, WiFi Attendant sub-module, the first WiFi module and the second WiFi module, the first application processor being connected with described first modem, the second application processor being connected with described second modem, wherein, described first WiFi module includes a WiFi application submodule and WiFi process submodule；Described second WiFi module includes the 2nd WiFi application submodule and the 2nd WiFi processes submodule, described first modem obtains the information of first user identification card, information according to described first user identification card and the first LTE network communication, carry out speech business and data service；Described second modem obtains the information of the second Subscriber Identity Module, according to the information of described second Subscriber Identity Module and the second LTE network communication, carries out speech business and data service；Data service is carried out by described second LTE network when described first modem carries out data service and/or described second modem by described first LTE network, and a described WiFi application submodule or described 2nd WiFi application submodule are when receiving WiFi link order, described WiFi link order is sent to described WiFi Attendant sub-module by a described WiFi application submodule or described 2nd WiFi application submodule；When described WiFi Attendant sub-module receives described WiFi link order, the described WiFi that described WiFi link order is sent to correspondence processes submodule or described 2nd WiFi process submodule；A described WiFi processes submodule or described 2nd WiFi processes submodule and sends the WiFi status information connected to described WiFi Attendant sub-module according to the agreement of described WiFi link order and correspondence；When according to described status information, described WiFi Attendant sub-module determines that WiFi is successfully connected, and a described WiFi processes submodule and/or described 2nd WiFi processes submodule when being in default communications status, described WiFi Attendant sub-module correspondence starts the routing configuration of single WiFi data or the routing configuration of double; two WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service.Achieve user can access same network by the first WiFi module and the second WiFi module simultaneously, or access different networks respectively by the first WiFi module and the second WiFi module, the first modem and the first LTE network communication can be realized simultaneously, and/or second modem and the second LTE network communication, improve the access efficiency of mobile terminal network, as when mobile terminal performs downloading service, by the first WiFi module, second WiFi module, first LTE network communication in communicating with the second LTE network at least one or two or more combination be downloaded business, improve the speed of download downloading service of mobile terminal, improve the speed of download of mobile terminal.

Accompanying drawing explanation

Fig. 1 realizes the hardware architecture diagram of an optional mobile terminal in each embodiment of the present invention；

Fig. 2 is a kind of inner frame figure schematic diagram of mobile terminal in the embodiment of the present invention；

Fig. 3 is the frame structure schematic diagram of a kind of embodiment of mobile terminal of the present invention；

Fig. 4 is a kind of functional block diagram that in the embodiment of the present invention, a WiFi processes submodule；

Fig. 5 is a kind of functional block diagram that in the embodiment of the present invention, the 2nd WiFi processes submodule；

Fig. 6 is mobile terminal of the present invention refinement frame structure schematic diagram；

Fig. 7 is the schematic flow sheet of the first embodiment of communication means of the present invention；

Fig. 8 is the schematic flow sheet of the second embodiment of communication means of the present invention.

Detailed description of the invention

Should be appreciated that specific embodiment described herein is only in order to explain the present invention, is not intended to limit the present invention.

The mobile terminal realizing each embodiment of the present invention is described referring now to accompanying drawing.In follow-up description, use the suffix being used for representing such as " module ", " parts " or " unit " of element only for being conducive to the explanation of the present invention, itself do not have specific meaning.Therefore, " module " and " parts " can mixedly use.

Mobile terminal can be implemented in a variety of manners.Such as, the terminal described in the present invention can include the mobile terminal of such as mobile phone, smart phone, notebook computer, digit broadcasting receiver, PDA (personal digital assistant), PAD (panel computer), PMP (portable media player), guider etc. and the fixed terminal of such as numeral TV, desk computer etc..Hereinafter it is assumed that terminal is mobile terminal.However, it will be understood by those skilled in the art that, except being used in particular for the element of mobile purpose, structure according to the embodiment of the present invention can also apply to the terminal of fixed type.

Fig. 1 realizes the hardware architecture diagram of an optional mobile terminal in each embodiment of the present invention.

Mobile terminal 100 can include wireless communication unit 110, A/V (audio/video) input block 120, user input unit 130, output unit 150, memorizer 160, interface unit 170, controller 180 and power subsystem 190 etc..Fig. 1 illustrates the mobile terminal with various assembly, it should be understood that be not required for implementing all assemblies illustrated.Can alternatively implement more or less of assembly.Will be discussed in more detail below the element of mobile terminal.

Wireless communication unit 110 generally includes one or more assembly, and it allows the radio communication between mobile terminal 100 and wireless communication system or network.Such as, wireless communication unit 110 can include but not limited to mobile communication module 112 and wireless Internet module 113.

Mobile communication module 112 sends radio signals at least one in base station (such as, access point, node B etc.), exterior terminal and server and/or receives from it radio signal.Such radio signal can include voice call signal, video calling signal or the various types of data sending according to text and/or Multimedia Message and/or receiving.

Wireless Internet module 113 supports the Wi-Fi (Wireless Internet Access) of mobile terminal.This module can internally or externally be couple to terminal.Wi-Fi (Wireless Internet Access) technology involved by this module can include WLAN (WLAN) (Wi-Fi), Wibro (WiMAX), Wimax (worldwide interoperability for microwave access), HSDPA (high-speed downlink packet access) etc..

A/V input block 120 is used for receiving audio or video signal.A/V input block 120 includes but not limited to mike 122, such acoustic processing can via microphones sound (voice data) in telephone calling model, logging mode, speech recognition mode etc. operational mode, and can be voice data by mike 122.Audio frequency (voice) data after process can be converted to the form output that can be sent to mobile communication base station via mobile communication module 112 when telephone calling model.Mike 122 can implement various types of noise elimination (or suppression) algorithm to eliminate (or suppression) in the noise received and produce in the process of transmission audio signal or interference.

User input unit 130 can generate key input data to control the various operations of mobile terminal according to the order of user's input.User input unit 130 allows user to input various types of information, and can include keyboard, metal dome, touch pad (such as, detection due to touched and cause resistance, pressure, electric capacity etc. the sensitive component of change), roller, rocking bar etc..Especially, when touch pad is superimposed upon on display unit 151 as a layer, it is possible to form touch screen.

Interface unit 170 is used as at least one external device (ED) and is connected, with mobile terminal 100, the interface that can pass through.Such as, external device (ED) can include wired or wireless head-band earphone port, external power source (or battery charger) port, wired or wireless FPDP, memory card port, for connecting the port of the device with identification module, audio frequency input/output (I/O) port, video i/o port, ear port etc..Identification module can be that storage is for verifying that user uses the various information of mobile terminal 100 and can include subscriber identification module (UIM), client identification module (SIM), Universal Subscriber identification module (USIM) etc..It addition, the device (hereinafter referred to " identifying device ") with identification module can take the form of smart card, therefore, identify that device can be connected with mobile terminal 100 via port or other connecting device.Interface unit 170 may be used for receiving from the input (such as, data message, electric power etc.) of external device (ED) and the one or more elements being transferred in mobile terminal 100 by the input received or may be used for transmission data between mobile terminal and external device (ED).

Additionally, when mobile terminal 100 is connected with external base, interface unit 170 can serve as and allows to provide the path of mobile terminal 100 or can serve as to allow to be transferred to the path of mobile terminal from the various command signals of base input by it from base electric power by it.May serve as whether identification mobile terminal is accurately fitted within the signal base from the various command signals of base input or electric power.Output unit 150 is configured to provide output signal (such as, audio signal, video signal, alarm signal, vibration signal etc.) with vision, audio frequency and/or tactile manner.Output unit 150 can include display unit 151, dio Output Modules 152 etc..

Display unit 151 may be displayed on the information processed in mobile terminal 100.Such as, when mobile terminal 100 is in telephone calling model, display unit 151 can show the user interface (UI) relevant with call or other communicate (such as, text messaging, multimedia file download etc.) or graphic user interface (GUI).When being in video calling pattern or image capture mode when mobile terminal 100, display unit 151 can show the image of image and/or the reception caught, UI or GUI illustrating video or image and correlation function etc..

Meanwhile, when display unit 151 and touch pad as a layer superposed on one another to form touch screen time, display unit 151 can serve as input equipment and output device.Display unit 151 can include at least one in liquid crystal display (LCD), thin film transistor (TFT) LCD (TFT-LCD), Organic Light Emitting Diode (OLED) display, flexible display, three-dimensional (3D) display etc..Some in these display may be constructed such that transparence is to allow user to watch from outside, and this is properly termed as transparent display, and typical transparent display can be such as TOLED (transparent organic light emitting diode) display etc..According to the specific embodiment wanted, mobile terminal 100 can include two or more display units (or other display device), such as, mobile terminal can include outernal display unit (not shown) and inner display unit (not shown).Touch screen can be used for detecting touch input pressure and touch input position and touch input area.

Dio Output Modules 152 can mobile terminal be in call signal receive under the isotype such as pattern, call mode, logging mode, speech recognition mode, broadcast reception mode time, that wireless communication unit 110 is received or storage in memorizer 160 voice data transducing audio signal and be output as sound.And, dio Output Modules 152 can provide the audio frequency output (such as, call signal receive sound, message sink sound etc.) relevant to the specific function of mobile terminal 100 execution.Dio Output Modules 152 can include speaker, buzzer etc..

Signal or data stream that mobile terminal is received by codec unit 140 are encoded and decode operation, are usually occasions such as being used in video conference, Streaming Media, Video Applications.

Memorizer 160 can store the process performed by controller 180 and the software program controlling operation etc., or can temporarily store the data (such as, telephone directory, message, still image, video etc.) that oneself maybe will export through output.And, memorizer 160 can store the vibration about the various modes exported when touching and being applied to touch screen and the data of audio signal.

Memorizer 160 can include the storage medium of at least one type, storage medium includes flash memory, hard disk, multimedia card, card-type memorizer (such as, SD or DX memorizer etc.), random access storage device (RAM), static random-access memory (SRAM), read only memory (ROM), Electrically Erasable Read Only Memory (EEPROM), programmable read only memory (PROM), magnetic storage, disk, CD etc..And, mobile terminal 100 can be connected the network storage device cooperation of the storage function performing memorizer 160 with by network.

Controller 180 generally controls the overall operation of mobile terminal.Such as, controller 180 performs the control relevant to voice call, data communication, video calling etc. and process.

Power subsystem 190 receives external power or internal power under the control of controller 180 and provides the suitable electric power operated needed for each element and assembly.

Data processing unit 210 processes for the voice data that mobile terminal is received, video data etc..

