CN105468415A - Radio-frequency link control method and apparatus - Google Patents

Abstract

An embodiment of the invention discloses a radio-frequency link control method. The method comprises: setting multiple application scenes and setting carrier aggregation functions associated with the application scenes; when an application corresponding to a user operation instruction is started according to the user operation instruction, determining a target application scene of the application running in a mobile terminal; according to the carrier aggregation functions associated with the application scenes, determining a TD-LTE carrier aggregation function or an FDD-LTE carrier aggregation function associated with the target application scene; and starting the determined TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function associated with the target application scene. An embodiment of the invention furthermore discloses a radio-frequency link control apparatus. The radio-frequency link control method and apparatus have the advantages that the optionality of the carrier aggregation functions of the mobile terminal can be improved, the controllability of the power consumption of the mobile terminal can be enhanced, and the battery life of the mobile terminal can be prolonged.

Description

A kind of method that radio frequency link controls and device

Technical field

The present invention relates to communication technical field, particularly relate to method and the device of the control of a kind of radio frequency link.

Background technology

Along with the development of mobile communication technology, subscriber traffic and data throughout constantly increase, and 3G (Third Generation) Moblie (The3rdGenerationTelecommunication, 3G) system can not meet the demand of user completely.Long Term Evolution (LongTermEvolution, LTE) technology is as the evolution of 3G system, and LTE-Advanced is the further evolution of LTE, and LTE-Advanced proposes maximum support 100MHz bandwidth.But, existing frequency spectrum distributing technique and planning are difficult to find the whole section of frequency range enough carrying LTE-Advanced system 100MHz bandwidth, therefore, third generation partner program (3rdGenerationPartnershipProject, 3GPP) tissue proposes to use carrier aggregation (CarrierAggregation, CA) technology to solve the demand of LTE-Advanced system to band resource.

CA technology, well multiple carrier aggregation can be become the frequency spectrum that wider, also can some discontinuous frequency spectrum fragments are aggregated to together, achieve the transmission bandwidth of maximum 100MHz, improve terminal downstream transmission speed, bring good experience to user.Compared to single carrier network terminal, the terminal under CA Operation mode needs built-in more RF transmit-receive circuit and more complicated modulation /demodulation program, produces larger power consumption, shorten the service time of end cell in terminal running current situation necessity.

In prior art, no matter which kind of duty mobile terminal is in, mobile terminal only can enable the carrier aggregation function given tacit consent in its one or more carrier aggregation functions supported, cannot select concrete carrier aggregation function according to the application scenarios of real work voluntarily, the carrier aggregation function washability of mobile terminal is poor.Because the power consumption of different carrier aggregation functions is different, mobile terminal cannot select concrete carrier aggregation function flexibly, makes the power consumption controllability of mobile terminal low.

Summary of the invention

A kind of method that the embodiment of the present invention provides radio frequency link to control and device, can improve the washability of the carrier aggregation function of mobile terminal, improves the controllability of the power consumption of mobile terminal, strengthens the flying power of mobile terminal.

Embodiments provide a kind of method that radio frequency link controls, it can comprise:

Setting plurality of application scenes, and set the carrier aggregation function of each application scenarios association;

When starting application program corresponding to described user operation instruction according to user operation instruction, determine the intended application scene that described application program is run in the terminal;

According to the carrier aggregation function of described each application scenarios association, determine time division duplex Long Term Evolution TD-LTE carrier aggregation function or the Frequency Division Duplexing (FDD) Long Term Evolution FDD-LTE carrier aggregation function of described intended application scene relating;

Start TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of the described intended application scene relating determined, to be carried the operation of described application program by described TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function.

Wherein, described setting plurality of application scenes, comprising:

According to the configuration information of mobile terminal, and described mobile terminal affiliated carrier network function setting plurality of application scenes;

Wherein, the configuration information of described mobile terminal comprises: the hardware configuration information of described mobile terminal, or the software configuration information of described mobile terminal.

Wherein, describedly determine the intended application scene that described application program is run in the terminal, comprising:

The carrier aggregation function that when determining that described application program is run in described mobile terminal, the configuration information of described mobile terminal is supported, and the carrier aggregation function that the current operator network of described mobile terminal is supported;

According to the carrier aggregation function that the configuration information of described mobile terminal is supported, and the carrier aggregation function determination intended application scene that described carrier network is supported.

Wherein, described determine the intended application scene that described application program is run in the terminal before, described method also comprises:

Obtain the user operation instruction on the user interface of mobile terminal;

The Starting mode corresponding according to the multiple application program prestored, determines the application program that described user operation instruction is corresponding.

Wherein, described application scenarios comprises: any one in the first application scenarios, the second application scenarios, the 3rd application scenarios, the 4th application scenarios and the 5th application scenarios;

Wherein, described first application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described second application scenarios is that the configuration information of described mobile terminal supports FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 3rd application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described 4th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 5th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function.

The embodiment of the present invention additionally provides the device that a kind of radio frequency link controls, and it can comprise:

Module being set, for setting plurality of application scenes, and setting the carrier aggregation function of each application scenarios association;

Determination module, during for starting application program corresponding to described user operation instruction according to user operation instruction, determines the intended application scene that described application program is run in the terminal;

Described determination module, also for the carrier aggregation function according to described each application scenarios association, determines time division duplex Long Term Evolution TD-LTE carrier aggregation function or the Frequency Division Duplexing (FDD) Long Term Evolution FDD-LTE carrier aggregation function of described intended application scene relating;

Start module, for starting TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of the described intended application scene relating determined, to be carried the operation of described application program by described TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function.

