WO2017088524A1 - Radio-frequency link control method and apparatus - Google Patents

Radio-frequency link control method and apparatus Download PDF

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Publication number
WO2017088524A1
WO2017088524A1 PCT/CN2016/093759 CN2016093759W WO2017088524A1 WO 2017088524 A1 WO2017088524 A1 WO 2017088524A1 CN 2016093759 W CN2016093759 W CN 2016093759W WO 2017088524 A1 WO2017088524 A1 WO 2017088524A1
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WO
WIPO (PCT)
Prior art keywords
carrier aggregation
aggregation function
mobile terminal
application scenario
configuration information
Prior art date
Application number
PCT/CN2016/093759
Other languages
French (fr)
Chinese (zh)
Inventor
伏奎
陈再成
张伟正
丛明
魏伟
吴杰
Original Assignee
广东欧珀移动通信有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 广东欧珀移动通信有限公司 filed Critical 广东欧珀移动通信有限公司
Publication of WO2017088524A1 publication Critical patent/WO2017088524A1/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W52/00Power management, e.g. TPC [Transmission Power Control], power saving or power classes
    • H04W52/02Power saving arrangements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W52/00Power management, e.g. TPC [Transmission Power Control], power saving or power classes
    • H04W52/02Power saving arrangements
    • H04W52/0209Power saving arrangements in terminal devices
    • H04W52/0225Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W52/00Power management, e.g. TPC [Transmission Power Control], power saving or power classes
    • H04W52/02Power saving arrangements
    • H04W52/0209Power saving arrangements in terminal devices
    • H04W52/0261Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level
    • H04W52/0264Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level by selectively disabling software applications
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Definitions

  • the present invention relates to the field of communications technologies, and in particular, to a method and an apparatus for controlling radio frequency links.
  • LTE Long Term Evolution
  • LTE-Advanced is a further evolution of LTE
  • LTE-Advanced proposes to support a maximum of 100 MHz bandwidth.
  • the existing spectrum allocation technology and planning are difficult to find the entire frequency band sufficient to carry the 100MHz bandwidth of the LTE-Advanced system. Therefore, the 3rd Generation Partnership Project (3rd) Generation Partnership Project, 3GPP) organization proposes to use carrier aggregation (Carrier) Aggregation, CA) technology to address the need for band resources in LTE-Advanced systems.
  • Carrier Carrier Aggregation
  • the CA technology can aggregate multiple carriers into a wider spectrum, and can also aggregate some discontinuous spectrum fragments together to achieve a transmission bandwidth of up to 100 MHz, and improve the uplink and downlink transmission rates of the terminal. Brought a good experience.
  • the terminal in the CA radio working mode needs to have more radio frequency transceiver circuits and more complicated modulation and demodulation programs. When the terminal operates, it is necessary to generate large power consumption and shorten the use of the terminal battery. time.
  • the mobile terminal regardless of the working state of the mobile terminal, the mobile terminal only enables the default carrier aggregation function of one or more carrier aggregation functions supported by the mobile terminal, and cannot select a specific carrier aggregation according to the actual working application scenario. Function, the carrier aggregation function of the mobile terminal is poorly selectable. Due to different power consumption of different carrier aggregation functions, the mobile terminal cannot flexibly select a specific carrier aggregation function, so that the power consumption of the mobile terminal is low.
  • the embodiments of the present invention provide a method and a device for controlling a radio frequency link, which can improve the optionalness of a carrier aggregation function of a mobile terminal, improve the controllability of power consumption of the mobile terminal, and enhance the endurance capability of the mobile terminal.
  • the embodiment of the invention provides a method for controlling radio frequency link, which may include:
  • the embodiment of the invention further provides a device for controlling radio frequency link, which may include:
  • a setting module configured to set a plurality of application scenarios, and set a carrier aggregation function associated with each application scenario
  • a determining module configured to determine a target application scenario that the application runs in the mobile terminal when the application corresponding to the user operation instruction is started according to the user operation instruction;
  • the determining module is further configured to determine a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario according to the carrier aggregation function associated with each application scenario set by the setting module;
  • the initiating module is configured to start the determined downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, to carry the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
  • An embodiment of the present invention further provides a mobile terminal, where the mobile terminal includes a memory and a processor, the processor and the memory are connected by a bus; the memory is used to store a set of program codes, and the processor uses To invoke the program code stored in the memory, perform the following operations:
  • the processor is configured to set a plurality of application scenarios, and set a carrier aggregation function associated with each application scenario;
  • the processor is further configured to: when the application corresponding to the user operation instruction is started according to a user operation instruction, determine a target application scenario that the application runs in the mobile terminal;
  • the processor is further configured to determine a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario according to the carrier aggregation function associated with each application scenario that is set by the setting module;
  • the processor is further configured to start the determined downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, to carry the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
  • the embodiment of the present invention can set multiple application scenarios, and can also set a carrier aggregation function associated with each application scenario; when an application corresponding to the user operation instruction is started according to a user operation instruction
  • the program can determine the target application scenario of the application running in the mobile terminal, and further determine the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, thereby improving the optionality of the carrier aggregation function of the mobile terminal.
  • the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario may be activated to carry the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
  • the operation can determine the corresponding carrier aggregation function according to the specific startup application to support the operation of the application, improve the controllability of the power consumption of the mobile terminal, and enhance the endurance capability of the mobile terminal.
  • FIG. 1 is a schematic diagram of data transmission of a mobile terminal in a carrier aggregation radio frequency working mode according to an embodiment of the present invention
  • FIG. 2 is a schematic flowchart diagram of a first embodiment of a method for controlling radio frequency link according to an embodiment of the present invention
  • FIG. 3 is a schematic flowchart of a second embodiment of a method for controlling radio frequency link according to an embodiment of the present invention
  • FIG. 4 is a schematic diagram of a user operation interface of a mobile terminal according to an embodiment of the present invention.
  • FIG. 5 is a schematic structural diagram of an embodiment of an apparatus for controlling radio frequency link according to an embodiment of the present disclosure
  • FIG. 6 is another schematic structural diagram of an embodiment of an apparatus for controlling radio frequency link according to an embodiment of the present disclosure
  • FIG. 7 is a schematic structural diagram of an embodiment of a mobile terminal according to an embodiment of the present invention.
  • the mobile terminal described in the embodiment of the present invention may include: a smart phone, a tablet computer, and a personal digital assistant (Personal) Digital Assistant, PDA), Mobile Internet Device (Mobile Internet)
  • PDA Personal digital assistant
  • Mobile Internet Device Mobile Internet
  • the device, the MID, and the smart wearable device (such as a smart watch, a smart wristband), and the like are not limited in the embodiment of the present invention.
  • the method and device for controlling the radio frequency link provided by the embodiment of the present invention will be specifically described below by taking a mobile phone as an example.