Various embodiment described herein can to use such as computer software, hardware or its any combination of computer-readable medium to implement.Hardware is implemented, embodiment described herein can pass through to use application-specific IC (ASIC), digital signal processor (DSP), digital signal processing device (DSPD), programmable logic device (PLD), field programmable gate array (FPGA), processor, controller, microcontroller, microprocessor, at least one that is designed to perform in the electronic unit of function described herein to implement, in some cases, such embodiment can be implemented in controller 180.Implementing for software, the embodiment of such as process or function can be implemented with allowing the independent software module performing at least one function or operation.Software code can be implemented by the software application (or program) write with any suitable programming language, and software code can be stored in memorizer 160 and be performed by controller 180.

So far, oneself is through describing mobile terminal according to its function.Below, for the sake of brevity, by the slide type mobile terminal in the various types of mobile terminals describing such as folded form, board-type, oscillating-type, slide type mobile terminal etc. exemplarily.Therefore, the present invention can be applied to any kind of mobile terminal, and is not limited to slide type mobile terminal.

Mobile terminal 100 as shown in Figure 1 may be constructed such that utilization operates via such as wired and wireless communication system and the satellite-based communication system of frame or packet transmission data.

Based on above-mentioned mobile terminal 100 hardware configuration, it is proposed to each embodiment of the inventive method.

With reference to Fig. 2 with reference to a kind of inner frame figure schematic diagram that Fig. 3, Fig. 2 are mobile terminal in the embodiment of the present invention, Fig. 3 is the frame structure schematic diagram of 100 1 kinds of embodiments of mobile terminal of the present invention.

First modem 30, for obtaining the information of first user identification card 90, according to the information of first user identification card 90 and the first LTE network communication, carries out speech business and data service；

Second modem 40, for obtaining the information of the second Subscriber Identity Module 11, according to the information of the second Subscriber Identity Module 11 and the second LTE network communication, carries out speech business and data service；

In this embodiment, mobile terminal 100 includes but not limited to mobile phone and panel computer, mobile terminal 100 provided by the invention is mainly used in the twin-channel mobile terminal 100 of double card provided based on two modems, certainly, in other embodiments, the communication mechanism of mobile terminal 100 is not limited to dual-channels communication pattern provided by the invention, it is also possible to for multichannel communication pattern more than triple channel and triple channel.

Mobile terminal 100 is applied to based on twin-channel communication, mobile terminal 100 includes, first WiFi module 66, second WiFi module 77, first application processor 10, the first modem 30 and the first data processing module 70 being connected with the first application processor 10, the second application processor 20 being connected with the first application processor 10, and the second modem 40 being connected with the second application processor 20 and the second data processing module 80, wherein, first data processing module 70 is connected with the second data processing module 80, in addition, first modem 30 is also connected with first user identification card 90 and the first radio-frequency module 33 respectively, second modem 40 is also connected with the second Subscriber Identity Module 11 and the second radio-frequency module 22 respectively.First WiFi module 66 is connected with the first application processor 10, and the second WiFi module 77 is connected with the first application processor 10 or the second application processor 20；First WiFi module 66 includes a WiFi application submodule 661 and a WiFi processes submodule 660；Second WiFi module 77 includes the 2nd WiFi application submodule 771 and the 2nd WiFi processes submodule 770；Oneth WiFi is processed submodule 660 and is connected with the first application submodule by WiFi Attendant sub-module 88, and the 2nd WiFi process submodule 770 is applied submodule by WiFi Attendant sub-module 88 with second and is connected；First WiFi module 66 and the second WiFi module 77 include same WiFi Attendant sub-module 88.Namely the first WiFi module 66 includes WiFi application submodule the 661, the oneth WiFi process submodule 660 and a WiFi Attendant sub-module 88, and the second WiFi module 77 includes the 2nd WiFi application submodule the 771, the 2nd WiFi and processes submodule 770 and WiFi Attendant sub-module 88.

First modem 30 is connected with first user identification card 90, when the first modem 30 needs to carry out speech business and/or data service, first modem 30 obtains the information of first user identification card 90, and based on information and the first LTE network communication of the first user identification card 90 obtained, carry out speech business and/or data service.

Second modem 40 is connected with the second Subscriber Identity Module 11, when second modem 40 needs to carry out speech business and/or data service, second modem 40 obtains the information of the second Subscriber Identity Module 11, and based on information and the second LTE network communication of the second Subscriber Identity Module 11 obtained, carry out speech business and/or data service.

It should be noted that, first modem 30 and second modem 40 can carry out data service simultaneously, or while the first modem 30 carries out speech business, second modem 40 carries out data service, or when the first modem 30 carries out data service, second modem 40 carries out speech business etc..It can be identical network operator that first LTE network communication communicates with the second LTE network, it is also possible to for different Virtual network operators.If the operator of the first LTE network communication is for mobile, the operator of the second LTE network communication is UNICOM；Or the operator of the first LTE network communication is telecommunications, the operator of the second LTE network is also telecommunications.First modem 30 and second modem 40 carry out network used by speech business and data service and include but not limited to LTE network.

The information of first user identification card 90 and the information of the second Subscriber Identity Module 11 include but not limited to ICCID (IntegrateCircuitCardIdentity, integrated circuit card identification code) and IMSI (InternationalMobileSubscribeIdentificationNumber, international mobile subscriber identity).

First application processor 10 controls mobile terminal 100 by Fig. 1 middle controller 180 and interacts with user, provides the user with interactive interface.First application processor 10, for processing the logical operation of some complexity, is additionally operable to about the operational order correspondence surfed the Net or converse, user is sent to the first modem 30 and the second application processor 20.

First radio-frequency module 33 is directly connected with the first modem 30, data for being sent by the first modem 30 are sent to base station network after processing, and the first radio-frequency module 33 is additionally operable to be sent to the data that base station network transmission is got off the first modem 30.Second radio-frequency module 22 is directly connected with second modem 40, data for being sent by second modem 40 are sent to base station network after processing, and the second radio-frequency module 22 is additionally operable to the data that base station network transmission is got off are sent to second modem 40.First radio-frequency module 33 and the second radio-frequency module 22 can be the mobile communication module 112 in Fig. 1.

The effect of the first application processor 10 and the second application processor 20 mainly includes providing the user interactive interface, the task distribution etc. of mobile terminal 100 operating system.Certainly, the first application processor 10 and the second application processor 20 also have the inner frame of their own, including application layer, ccf layer etc..In the present invention, the first application processor 10 and the second application processor 20, topmost effect is except the logical operation processing some complexity, also by user about the corresponding modem issuing each connection under operational orders such as surfing the Net or make a phone call, send short messages.

First modem 30 and second modem 40, contain the protocol stack of the various network formats with network interaction.Wherein, protocol stack contains the protocol code that communication standard provides, as: LTE (LongTermEvolution, Long Term Evolution, it is the Long Term Evolution of the UMTS technical standard organized to set up by 3GPP)/WCDMA (WidebandCodeDivisionMultipleAccess, WCDMA)/GSM (GlobalSystemforMobileCommunication, global system for mobile communications)/TDSCDMA (TimeDivision-SynchronousCodeDivisionMultipleAccess, TD SDMA)/CDMA1X (the 2.75G technology improved in CDMAIS-95 standard base, support voice-and-data transmission)/EVDO (EvolutionDataOnly, speech and data can be supported simultaneously) etc..Mobile terminal 100 is when interacting with carrier network, no matter it is by data traffic online, VOLTE (VoiceoverLTE, speech business based on IMS) make a phone call or CS (CircuitSwitched, circuit switching) make a phone call, the agreement of these standards will be passed through, and modem is equivalent to the container of these consensus standards.Certainly, modem also has some other managerial function, such as the management and control etc. to SIM (SubscriberIdentityModule, client identification module card).Therefore, if desired surfing the Net or make a phone call, mobile terminal 100 then needs the support of modem.

Oneth WiFi processes submodule 661 or the 2nd WiFi processes submodule 771, for carrying out data service by the first LTE network and/or second modem 40 carries out data service by the second LTE network when the first modem 30, and when receiving WiFi link order, WiFi link order is sent to WiFi Attendant sub-module 88；

WiFi Attendant sub-module 88, when being used for receiving WiFi link order, the WiFi that WiFi link order is sent to correspondence processes submodule 661 or the 2nd WiFi process submodule 771；

When the first modem 30 carries out data service by the first LTE network and/or second modem 40 carries out data service by the second LTE network, if a WiFi application submodule 661 or the 2nd WiFi application submodule 771 receive WiFi link order, WiFi link order is then sent to WiFi Attendant sub-module 88 by a WiFi application submodule 661 or the 2nd WiFi application submodule 771；When WiFi Attendant sub-module 88 receives this WiFi link order, WiFi Attendant sub-module 88 judge this WiFi link order be sent by a WiFi application submodule 661 or the 2nd WiFi application submodule 771 sends, if this WiFi link order is sent by a WiFi application submodule 661, this WiFi link order is then sent to a WiFi and processes submodule 660 by WiFi Attendant sub-module 88；If this WiFi link order is sent by the 2nd WiFi application submodule 771, this WiFi link order is then sent to the 2nd WiFi and processes submodule 770 by WiFi Attendant sub-module 88.

Oneth WiFi processes submodule 660 or the 2nd WiFi processes submodule 770, sends the WiFi status information connected to WiFi Attendant sub-module 88 for the agreement according to WiFi link order and correspondence；

When a WiFi processes the WiFi link order that submodule 660 receives WiFi Attendant sub-module 88 transmission, oneth WiFi process submodule 660 performs this WiFi link order according to this WiFi link order and according to the agreement that this WiFi link order is corresponding, and the status information that WiFi connects is sent to WiFi Attendant sub-module 88；When the 2nd WiFi processes the WiFi link order that submodule 770 receives WiFi Attendant sub-module 88 transmission, 2nd WiFi process submodule 770 performs this WiFi link order according to this WiFi link order and according to the agreement that this WiFi link order is corresponding, and the status information that WiFi connects is sent to WiFi Attendant sub-module 88.The status information that WiFi connects has three kinds, respectively connects, is connecting and connection failure.

Further, a WiFi process submodule 660 includes the first WiFi framework unit the 662, the oneth WiFi protocol element 663 and the first WiFi chip 665；2nd WiFi processes submodule 770 and includes the second WiFi framework unit the 772, the 2nd WiFi protocol element 773 and the second WiFi chip 775.

Specifically, being a kind of functional block diagram that in the embodiment of the present invention, a WiFi processes submodule with reference to Fig. 4 and Fig. 5, Fig. 4, Fig. 5 is a kind of functional block diagram that in the embodiment of the present invention, the 2nd WiFi processes submodule.