Wherein, described arrange module specifically for:

According to the configuration information of mobile terminal, and described mobile terminal affiliated carrier network function setting plurality of application scenes;

Wherein, the configuration information of described mobile terminal comprises: the hardware configuration information of described mobile terminal, or the software configuration information of described mobile terminal.

Wherein, described determination module specifically for:

The carrier aggregation function that when determining that described application program is run in described mobile terminal, the configuration information of described mobile terminal is supported, and the carrier aggregation function that the current operator network of described mobile terminal is supported;

According to the carrier aggregation function that the configuration information of described mobile terminal is supported, and the carrier aggregation function determination intended application scene that described carrier network is supported.

Wherein, described device also comprises:

Receiver module, the user operation instruction on the user interface obtaining mobile terminal;

Described determination module, also for the Starting mode corresponding according to the multiple application program that prestores, determines the application program that described user operation instruction that described receiver module receives is corresponding.

Wherein, described application scenarios comprises: any one in the first application scenarios, the second application scenarios, the 3rd application scenarios, the 4th application scenarios and the 5th application scenarios;

Wherein, described first application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described second application scenarios is that the configuration information of described mobile terminal supports FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 3rd application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described 4th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 5th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function.

Implement the embodiment of the present invention, there is following beneficial effect:

The embodiment of the present invention can set plurality of application scenes, also can set the carrier aggregation function of each application scenarios association; The intended application scene that application program is run in the terminal can be determined when the application program corresponding according to user operation instruction startup user operation instruction, and then TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of described intended application scene relating can be determined, improve the washability of the carrier aggregation function of mobile terminal.After the TD-LTE carrier aggregation function that have selected intended application scene relating or FDD-LTE carrier aggregation function, above-mentioned TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function can be started, to be carried the operation of described application program by above-mentioned TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function, can determine that corresponding carrier aggregation function carrys out the operation of support application program according to the concrete application program started, improve the controllability of the power consumption of mobile terminal, strengthen the flying power of mobile terminal.

Accompanying drawing explanation

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

Fig. 1 is the data transmission schematic diagram of mobile terminal under carrier aggregation Operation mode that the embodiment of the present invention provides;

Fig. 2 is the first embodiment schematic flow sheet of the method for the radio frequency link control that the embodiment of the present invention provides;

Fig. 3 is the second embodiment schematic flow sheet of the method for the radio frequency link control that the embodiment of the present invention provides;

Fig. 4 is the schematic diagram of the user interface of the mobile terminal that the embodiment of the present invention provides;

Fig. 5 is a structural representation of the embodiment of the device of the radio frequency link control that the embodiment of the present invention provides;

Fig. 6 is another structural representation of the embodiment of the device of the radio frequency link control that the embodiment of the present invention provides;

Fig. 7 is the structural representation of the embodiment of the mobile terminal that the embodiment of the present invention provides.

Embodiment

The present invention program is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the embodiment of a part of the present invention, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, should belong to the scope of protection of the invention.

Term " first ", " second " and " the 3rd " etc. in instructions of the present invention and claims and above-mentioned accompanying drawing are for distinguishing different object, but not for describing particular order.In addition, term " comprises " and their any distortion, and intention is to cover not exclusive comprising.Such as contain the process of series of steps or unit, method, system, product or equipment and be not defined in the step or unit listed, but also comprise the step or unit do not listed alternatively, or also comprise alternatively for other intrinsic step of these processes, method, product or equipment or unit.

In specific implementation, mobile terminal described in the embodiment of the present invention can comprise: smart mobile phone, panel computer, personal digital assistant (PersonalDigitalAssistant, PDA), mobile internet device (MobileInternetDevice, MID), all kinds of terminal device such as Intelligent worn device (as intelligent watch, Intelligent bracelet), the embodiment of the present invention is not construed as limiting.Below will for mobile phone, the method that the radio frequency link provided the embodiment of the present invention controls and device are specifically described.

The method that the radio frequency link provided to better understand the embodiment of the present invention controls and device, the data transmittal and routing form under the carrier aggregation Operation mode first composition graphs 1 pair of embodiment of the present invention provided below is described.

See Fig. 1, be the data transmission schematic diagram of mobile terminal under carrier aggregation Operation mode that the embodiment of the present invention provides.As shown in Figure 1, carrier aggregation is polymerized by polymerized unit respectively through RF transmit-receive circuit A and RF transmit-receive circuit B by member carrier A and member carrier B, realizes the data transmission between base station and mobile terminal.In specific implementation, the Operation mode of embedded in mobile phone can comprise single carrier Operation mode and carrier aggregation Operation mode, mobile phone can have many radio-frequency receiving-transmitting paths, when mobile phone is in carrier aggregation Operation mode, can be worked by many radio-frequency receiving-transmitting paths simultaneously, carry out transmission and the process of multi-carrier signal between mobile phone and server.When mobile phone is in single carrier Operation mode, base station can select wherein one from above-mentioned many radio-frequency receiving-transmitting paths, carries out transmission and the process of single-carrier signal between mobile phone and server.

The method that the radio frequency link that the embodiment of the present invention provides controls and device can determine the concrete carrier aggregation function started according to embody rule scene during handset starting application program.Below in conjunction with Fig. 2 to Fig. 7, the control method of the carrier aggregation function that the embodiment of the present invention provides and device are specifically described.

See Fig. 2, it is the first embodiment schematic flow sheet of the method for the radio frequency link control that the embodiment of the present invention provides.Method described in the embodiment of the present invention, comprises step:

S101, setting plurality of application scenes, and set the carrier aggregation function of each application scenarios association.