  • FIG. 1 is a schematic diagram of data transmission of a mobile terminal in a carrier aggregation radio frequency working mode according to an embodiment of the present invention.
  • the carrier aggregation is formed by the aggregation of the component carrier A and the component carrier B through the RF transceiver circuit A and the RF transceiver circuit B through the aggregation unit to implement data transmission between the base station and the mobile terminal.
  • the built-in radio frequency working mode of the mobile phone may include a single-carrier radio frequency working mode and a carrier-aggregated radio frequency working mode, and the mobile phone may have multiple radio frequency transceiver channels.
  • multiple radio frequency transceiver channels may be adopted. Work at the same time to transfer and process multi-carrier signals between the mobile phone and the server.
  • the base station may select one of the multiple radio frequency transceiver channels to transmit and process the single carrier signal between the mobile phone and the server.
  • the method and the device for controlling the radio frequency link provided by the embodiment of the present invention can determine the specifically activated carrier aggregation function according to the specific application scenario when the mobile phone starts the application.
  • the method and apparatus for controlling the carrier aggregation function provided by the embodiment of the present invention will be specifically described below with reference to FIG. 2 to FIG.
  • FIG. 2 is a schematic flowchart diagram of a first embodiment of a method for controlling radio frequency link according to an embodiment of the present invention.
  • the method described in the embodiments of the present invention includes the following steps:
  • S101 Set multiple application scenarios, and set a carrier aggregation function associated with each application scenario.
  • the mobile phone may preset various application scenarios that may be encountered during the operation of the mobile phone, where the application scenario may be configured by the mobile phone itself, or the network status of the mobile phone, or the environment where the mobile phone is located. And other factors are determined.
  • the mobile phone can determine the carrier aggregation function supported by the mobile phone according to the above factors, and then set a plurality of different application scenarios according to the different conditions of the supported carrier aggregation function, and then determine the activated carrier aggregation function according to the specific application scenario. .
  • the carrier aggregation function associated with each application scenario may also be set, that is, the mobile phone may pre-set the carrier aggregation function initiated by the mobile phone preferentially in each application scenario.
  • the carrier aggregation function described in the embodiment of the present invention may include: a downlink carrier aggregation function and an uplink carrier aggregation function, and is not limited herein.
  • the mobile phone can have a plurality of applications built in, each of which corresponds to a startup mode, and each startup mode corresponds to a user operation instruction.
  • the mobile phone user can input a corresponding user operation instruction according to a preset startup manner to trigger the mobile phone to start the corresponding application.
  • the mobile phone may first obtain a user operation instruction on the user operation interface, and determine an application (ie, a target application) corresponding to the user operation instruction according to the obtained user operation instruction.
  • the above-mentioned target application program may be one of the above-mentioned various application programs, and the user operation instruction may include: a pressing instruction, a touch instruction, a vibration instruction, an audio instruction, and the like, which are not limited herein.
  • the application scenario ie, the target application scenario
  • the target application scenario is determined by the current hardware configuration information of the mobile phone.
  • the operating environment factors such as software configuration information, network function status, or running power consumption status.
  • the mobile phone after the mobile phone pre-sets a plurality of application scenarios, and sets a carrier aggregation function associated with each application scenario, when the mobile phone determines a target application scenario in which the currently launched application runs in the mobile phone. Then, the carrier aggregation function associated with the target application scenario is determined according to the association between the application scenario and the carrier aggregation function.
  • the carrier aggregation function associated with the target application scenario may include a downlink carrier aggregation function or an uplink carrier aggregation function, and details are not described herein.
  • the mobile phone pre-sets two application scenarios, including the first application scenario and the second application scenario, and sets the carrier aggregation function associated with the first application scenario as the downlink carrier aggregation function, and the carrier aggregation associated with the second application scenario.
  • the function is the uplink carrier aggregation function.
  • the determined downlink carrier aggregation function or the uplink carrier aggregation function may be activated.
  • the operation of the target application may be carried by the uplink carrier aggregation function or the downlink carrier aggregation function.
  • the downlink carrier aggregation function may be started to carry the operation of the application A.
  • the uplink carrier aggregation function may be started to carry the operation of the application A.
  • the mobile phone can set multiple application scenarios, and can also set a carrier aggregation function associated with each application scenario.
  • the target application scenario of the application running in the mobile phone may be determined, and then the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario may be determined, and the function is improved.
  • the optionality of the carrier aggregation function of the mobile phone may be determined.
  • the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario may be activated to carry the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
  • the running of the program can determine the corresponding carrier aggregation function according to the specific startup application to support the running of the application, improve the controllability of the power consumption of the mobile phone, and enhance the endurance of the mobile phone.
  • FIG. 3 is a schematic flowchart diagram of a second embodiment of a method for controlling radio frequency link according to an embodiment of the present invention.
  • the method described in the embodiments of the present invention includes the following steps:
  • S201 Set multiple application scenarios according to configuration information of the mobile terminal and an operator network function to which the mobile terminal belongs.
  • the mobile phone may preset various application scenarios that may be encountered during the operation of the mobile phone, where the application scenario may be configured by the mobile phone itself, or the network status of the mobile phone, or the environment where the mobile phone is located. And other factors are determined.
  • the mobile phone may set multiple application scenarios according to the configuration information and the carrier network function to which the mobile phone belongs.
  • the configuration information of the mobile phone may include: hardware configuration information of the mobile phone or software configuration information of the mobile phone.
  • the carrier network function of the above mobile phone may be a network function included in different network standards of the operator to which the mobile phone belongs, including different networks such as 2G, 3G or 4G.
  • the above operators may include: China Mobile, China Telecom or China Unicom, etc., and no restrictions are imposed here. That is, the mobile phone can determine the carrier aggregation function supported by the mobile phone according to the above factors, and can set a plurality of different application scenarios according to different conditions of the supported carrier aggregation function.
  • the application scenario preset by the mobile phone may include any one of a first application scenario, a second application scenario, a third application scenario, a fourth application scenario, and a fifth application scenario.
  • the first application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function, that is, the current mobile phone only supports the downlink carrier aggregation function, and cannot support the uplink carrier aggregation function.
  • the second application scenario is that the configuration information of the mobile phone supports the uplink carrier aggregation function, and the carrier network of the mobile phone supports the uplink carrier aggregation function, that is, the current mobile phone only supports the uplink carrier aggregation function, and cannot support the downlink carrier aggregation function.
  • the third application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function.
  • the configuration information of the current mobile phone supports two types of carrier aggregation functions, but the network function of the mobile phone only supports the downlink carrier aggregation function, so that the mobile phone only supports the downlink carrier aggregation function and cannot support the uplink carrier aggregation function.