First WiFi framework unit 662 or the second WiFi framework unit 772, when being additionally operable to receive WiFi link order, obtain the relevant information of WiFi, and be sent to WiFi protocol element 663 or a 2nd WiFi protocol element 773 by corresponding with WiFi link order for relevant information；

Oneth WiFi protocol element 663 or the 2nd WiFi protocol element 773, when being additionally operable to receive relevant information and WiFi link order, select corresponding agreement according to relevant information, and be sent to the first WiFi chip 665 or the second WiFi chip 775 by corresponding with WiFi link order for agreement；

First WiFi chip 665 or the second WiFi chip 775, when being additionally operable to receive agreement and WiFi link order, connects according to agreement and WiFi link order correspondence establishment WiFi, and the status information that WiFi connects is sent to WiFi Attendant sub-module 88.

Specifically, reference Fig. 6, Fig. 6 is that mobile terminal 100 of the present invention refines frame structure schematic diagram.

Oneth WiFi processes submodule 660 and includes the first WiFi framework unit the 662, the oneth WiFi protocol element the 663, the oneth WiFi driver element 664 and the first WiFi chip 665；2nd WiFi processes submodule 770 and includes the second WiFi framework unit the 772, the 2nd WiFi protocol element the 773, the 2nd WiFi driver element 774 and the second WiFi chip 775.First WiFi framework unit 662 and the second WiFi framework unit 772 are connected with WiFi Attendant sub-module 88 respectively, first WiFi framework unit 662 is connected with a WiFi protocol element 663, oneth WiFi protocol element 663 is connected with a WiFi driver element 664, and a WiFi driver element 664 is connected with the first WiFi chip 665；Second WiFi framework unit 772 is connected with the 2nd WiFi protocol element 773, and the 2nd WiFi protocol element 773 is connected with the 2nd WiFi driver element 774, and the 2nd WiFi driver element 774 is connected with the second WiFi chip 775.

When the first WiFi framework unit 662 receives the WiFi link order that WiFi Attendant sub-module 88 sends, obtain the relevant information of WiFi, and relevant information and the WiFi link order of WiFi are sent to the first protocol element, wherein, the relevant information of WiFi includes but not limited to WiFi title, frequency and signal intensity.When a WiFi protocol element 663 receives the link order of the relevant information of WiFi and WiFi, the relevant information of this WiFi is write in the configuration file of corresponding agreement, determine the agreement of correspondence according to the relevant information of this WiFi, and select regulation WiFi agreement according to corresponding agreement.WiFi agreement and the WiFi link order of selection are sent to a WiFi driver element 664 by the oneth WiFi protocol element 663, a WiFi driver element 664 be sent to the first WiFi chip 665.When receiving this WiFi agreement and WiFi link order when the first WiFi chip 665, set up WiFi according to this WiFi agreement and WiFi link order and connect.In WiFi connection procedure, the status information that WiFi connects can change, and as become connecting from connecting, or is changed into connection failure etc. from connecting.After the first WiFi chip 665 sets up WiFi connection, the status information that WiFi connects is sent to WiFi Attendant sub-module 88.

The process performing WiFi link order between second WiFi framework unit 772 with the 2nd WiFi protocol element the 773, the 2nd WiFi driver element the 774, second WiFi chip 775 and WiFi Attendant sub-module 88 is similar with execution WiFi link order process between the first WiFi framework unit 662 with WiFi protocol element the 663, the oneth WiFi driver element 664, first WiFi chip 665 and WiFi Attendant sub-module 88, does not repeat them here.

WiFi Attendant sub-module 88, it is additionally operable to determine that WiFi is successfully connected according to status information, and the oneth WiFi process submodule 660 and/or the 2nd WiFi and process submodule 770 when being in default communications status, the routing configuration of the corresponding routing configuration starting single WiFi data of WiFi Attendant sub-module 88 or double; two WiFi data, in being communicated with the second LTE network by first WiFi module the 66, second WiFi module the 77, first LTE network communication for mobile terminal, at least one or two or more combination carries out data service.

When WiFi Attendant sub-module 88 receive a WiFi process submodule 660 or the 2nd WiFi process the WiFi that submodule 770 the sends status information connected time, determine the WiFi whether successful connection of correspondence according to the WiFi status information connected.If according to the WiFi status information connected, WiFi Attendant sub-module 88 determines that WiFi is successfully connected, and the oneth WiFi process submodule 660 and/or the 2nd WiFi and process submodule 770 when being in default communications status, the routing configuration of the corresponding routing configuration starting single WiFi data of WiFi Attendant sub-module 88 or double; two WiFi data.After the routing configuration of single WiFi data completes, mobile terminal 100 carries out data service according to the first WiFi module 66 or the second WiFi module 77, on this basis, mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously；After the routing configuration of double; two WiFi data completes, mobile terminal 100 carries out data service according to the first WiFi module 66 and the second WiFi module 77, on this basis, mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously.If according to the WiFi status information connected, WiFi Attendant sub-module 88 determines that the WiFi of a WiFi process submodule 660 and the 2nd WiFi process submodule 770 is not connected with successfully, then do not start the routing configuration of WiFi.Wherein, default communications status is to be successfully connected as WiFi, and user can carry out browsing a kind of state when webpage, viewing video according to this WiFi, and namely user can access webpage by WiFi, carries out online etc..Routing configuration is the configuration IP address of WiFi, name on account and password etc..

WiFi Attendant sub-module 88, when being additionally operable to determine that WiFi is successfully connected according to status information, WiFi Attendant sub-module 88 sends the acquisition instruction obtaining IP address and processes submodule 660 and the 2nd WiFi process submodule 770 to a WiFi；

Oneth WiFi processes submodule 660 and the 2nd WiFi processes submodule 770, is additionally operable to according to obtaining IP address corresponding to instruction transmission to WiFi Attendant sub-module 88；

WiFi Attendant sub-module 88, is additionally operable to determine that a WiFi processes submodule 660 and the 2nd WiFi processes whether submodule 770 is in default communications status according to the IP address obtained；

WiFi Attendant sub-module 88, if being additionally operable to a WiFi process submodule 660 or the 2nd WiFi processing submodule 770 and is in default communications status, then starting the routing configuration of single WiFi data, in being communicated with the second LTE network by first WiFi module the 66, second WiFi module the 77, first LTE network communication for mobile terminal 100, at least one or two or more combination carries out data service；

WiFi Attendant sub-module 88, if being additionally operable to a WiFi process submodule 660 and the 2nd WiFi processing submodule 770 and is in presetting communications status, then starting the routing configuration of double; two WiFi data, in being communicated with the second LTE network by first WiFi module the 66, second WiFi module the 77, first LTE network communication for mobile terminal, at least one or two or more combination carries out data service.

When according to the status information receiving WiFi connection, WiFi Attendant sub-module 88 determines that WiFi is successfully connected, WiFi Attendant sub-module 88 processes submodule 660 to a WiFi and the 2nd WiFi processes submodule 770 and sends the acquisition instruction obtaining IP address.If now user is manipulation the first WiFi module 66, namely a WiFi processes the state of submodule 660 and has connected from being not connected with being converted to, then when the WiFi driver element 664 in a WiFi process submodule 660 receives this acquisition instruction, oneth WiFi driver element 664 starts DHCP (DynamicHostConfigurationProtocol, DHCP) service, the first WiFi chip 665 is thus driven to carry out eating dishes without rice or wine alternately with all WiFi according to obtaining instruction, obtain an IP address of connected WiFi, and by an IP address caching to the first WiFi framework unit 662, by the first WiFi framework unit 662, an IP address is sent to WiFi Attendant sub-module 88.When WiFi Attendant sub-module 88 receives an IP address, and IP address when not being empty, WiFi Attendant sub-module 88 is determined and is in default communications status between the first WiFi framework unit the 662, the oneth WiFi protocol element the 663, the oneth WiFi driver element 664 and the first WiFi chip 665, is namely in data communication normal condition between the first WiFi framework unit the 662, the oneth WiFi protocol element the 663, the oneth WiFi driver element 664 and the first WiFi chip 665.If now the second WiFi module 77 is not connected with WiFi, then the state of the 2nd WiFi process submodule 770 does not change, always all in not-connected status.WiFi Attendant sub-module 88 directly obtains the 2nd IP address of storage in the second WiFi framework unit 772 according to acquisition instruction, but the 2nd IP address is address blank, namely data communication can not be carried out between the second WiFi framework unit the 772, the 2nd WiFi protocol element the 773, the 2nd WiFi driver element 774 and the second WiFi chip 775.Now only being in data communication normal condition between the first WiFi framework unit the 662, the oneth WiFi protocol element the 663, the oneth WiFi driver element 664 and the first WiFi chip 665, WiFi Attendant sub-module 88 then starts the route of single WiFi data and arranges.When the first WiFi module 66 does not carry out the operation of WiFi connection, when second WiFi module 77 carries out WiFi attended operation, second WiFi module 77 carries out the process of WiFi connection and carries out WiFi attended operation with above-mentioned the first described WiFi module 66, the process that second WiFi module 77 does not carry out WiFi attended operation is similar, does not repeat them here.After the routing configuration of single WiFi data completes, mobile terminal 100 carries out data service according to the first WiFi module 66 or the second WiFi module 77, on this basis, mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously.

When the first WiFi module 66 is in carrying out WiFi connection procedure, if the second WiFi module 77 is already at WiFi connection status, WiFi Attendant sub-module 88 then gets two IP addresses according to IP address acquisition instruction, and the two IP address is not empty, namely an IP address and the 2nd IP address are not empty.Now, then show the first WiFi framework unit 662, oneth WiFi protocol element 663, it is in data communication normal condition between oneth WiFi driver element 664 and the first WiFi chip 665, and the second WiFi framework unit 772 that second in WiFi module 77, 2nd WiFi protocol element 773, normal data communication can also be carried out between 2nd WiFi driver element 774 and the second WiFi chip 775, namely a WiFi application submodule 661 and the 2nd WiFi application submodule 771 are all in default communications status, now, WiFi Attendant sub-module 88 starts double, two WiFi route and arranges.After the routing configuration of double; two WiFi data completes, mobile terminal 100 carries out data service according to the first WiFi module 66 and the second WiFi module 77, on this basis, mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously.