In the embodiment that some are feasible, mobile phone can preset the plurality of application scenes that may run in mobile phone operational process, and wherein, above-mentioned application scenarios can by the configuration information of mobile phone self, or the network state belonging to mobile phone, or the factor such as environment residing for mobile phone is determined.Mobile phone can determine the situation of its carrier aggregation function supported according to above-mentioned factor, and then according to the multiple different application scenarios of different situations setting of the carrier aggregation function that can support, and then the carrier aggregation function of startup can be determined according to concrete application scenarios.In specific implementation, after mobile phone sets plurality of application scenes, also can set the carrier aggregation function of each application scenarios association, namely mobile phone can preset the carrier aggregation function that mobile phone prioritizing selection starts under each application scenarios.

In specific implementation, carrier aggregation function described in the embodiment of the present invention can comprise: time division duplex Long Term Evolution (TimeDivisionLongTermEvolution, TD-LTE) carrier aggregation function, or Frequency Division Duplexing (FDD) Long Term Evolution (FrequencyDivisionDuplexing-LongTermEvolution, FDD-LTE) carrier aggregation function etc., do not limit at this.Wherein, the specific implementation of above-mentioned TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function see the implementation specified in communication standard protocol, can not limit at this.

S102, when starting application program corresponding to described user operation instruction according to user operation instruction, determines the intended application scene that described application program is run in the terminal.

In the embodiment that some are feasible, mobile phone can built-in multiple application program, the corresponding a kind of Starting mode of each application program, the corresponding a kind of user operation instruction of each Starting mode.Cellphone subscriber can input corresponding user operation instruction according to the Starting mode preset, to trigger the corresponding application program of handset starting.In specific implementation, first mobile phone can obtain the user operation instruction on user interface, determines according to the user operation instruction got the application program (i.e. destination application) that above-mentioned user operation instruction is corresponding.Wherein, above-mentioned destination application can be the one in above-mentioned multiple application program, and above-mentioned user operation instruction can comprise: pressing instruction, touch instruction, vibration instruction or audio instructions etc., do not limit at this.

In the embodiment that some are feasible, after handset starting destination application, also can detect the application scenarios (i.e. intended application scene) that destination application runs in mobile phone, wherein, above-mentioned intended application scene is by the current hardware configuration information of mobile phone, software configuration information, network function state or run the running environment factors composition such as power consumption state, does not limit at this.

S103, according to the carrier aggregation function of described each application scenarios association, determines time division duplex Long Term Evolution TD-LTE carrier aggregation function or the Frequency Division Duplexing (FDD) Long Term Evolution FDD-LTE carrier aggregation function of described intended application scene relating.

In the embodiment that some are feasible, mobile phone has preset plurality of application scenes, and after setting the carrier aggregation function of each application scenarios association, after the intended application scene that the application program determining current startup when mobile phone is run in mobile phone, then according to the incidence relation of above-mentioned application scenarios and carrier aggregation function, the carrier aggregation function of above-mentioned intended application scene relating can be determined.Wherein, the carrier aggregation function of above-mentioned intended application scene relating can comprise TD-LTE carrier aggregation function, or FDD-LTE carrier aggregation function, does not repeat them here.Such as, when mobile phone has preset two kinds of application scenarioss, comprise the first application scenarios and the second application scenarios, and the carrier aggregation function setting the first application scenarios association is TD-LTE carrier aggregation function, the carrier aggregation function of the second application scenarios association is FDD-LTE carrier aggregation function.When handset starting after application A, if determine, the intended application scene that application A is run in mobile phone is identical with above-mentioned the first default application scenarios, then can determine that the carrier aggregation function of above-mentioned intended application scene relating is TD-LTE carrier aggregation function.If determine, the intended application scene that application A is run in mobile phone is identical with above-mentioned the second default application scenarios, then can determine that the carrier aggregation function of above-mentioned intended application scene relating is FDD-LTE carrier aggregation function.

S104, starts TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of the described intended application scene relating determined, to be carried the operation of described application program by described TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function.

In the embodiment that some are feasible, after the carrier aggregation function that mobile phone determines above-mentioned intended application scene relating is TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function, then can start the above-mentioned TD-LTE carrier aggregation function determined or FDD-LTE carrier aggregation function, and then carry the operation of above-mentioned destination application by above-mentioned FDD-LTE carrier aggregation function or TD-LTE carrier aggregation function.Such as, if the carrier aggregation function of intended application scene relating that mobile phone determination application A is run in mobile phone is TD-LTE carrier aggregation function, then TD-LTE carrier aggregation function can be started to carry the operation of application A.If the carrier aggregation function of the intended application scene relating that mobile phone determination application A is run in mobile phone is FDD-LTE carrier aggregation function, then can start FDD-LTE carrier aggregation function to carry the operation of application A.

In embodiments of the present invention, mobile phone can set plurality of application scenes, also can set the carrier aggregation function of each application scenarios association.When mobile phone can determine according to during the application program that user operation instruction startup user operation instruction is corresponding the intended application scene that application program is run in mobile phone, and then TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of described intended application scene relating can be determined, improve the washability of the carrier aggregation function of mobile phone.After the TD-LTE carrier aggregation function that mobile phone have selected intended application scene relating or FDD-LTE carrier aggregation function, above-mentioned TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function can be started, to be carried the operation of described application program by above-mentioned TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function, can determine that corresponding carrier aggregation function carrys out the operation of support application program according to the concrete application program started, improve the controllability of the power consumption of mobile phone, strengthen the flying power of mobile phone.

See Fig. 3, it is the second embodiment schematic flow sheet of the method for the radio frequency link control that the embodiment of the present invention provides.Method described in the embodiment of the present invention, comprises step:

S201, according to the configuration information of mobile terminal, and described mobile terminal affiliated carrier network function setting plurality of application scenes.