  • the fourth application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the uplink carrier aggregation function; that is, the current mobile phone configuration information supports two carrier aggregation functions, but the mobile phone network The function only supports the uplink carrier aggregation function, so that the mobile phone only supports the uplink carrier aggregation function and cannot support the downlink carrier aggregation function.
  • the fifth application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function. At this time, the mobile phone can simultaneously support the downlink carrier aggregation function and The uplink carrier aggregation function has two carrier aggregation functions.
  • the carrier aggregation function associated with each application scenario may be set, and the activated carrier aggregation function may be determined according to the specific application scenario.
  • the carrier aggregation function associated with each application scenario may also be set, that is, the mobile phone may preset the mobile phone priority selection startup in each application scenario.
  • Carrier aggregation function Specifically, the mobile phone may set the carrier aggregation function associated with the first application scenario and the third application scenario to be a downlink carrier aggregation function, and the carrier aggregation function associated with the second application scenario and the fourth application scenario is an uplink carrier aggregation function.
  • the carrier aggregation function associated with the foregoing fifth application scenario is a downlink carrier aggregation function and an uplink carrier aggregation function.
  • the downlink carrier aggregation function and the uplink carrier aggregation function in the fifth application scenario may also be set.
  • the priority of the downlink application aggregation function is set to be the first selection priority, and the selection priority of the uplink carrier aggregation function is the second selection priority.
  • the carrier aggregation function associated with the fifth application scenario The default is downlink carrier aggregation.
  • the uplink carrier aggregation function of the second selected priority may be selected as the carrier aggregation function associated with the fifth application scenario.
  • the mobile phone may start the carrier aggregation function associated with the application scenario.
  • the single-carrier radio mode of the mobile phone is activated by itself to implement the switching control of the radio link.
  • the specific implementation process of determining the target application to be started according to the user operation instruction may refer to the implementation manner described in step S102 in the foregoing first embodiment, and details are not described herein again.
  • FIG. 4 is a schematic diagram of operations of a user operation interface according to an embodiment of the present invention.
  • the mobile phone can monitor the user operation state on the user operation interface of the mobile phone to determine the application to be started according to the user operation instruction on the user operation interface.
  • the mobile phone obtains a user operation instruction (specifically, a touch instruction) on the user operation interface
  • the mobile device may determine, according to the startup manner corresponding to the multiple application programs set above, which application corresponding to the obtained user operation instruction.
  • the startup mode of the program, and further, the application to be launched corresponding to the user operation instruction ie, the target application
  • the application to be launched corresponding to the user operation instruction ie, the target application
  • the specific implementation process of the mobile phone to determine the target application scenario may be referred to the implementation manner described in step S102 in the foregoing first embodiment, and details are not described herein again.
  • the mobile phone can detect the hardware configuration information or the software configuration information of the mobile phone when the target application is running in the mobile phone, and can further determine the carrier aggregation function supported by the hardware configuration information and the software configuration information of the mobile phone. Further, the mobile phone also obtains the network information of the mobile phone when the target application is running in the mobile phone, and further determines the carrier aggregation function supported by the current carrier network of the mobile phone. After the mobile phone determines the carrier aggregation function supported by the hardware configuration information or the software configuration information, and the carrier aggregation function supported by the carrier network of the mobile phone, the current application is determined according to the information included in the multiple application scenarios set above.
  • the target application scenario may be any one of the foregoing first application scenario, the second application scenario, the third application scenario, the fourth application scenario, and the fifth application scenario, where the specific application scenario may be determined according to the actual application scenario. Make restrictions.
  • S205 Determine, according to the carrier aggregation function associated with each application scenario, a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario.
  • the specific implementation process of the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario may be referred to the implementation manner described in step S103 in the foregoing first embodiment, and details are not described herein again. .
  • the specific implementation process of the downlink carrier aggregation function or the uplink carrier aggregation function that is determined by the mobile phone may be referred to the implementation manner described in step S104 in the foregoing first embodiment, and details are not described herein again.
  • the mobile phone can set multiple application scenarios, and can also set a carrier aggregation function associated with each application scenario.
  • the mobile phone can also obtain a user operation instruction from the user operation interface of the mobile phone, and can determine the target application scenario of the application running in the mobile phone when the target application is started according to the obtained user operation instruction, thereby improving the interest of the mobile phone, and further determining
  • the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario improves the optionalness of the carrier aggregation function of the mobile phone.
  • the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario may be activated to carry the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
  • the running of the program can determine the corresponding carrier aggregation function according to the specific startup application to support the running of the application, improve the controllability of the power consumption of the mobile phone, and enhance the endurance of the mobile phone.
  • FIG. 5 is a schematic structural diagram of an embodiment of an apparatus for controlling radio frequency link according to an embodiment of the present invention.
  • the device described in the embodiment of the present invention includes:
  • the setting module 10 is configured to set a plurality of application scenarios, and set a carrier aggregation function associated with each application scenario.
  • the determining module 20 is configured to determine a target application scenario that the application runs in the mobile terminal when the application corresponding to the user operation instruction is started according to the user operation instruction.
  • the determining module 20 is further configured to determine, according to the carrier aggregation function associated with each application scenario that is set by the setting module, a downlink carrier aggregation function or an uplink carrier aggregation function that is associated with the target application scenario.
  • the initiating module 30 is configured to start the determined downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, to carry the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
  • the foregoing setting module 10 is specifically configured to:
  • the configuration information of the mobile terminal includes: hardware configuration information of the mobile terminal, or software configuration information of the mobile terminal.
  • the determining module 20 is specifically configured to:
  • the apparatus described in the embodiment of the present invention further includes:
  • the receiving module 40 is configured to acquire a user operation instruction on a user operation interface of the mobile terminal.
  • the determining module 20 is further configured to determine, according to a startup manner corresponding to the pre-stored multiple applications, an application corresponding to the user operation instruction received by the receiving module.
  • the application scenario includes: any one of a first application scenario, a second application scenario, a third application scenario, a fourth application scenario, and a fifth application scenario;
  • the first application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
  • the second application scenario is that the configuration information of the mobile terminal supports an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
  • the third application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
  • the fourth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
  • the fifth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function.
  • the mobile phone may preset, by using the setting module 10, a plurality of application scenarios that may be encountered during the operation of the mobile phone, where the application scenario may be configured by the mobile phone itself, or the network state to which the mobile phone belongs, or Factors such as the environment in which the mobile phone is located are determined.
  • the setting module 10 can determine the carrier aggregation function supported by the mobile phone according to the foregoing factors, and then set a plurality of different application scenarios according to different conditions of the supported carrier aggregation function, and then determine the activated carrier according to the specific application scenario. Aggregation function.
  • the carrier aggregation function associated with each application scenario may also be set, that is, the mobile phone may pre-set the carrier aggregation initiated by the mobile phone preferentially in each application scenario.