When mobile terminal 100 uses the first WiFi module 66 and the second WiFi module 77 to carry out data service simultaneously, as when mobile terminal 100 uses two WiFi to be downloaded a video simultaneously, this video 100M altogether.When WiFi Attendant sub-module 88 receives a WiFi application submodule 661 and the 2nd WiFi application submodule 771 downloads the instruction of this video, WiFi Attendant sub-module 88 processes submodule 660 according to the WiFi that point pairing such as the signal intensity of a current WiFi application submodule 661 and the WiFi of the 2nd WiFi application submodule 771 and downloading rate is answered and the 2nd WiFi processes submodule 770 and downloads work, when processing submodule 660 signal intensity more than the 2nd WiFi process submodule 770 such as a WiFi, WiFi Attendant sub-module 88 is arranged is downloaded the 60% of this video by a WiFi process submodule 660, namely 60M is downloaded, processed submodule 770 by the 2nd WiFi and download the 40% of this video, namely 40M is downloaded.Or WiFi Attendant sub-module 88 arranges a WiFi process submodule 660 and the 2nd WiFi processes submodule 770 and downloads this video according to the rule divided equally, namely a WiFi processes submodule 660 and downloads 50M, 2nd WiFi submodule downloads 50M, or distribute a WiFi according to preset rules and process submodule 660 and the required content downloading this video of the 2nd WiFi process submodule 770, wherein, preset rules is for arrange as the case may be.It should be noted that the first WiFi module 66 and the second WiFi module 77 can be used and connect same WiFi, or connect different WiFi.Or when mobile terminal 100 first modem 30 place system downloads the partial content of this video by the first WiFi module 66, with the partial content that second modem 40 downloads this video by the LTE network communicated with, namely now this mobile terminal 100 uses the first WiFi module 66 and LTE network to download this video simultaneously.Mobile terminal 100 can according to the first WiFi module 66 and the respective downloading rate of LTE network distribute how to download this video, or the first WiFi module 66 and LTE network each download 50M.Or mobile terminal 100 can use LTE network and LTE network to download this video, or uses the second WiFi module 77 and LTE network to download this video etc. simultaneously.

It should be noted that the present embodiment is all connected in the first application processor 10 illustrates for the first WiFi module 66 and the second WiFi module 77.

Further, WiFi Attendant sub-module 88, it is additionally operable to the status information by WiFi connects and is sent to WiFi application submodule 661 or a 2nd WiFi application submodule 771；

Oneth WiFi application submodule 661 or the 2nd WiFi application submodule 771, when being additionally operable to receive status information, exports information according to status information.

When WiFi Attendant sub-module 88 processes submodule 660 according to acquired status information and a WiFi and/or the 2nd WiFi processes whether submodule 770 is in default communications status to should determine that a WiFi processes submodule 660 and/or the 2nd WiFi processes the current WiFi of submodule 770 status information connected, and the status information that this WiFi connects is sent to corresponding WiFi application submodule 661 and/or a 2nd WiFi application submodule 771.

When according to acquired status information, WiFi Attendant sub-module 88 determines that a WiFi processes submodule 660 and is in WiFi successful connection state, and the oneth WiFi process submodule 660 be in default communications status, namely when a WiFi process submodule 660 is in normal copper, the status information that WiFi connects is sent to a WiFi application submodule 661 by WiFi Attendant sub-module 88, now, the shape information that WiFi connects is that a WiFi process submodule 660 has been successfully connected WiFi.When a WiFi application submodule 661 receives the status information that a WiFi process submodule 660 has been successfully connected WiFi, oneth WiFi application submodule 661 exports the WiFi prompting message being successfully connected, so that user learn current first WiFi module 66 be successfully connected WiFi, it is possible to carry out data service by the first WiFi module 66.If when according to the acquired WiFi status information connected, WiFi Attendant sub-module 88 determines that a WiFi processes submodule 660 and is in WiFi connection failure state, WiFi Attendant sub-module 88 then exports the information of WiFi connection failure to a WiFi application submodule 661, so that user learns the first WiFi module 66 connection failure.It is in WiFi successful connection state when a WiFi processes submodule 660, but a WiFi processes submodule 660 can not carry out normal data communication, namely, when a WiFi process submodule 660 is not in the communications status preset, WiFi Attendant sub-module 88 exports the information of WiFi connection failure equally to a WiFi application submodule 661.It should be noted that the transmittance process of the status information that WiFi connects is similar with the transmittance process of the status information that WiFi in above-mentioned first WiFi module 66 connects in the second WiFi module 77, do not repeat them here.

Further, mobile terminal 100 also includes coding/decoding module 50；

Audio-frequency module 55, is used for gathering voice signal, and voice signal is sent to coding/decoding module 50；

Coding/decoding module 50, for when receiving voice signal, being transferred to the first data processing module 70 after voice signal is carried out analog digital conversion；

First data processing module 70, for carrying out Audio Processing and being transferred to the first modem 30 to the voice signal received.

First data processing module 70, is transferred to the second data processing module 80 after being additionally operable to the voice signal received is carried out Audio Processing；

Second data processing module 80, the transmitting voice signal being used for receiving is to second modem 40.

Audio-frequency module 55 includes but not limited to loudspeaker and microphone, and loudspeaker can be the dio Output Modules 152 in Fig. 1, and microphone can be the mike 122 in Fig. 1.

Coding/decoding module 50 is for analog digital conversion and digital-to-analogue conversion, and coding/decoding module 50 can be the codec unit 140 in Fig. 1.

First data processing module 70 and the second data processing module 80 are used for suppressing the echo in communication process and noise, and the first data processing module 70 and the second data processing module 80 can be the data processing unit 210 in Fig. 1.

When audio-frequency module 55 collects voice signal, this voice signal is sent to coding/decoding module 50 by audio-frequency module 55, when coding/decoding module 50 receives voice signal, is transferred to the first data processing module 70 after this voice signal is carried out analog digital conversion.When the first audio processing modules 70 receives voice signal, this voice signal carrying out Audio Processing, and gives the first modem 30 by the audio signal transmission after process, audio signal is sent by the first modem 30 by the first radio-frequency module 33.

After voice signal is carried out Audio Processing by the first data processor module 70, voice signal after processing is sent to the second data processing module 80, second data processing module 80 is by the transmitting voice signal that receives to second modem 40, and this audio signal is sent by second modem 40 by the second radio-frequency module 22.

The present embodiment obtains the information of first user identification card 90 by the first modem 30, information according to first user identification card 90 and the first LTE network communication, carry out speech business and data service, second modem 40 obtains the information of the second Subscriber Identity Module 11, information according to the second Subscriber Identity Module 11 and the second LTE network communication, carry out speech business and data service；When the first modem 30 carries out data service by the first LTE network and/or second modem 40 carries out data service by the second LTE network, and WiFi application submodule 661 or a 2nd WiFi application submodule 771 when receiving WiFi link order, WiFi link order is sent to WiFi Attendant sub-module 88 by a WiFi application submodule 661 or the 2nd WiFi application submodule 771；When WiFi Attendant sub-module 88 receives WiFi link order, the WiFi that WiFi link order is sent to correspondence processes submodule 660 or the 2nd WiFi process submodule 770；Oneth WiFi processes submodule 660 or the 2nd WiFi processes submodule 770 and sends the WiFi status information connected to WiFi Attendant sub-module 88 according to the agreement of WiFi link order and correspondence；When according to status information, WiFi Attendant sub-module 88 determines that WiFi is successfully connected, and the oneth WiFi process submodule 660 and/or the 2nd WiFi and process submodule 770 when being in default communications status, the routing configuration of the corresponding routing configuration starting single WiFi data of WiFi Attendant sub-module 88 or double; two WiFi data, in being communicated with the second LTE network by first WiFi module the 66, second WiFi module the 77, first LTE network communication for mobile terminal 100, at least one or two or more combination carries out data service.Achieve user can access same network by the first WiFi module 66 and the second WiFi module 77 simultaneously, or access different networks respectively by the first WiFi module 66 and the second WiFi module 77, the first modem 30 and the first LTE network communication can be realized simultaneously, and/or second modem 40 and the second LTE network communication, improve the access efficiency of mobile terminal 100 network, as when mobile terminal 100 performs downloading service, by the first WiFi module 66, second WiFi module 77, first LTE network communication in communicating with the second LTE network at least one or two or more combination be downloaded business, improve the speed of download of mobile terminal 100.And by exporting the first WiFi module 66 and the status information of the second WiFi module 77WiFi connection, the WiFi connection of the first WiFi module 66 and the second WiFi module 77 can be understood in real time for user, add the intelligent of this mobile terminal 100, improve Consumer's Experience.

The first embodiment of communication means of the present invention is proposed with reference to Fig. 3.Specifically, with reference to the schematic flow sheet of the first embodiment that Fig. 7, Fig. 7 are communication means of the present invention.

In the present embodiment, communication means includes:

Step S10, the first modem 30 obtains the information of first user identification card 90, according to the information of first user identification card 90 and the first LTE network communication, carries out speech business and data service；

Step S20, second modem 40 obtains the information of the second Subscriber Identity Module 11, according to the information of the second Subscriber Identity Module 11 and the second LTE network communication, carries out speech business and data service；

In this embodiment, mobile terminal 100 includes but not limited to mobile phone and panel computer, mobile terminal 100 provided by the invention is mainly used in the twin-channel mobile terminal 100 of double card provided based on two modems, certainly, in other embodiments, the communication mechanism of mobile terminal 100 is not limited to dual-channels communication pattern provided by the invention, it is also possible to for multichannel communication pattern more than triple channel and triple channel.

Mobile terminal 100 is applied to based on twin-channel communication, mobile terminal 100 includes, first WiFi module 66, second WiFi module 77, first application processor 10, the first modem 30 and the first data processing module 70 being connected with the first application processor 10, the second application processor 20 being connected with the first application processor 10, and the second modem 40 being connected with the second application processor 20 and the second data processing module 80, wherein, first data processing module 70 is connected with the second data processing module 80, in addition, first modem 30 is also connected with first user identification card 90 and the first radio-frequency module 33 respectively, second modem 40 is also connected with the second Subscriber Identity Module 11 and the second radio-frequency module 22 respectively.First WiFi module 66 is connected with the first application processor 10, and the second WiFi module 77 is connected with the first application processor 10 or the second application processor 20；First WiFi module 66 includes a WiFi application submodule 661 and a WiFi processes submodule 660；Second WiFi module 77 includes the 2nd WiFi application submodule 771 and the 2nd WiFi processes submodule 770；Oneth WiFi is processed submodule 660 and is connected with the first application submodule by WiFi Attendant sub-module 88, and the 2nd WiFi process submodule 770 is applied submodule by WiFi Attendant sub-module 88 with second and is connected；First WiFi module 66 and the second WiFi module 77 include same WiFi Attendant sub-module 88.Namely the first WiFi module 66 includes WiFi application submodule the 661, the oneth WiFi process submodule 660 and a WiFi Attendant sub-module 88, and the second WiFi module 77 includes the 2nd WiFi application submodule the 771, the 2nd WiFi and processes submodule 770 and WiFi Attendant sub-module 88.