In the embodiment that some are feasible, mobile phone can preset the plurality of application scenes that may run in mobile phone operational process, and wherein, above-mentioned application scenarios can by the configuration information of mobile phone self, or the network state belonging to mobile phone, or the factor such as environment residing for mobile phone is determined.In specific implementation, mobile phone can carrier network function setting plurality of application scenes belonging to its configuration information and mobile phone, and wherein, the configuration information of above-mentioned mobile phone can comprise: the hardware configuration information of mobile phone or the software configuration information of mobile phone.The network function that the different network formats of the operator that the carrier network function belonging to above-mentioned mobile phone can be belonging to mobile phone comprises, comprises the heterogeneous networks such as 2G, 3G or 4G.Wherein, above-mentioned operator can comprise: China Mobile, China Telecom or CHINAUNICOM etc., do not limit at this.That is, mobile phone can determine the situation of its carrier aggregation function supported according to above-mentioned factor, and then can according to the multiple different application scenarios of different situations setting of the carrier aggregation function that can support.

In the embodiment that some are feasible, the application scenarios that above-mentioned mobile phone presets can comprise: any one in the first application scenarios, the second application scenarios, the 3rd application scenarios, the 4th application scenarios and the 5th application scenarios.Wherein, above-mentioned first application scenarios is that the configuration information of mobile phone supports TD-LTE carrier aggregation function, and the carrier network of mobile phone supports TD-LTE carrier aggregation function, and namely current phone only supports TD-LTE carrier aggregation function, cannot support FDD-LTE carrier aggregation function.Above-mentioned second application scenarios is that the configuration information of mobile phone supports FDD-LTE carrier aggregation function, and the carrier network of mobile phone supports FDD-LTE carrier aggregation function, namely current phone only supports FDD-LTE carrier aggregation function, cannot support TD-LTE carrier aggregation function.Above-mentioned 3rd application scenarios is that the configuration information of mobile phone supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of mobile phone supports TD-LTE carrier aggregation function.Namely the configuration information of current phone supports two kinds of carrier aggregation functions, but the network function of mobile phone only supports TD-LTE carrier aggregation function, makes mobile phone only support TD-LTE carrier aggregation function, cannot support FDD-LTE carrier aggregation function.Above-mentioned 4th application scenarios is that the configuration information of mobile phone supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of mobile phone supports FDD-LTE carrier aggregation function; Namely the configuration information of current phone supports two kinds of carrier aggregation functions, but the network function of mobile phone only supports FDD-LTE carrier aggregation function, makes mobile phone only support FDD-LTE carrier aggregation function, cannot support TD-LTE carrier aggregation function.Above-mentioned 5th application scenarios is that the configuration information of mobile phone supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of mobile phone supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, now, mobile phone can support TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function two kinds of carrier aggregation functions simultaneously.

After mobile phone sets above-mentioned various application scenarios, then can set the carrier aggregation function of each application scenarios association, and then the carrier aggregation function of startup can be determined according to concrete application scenarios.

S202, sets the carrier aggregation function of each application scenarios association.

In the embodiment that some are feasible, after mobile phone sets plurality of application scenes, also can set the carrier aggregation function of each application scenarios association, namely mobile phone can preset the carrier aggregation function that mobile phone prioritizing selection starts under each application scenarios.Concrete, mobile phone can set the carrier aggregation function that above-mentioned first application scenarios associates with the 3rd application scenarios and be TD-LTE carrier aggregation function, the carrier aggregation function that above-mentioned second application scenarios associates with the 4th application scenarios is FDD-LTE carrier aggregation function, and the carrier aggregation function of above-mentioned 5th application scenarios association is TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function.In specific implementation, after the carrier aggregation function of the above-mentioned 5th application scenarios association of mobile phone setting is TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, also can be set in the selecting priority of TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function in above-mentioned 5th application scenarios, the selection priority that specifically can set TD-LTE carrier aggregation function is the first selection priority, the selection priority of FDD-LTE carrier aggregation function is the second selection priority, now, the carrier aggregation function of the 5th application scenarios association can be defaulted as TD-LTE carrier aggregation function.When the failure of handset starting TD-LTE carrier aggregation function, the carrier aggregation function that the FDD-LTE carrier aggregation function of the second selecting priority associates as the 5th application scenarios can be selected.

It should be noted that, after mobile phone determines the carrier aggregation function of above-mentioned various application scenarios association, if the carrier aggregation function of above-mentioned application scenarios association only has one, then mobile phone can when the carrier aggregation function failure starting the association of above-mentioned application scenarios, start the single carrier Operation mode of mobile phone voluntarily, the switching realizing radio frequency link controls.

S203, obtains the user operation instruction on the user interface of mobile terminal, and the Starting mode corresponding according to the multiple application program prestored, determine the application program that described user operation instruction is corresponding.

In the embodiment that some are feasible, according to user operation instruction, mobile phone determines that the specific implementation process of destination application to be launched see the implementation described by the step S102 in above-mentioned first embodiment, can not repeat them here.

Further, in the embodiment that some are feasible, as Fig. 4, it is the operation chart of the user interface that the embodiment of the present invention provides.Mobile phone can to the user operation monitoring state on the user interface of mobile phone, to determine the application program needing to start according to the user operation instruction on user interface.The user operation instruction (specifically can be and touch instruction) on its user interface is got when mobile phone, Starting mode that then can be corresponding according to the multiple application program of above-mentioned setting, determine that the above-mentioned user operation instruction got corresponds to the Starting mode of which kind of application program, and then can determine according to above-mentioned corresponding relation the application program (i.e. destination application) to be launched that above-mentioned user operation instruction is corresponding.

S204, determines the intended application scene that described application program is run in the terminal.

In the embodiment that some are feasible, the specific implementation process of mobile phone determination intended application scene see the implementation described by the step S102 in above-mentioned first embodiment, can not repeat them here.