  • the carrier aggregation function described in the embodiment of the present invention may include: a downlink carrier aggregation function and an uplink carrier aggregation function, and is not limited herein.
  • the setting module 10 may set multiple application scenarios according to the configuration information of the mobile phone and the carrier network function to which the mobile phone belongs.
  • the configuration information of the mobile phone may include: hardware configuration information of the mobile phone. Or the software configuration information of the mobile phone.
  • the carrier network function of the above mobile phone may be a network function included in different network standards of the operator to which the mobile phone belongs, including different networks such as 2G, 3G or 4G. Among them, the above operators may include: China Mobile, China Telecom or China Unicom, etc., and no restrictions are imposed here. That is, the setting module 10 can determine the carrier aggregation function supported by the device according to the above factors, and can set a plurality of different application scenarios according to different conditions of the supported carrier aggregation function.
  • the application scenario preset by the mobile phone may include any one of a first application scenario, a second application scenario, a third application scenario, a fourth application scenario, and a fifth application scenario.
  • the first application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function, that is, the current mobile phone only supports the downlink carrier aggregation function, and cannot support the uplink carrier aggregation function.
  • the second application scenario is that the configuration information of the mobile phone supports the uplink carrier aggregation function, and the carrier network of the mobile phone supports the uplink carrier aggregation function, that is, the current mobile phone only supports the uplink carrier aggregation function, and cannot support the downlink carrier aggregation function.
  • the third application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function.
  • the configuration information of the current mobile phone supports two types of carrier aggregation functions, but the network function of the mobile phone only supports the downlink carrier aggregation function, so that the mobile phone only supports the downlink carrier aggregation function and cannot support the uplink carrier aggregation function.
  • the fourth application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the uplink carrier aggregation function; that is, the current mobile phone configuration information supports two carrier aggregation functions, but the mobile phone network The function only supports the uplink carrier aggregation function, so that the mobile phone only supports the uplink carrier aggregation function and cannot support the downlink carrier aggregation function.
  • the fifth application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function. At this time, the mobile phone can simultaneously support the downlink carrier aggregation function and The uplink carrier aggregation function has two carrier aggregation functions.
  • the carrier aggregation function associated with each application scenario may be set, and the activated carrier aggregation function may be determined according to the specific application scenario.
  • the mobile phone can have a plurality of applications built in, each of which corresponds to a startup mode, and each startup mode corresponds to a user operation instruction.
  • the mobile phone user can input a corresponding user operation instruction according to a preset startup manner to trigger the mobile phone to start the corresponding application.
  • the receiving module 40 may first acquire a user operation instruction on the user operation interface, and the determining module 20 may determine, according to the user operation instruction acquired by the receiving module 40, the application program corresponding to the user operation instruction (ie, the target application program).
  • the above-mentioned target application program may be one of the above-mentioned various application programs, and the user operation instruction may include: a pressing instruction, a touch instruction, a vibration instruction, an audio instruction, and the like, which are not limited herein.
  • the determining module 20 may also detect an application scenario (ie, a target application scenario) in which the target application runs in the mobile phone, where the target application scenario is determined by the current hardware of the mobile phone.
  • an application scenario ie, a target application scenario
  • the operating environment factors such as configuration information, software configuration information, network function status, or running power consumption status.
  • the carrier aggregation function associated with each application scenario may also be set, that is, the setting module 10 may preset each application.
  • the mobile phone preferentially selects the carrier aggregation function that is started.
  • the setting module 10 can set the carrier aggregation function associated with the first application scenario and the third application scenario to be a downlink carrier aggregation function, and the carrier aggregation function associated with the second application scenario and the fourth application scenario is uplink carrier aggregation.
  • the carrier aggregation function associated with the fifth application scenario is a downlink carrier aggregation function and an uplink carrier aggregation function.
  • the downlink carrier aggregation function and the uplink carrier aggregation in the fifth application scenario may also be set.
  • the priority of the selection of the function may be that the selection priority of the downlink carrier aggregation function is the first selection priority, and the selection priority of the uplink carrier aggregation function is the second selection priority.
  • the carrier associated with the fifth application scenario The aggregation function can default to downlink carrier aggregation.
  • the uplink carrier aggregation function of the second selected priority may be selected as the carrier aggregation function associated with the fifth application scenario.
  • the startup module 30 may start the carrier aggregation associated with the application scenario.
  • the single-carrier radio working mode of the mobile phone is activated by itself to implement the switching control of the radio link.
  • the carrier aggregation function associated with the target application scenario is determined according to the association between the application scenario and the carrier aggregation function.
  • the carrier aggregation function associated with the target application scenario may include a downlink carrier aggregation function or an uplink carrier aggregation function, and details are not described herein.
  • the hand setting module 10 pre-sets two application scenarios, including the first application scenario and the second application scenario, and sets the carrier aggregation function associated with the first application scenario as the downlink carrier aggregation function, and the second application scenario association.
  • the carrier aggregation function is an uplink carrier aggregation function.
  • FIG. 4 is a schematic diagram of operations of a user operation interface according to an embodiment of the present invention.
  • the receiving module 40 can monitor the user operation state on the user operation interface of the mobile phone to determine an application to be started according to the user operation instruction on the user operation interface.
  • the receiving module 40 obtains a user operation instruction (specifically, a touch instruction) on the user operation interface, it may determine, according to the startup manner corresponding to the plurality of application programs set above, where the obtained user operation instruction corresponds to The startup mode of the application, and further, the application to be launched corresponding to the user operation instruction (ie, the target application) may be determined according to the foregoing correspondence.
  • a user operation instruction specifically, a touch instruction
  • the startup module 30 may start the determined downlink carrier aggregation function or uplink.
  • the carrier aggregation function can further carry the operation of the target application by using the uplink carrier aggregation function or the downlink carrier aggregation function. For example, if the determining module 20 determines that the carrier aggregation function associated with the target application scenario run by the application A in the mobile phone is the downlink carrier aggregation function, the startup module 30 may start the downlink carrier aggregation function to carry the operation of the application A.
  • the startup module 30 may initiate an uplink carrier aggregation function to carry the operation of the application A.
  • the mobile phone can set multiple application scenarios, and can also set a carrier aggregation function associated with each application scenario.
  • the mobile phone can also obtain a user operation instruction from the user operation interface of the mobile phone, and can determine the target application scenario of the application running in the mobile phone when the target application is started according to the obtained user operation instruction, thereby improving the interest of the mobile phone, and further determining
  • the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario improves the optionalness of the carrier aggregation function of the mobile phone.
  • the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario may be activated to carry the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
  • the running of the program can determine the corresponding carrier aggregation function according to the specific startup application to support the running of the application, improve the controllability of the power consumption of the mobile phone, and enhance the endurance of the mobile phone.