First modem 30 is connected with first user identification card 90, when the first modem 30 needs to carry out speech business and/or data service, first modem 30 obtains the information of first user identification card 90, and based on information and the first LTE network communication of the first user identification card 90 obtained, carry out speech business and/or data service.

Second modem 40 is connected with the second Subscriber Identity Module 11, when second modem 40 needs to carry out speech business and/or data service, second modem 40 obtains the information of the second Subscriber Identity Module 11, and based on information and the second LTE network communication of the second Subscriber Identity Module 11 obtained, carry out speech business and/or data service.

It should be noted that, first modem 30 and second modem 40 can carry out data service simultaneously, or while the first modem 30 carries out speech business, second modem 40 carries out data service, or when the first modem 30 carries out data service, second modem 40 carries out speech business etc..It can be identical network operator that first LTE network communication communicates with the second LTE network, it is also possible to for different Virtual network operators.If the operator of the first LTE network communication is for mobile, the operator of the second LTE network communication is UNICOM；Or the operator of the first LTE network communication is telecommunications, the operator of the second LTE network is also telecommunications.First modem 30 and second modem 40 carry out network used by speech business and data service and include but not limited to LTE network.

The information of first user identification card 90 and the information of the second Subscriber Identity Module 11 include but not limited to ICCID (IntegrateCircuitCardIdentity, integrated circuit card identification code) and IMSI (InternationalMobileSubscribeIdentificationNumber, international mobile subscriber identity).

First application processor 10 controls mobile terminal 100 by Fig. 1 middle controller 180 and interacts with user, provides the user with interactive interface.First application processor 10, for processing the logical operation of some complexity, is additionally operable to about the operational order correspondence surfed the Net or converse, user is sent to the first modem 30 and the second application processor 20.

First radio-frequency module 33 is directly connected with the first modem 30, data for being sent by the first modem 30 are sent to base station network after processing, and the first radio-frequency module 33 is additionally operable to be sent to the data that base station network transmission is got off the first modem 30.Second radio-frequency module 22 is directly connected with second modem 40, data for being sent by second modem 40 are sent to base station network after processing, and the second radio-frequency module 22 is additionally operable to the data that base station network transmission is got off are sent to second modem 40.First radio-frequency module 33 and the second radio-frequency module 22 can be the mobile communication module 112 in Fig. 1.

In the present embodiment, the effect of the first application processor 10 and the second application processor 20 mainly includes providing the user interactive interface, the task distribution etc. of mobile terminal 100 operating system.Certainly, the first application processor 10 and the second application processor 20 also have the inner frame of their own, including application layer, ccf layer etc..In the present invention, the first application processor 10 and the second application processor 20, topmost effect is except the logical operation processing some complexity, also by user about the corresponding modem issuing each connection under operational orders such as surfing the Net or make a phone call, send short messages.

In the present embodiment, the first modem 30 and second modem 40, contain the protocol stack of the various network formats with network interaction.Wherein, protocol stack contains the protocol code that communication standard provides, as: LTE (LongTermEvolution, Long Term Evolution, it is the Long Term Evolution of the UMTS technical standard organized to set up by 3GPP)/WCDMA (WidebandCodeDivisionMultipleAccess, WCDMA)/GSM (GlobalSystemforMobileCommunication, global system for mobile communications)/TDSCDMA (TimeDivision-SynchronousCodeDivisionMultipleAccess, TD SDMA)/CDMA1X (the 2.75G technology improved in CDMAIS-95 standard base, support voice-and-data transmission)/EVDO (EvolutionDataOnly, speech and data can be supported simultaneously) etc..Mobile terminal 100 is when interacting with carrier network, no matter it is by data traffic online, VOLTE (VoiceoverLTE, speech business based on IMS) make a phone call or CS (CircuitSwitched, circuit switching) make a phone call, the agreement of these standards will be passed through, and modem is equivalent to the container of these consensus standards.Certainly, modem also has some other managerial function, such as the management and control etc. to SIM (SubscriberIdentityModule, client identification module card).Therefore, if desired surfing the Net or make a phone call, mobile terminal 100 then needs the support of modem.

It should be noted that the execution sequence of step S10 and step S20 does not have dividing of priority, it is possible to first carry out step S10, then perform step S20, or first carry out step S20, then perform step S10.

Step S30, when the first modem 30 carries out data service by the first LTE network and/or second modem 40 carries out data service by the second LTE network, and WiFi application submodule 661 or a 2nd WiFi application submodule 771 when receiving WiFi link order, WiFi link order is sent to WiFi Attendant sub-module 88 by a WiFi application submodule 661 or the 2nd WiFi application submodule 771；

Step S40, when WiFi Attendant sub-module 88 receives WiFi link order, the WiFi that WiFi link order is sent to correspondence processes submodule 661 or the 2nd WiFi process submodule 771；

When the first modem 30 carries out data service by the first LTE network and/or second modem 40 carries out data service by the second LTE network, if a WiFi application submodule 661 or the 2nd WiFi application submodule 771 receive WiFi link order, WiFi link order is then sent to WiFi Attendant sub-module 88 by a WiFi application submodule 661 or the 2nd WiFi application submodule 771；When WiFi Attendant sub-module 88 receives this WiFi link order, WiFi Attendant sub-module 88 judge this WiFi link order be sent by a WiFi application submodule 661 or the 2nd WiFi application submodule 771 sends, if this WiFi link order is sent by a WiFi application submodule 661, this WiFi link order is then sent to a WiFi and processes submodule 660 by WiFi Attendant sub-module 88；If this WiFi link order is sent by the 2nd WiFi application submodule 771, this WiFi link order is then sent to the 2nd WiFi and processes submodule 770 by WiFi Attendant sub-module 88.

Step S50, a WiFi process submodule 660 or the 2nd WiFi processes submodule 770 and sends the WiFi status information connected to WiFi Attendant sub-module 88 according to the agreement of WiFi link order and correspondence；

When a WiFi processes the WiFi link order that submodule 660 receives WiFi Attendant sub-module 88 transmission, oneth WiFi process submodule 660 performs this WiFi link order according to this WiFi link order and according to the agreement that this WiFi link order is corresponding, and the status information that WiFi connects is sent to WiFi Attendant sub-module 88；When the 2nd WiFi processes the WiFi link order that submodule 770 receives WiFi Attendant sub-module 88 transmission, 2nd WiFi process submodule 770 performs this WiFi link order according to this WiFi link order and according to the agreement that this WiFi link order is corresponding, and the status information that WiFi connects is sent to WiFi Attendant sub-module 88.The status information that WiFi connects has three kinds, respectively connects, is connecting and connection failure.

Further, a WiFi process submodule 660 includes the first WiFi framework unit the 662, the oneth WiFi protocol element 663 and the first WiFi chip 665；2nd WiFi processes submodule 770 and includes the second WiFi framework unit the 772, the 2nd WiFi protocol element 773 and the second WiFi chip 775.

Specifically, being a kind of functional block diagram that in the embodiment of the present invention, a WiFi processes submodule with reference to Fig. 4 and Fig. 5, Fig. 4, Fig. 5 is a kind of functional block diagram that in the embodiment of the present invention, the 2nd WiFi processes submodule.

Step S50 includes:

When the first WiFi framework unit 662 or the second WiFi framework unit 772 receive WiFi link order, obtain the relevant information of WiFi, and be sent to WiFi protocol element 663 or a 2nd WiFi protocol element 773 by corresponding with WiFi link order for relevant information；

When a WiFi protocol element 663 or the 2nd WiFi protocol element 773 receive relevant information and WiFi link order, select corresponding agreement according to relevant information, and be sent to the first WiFi chip 665 or the second WiFi chip 775 by corresponding with WiFi link order for agreement；

When the first WiFi chip 665 or the second WiFi chip 775 receive agreement and WiFi link order, connect according to agreement and WiFi link order correspondence establishment WiFi, and the status information that WiFi connects is sent to WiFi Attendant sub-module 88.

Specifically, reference Fig. 6, Fig. 6 is that mobile terminal 100 of the present invention refines frame structure schematic diagram.

Oneth WiFi processes submodule 660 and includes the first WiFi framework unit the 662, the oneth WiFi protocol element the 663, the oneth WiFi driver element 664 and the first WiFi chip 665；2nd WiFi processes submodule 770 and includes the second WiFi framework unit the 772, the 2nd WiFi protocol element the 773, the 2nd WiFi driver element 774 and the second WiFi chip 775.First WiFi framework unit 662 and the second WiFi framework unit 772 are connected with WiFi Attendant sub-module 88 respectively, first WiFi framework unit 662 is connected with a WiFi protocol element 663, oneth WiFi protocol element 663 is connected with a WiFi driver element 664, and a WiFi driver element 664 is connected with the first WiFi chip 665；Second WiFi framework unit 772 is connected with the 2nd WiFi protocol element 773, and the 2nd WiFi protocol element 773 is connected with the 2nd WiFi driver element 774, and the 2nd WiFi driver element 774 is connected with the second WiFi chip 775.

When the first WiFi framework unit 662 receives the WiFi link order that WiFi Attendant sub-module 88 sends, obtain the relevant information of WiFi, and relevant information and the WiFi link order of WiFi are sent to the first protocol element, wherein, the relevant information of WiFi includes but not limited to WiFi title, frequency and signal intensity.When a WiFi protocol element 663 receives the link order of the relevant information of WiFi and WiFi, the relevant information of this WiFi is write in the configuration file of corresponding agreement, determine the agreement of correspondence according to the relevant information of this WiFi, and select regulation WiFi agreement according to corresponding agreement.WiFi agreement and the WiFi link order of selection are sent to a WiFi driver element 664 by the oneth WiFi protocol element 663, a WiFi driver element 664 be sent to the first WiFi chip 665.When receiving this WiFi agreement and WiFi link order when the first WiFi chip 665, set up WiFi according to this WiFi agreement and WiFi link order and connect.In WiFi connection procedure, the status information that WiFi connects can change, and as become connecting from connecting, or is changed into connection failure etc. from connecting.After the first WiFi chip 665 sets up WiFi connection, the status information that WiFi connects is sent to WiFi Attendant sub-module 88.

The process performing WiFi link order between second WiFi framework unit 772 with the 2nd WiFi protocol element the 773, the 2nd WiFi driver element the 774, second WiFi chip 775 and WiFi Attendant sub-module 88 is similar with execution WiFi link order process between the first WiFi framework unit 662 with WiFi protocol element the 663, the oneth WiFi driver element 664, first WiFi chip 665 and WiFi Attendant sub-module 88, does not repeat them here.