Further, mobile phone can detect hardware configuration information or the software configuration information of mobile phone when destination application runs in mobile phone, and then can determine the carrier aggregation function that the hardware configuration information of above-mentioned mobile phone and software configuration information are supported.Further, mobile phone also obtains the network information of mobile phone when destination application runs in mobile phone, and then can determine the carrier aggregation function that the current operator network of mobile phone is supported.Mobile phone determines the carrier aggregation function that its hardware configuration information or software configuration information are supported, and after the carrier aggregation function supported of mobile phone operator network, the information comprised in plurality of application scenes then according to above-mentioned setting, determines the intended application scene that current application program is run in mobile phone.Wherein, above-mentioned intended application scene can be any one in above-mentioned first application scenarios, the second application scenarios, the 3rd application scenarios, the 4th application scenarios and the 5th application scenarios, specifically can determine according to practical application scene, not limit at this.

S205, according to the carrier aggregation function of described each application scenarios association, determines TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of described intended application scene relating.

In the embodiment that some are feasible, the TD-LTE carrier aggregation function of mobile phone determination intended application scene relating or the specific implementation process of FDD-LTE carrier aggregation function see the implementation described by the step S103 in above-mentioned first embodiment, can not repeat them here.

S206, starts TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of the described intended application scene relating determined.

In the embodiment that some are feasible, the specific implementation process of the TD-LTE carrier aggregation function that handset starting is determined or FDD-LTE carrier aggregation function see the implementation described by the step S104 in above-mentioned first embodiment, can not repeat them here.

In embodiments of the present invention, mobile phone can set plurality of application scenes, also can set the carrier aggregation function of each application scenarios association.Mobile phone also can obtain user operation instruction from the user interface of mobile phone, the intended application scene that application program is run in mobile phone can be determined when starting destination application according to the user operation instruction acquired, improve the interest of mobile phone, and then TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of described intended application scene relating can be determined, improve the washability of the carrier aggregation function of mobile phone.After the TD-LTE carrier aggregation function that mobile phone have selected intended application scene relating or FDD-LTE carrier aggregation function, above-mentioned TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function can be started, to be carried the operation of described application program by above-mentioned TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function, can determine that corresponding carrier aggregation function carrys out the operation of support application program according to the concrete application program started, improve the controllability of the power consumption of mobile phone, strengthen the flying power of mobile phone.

See Fig. 5, it is a structural representation of the embodiment of the device of the radio frequency link control that the embodiment of the present invention provides.Device described in the embodiment of the present invention, comprising:

Module 10 being set, for setting plurality of application scenes, and setting the carrier aggregation function of each application scenarios association.

Determination module 20, for when starting application program corresponding to described user operation instruction according to user operation instruction, determines the intended application scene that described application program is run in the terminal.

Described determination module 20, also for according to the described carrier aggregation function arranging each application scenarios association described in module setting, determine time division duplex Long Term Evolution TD-LTE carrier aggregation function or the Frequency Division Duplexing (FDD) Long Term Evolution FDD-LTE carrier aggregation function of described intended application scene relating.

Start module 30, for starting TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of the described intended application scene relating determined, to be carried the operation of described application program by described TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function.

In the embodiment that some are feasible, above-mentioned arrange module 10 specifically for:

According to the configuration information of mobile terminal, and described mobile terminal affiliated carrier network function setting plurality of application scenes;

Wherein, the configuration information of described mobile terminal comprises: the hardware configuration information of described mobile terminal, or the software configuration information of described mobile terminal.

In the embodiment that some are feasible, above-mentioned determination module 20 specifically for:

The carrier aggregation function that when determining that described application program is run in described mobile terminal, the configuration information of described mobile terminal is supported, and the carrier aggregation function that the current operator network of described mobile terminal is supported;

According to the carrier aggregation function that the configuration information of described mobile terminal is supported, and the carrier aggregation function determination intended application scene that described carrier network is supported.

In the embodiment that some are feasible, as Fig. 6, the device described by the embodiment of the present invention also comprises:

Receiver module 40, the user operation instruction on the user interface obtaining mobile terminal.

Described determination module 20, also for the Starting mode corresponding according to the multiple application program that prestores, determines the application program that described user operation instruction that described receiver module receives is corresponding.

In the embodiment that some are feasible, described application scenarios comprises: any one in the first application scenarios, the second application scenarios, the 3rd application scenarios, the 4th application scenarios and the 5th application scenarios;

Wherein, described first application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described second application scenarios is that the configuration information of described mobile terminal supports FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 3rd application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described 4th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 5th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function.

In the embodiment that some are feasible, mobile phone presets the plurality of application scenes that may run in mobile phone operational process by arranging module 10, and wherein, above-mentioned application scenarios can by the configuration information of mobile phone self, or the network state belonging to mobile phone, or the factor such as environment residing for mobile phone is determined.The situation of the carrier aggregation function that module 10 can be supported according to above-mentioned factor determination mobile phone is set, and then according to the multiple different application scenarios of different situations setting of the carrier aggregation function that can support, and then the carrier aggregation function of startup can be determined according to concrete application scenarios.In specific implementation, arrange after module 10 sets plurality of application scenes, also can set the carrier aggregation function of each application scenarios association, namely mobile phone can preset the carrier aggregation function that mobile phone prioritizing selection under each application scenarios starts.In specific implementation, the carrier aggregation function described in the embodiment of the present invention can comprise: TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function etc., do not limit at this.Wherein, the specific implementation of above-mentioned TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function see the implementation specified in communication standard protocol, can not limit at this.