  • FIG. 7 is a schematic structural diagram of an embodiment of a mobile terminal according to an embodiment of the present invention.
  • the mobile terminal described in the embodiment of the present invention may be used to perform the method for controlling radio frequency link described in the foregoing embodiment of the present invention.
  • the mobile terminal described in the embodiment of the present invention includes: at least one input device 1001; at least one output device 1002; at least one processor 1003, such as a CPU; and a memory 1004, the input device 1001, the output device 1002, and the processor 1003.
  • the memory 1004 is connected via a bus 1005.
  • the above memory 1004 may be a high speed RAM memory or a non-volatile memory (non-volatile memory). Memory), such as disk storage.
  • the above memory 1004 is configured to store a set of program codes, and the input device 1001, the output device 1002, and the processor 1003 are configured to call the program code stored in the memory 1004, and perform the following operations:
  • the processor 1003 is configured to set multiple application scenarios and set a carrier aggregation function associated with each application scenario.
  • the processor 1003 is further configured to: when the application corresponding to the user operation instruction is started according to a user operation instruction, determine a target application scenario that the application runs in the mobile terminal.
  • the processor 1003 is further configured to determine, according to the carrier aggregation function associated with each application scenario, a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario.
  • the processor 1003 is further configured to start the determined downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, to carry the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
  • the processor 1003 is specifically configured to:
  • the configuration information of the mobile terminal includes: hardware configuration information of the mobile terminal, or software configuration information of the mobile terminal.
  • the processor 1003 is specifically configured to:
  • the input device 1001 is configured to acquire a user operation instruction on a user operation interface of the mobile terminal.
  • the processor 1003 is further configured to determine an application corresponding to the user operation instruction according to a startup manner corresponding to the pre-stored plurality of application programs.
  • the application scenario includes: any one of a first application scenario, a second application scenario, a third application scenario, a fourth application scenario, and a fifth application scenario;
  • the first application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
  • the second application scenario is that the configuration information of the mobile terminal supports an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
  • the third application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
  • the fourth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
  • the fifth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function.
  • the mobile terminal described in the embodiment of the present invention may perform the first method of the radio frequency link control provided by the embodiment of the present invention by using the built-in modules (the input device 1001, the output device 1002, the processor 1003, and the like).
  • the implementations described in the embodiments and the second embodiment may also implement the implementations described in the embodiments of the apparatus for controlling the radio frequency link provided by the embodiments of the present invention.
  • For the specific implementation process refer to the foregoing embodiments. No longer.
  • the storage medium may be a magnetic disk, an optical disk, or a read-only storage memory (Read-Only) Memory, ROM) or Random Access Memory (RAM).

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Abstract

Disclosed is a method for controlling a radio frequency link: according to a user operation instruction, launching a corresponding application and determining a target application scenario the application is running on a mobile terminal; determining a downlink carrier aggregation function or uplink carrier aggregation function associated with the target application scenario; activating the determined downlink carrier aggregation function or uplink carrier aggregation function associated with the target application scenario. The present invention improves the controllability of the power consumption of a mobile terminal and increases the battery life of the mobile terminal.

Description

一种射频链路控制的方法及装置 Method and device for controlling radio frequency link
本申请要求于2015年11月28日提交中国专利局、申请号为201510861470.1、发明名称为“一种射频链路控制的方法及装置”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。The present application claims priority to Chinese Patent Application No. 201510861470.1, entitled "A Method and Apparatus for Radio Frequency Link Control", filed on November 28, 2015, the entire contents of In this application.
技术领域Technical field
本发明涉及通信技术领域,尤其涉及一种射频链路控制的方法及装置。The present invention relates to the field of communications technologies, and in particular, to a method and an apparatus for controlling radio frequency links.
背景技术Background technique
随着移动通信技术的发展,用户业务量和数据吞吐量不断增加,第三代移动通信(The 3rd Generation Telecommunication,3G)系统已不能完全满足用户的需求。长期演进(Long Term Evolution,LTE)技术作为3G系统的演进,LTE-Advanced是LTE的进一步演进,LTE-Advanced提出最大支持100MHz带宽。然而,现有的频谱分配技术和规划难以找到足够承载LTE-Advanced系统100MHz带宽的整段频段,因此,第三代合作伙伴计划(3rd Generation Partnership Project,3GPP)组织提出使用载波聚合(Carrier Aggregation,CA)技术来解决LTE-Advanced系统对频带资源的需求。With the development of mobile communication technology, user traffic and data throughput continue to increase, the third generation of mobile communications (The 3rd The Generation Telecommunication, 3G) system cannot fully meet the needs of users. Long Term Evolution (Long Term Evolution, LTE) technology as an evolution of 3G systems, LTE-Advanced is a further evolution of LTE, and LTE-Advanced proposes to support a maximum of 100 MHz bandwidth. However, the existing spectrum allocation technology and planning are difficult to find the entire frequency band sufficient to carry the 100MHz bandwidth of the LTE-Advanced system. Therefore, the 3rd Generation Partnership Project (3rd) Generation Partnership Project, 3GPP) organization proposes to use carrier aggregation (Carrier) Aggregation, CA) technology to address the need for band resources in LTE-Advanced systems.
CA技术,可以很好地将多个载波聚合成一个更宽的频谱,也可以把一些不连续的频谱碎片聚合到一起,实现了最大100MHz的传输带宽,提高了终端上下行传输速率,给用户带来了良好的体验。相比于单载波网络终端,CA射频工作模式下的终端需要内置更多的射频收发电路和更复杂的调制解调程序,在终端运作时势必要产生较大的功耗,缩短了终端电池的使用时间。The CA technology can aggregate multiple carriers into a wider spectrum, and can also aggregate some discontinuous spectrum fragments together to achieve a transmission bandwidth of up to 100 MHz, and improve the uplink and downlink transmission rates of the terminal. Brought a good experience. Compared with the single-carrier network terminal, the terminal in the CA radio working mode needs to have more radio frequency transceiver circuits and more complicated modulation and demodulation programs. When the terminal operates, it is necessary to generate large power consumption and shorten the use of the terminal battery. time.
技术问题technical problem
现有技术中,无论移动终端处于何种工作状态,移动终端只会启用其支持的一种或者多种载波聚合功能中默认的载波聚合功能,无法自行根据实际工作的应用场景选择具体的载波聚合功能,移动终端的载波聚合功能可选性差。由于不同的载波聚合功能的功耗不同,移动终端无法灵活选择具体的载波聚合功能,使得移动终端的功耗可控性低。In the prior art, regardless of the working state of the mobile terminal, the mobile terminal only enables the default carrier aggregation function of one or more carrier aggregation functions supported by the mobile terminal, and cannot select a specific carrier aggregation according to the actual working application scenario. Function, the carrier aggregation function of the mobile terminal is poorly selectable. Due to different power consumption of different carrier aggregation functions, the mobile terminal cannot flexibly select a specific carrier aggregation function, so that the power consumption of the mobile terminal is low.