Step S60, when according to status information, WiFi Attendant sub-module 88 determines that WiFi is successfully connected, and the oneth WiFi process submodule 660 and/or the 2nd WiFi and process submodule 770 when being in default communications status, the routing configuration of the corresponding routing configuration starting single WiFi data of WiFi Attendant sub-module 88 or double; two WiFi data, in being communicated with the second LTE network by first WiFi module the 66, second WiFi module the 77, first LTE network communication for mobile terminal, at least one or two or more combination carries out data service.

When WiFi Attendant sub-module 88 receive a WiFi process submodule 660 or the 2nd WiFi process the WiFi that submodule 770 the sends status information connected time, determine the WiFi whether successful connection of correspondence according to the WiFi status information connected.If according to the WiFi status information connected, WiFi Attendant sub-module 88 determines that WiFi is successfully connected, and the oneth WiFi process submodule 660 and/or the 2nd WiFi and process submodule 770 when being in default communications status, the routing configuration of the corresponding routing configuration starting single WiFi data of WiFi Attendant sub-module 88 or double; two WiFi data.After the routing configuration of single WiFi data completes, mobile terminal 100 carries out data service according to the first WiFi module 66 or the second WiFi module 77, on this basis, mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously；After the routing configuration of double; two WiFi data completes, mobile terminal 100 carries out data service according to the first WiFi module 66 and the second WiFi module 77, on this basis, mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously.If according to the WiFi status information connected, WiFi Attendant sub-module 88 determines that the WiFi of a WiFi process submodule 660 and the 2nd WiFi process submodule 770 is not connected with successfully, then do not start the routing configuration of WiFi.Wherein, default communications status is to be successfully connected as WiFi, and user can carry out browsing a kind of state when webpage, viewing video according to this WiFi, and namely user can access webpage by WiFi, carries out online etc..Routing configuration is the configuration IP address of WiFi, name on account and password etc..

Further, step S60 includes:

When according to status information, WiFi Attendant sub-module 88 determines that WiFi is successfully connected, WiFi Attendant sub-module 88 sends the acquisition instruction obtaining IP address and processes submodule 660 and the 2nd WiFi process submodule 770 to a WiFi；

Oneth WiFi processes submodule 660 and processes submodule 770 with the 2nd WiFi according to obtaining IP address corresponding to instruction transmission to WiFi Attendant sub-module 88；

According to the IP address obtained, WiFi Attendant sub-module 88 determines that a WiFi processes submodule 660 and the 2nd WiFi processes whether submodule 770 is in default communications status；

If a WiFi processes submodule 660 or the 2nd WiFi processes submodule 770 and is in default communications status, WiFi Attendant sub-module 88 then starts the routing configuration of single WiFi data, and in being communicated with the second LTE network by first WiFi module the 66, second WiFi module the 77, first LTE network communication for mobile terminal 100, at least one or two or more combination carries out data service；

If a WiFi processes submodule 660 and the 2nd WiFi processes submodule 770 and is in presetting communications status, WiFi Attendant sub-module 88 then starts the routing configuration of double; two WiFi data, and in being communicated with the second LTE network by first WiFi module the 66, second WiFi module the 77, first LTE network communication for mobile terminal, at least one or two or more combination carries out data service.

When according to the status information receiving WiFi connection, WiFi Attendant sub-module 88 determines that WiFi is successfully connected, WiFi Attendant sub-module 88 processes submodule 660 to a WiFi and the 2nd WiFi processes submodule 770 and sends the acquisition instruction obtaining IP address.If now user is manipulation the first WiFi module 66, namely a WiFi processes the state of submodule 660 and has connected from being not connected with being converted to, then when the WiFi driver element 664 in a WiFi process submodule 660 receives this acquisition instruction, oneth WiFi driver element 664 starts DHCP (DynamicHostConfigurationProtocol, DHCP) service, the first WiFi chip 665 is thus driven to carry out eating dishes without rice or wine alternately with all WiFi according to obtaining instruction, obtain an IP address of connected WiFi, and by an IP address caching to the first WiFi framework unit 662, by the first WiFi framework unit 662, an IP address is sent to WiFi Attendant sub-module 88.When WiFi Attendant sub-module 88 receives an IP address, and IP address when not being empty, WiFi Attendant sub-module 88 is determined and is in default communications status between the first WiFi framework unit the 662, the oneth WiFi protocol element the 663, the oneth WiFi driver element 664 and the first WiFi chip 665, is namely in data communication normal condition between the first WiFi framework unit the 662, the oneth WiFi protocol element the 663, the oneth WiFi driver element 664 and the first WiFi chip 665.If now the second WiFi module 77 is not connected with WiFi, then the state of the 2nd WiFi process submodule 770 does not change, always all in not-connected status.WiFi Attendant sub-module 88 directly obtains the 2nd IP address of storage in the second WiFi framework unit 772 according to acquisition instruction, but the 2nd IP address is address blank, namely data communication can not be carried out between the second WiFi framework unit the 772, the 2nd WiFi protocol element the 773, the 2nd WiFi driver element 774 and the second WiFi chip 775.Now only being in data communication normal condition between the first WiFi framework unit the 662, the oneth WiFi protocol element the 663, the oneth WiFi driver element 664 and the first WiFi chip 665, WiFi Attendant sub-module 88 then starts the route of single WiFi data and arranges.When the first WiFi module 66 does not carry out the operation of WiFi connection, when second WiFi module 77 carries out WiFi attended operation, second WiFi module 77 carries out the process of WiFi connection and carries out WiFi attended operation with above-mentioned the first described WiFi module 66, the process that second WiFi module 77 does not carry out WiFi attended operation is similar, does not repeat them here.After the routing configuration of single WiFi data completes, mobile terminal 100 carries out data service according to the first WiFi module 66 or the second WiFi module 77, on this basis, mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously.

When the first WiFi module 66 is in carrying out WiFi connection procedure, if the second WiFi module 77 is already at WiFi connection status, WiFi Attendant sub-module 88 then gets two IP addresses according to IP address acquisition instruction, and the two IP address is not empty, namely an IP address and the 2nd IP address are not empty.Now, then show the first WiFi framework unit 662, oneth WiFi protocol element 663, it is in data communication normal condition between oneth WiFi driver element 664 and the first WiFi chip 665, and the second WiFi framework unit 772 that second in WiFi module 77, 2nd WiFi protocol element 773, normal data communication can also be carried out between 2nd WiFi driver element 774 and the second WiFi chip 775, namely a WiFi application submodule 661 and the 2nd WiFi application submodule 771 are all in default communications status, now, WiFi Attendant sub-module 88 starts double, two WiFi route and arranges.After the routing configuration of double; two WiFi data completes, mobile terminal 100 carries out data service according to the first WiFi module 66 and the second WiFi module 77, on this basis, mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously.

When mobile terminal 100 uses the first WiFi module 66 and the second WiFi module 77 to carry out data service simultaneously, as when mobile terminal 100 uses two WiFi to be downloaded a video simultaneously, this video 100M altogether.When WiFi Attendant sub-module 88 receives a WiFi application submodule 661 and the 2nd WiFi application submodule 771 downloads the instruction of this video, WiFi Attendant sub-module 88 processes submodule 660 according to the WiFi that point pairing such as the signal intensity of a current WiFi application submodule 661 and the WiFi of the 2nd WiFi application submodule 771 and downloading rate is answered and the 2nd WiFi processes submodule 770 and downloads work, when processing submodule 660 signal intensity more than the 2nd WiFi process submodule 770 such as a WiFi, WiFi Attendant sub-module 88 is arranged is downloaded the 60% of this video by a WiFi process submodule 660, namely 60M is downloaded, processed submodule 770 by the 2nd WiFi and download the 40% of this video, namely 40M is downloaded.Or WiFi Attendant sub-module 88 arranges a WiFi process submodule 660 and the 2nd WiFi processes submodule 770 and downloads this video according to the rule divided equally, namely a WiFi processes submodule 660 and downloads 50M, 2nd WiFi submodule downloads 50M, or distribute a WiFi according to preset rules and process submodule 660 and the required content downloading this video of the 2nd WiFi process submodule 770, wherein, preset rules is for arrange as the case may be.It should be noted that the first WiFi module 66 and the second WiFi module 77 can be used and connect same WiFi, or connect different WiFi.Or when mobile terminal 100 first modem 30 place system downloads the partial content of this video by the first WiFi module 66, with the partial content that second modem 40 downloads this video by the LTE network communicated with, namely now this mobile terminal 100 uses the first WiFi module 66 and LTE network to download this video simultaneously.Mobile terminal 100 can according to the first WiFi module 66 and the respective downloading rate of LTE network distribute how to download this video, or the first WiFi module 66 and LTE network each download 50M.Or mobile terminal 100 can use LTE network and LTE network to download this video, or uses the second WiFi module 77 and LTE network to download this video etc. simultaneously.

It should be noted that the present embodiment is all connected in the first application processor 10 illustrates for the first WiFi module 66 and the second WiFi module 77.

The present embodiment obtains the information of first user identification card 90 by the first modem 30, information according to first user identification card 90 and the first LTE network communication, carry out speech business and data service, second modem 40 obtains the information of the second Subscriber Identity Module 11, information according to the second Subscriber Identity Module 11 and the second LTE network communication, carry out speech business and data service；When the first modem 30 carries out data service by the first LTE network and/or second modem 40 carries out data service by the second LTE network, and WiFi application submodule 661 or a 2nd WiFi application submodule 771 when receiving WiFi link order, WiFi link order is sent to WiFi Attendant sub-module 88 by a WiFi application submodule 661 or the 2nd WiFi application submodule 771；When WiFi Attendant sub-module 88 receives WiFi link order, the WiFi that WiFi link order is sent to correspondence processes submodule 660 or the 2nd WiFi process submodule 770；Oneth WiFi processes submodule 660 or the 2nd WiFi processes submodule 770 and sends the WiFi status information connected to WiFi Attendant sub-module 88 according to the agreement of WiFi link order and correspondence；When according to status information, WiFi Attendant sub-module 88 determines that WiFi is successfully connected, and the oneth WiFi process submodule 660 and/or the 2nd WiFi and process submodule 770 when being in default communications status, the routing configuration of the corresponding routing configuration starting single WiFi data of WiFi Attendant sub-module 88 or double; two WiFi data, in being communicated with the second LTE network by first WiFi module the 66, second WiFi module the 77, first LTE network communication for mobile terminal 100, at least one or two or more combination carries out data service.Achieve user can access same network by the first WiFi module 66 and the second WiFi module 77 simultaneously, or access different networks respectively by the first WiFi module 66 and the second WiFi module 77, the first modem 30 and the first LTE network communication can be realized simultaneously, and/or second modem 40 and the second LTE network communication, improve the access efficiency of mobile terminal 100 network, as when mobile terminal 100 performs downloading service, by the first WiFi module 66, second WiFi module 77, first LTE network communication in communicating with the second LTE network at least one or two or more combination be downloaded business, improve the speed of download of mobile terminal 100.