Further, in the embodiment that some are feasible, arranging module 10 can carrier network function setting plurality of application scenes belonging to the configuration information of mobile phone and mobile phone, and wherein, the configuration information of above-mentioned mobile phone can comprise: the hardware configuration information of mobile phone or the software configuration information of mobile phone.The network function that the different network formats of the operator that the carrier network function belonging to above-mentioned mobile phone can be belonging to mobile phone comprises, comprises the heterogeneous networks such as 2G, 3G or 4G.Wherein, above-mentioned operator can comprise: China Mobile, China Telecom or CHINAUNICOM etc., do not limit at this.That is, module 10 can determine its carrier aggregation function supported situation according to above-mentioned factor is set, and then can according to the multiple different application scenarios of different situations setting of the carrier aggregation function that can support.

In the embodiment that some are feasible, the application scenarios that above-mentioned mobile phone presets can comprise: any one in the first application scenarios, the second application scenarios, the 3rd application scenarios, the 4th application scenarios and the 5th application scenarios.Wherein, above-mentioned first application scenarios is that the configuration information of mobile phone supports TD-LTE carrier aggregation function, and the carrier network of mobile phone supports TD-LTE carrier aggregation function, and namely current phone only supports TD-LTE carrier aggregation function, cannot support FDD-LTE carrier aggregation function.Above-mentioned second application scenarios is that the configuration information of mobile phone supports FDD-LTE carrier aggregation function, and the carrier network of mobile phone supports FDD-LTE carrier aggregation function, namely current phone only supports FDD-LTE carrier aggregation function, cannot support TD-LTE carrier aggregation function.Above-mentioned 3rd application scenarios is that the configuration information of mobile phone supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of mobile phone supports TD-LTE carrier aggregation function.Namely the configuration information of current phone supports two kinds of carrier aggregation functions, but the network function of mobile phone only supports TD-LTE carrier aggregation function, makes mobile phone only support TD-LTE carrier aggregation function, cannot support FDD-LTE carrier aggregation function.Above-mentioned 4th application scenarios is that the configuration information of mobile phone supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of mobile phone supports FDD-LTE carrier aggregation function; Namely the configuration information of current phone supports two kinds of carrier aggregation functions, but the network function of mobile phone only supports FDD-LTE carrier aggregation function, makes mobile phone only support FDD-LTE carrier aggregation function, cannot support TD-LTE carrier aggregation function.Above-mentioned 5th application scenarios is that the configuration information of mobile phone supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of mobile phone supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, now, mobile phone can support TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function two kinds of carrier aggregation functions simultaneously.

Further, in the embodiment that some are feasible, in the embodiment that some are feasible, arrange after module 10 sets plurality of application scenes, also can set the carrier aggregation function of each application scenarios association, namely module 10 is set and can preset the carrier aggregation function that mobile phone prioritizing selection starts under each application scenarios.Concrete, arrange module 10 can set the carrier aggregation function that above-mentioned first application scenarios associates with the 3rd application scenarios and be TD-LTE carrier aggregation function, the carrier aggregation function that above-mentioned second application scenarios associates with the 4th application scenarios is FDD-LTE carrier aggregation function, and the carrier aggregation function of above-mentioned 5th application scenarios association is TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function.In specific implementation, arrange after carrier aggregation function that module 10 sets above-mentioned 5th application scenarios association is TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, also can be set in the selecting priority of TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function in above-mentioned 5th application scenarios, the selection priority that specifically can set TD-LTE carrier aggregation function is the first selection priority, the selection priority of FDD-LTE carrier aggregation function is the second selection priority, now, the carrier aggregation function of the 5th application scenarios association can be defaulted as TD-LTE carrier aggregation function.When the failure of handset starting TD-LTE carrier aggregation function, the carrier aggregation function that the FDD-LTE carrier aggregation function of the second selecting priority associates as the 5th application scenarios can be selected.

In the embodiment that some are feasible, mobile phone can built-in multiple application program, the corresponding a kind of Starting mode of each application program, the corresponding a kind of user operation instruction of each Starting mode.Cellphone subscriber can input corresponding user operation instruction according to the Starting mode preset, to trigger the corresponding application program of handset starting.In specific implementation, first receiver module 40 can obtain the user operation instruction on user interface, and the application program (i.e. destination application) that above-mentioned user operation instruction is corresponding is determined in the user operation instruction that determination module 20 can get according to receiver module 40.Wherein, above-mentioned destination application can be the one in above-mentioned multiple application program, and above-mentioned user operation instruction can comprise: pressing instruction, touch instruction, vibration instruction or audio instructions etc., do not limit at this.

Further, in the embodiment that some are feasible, as Fig. 4, it is the operation chart of the user interface that the embodiment of the present invention provides.Receiver module 40 can to the user operation monitoring state on the user interface of mobile phone, to determine the application program needing to start according to the user operation instruction on user interface.The user operation instruction (specifically can be and touch instruction) on its user interface is got when receiver module 40, Starting mode that then can be corresponding according to the multiple application program of above-mentioned setting, determine that the above-mentioned user operation instruction got corresponds to the Starting mode of which kind of application program, and then can determine according to above-mentioned corresponding relation the application program (i.e. destination application) to be launched that above-mentioned user operation instruction is corresponding.

In the embodiment that some are feasible, after handset starting destination application, determination module 20 also can detect the application scenarios (i.e. intended application scene) that destination application runs in mobile phone, wherein, above-mentioned intended application scene is by the current hardware configuration information of mobile phone, software configuration information, network function state or run the running environment factors composition such as power consumption state, does not limit at this.