技术解决方案Technical solution
本发明实施例提供一种射频链路控制的方法及装置,可提高移动终端的载波聚合功能的可选性,提高移动终端的功耗的可控性,增强移动终端的续航能力。The embodiments of the present invention provide a method and a device for controlling a radio frequency link, which can improve the optionalness of a carrier aggregation function of a mobile terminal, improve the controllability of power consumption of the mobile terminal, and enhance the endurance capability of the mobile terminal.
本发明实施例提供了一种射频链路控制的方法,其可包括:The embodiment of the invention provides a method for controlling radio frequency link, which may include:
设定多种应用场景,并设定每一种应用场景关联的载波聚合功能;Set a variety of application scenarios, and set the carrier aggregation function associated with each application scenario;
当根据用户操作指令启动所述用户操作指令对应的应用程序时,确定所述应用程序在移动终端中运行的目标应用场景;Determining, according to a user operation instruction, an application corresponding to the user operation instruction, determining a target application scenario that the application runs in the mobile terminal;
根据所述每一种应用场景关联的载波聚合功能,确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能;Determining, by the carrier aggregation function associated with each application scenario, a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario;
启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,以通过所述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行。And performing the downlink carrier aggregation function or the uplink carrier aggregation function associated with the determined target application scenario, to perform the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
本发明实施例还提供了一种射频链路控制的装置,其可包括:The embodiment of the invention further provides a device for controlling radio frequency link, which may include:
设置模块,用于设定多种应用场景,并设定每一种应用场景关联的载波聚合功能;a setting module, configured to set a plurality of application scenarios, and set a carrier aggregation function associated with each application scenario;
确定模块,用于在根据用户操作指令启动所述用户操作指令对应的应用程序时,确定所述应用程序在移动终端中运行的目标应用场景;a determining module, configured to determine a target application scenario that the application runs in the mobile terminal when the application corresponding to the user operation instruction is started according to the user operation instruction;
所述确定模块,还用于根据所述设置模块设定的所述每一种应用场景关联的载波聚合功能,确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能;The determining module is further configured to determine a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario according to the carrier aggregation function associated with each application scenario set by the setting module;
启动模块,用于启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,以通过所述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行。The initiating module is configured to start the determined downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, to carry the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
本发明实施例还提供了一种移动终端,其中所述移动终端包括存储器和处理器,所述处理器和所述存储器通过总线连接;所述存储器用于存储一组程序代码,所述处理器用于调用所述存储器中存储的程序代码,执行如下操作:An embodiment of the present invention further provides a mobile terminal, where the mobile terminal includes a memory and a processor, the processor and the memory are connected by a bus; the memory is used to store a set of program codes, and the processor uses To invoke the program code stored in the memory, perform the following operations:
所述处理器,用于设定多种应用场景,并设定每一种应用场景关联的载波聚合功能;The processor is configured to set a plurality of application scenarios, and set a carrier aggregation function associated with each application scenario;
所述处理器,还用于在根据用户操作指令启动所述用户操作指令对应的应用程序时,确定所述应用程序在移动终端中运行的目标应用场景;The processor is further configured to: when the application corresponding to the user operation instruction is started according to a user operation instruction, determine a target application scenario that the application runs in the mobile terminal;
所述处理器,还用于根据所述设置模块设定的所述每一种应用场景关联的载波聚合功能,确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能;The processor is further configured to determine a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario according to the carrier aggregation function associated with each application scenario that is set by the setting module;
所述处理器,还用于启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,以通过所述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行。The processor is further configured to start the determined downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, to carry the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function. .
有益效果 Beneficial effect
实施本发明实施例,具有如下有益效果:本发明实施例可设定多种应用场景,还可设定每一种应用场景关联的载波聚合功能;当根据用户操作指令启动用户操作指令对应的应用程序时可确定应用程序在移动终端中运行的目标应用场景,进而可确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,提高了移动终端的载波聚合功能的可选性。选定了目标应用场景关联的下行载波聚合功能或者上行载波聚合功能之后,可启动上述下行载波聚合功能或上行载波聚合功能,以通过上述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行,可根据具体启动的应用程序确定相应的载波聚合功能来支持应用程序的运行,提高了移动终端的功耗的可控性,增强移动终端的续航能力。The embodiments of the present invention have the following beneficial effects: the embodiment of the present invention can set multiple application scenarios, and can also set a carrier aggregation function associated with each application scenario; when an application corresponding to the user operation instruction is started according to a user operation instruction The program can determine the target application scenario of the application running in the mobile terminal, and further determine the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, thereby improving the optionality of the carrier aggregation function of the mobile terminal. After the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario is selected, the downlink carrier aggregation function or the uplink carrier aggregation function may be activated to carry the application by using the downlink carrier aggregation function or the uplink carrier aggregation function. The operation can determine the corresponding carrier aggregation function according to the specific startup application to support the operation of the application, improve the controllability of the power consumption of the mobile terminal, and enhance the endurance capability of the mobile terminal.
附图说明DRAWINGS
为了更清楚地说明本发明实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention. Other drawings may also be obtained from those of ordinary skill in the art in light of the inventive work.
图1是本发明实施例提供的移动终端在载波聚合射频工作模式下的数据传输示意图;1 is a schematic diagram of data transmission of a mobile terminal in a carrier aggregation radio frequency working mode according to an embodiment of the present invention;
图2是本发明实施例提供的射频链路控制的方法的第一实施例流程示意图;2 is a schematic flowchart diagram of a first embodiment of a method for controlling radio frequency link according to an embodiment of the present invention;
图3是本发明实施例提供的射频链路控制的方法的第二实施例流程示意图;3 is a schematic flowchart of a second embodiment of a method for controlling radio frequency link according to an embodiment of the present invention;
图4是本发明实施例提供的移动终端的用户操作界面的示意图;4 is a schematic diagram of a user operation interface of a mobile terminal according to an embodiment of the present invention;
图5是本发明实施例提供的射频链路控制的装置的实施例的一结构示意图;FIG. 5 is a schematic structural diagram of an embodiment of an apparatus for controlling radio frequency link according to an embodiment of the present disclosure;
图6是本发明实施例提供的射频链路控制的装置的实施例的另一结构示意图;FIG. 6 is another schematic structural diagram of an embodiment of an apparatus for controlling radio frequency link according to an embodiment of the present disclosure;
图7是本发明实施例提供的移动终端的实施例的结构示意图。FIG. 7 is a schematic structural diagram of an embodiment of a mobile terminal according to an embodiment of the present invention.