Second embodiment of communication means of the present invention is proposed with reference to Fig. 3 and Fig. 6.Specifically, with reference to the schematic flow sheet of the second embodiment that Fig. 8, Fig. 8 are communication means of the present invention.

In the present embodiment, communication means includes:

Step S10, the first modem 30 obtains the information of first user identification card 90, according to the information of first user identification card 90 and the first LTE network communication, carries out speech business and data service；

Step S20, second modem 40 obtains the information of the second Subscriber Identity Module 11, according to the information of the second Subscriber Identity Module 11 and the second LTE network communication, carries out speech business and data service；

First modem 30 is connected with first user identification card 90, when the first modem 30 needs to carry out speech business and/or data service, first modem 30 obtains the information of first user identification card 90, and based on information and the first LTE network communication of the first user identification card 90 obtained, carry out speech business and/or data service.

Second modem 40 is connected with the second Subscriber Identity Module 11, when second modem 40 needs to carry out speech business and/or data service, second modem 40 obtains the information of the second Subscriber Identity Module 11, and based on information and the second LTE network communication of the second Subscriber Identity Module 11 obtained, carry out speech business and/or data service.

Step S30, when the first modem 30 carries out data service by the first LTE network and/or second modem 40 carries out data service by the second LTE network, and WiFi application submodule 661 or a 2nd WiFi application submodule 771 when receiving WiFi link order, WiFi link order is sent to WiFi Attendant sub-module 88 by a WiFi application submodule 661 or the 2nd WiFi application submodule 771；

Step S40, when WiFi Attendant sub-module 88 receives WiFi link order, the WiFi that WiFi link order is sent to correspondence processes submodule 661 or the 2nd WiFi process submodule 771；

When the first modem 30 carries out data service by the first LTE network and/or second modem 40 carries out data service by the second LTE network, if a WiFi application submodule 661 or the 2nd WiFi application submodule 771 receive WiFi link order, WiFi link order is then sent to WiFi Attendant sub-module 88 by a WiFi application submodule 661 or the 2nd WiFi application submodule 771；When WiFi Attendant sub-module 88 receives this WiFi link order, WiFi Attendant sub-module 88 judge this WiFi link order be sent by a WiFi application submodule 661 or the 2nd WiFi application submodule 771 sends, if this WiFi link order is sent by a WiFi application submodule 661, this WiFi link order is then sent to a WiFi and processes submodule 660 by WiFi Attendant sub-module 88；If this WiFi link order is sent by the 2nd WiFi application submodule 771, this WiFi link order is then sent to the 2nd WiFi and processes submodule 770 by WiFi Attendant sub-module 88.

Step S50, a WiFi process submodule 660 or the 2nd WiFi processes submodule 770 and sends the WiFi status information connected to WiFi Attendant sub-module 88 according to the agreement of WiFi link order and correspondence；

When a WiFi processes the WiFi link order that submodule 660 receives WiFi Attendant sub-module 88 transmission, oneth WiFi process submodule 660 performs this WiFi link order according to this WiFi link order and according to the agreement that this WiFi link order is corresponding, and the status information that WiFi connects is sent to WiFi Attendant sub-module 88；When the 2nd WiFi processes the WiFi link order that submodule 770 receives WiFi Attendant sub-module 88 transmission, 2nd WiFi process submodule 770 performs this WiFi link order according to this WiFi link order and according to the agreement that this WiFi link order is corresponding, and the status information that WiFi connects is sent to WiFi Attendant sub-module 88.The status information that WiFi connects has three kinds, respectively connects, is connecting and connection failure.

Step S60, when according to status information, WiFi Attendant sub-module 88 determines that WiFi is successfully connected, and the oneth WiFi process submodule 660 and/or the 2nd WiFi and process submodule 770 when being in default communications status, the routing configuration of the corresponding routing configuration starting single WiFi data of WiFi Attendant sub-module 88 or double; two WiFi data, in being communicated with the second LTE network by first WiFi module the 66, second WiFi module the 77, first LTE network communication for mobile terminal, at least one or two or more combination carries out data service.

When WiFi Attendant sub-module 88 receive a WiFi process submodule 660 or the 2nd WiFi process the WiFi that submodule 770 the sends status information connected time, determine the WiFi whether successful connection of correspondence according to the WiFi status information connected.If according to the WiFi status information connected, WiFi Attendant sub-module 88 determines that WiFi is successfully connected, and the oneth WiFi process submodule 660 and/or the 2nd WiFi and process submodule 770 when being in default communications status, the routing configuration of the corresponding routing configuration starting single WiFi data of WiFi Attendant sub-module 88 or double; two WiFi data.If according to the WiFi status information connected, WiFi Attendant sub-module 88 determines that the WiFi of a WiFi process submodule 660 and the 2nd WiFi process submodule 770 is not connected with successfully, then do not start the routing configuration of WiFi.After the routing configuration of single WiFi data completes, mobile terminal 100 carries out data service according to the first WiFi module 66 or the second WiFi module 77, on this basis, mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously；After the routing configuration of double; two WiFi data completes, mobile terminal 100 carries out data service according to the first WiFi module 66 and the second WiFi module 77, on this basis, mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously.Wherein, default communications status is to be successfully connected as WiFi, and user can carry out browsing a kind of state when webpage, viewing video according to this WiFi, and namely user can access webpage by WiFi, carries out online etc..Routing configuration is the configuration IP address of WiFi, name on account and password etc..

The status information that WiFi connects is sent to WiFi application submodule 661 or a 2nd WiFi application submodule 771 by step S70, WiFi Attendant sub-module 88；

Step S80, when a WiFi application submodule 661 or the 2nd WiFi application submodule 771 receive status information, exports information according to status information.

When WiFi Attendant sub-module 88 processes submodule 660 according to acquired status information and a WiFi and/or the 2nd WiFi processes whether submodule 770 is in default communications status to should determine that a WiFi processes submodule 660 and/or the 2nd WiFi processes the current WiFi of submodule 770 status information connected, and the status information that this WiFi connects is sent to corresponding WiFi application submodule 661 and/or a 2nd WiFi application submodule 771.

When according to acquired status information, WiFi Attendant sub-module 88 determines that a WiFi processes submodule 660 and is in WiFi successful connection state, and the oneth WiFi process submodule 660 be in default communications status, namely when a WiFi process submodule 660 is in normal copper, the status information that WiFi connects is sent to a WiFi application submodule 661 by WiFi Attendant sub-module 88, now, the shape information that WiFi connects is that a WiFi process submodule 660 has been successfully connected WiFi.When a WiFi application submodule 661 receives the status information that a WiFi process submodule 660 has been successfully connected WiFi, oneth WiFi application submodule 661 exports the WiFi prompting message being successfully connected, so that user learn current first WiFi module 66 be successfully connected WiFi, it is possible to carry out data service by the first WiFi module 66.If when according to the acquired WiFi status information connected, WiFi Attendant sub-module 88 determines that a WiFi processes submodule 660 and is in WiFi connection failure state, WiFi Attendant sub-module 88 then exports the information of WiFi connection failure to a WiFi application submodule 661, so that user learns the first WiFi module 66 connection failure.It is in WiFi successful connection state when a WiFi processes submodule 660, but a WiFi processes submodule 660 can not carry out normal data communication, namely, when a WiFi process submodule 660 is not in the communications status preset, WiFi Attendant sub-module 88 exports the information of WiFi connection failure equally to a WiFi application submodule 661.It should be noted that the transmittance process of the status information that WiFi connects is similar with the transmittance process of the status information that WiFi in above-mentioned first WiFi module 66 connects in the second WiFi module 77, do not repeat them here.

Further, communication means also includes:

Audio-frequency module 55 gathers voice signal, and voice signal is sent to coding/decoding module 50；

When coding/decoding module 50 receives voice signal, coding/decoding module 50 is transferred to the first data processing module 70 after voice signal is carried out analog digital conversion；

First data processing module 70 voice signal to receiving carries out Audio Processing and is transferred to the first modem 30.

First data processing module 70 voice signal to receiving is transferred to the second data processing module 80 after carrying out Audio Processing；

Second data processing module 80 by the transmitting voice signal that receives to second modem 40.

Audio-frequency module 55 includes but not limited to loudspeaker and microphone, and loudspeaker can be the dio Output Modules 152 in Fig. 1, and microphone can be the mike 122 in Fig. 1.

Coding/decoding module 50 is for analog digital conversion and digital-to-analogue conversion, and coding/decoding module 50 can be the codec unit 140 in Fig. 1.

First data processing module 70 and the second data processing module 80 are used for suppressing the echo in communication process and noise, and the first data processing module 70 and the second data processing module 80 can be the data processing unit 210 in Fig. 1.

When audio-frequency module 55 collects voice signal, this voice signal is sent to coding/decoding module 50 by audio-frequency module 55, when coding/decoding module 50 receives voice signal, is transferred to the first data processing module 70 after this voice signal is carried out analog digital conversion.When the first audio processing modules 70 receives voice signal, this voice signal carrying out Audio Processing, and gives the first modem 30 by the audio signal transmission after process, audio signal is sent by the first modem 30 by the first radio-frequency module 33.

After voice signal is carried out Audio Processing by the first data processor module 70, voice signal after processing is sent to the second data processing module 80, second data processing module 80 is by the transmitting voice signal that receives to second modem 40, and this audio signal is sent by second modem 40 by the second radio-frequency module 22.

The present embodiment is by exporting the first WiFi module 66 and the status information of the second WiFi module 77WiFi connection, the WiFi connection of the first WiFi module 66 and the second WiFi module 77 can be understood in real time for user, add the intelligent of this mobile terminal 100, improve Consumer's Experience.

For illustrative purposes, description above employs specific term, to provide thorough understanding of the present invention.It will be apparent, however, to one skilled in the art, that be not required to concrete details to put into practice the present invention.The described above of specific embodiments of the invention is to present for purposes of illustration and description.They are not intended to detailed or limit the invention to disclosed precise forms.In view of religious doctrine above, many modifications and variations are possible.These embodiments are illustrate and described, so that others skilled in the art can utilize the present invention best and have the various embodiments of the various amendments being suitable to intended specific use in order to explain principles of the invention and practical application thereof best.It is intended to the scope of the present invention limited by following claims and its equivalent.