In the embodiment that some are feasible, module 10 is set and has preset plurality of application scenes, and after setting the carrier aggregation function of each application scenarios association, after the intended application scene that the application program determining current startup when determination module 20 is run in mobile phone, then according to the incidence relation of above-mentioned application scenarios and carrier aggregation function, the carrier aggregation function of above-mentioned intended application scene relating can be determined.Wherein, the carrier aggregation function of above-mentioned intended application scene relating can comprise TD-LTE carrier aggregation function, or FDD-LTE carrier aggregation function, does not repeat them here.Such as, two kinds of application scenarioss have been preset when arranging module 10, comprise the first application scenarios and the second application scenarios, and the carrier aggregation function setting the first application scenarios association is TD-LTE carrier aggregation function, the carrier aggregation function of the second application scenarios association is FDD-LTE carrier aggregation function.When handset starting after application A, if determination module 20 determines that the intended application scene that application A is run in mobile phone is identical with above-mentioned the first default application scenarios, then can determine that the carrier aggregation function of above-mentioned intended application scene relating is TD-LTE carrier aggregation function.If determination module 20 determines that the intended application scene that application A is run in mobile phone is identical with above-mentioned the second default application scenarios, then can determine that the carrier aggregation function of above-mentioned intended application scene relating is FDD-LTE carrier aggregation function.

In the embodiment that some are feasible, after the carrier aggregation function that determination module 20 determines above-mentioned intended application scene relating is TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function, start module 30 and can start the above-mentioned TD-LTE carrier aggregation function determined or FDD-LTE carrier aggregation function, and then carry the operation of above-mentioned destination application by above-mentioned FDD-LTE carrier aggregation function or TD-LTE carrier aggregation function.Such as, if determination module 20 determines that the carrier aggregation function of the intended application scene relating that application A is run in mobile phone is TD-LTE carrier aggregation function, start module 30 and can start TD-LTE carrier aggregation function to carry the operation of application A.If determination module 20 determines that the carrier aggregation function of the intended application scene relating that application A is run in mobile phone is FDD-LTE carrier aggregation function, start module 30 and can start FDD-LTE carrier aggregation function to carry the operation of application A.

It should be noted that, after determination module 20 determines the carrier aggregation function of above-mentioned various application scenarios association, if the carrier aggregation function of above-mentioned application scenarios association only has one, then starting module 30 can when the carrier aggregation function failure starting the association of above-mentioned application scenarios, start the single carrier Operation mode of mobile phone voluntarily, the switching realizing radio frequency link controls.

In embodiments of the present invention, mobile phone can set plurality of application scenes, also can set the carrier aggregation function of each application scenarios association.Mobile phone also can obtain user operation instruction from the user interface of mobile phone, the intended application scene that application program is run in mobile phone can be determined when starting destination application according to the user operation instruction acquired, improve the interest of mobile phone, and then TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of described intended application scene relating can be determined, improve the washability of the carrier aggregation function of mobile phone.After the TD-LTE carrier aggregation function that mobile phone have selected intended application scene relating or FDD-LTE carrier aggregation function, above-mentioned TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function can be started, to be carried the operation of described application program by above-mentioned TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function, can determine that corresponding carrier aggregation function carrys out the operation of support application program according to the concrete application program started, improve the controllability of the power consumption of mobile phone, strengthen the flying power of mobile phone.

See Fig. 7, be the example structure schematic diagram of the mobile terminal that the embodiment of the present invention provides, the mobile terminal described in the embodiment of the present invention can be used for the method for the radio frequency link control performed described in the invention described above embodiment.Mobile terminal described in the embodiment of the present invention, comprising: at least one input equipment 1001; At least one output device 1002; At least one processor 1003, such as CPU; With storer 1004, above-mentioned input equipment 1001, output device 1002, processor 1003 are connected by bus 1005 with storer 1004.

Above-mentioned storer 1004 can be high-speed RAM storer, also can be non-labile storer (non-volatilememory), such as magnetic disk memory.Above-mentioned storer 1004 is for storing batch processing code, and above-mentioned input equipment 1001, output device 1002 and processor 1003, for calling the program code stored in storer 1004, perform and operate as follows:

Above-mentioned processor 1003, for setting plurality of application scenes, and sets the carrier aggregation function of each application scenarios association.

Above-mentioned processor 1003, also for when starting application program corresponding to described user operation instruction according to user operation instruction, determines the intended application scene that described application program is run in the terminal.

Above-mentioned processor 1003, also for the carrier aggregation function according to described each application scenarios association, determine time division duplex Long Term Evolution TD-LTE carrier aggregation function or the Frequency Division Duplexing (FDD) Long Term Evolution FDD-LTE carrier aggregation function of described intended application scene relating.

Above-mentioned processor 1003, also for starting TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of the described intended application scene relating determined, to be carried the operation of described application program by described TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function.

In the embodiment that some are feasible, above-mentioned processor 1003 specifically for:

According to the configuration information of mobile terminal, and described mobile terminal affiliated carrier network function setting plurality of application scenes;

Wherein, the configuration information of described mobile terminal comprises: the hardware configuration information of described mobile terminal, or the software configuration information of described mobile terminal.

In the embodiment that some are feasible, above-mentioned processor 1003 specifically for:

The carrier aggregation function that when determining that described application program is run in described mobile terminal, the configuration information of described mobile terminal is supported, and the carrier aggregation function that the current operator network of described mobile terminal is supported;

According to the carrier aggregation function that the configuration information of described mobile terminal is supported, and the carrier aggregation function determination intended application scene that described carrier network is supported.

In the embodiment that some are feasible, above-mentioned input equipment 1001, the user operation instruction on the user interface obtaining mobile terminal.

Above-mentioned processor 1003, also for the Starting mode corresponding according to the multiple application program prestored, determines the application program that described user operation instruction is corresponding.

In the embodiment that some are feasible, described application scenarios comprises: any one in the first application scenarios, the second application scenarios, the 3rd application scenarios, the 4th application scenarios and the 5th application scenarios;

Wherein, described first application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described second application scenarios is that the configuration information of described mobile terminal supports FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 3rd application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described 4th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 5th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function.