本发明的最佳实施方式BEST MODE FOR CARRYING OUT THE INVENTION
为了使本技术领域的人员更好地理解本发明方案,下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分的实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都应当属于本发明保护的范围。The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is an embodiment of the invention, but not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts shall fall within the scope of the present invention.
本发明的说明书和权利要求书及上述附图中的术语“第一”、“第二”和“第三”等是用于区别不同对象,而非用于描述特定顺序。此外,术语“包括”以及它们任何变形,意图在于覆盖不排他的包含。例如包含了一系列步骤或单元的过程、方法、系统、产品或设备没有限定于已列出的步骤或单元,而是可选地还包括没有列出的步骤或单元,或可选地还包括对于这些过程、方法、产品或设备固有的其它步骤或单元。The terms "first", "second" and "third" and the like in the specification and claims of the present invention and the above drawings are used to distinguish different objects, and are not intended to describe a specific order. Moreover, the term "comprise" and any variants thereof are intended to cover a non-exclusive inclusion. For example, a process, method, system, product, or device that comprises a series of steps or units is not limited to the listed steps or units, but optionally also includes steps or units not listed, or alternatively Other steps or units inherent to these processes, methods, products or equipment.
具体实现中,本发明实施例中所描述的移动终端可包括:智能手机、平板电脑、个人数字助理(Personal Digital Assistant, PDA)、移动互联网设备(Mobile Internet Device,MID)、智能穿戴设备(如智能手表、智能手环)等各类终端设备,本发明实施例不作限定。下面将以手机为例,对本发明实施例提供的射频链路控制的方法及装置进行具体说明。In a specific implementation, the mobile terminal described in the embodiment of the present invention may include: a smart phone, a tablet computer, and a personal digital assistant (Personal) Digital Assistant, PDA), Mobile Internet Device (Mobile Internet) The device, the MID, and the smart wearable device (such as a smart watch, a smart wristband), and the like are not limited in the embodiment of the present invention. The method and device for controlling the radio frequency link provided by the embodiment of the present invention will be specifically described below by taking a mobile phone as an example.
为了更好理解本发明实施例提供的射频链路控制的方法及装置,下面将先结合图1对本发明实施例提供的载波聚合射频工作模式下的数据传输形式进行说明。For a better understanding of the method and the device for controlling the radio frequency link provided by the embodiment of the present invention, the data transmission mode in the carrier aggregation radio frequency working mode provided by the embodiment of the present invention will be described below with reference to FIG.
参见图1,是本发明实施例提供的移动终端在载波聚合射频工作模式下的数据传输示意图。如图1所示,载波聚合由成员载波A和成员载波B分别经过射频收发电路A和射频收发电路B通过聚合单元聚合而成,实现基站与移动终端之间的数据传输。具体实现中,手机内置的射频工作模式可包括单载波射频工作模式和载波聚合射频工作模式,手机可以具有多条射频收发通路,在手机处于载波聚合射频工作模式时,可以通过多条射频收发通路同时工作,来进行手机与服务器之间多载波信号的传输与处理。在手机处于单载波射频工作模式时,基站可从上述多条射频收发通路中选择其中一条,来进行手机与服务器之间单载波信号的传输与处理。FIG. 1 is a schematic diagram of data transmission of a mobile terminal in a carrier aggregation radio frequency working mode according to an embodiment of the present invention. As shown in FIG. 1 , the carrier aggregation is formed by the aggregation of the component carrier A and the component carrier B through the RF transceiver circuit A and the RF transceiver circuit B through the aggregation unit to implement data transmission between the base station and the mobile terminal. In a specific implementation, the built-in radio frequency working mode of the mobile phone may include a single-carrier radio frequency working mode and a carrier-aggregated radio frequency working mode, and the mobile phone may have multiple radio frequency transceiver channels. When the mobile phone is in the carrier aggregation radio frequency working mode, multiple radio frequency transceiver channels may be adopted. Work at the same time to transfer and process multi-carrier signals between the mobile phone and the server. When the mobile phone is in the single-carrier radio frequency working mode, the base station may select one of the multiple radio frequency transceiver channels to transmit and process the single carrier signal between the mobile phone and the server.
本发明实施例提供的射频链路控制的方法及装置可根据手机启动应用程序时的具体应用场景确定具体启动的载波聚合功能。下面将结合图2至图7对本发明实施例提供的载波聚合功能的控制方法及装置进行具体描述。The method and the device for controlling the radio frequency link provided by the embodiment of the present invention can determine the specifically activated carrier aggregation function according to the specific application scenario when the mobile phone starts the application. The method and apparatus for controlling the carrier aggregation function provided by the embodiment of the present invention will be specifically described below with reference to FIG. 2 to FIG.
参见图2,是本发明实施例提供的射频链路控制的方法的第一实施例流程示意图。本发明实施例中所描述的方法,包括步骤:FIG. 2 is a schematic flowchart diagram of a first embodiment of a method for controlling radio frequency link according to an embodiment of the present invention. The method described in the embodiments of the present invention includes the following steps:
S101,设定多种应用场景,并设定每一种应用场景关联的载波聚合功能。S101: Set multiple application scenarios, and set a carrier aggregation function associated with each application scenario.
在一些可行的实施方式中,手机可预先设定手机运行过程中可能遇到的多种应用场景,其中,上述应用场景可由手机自身的配置信息,或者手机所属的网络状态,或者手机所处环境等因素确定。手机可根据上述因素确定其所支持的载波聚合功能的情况,进而可根据可所支持的载波聚合功能的不同情况设定多种不同的应用场景,进而根据具体的应用场景确定启动的载波聚合功能。具体实现中,手机设定了多种应用场景之后,还可设定每一种应用场景关联的载波聚合功能,即手机可预先设定每一种应用场景下手机优先选择启动的载波聚合功能。In some possible implementation manners, the mobile phone may preset various application scenarios that may be encountered during the operation of the mobile phone, where the application scenario may be configured by the mobile phone itself, or the network status of the mobile phone, or the environment where the mobile phone is located. And other factors are determined. The mobile phone can determine the carrier aggregation function supported by the mobile phone according to the above factors, and then set a plurality of different application scenarios according to the different conditions of the supported carrier aggregation function, and then determine the activated carrier aggregation function according to the specific application scenario. . In a specific implementation, after the mobile phone is configured with multiple application scenarios, the carrier aggregation function associated with each application scenario may also be set, that is, the mobile phone may pre-set the carrier aggregation function initiated by the mobile phone preferentially in each application scenario.
具体实现中,本发明实施例中所描述的载波聚合功能可包括:下行载波聚合功能和上行载波聚合功能等,在此不做限制。In a specific implementation, the carrier aggregation function described in the embodiment of the present invention may include: a downlink carrier aggregation function and an uplink carrier aggregation function, and is not limited herein.