Claims (12)

1. a mobile terminal, it is characterized in that, described mobile terminal includes the first WiFi module, the second WiFi module, WiFi Attendant sub-module, audio-frequency module, the first modem and second modem, wherein, described first WiFi module includes a WiFi application submodule and a WiFi processes submodule, and described second WiFi module includes the 2nd WiFi application submodule and the 2nd WiFi processes submodule；

Described first modem, for obtaining the information of first user identification card, according to the information of described first user identification card and the first LTE network communication, carries out speech business and data service；

Described second modem, for obtaining the information of the second Subscriber Identity Module, according to the information of described second Subscriber Identity Module and the second LTE network communication, carries out speech business and data service；

A described WiFi processes submodule or described 2nd WiFi processes submodule, for carrying out data service when described first modem carries out data service and/or described second modem by described first LTE network by described second LTE network, and when receiving WiFi link order, described WiFi link order is sent to described WiFi Attendant sub-module；

Described WiFi Attendant sub-module, for when receiving described WiFi link order, the described WiFi that described WiFi link order is sent to correspondence processes submodule or described 2nd WiFi process submodule；

A described WiFi processes submodule or described 2nd WiFi processes submodule, sends the WiFi status information connected to described WiFi Attendant sub-module for the agreement according to described WiFi link order and correspondence；

Described WiFi Attendant sub-module, it is additionally operable to determine that WiFi is successfully connected according to described status information, and a described WiFi processes submodule and/or described 2nd WiFi processes submodule when being in default communications status, the routing configuration of the corresponding routing configuration starting single WiFi data or double; two WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service.

2. mobile terminal as claimed in claim 1, it is characterized in that, described WiFi Attendant sub-module, is additionally operable to when determining that WiFi is successfully connected according to described status information, sends the acquisition instruction obtaining IP address and processes submodule and described 2nd WiFi process submodule to a described WiFi；

A described WiFi processes submodule and described 2nd WiFi processes submodule, is additionally operable to send corresponding IP address to described WiFi Attendant sub-module according to described acquisition instruction；

Described WiFi Attendant sub-module, is additionally operable to determine that a described WiFi processes submodule and described 2nd WiFi processes whether submodule is in default communications status according to the IP address obtained；

Described WiFi Attendant sub-module, if being additionally operable to a described WiFi process submodule or described 2nd WiFi processing submodule and is in default communications status, then start the routing configuration of single WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service；

Described WiFi Attendant sub-module, if being additionally operable to a described WiFi process submodule and described 2nd WiFi processing submodule and is in presetting communications status, then start the routing configuration of double; two WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service.

3. mobile terminal as claimed in claim 1, it is characterised in that a described WiFi processes submodule and includes the first WiFi framework unit, a WiFi protocol element and the first WiFi chip；Described 2nd WiFi processes submodule and includes the second WiFi framework unit, the 2nd WiFi protocol element and the second WiFi chip；

Described first WiFi framework unit or described second WiFi framework unit, it is additionally operable to when receiving described WiFi link order, obtain the relevant information of WiFi, and be sent to a described WiFi protocol element or described 2nd WiFi protocol element by corresponding with described WiFi link order for described relevant information；

A described WiFi protocol element or described 2nd WiFi protocol element, it is additionally operable to when receiving described relevant information and described WiFi link order, select corresponding agreement according to described relevant information, and be sent to described first WiFi chip or described second WiFi chip by corresponding with described WiFi link order for described agreement；

Described first WiFi chip or described second WiFi chip, when being additionally operable to receive described agreement and described WiFi link order, connect according to described agreement and described WiFi link order correspondence establishment WiFi, and the status information that described WiFi connects is sent to described WiFi Attendant sub-module.

4. the mobile terminal as described in any one of claims 1 to 3, it is characterised in that described WiFi Attendant sub-module, is additionally operable to WiFi status information is sent to a described WiFi application submodule or described 2nd WiFi application submodule；

A described WiFi application submodule or described 2nd WiFi application submodule, when being additionally operable to receive described status information, export information according to described status information.

5. mobile terminal as claimed in claim 1, it is characterised in that described mobile terminal also includes coding/decoding module and the first data processing module；

Described audio-frequency module, is used for gathering voice signal, and described voice signal is sent to coding/decoding module；

Described coding/decoding module, for when receiving described voice signal, being transferred to the first data processing module after described voice signal is carried out analog digital conversion；

Described first data processing module, for carrying out Audio Processing and being transferred to described first modem to the described voice signal received.

6. mobile terminal as claimed in claim 5, it is characterised in that described mobile terminal the second data processing module；

Described first data processing module, is transferred to the second data processing module after being additionally operable to the described voice signal received is carried out Audio Processing；

Described second data processing module, the transmitting voice signal being used for receiving is to described second modem.

7. a communication means, it is characterised in that described communication means includes step:

First modem, second modem, audio-frequency module, WiFi Attendant sub-module, the first WiFi module and the second WiFi module are provided, the first application processor being connected with described first modem, the second application processor being connected with described second modem, wherein, described first WiFi module includes a WiFi application submodule and WiFi process submodule；Described second WiFi module includes the 2nd WiFi application submodule and the 2nd WiFi processes submodule；

Described first modem obtains the information of first user identification card, according to the information of described first user identification card and the first LTE network communication, carries out speech business and data service；

Described second modem obtains the information of the second Subscriber Identity Module, according to the information of described second Subscriber Identity Module and the second LTE network communication, carries out speech business and data service；

Data service is carried out by described second LTE network when described first modem carries out data service and/or described second modem by described first LTE network, and a described WiFi application submodule or described 2nd WiFi application submodule are when receiving WiFi link order, described WiFi link order is sent to described WiFi Attendant sub-module by a described WiFi application submodule or described 2nd WiFi application submodule；

When described WiFi Attendant sub-module receives described WiFi link order, the described WiFi that described WiFi link order is sent to correspondence processes submodule or described 2nd WiFi process submodule；

A described WiFi processes submodule or described 2nd WiFi processes submodule and sends the WiFi status information connected to described WiFi Attendant sub-module according to the agreement of described WiFi link order and correspondence；

When according to described status information, described WiFi Attendant sub-module determines that WiFi is successfully connected, and a described WiFi processes submodule and/or described 2nd WiFi processes submodule when being in default communications status, described WiFi Attendant sub-module correspondence starts the routing configuration of single WiFi data or the routing configuration of double; two WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service.

8. communication means as claimed in claim 7, it is characterized in that, described determine that WiFi is successfully connected according to described status information when described WiFi Attendant sub-module, and a described WiFi processes submodule and/or described 2nd WiFi processes submodule when being in default communications status, described WiFi Attendant sub-module correspondence starts the routing configuration of single WiFi data or the routing configuration of double, two WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, the described first LTE network communication step that in communicating with described second LTE network, at least one or two or more combination carries out described data service includes:

When according to described status information, described WiFi Attendant sub-module determines that WiFi is successfully connected, described WiFi Attendant sub-module sends the acquisition instruction obtaining IP address and processes submodule and described 2nd WiFi process submodule to a described WiFi；

A described WiFi processes submodule and sends corresponding IP address to described WiFi Attendant sub-module with described 2nd WiFi process submodule according to described acquisition instruction；

According to the IP address obtained, described WiFi Attendant sub-module determines that a described WiFi processes submodule and described 2nd WiFi processes whether submodule is in default communications status；

If a described WiFi processes submodule or described 2nd WiFi processes submodule and is in default communications status, described WiFi Attendant sub-module then starts the routing configuration of single WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service；

If a described WiFi processes submodule and described 2nd WiFi processes submodule and is in presetting communications status, described WiFi Attendant sub-module then starts the routing configuration of double; two WiFi data, for mobile terminal by described first WiFi module, described second WiFi module, described first LTE network communication in communicating with described second LTE network at least one or two or more combination carry out described data service.

9. communication means as claimed in claim 7, it is characterised in that a described WiFi processes submodule and includes the first WiFi framework unit, a WiFi protocol element and the first WiFi chip；Described 2nd WiFi processes submodule and includes the second WiFi framework unit, the 2nd WiFi protocol element and the second WiFi chip, and a described WiFi processes submodule or described 2nd WiFi processes submodule and includes to the step of described WiFi Attendant sub-module according to the agreement transmission WiFi of described WiFi link order and the correspondence status information connected:

When described first WiFi framework unit or described second WiFi framework unit receive described WiFi link order, obtain the relevant information of WiFi, and be sent to a described WiFi protocol element or described 2nd WiFi protocol element by corresponding with described WiFi link order for described relevant information；

When a described WiFi protocol element or described 2nd WiFi protocol element receive described relevant information and described WiFi link order, select corresponding agreement according to described relevant information, and be sent to described first WiFi chip or described second WiFi chip by corresponding with described WiFi link order for described agreement；

When described first WiFi chip or described second WiFi chip receive described agreement and described WiFi link order, connect according to described agreement and described WiFi link order correspondence establishment WiFi, and the status information that described WiFi connects is sent to described WiFi Attendant sub-module.

10. the communication means as described in any one of claim 7 to 9, it is characterized in that, described determine that WiFi is successfully connected according to described status information when described WiFi Attendant sub-module, and a described WiFi processes submodule and/or described 2nd WiFi processes submodule when being in default communications status, described WiFi Attendant sub-module correspondence also includes after starting the step of the routing configuration of single WiFi data or the routing configuration of double; two WiFi data:

WiFi status information is sent to a described WiFi application submodule or described 2nd WiFi application submodule by described WiFi Attendant sub-module；

When a described WiFi application submodule or described 2nd WiFi application submodule receive described status information, export information according to described status information.

11. communication means as claimed in claim 7, it is characterised in that described first modem obtains the information of described first user identification card, according to the information of described first user identification card and the first LTE network communication, the step carrying out speech business includes:

Described audio-frequency module gathers voice signal, and described voice signal is sent to coding/decoding module；

When described coding/decoding module receives described voice signal, described coding/decoding module is transferred to the first data processing module after described voice signal is carried out analog digital conversion；

The described voice signal received is carried out Audio Processing and is transferred to described first modem by the first data processing module.

12. communication means as claimed in claim 11, it is characterized in that, described when described coding/decoding module receives described voice signal, described coding/decoding module also includes after being transferred to the step of the first data processing module after described voice signal is carried out analog digital conversion:

Described first data processing module is transferred to the second data processing module after the described voice signal received is carried out Audio Processing；

The transmitting voice signal that receives is given described second modem by described second data processing module.