In specific implementation, mobile terminal described in the embodiment of the present invention performs the first embodiment of the method for the radio frequency link control that the embodiment of the present invention provides and the implementation described in the second embodiment by its built-in modules (input equipment 1001, output device 1002 and processor 1003 etc.), the implementation described by embodiment of the device that the radio frequency link that also can perform the embodiment of the present invention provides controls, specific implementation process see each embodiment above-mentioned, can not repeat them here.

One of ordinary skill in the art will appreciate that all or part of flow process realized in above-described embodiment method, that the hardware that can carry out instruction relevant by computer program has come, described program can be stored in a computer read/write memory medium, this program, when performing, can comprise the flow process of the embodiment as above-mentioned each side method.Wherein, described storage medium can be magnetic disc, CD, read-only store-memory body (Read-OnlyMemory, ROM) or random store-memory body (RandomAccessMemory, RAM) etc.

Above disclosedly be only present pre-ferred embodiments, certainly can not limit the interest field of the present invention with this, therefore according to the equivalent variations that the claims in the present invention are done, still belong to the scope that the present invention is contained.

Claims (10)

1. a method for radio frequency link control, is characterized in that, comprising:

Setting plurality of application scenes, and set the carrier aggregation function of each application scenarios association;

When starting application program corresponding to described user operation instruction according to user operation instruction, determine the intended application scene that described application program is run in the terminal;

According to the carrier aggregation function of described each application scenarios association, determine time division duplex Long Term Evolution TD-LTE carrier aggregation function or the Frequency Division Duplexing (FDD) Long Term Evolution FDD-LTE carrier aggregation function of described intended application scene relating;

Start TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of the described intended application scene relating determined, to be carried the operation of described application program by described TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function.

2. the method for claim 1, is characterized in that, described setting plurality of application scenes, comprising:

According to the configuration information of mobile terminal, and described mobile terminal affiliated carrier network function setting plurality of application scenes;

Wherein, the configuration information of described mobile terminal comprises: the hardware configuration information of described mobile terminal, or the software configuration information of described mobile terminal.

3. method as claimed in claim 2, is characterized in that, describedly determines the intended application scene that described application program is run in the terminal, comprising:

The carrier aggregation function that when determining that described application program is run in described mobile terminal, the configuration information of described mobile terminal is supported, and the carrier aggregation function that the current operator network of described mobile terminal is supported;

According to the carrier aggregation function that the configuration information of described mobile terminal is supported, and the carrier aggregation function determination intended application scene that described carrier network is supported.

4. the method as described in any one of claim 1-3, is characterized in that, described determine the intended application scene that described application program is run in the terminal before, described method also comprises:

Obtain the user operation instruction on the user interface of mobile terminal;

The Starting mode corresponding according to the multiple application program prestored, determines the application program that described user operation instruction is corresponding.

5. as claimed in claim 2 or claim 3 method, it is characterized in that, described application scenarios comprises: any one in the first application scenarios, the second application scenarios, the 3rd application scenarios, the 4th application scenarios and the 5th application scenarios;

Wherein, described first application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described second application scenarios is that the configuration information of described mobile terminal supports FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 3rd application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described 4th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 5th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function.

6. a device for radio frequency link control, is characterized in that, comprising:

Module being set, for setting plurality of application scenes, and setting the carrier aggregation function of each application scenarios association;

Determination module, during for starting application program corresponding to described user operation instruction according to user operation instruction, determines the intended application scene that described application program is run in the terminal;

Described determination module, also for the carrier aggregation function according to described each application scenarios association, determines time division duplex Long Term Evolution TD-LTE carrier aggregation function or the Frequency Division Duplexing (FDD) Long Term Evolution FDD-LTE carrier aggregation function of described intended application scene relating;

Start module, for starting TD-LTE carrier aggregation function or the FDD-LTE carrier aggregation function of the described intended application scene relating determined, to be carried the operation of described application program by described TD-LTE carrier aggregation function or FDD-LTE carrier aggregation function.

7. device as claimed in claim 6, is characterized in that, described arrange module specifically for:

According to the configuration information of mobile terminal, and described mobile terminal affiliated carrier network function setting plurality of application scenes;

Wherein, the configuration information of described mobile terminal comprises: the hardware configuration information of described mobile terminal, or the software configuration information of described mobile terminal.

8. device as claimed in claim 7, is characterized in that, described determination module specifically for:

The carrier aggregation function that when determining that described application program is run in described mobile terminal, the configuration information of described mobile terminal is supported, and the carrier aggregation function that the current operator network of described mobile terminal is supported;

According to the carrier aggregation function that the configuration information of described mobile terminal is supported, and the carrier aggregation function determination intended application scene that described carrier network is supported.

9. the device as described in any one of claim 6-8, is characterized in that, described device also comprises:

Receiver module, the user operation instruction on the user interface obtaining mobile terminal;

Described determination module, also for the Starting mode corresponding according to the multiple application program that prestores, determines the application program that described user operation instruction that described receiver module receives is corresponding.

10. as claimed in claim 7 or 8 device, it is characterized in that, described application scenarios comprises: any one in the first application scenarios, the second application scenarios, the 3rd application scenarios, the 4th application scenarios and the 5th application scenarios;

Wherein, described first application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described second application scenarios is that the configuration information of described mobile terminal supports FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 3rd application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function;

Described 4th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports FDD-LTE carrier aggregation function;

Described 5th application scenarios is that the configuration information of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function, and the carrier network of described mobile terminal supports TD-LTE carrier aggregation function and FDD-LTE carrier aggregation function.