S102,当根据用户操作指令启动所述用户操作指令对应的应用程序时,确定所述应用程序在移动终端中运行的目标应用场景。S102. Determine, when the application corresponding to the user operation instruction is started according to a user operation instruction, determine a target application scenario that is executed by the application in the mobile terminal.
在一些可行的实施方式中,手机可内置多种应用程序,每一种应用程序对应一种启动方式,每一种启动方式对应一种用户操作指令。手机用户可根据预先设定的启动方式输入相应的用户操作指令,以触发手机启动相应的应用程序。具体实现中,手机可首先获取用户操作界面上的用户操作指令,根据获取到的用户操作指令确定上述用户操作指令对应的应用程序(即目标应用程序)。其中,上述目标应用程序可为上述多种应用程序中的一种,上述用户操作指令可包括:按压指令、触摸指令、振动指令或者音频指令等,在此不做限制。In some feasible implementation manners, the mobile phone can have a plurality of applications built in, each of which corresponds to a startup mode, and each startup mode corresponds to a user operation instruction. The mobile phone user can input a corresponding user operation instruction according to a preset startup manner to trigger the mobile phone to start the corresponding application. In a specific implementation, the mobile phone may first obtain a user operation instruction on the user operation interface, and determine an application (ie, a target application) corresponding to the user operation instruction according to the obtained user operation instruction. The above-mentioned target application program may be one of the above-mentioned various application programs, and the user operation instruction may include: a pressing instruction, a touch instruction, a vibration instruction, an audio instruction, and the like, which are not limited herein.
在一些可行的实施方式中,手机启动了目标应用程序之后,还可检测目标应用程序在手机中运行的应用场景(即目标应用场景),其中,上述目标应用场景由手机当前的硬件配置信息、软件配置信息、网络功能状态或者运行功耗状态等运行环境因素构成,在此不做限制。In some possible implementation manners, after the mobile phone starts the target application, the application scenario (ie, the target application scenario) that the target application runs in the mobile phone may be detected, where the target application scenario is determined by the current hardware configuration information of the mobile phone. There are no restrictions on the operating environment factors such as software configuration information, network function status, or running power consumption status.
S103,根据所述每一种应用场景关联的载波聚合功能,确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能。S103. Determine, according to the carrier aggregation function associated with each application scenario, a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario.
在一些可行的实施方式中,手机预先设定了多种应用场景,并设定每一种应用场景关联的载波聚合功能之后,当手机确定了当前启动的应用程序在手机中运行的目标应用场景之后,则可根据上述应用场景和载波聚合功能的关联关系,确定上述目标应用场景关联的载波聚合功能。其中,上述目标应用场景关联的载波聚合功能可包括下行载波聚合功能,或者上行载波聚合功能,在此不再赘述。例如,当手机预先设定了两种应用场景,包括第一应用场景和第二应用场景,并设定第一应用场景关联的载波聚合功能为下行载波聚合功能,第二应用场景关联的载波聚合功能为上行载波聚合功能。当手机启动了应用程序A之后,若确定应用程序A在手机中运行的目标应用场景与上述预设的第一应用场景相同,则可确定上述目标应用场景关联的载波聚合功能为下行载波聚合功能。若确定应用程序A在手机中运行的目标应用场景与上述预设的第二应用场景相同,则可确定上述目标应用场景关联的载波聚合功能为上行载波聚合功能。In some possible implementation manners, after the mobile phone pre-sets a plurality of application scenarios, and sets a carrier aggregation function associated with each application scenario, when the mobile phone determines a target application scenario in which the currently launched application runs in the mobile phone. Then, the carrier aggregation function associated with the target application scenario is determined according to the association between the application scenario and the carrier aggregation function. The carrier aggregation function associated with the target application scenario may include a downlink carrier aggregation function or an uplink carrier aggregation function, and details are not described herein. For example, when the mobile phone pre-sets two application scenarios, including the first application scenario and the second application scenario, and sets the carrier aggregation function associated with the first application scenario as the downlink carrier aggregation function, and the carrier aggregation associated with the second application scenario. The function is the uplink carrier aggregation function. After the application A is started, if the target application scenario of the application A is the same as the preset first application scenario, the carrier aggregation function associated with the target application scenario may be determined as the downlink carrier aggregation function. . If it is determined that the target application scenario of the application A is the same as the preset second application scenario, the carrier aggregation function associated with the target application scenario may be determined as an uplink carrier aggregation function.
S104,启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能。S104. Start a downlink carrier aggregation function or an uplink carrier aggregation function that is associated with the target application scenario.
在一些可行的实施方式中,手机确定了上述目标应用场景关联的载波聚合功能为下行载波聚合功能或者上行载波聚合功能之后,则可启动上述确定出的下行载波聚合功能或者上行载波聚合功能,进而可通过上述上行载波聚合功能或者下行载波聚合功能来承载上述目标应用程序的运行。例如,若手机确定应用程序A在手机中运行的目标应用场景关联的载波聚合功能为下行载波聚合功能,则可启动下行载波聚合功能来承载应用程序A的运行。若手机确定应用程序A在手机中运行的目标应用场景关联的载波聚合功能为上行载波聚合功能,则可启动上行载波聚合功能来承载应用程序A的运行。In some possible implementation manners, after the mobile phone determines that the carrier aggregation function associated with the target application scenario is the downlink carrier aggregation function or the uplink carrier aggregation function, the determined downlink carrier aggregation function or the uplink carrier aggregation function may be activated. The operation of the target application may be carried by the uplink carrier aggregation function or the downlink carrier aggregation function. For example, if the mobile phone determines that the carrier aggregation function associated with the target application scenario running in the mobile phone is the downlink carrier aggregation function, the downlink carrier aggregation function may be started to carry the operation of the application A. If the mobile phone determines that the carrier aggregation function associated with the target application scenario run by the application A in the mobile phone is the uplink carrier aggregation function, the uplink carrier aggregation function may be started to carry the operation of the application A.
在本发明实施例中,手机可设定多种应用场景,还可设定每一种应用场景关联的载波聚合功能。当手机根据用户操作指令启动用户操作指令对应的应用程序时可确定应用程序在手机中运行的目标应用场景,进而可确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,提高了手机的载波聚合功能的可选性。手机选定了目标应用场景关联的下行载波聚合功能或者上行载波聚合功能之后,可启动上述下行载波聚合功能或上行载波聚合功能,以通过上述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行,可根据具体启动的应用程序确定相应的载波聚合功能来支持应用程序的运行,提高了手机的功耗的可控性,增强手机的续航能力。In the embodiment of the present invention, the mobile phone can set multiple application scenarios, and can also set a carrier aggregation function associated with each application scenario. When the mobile phone starts the application corresponding to the user operation instruction according to the user operation instruction, the target application scenario of the application running in the mobile phone may be determined, and then the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario may be determined, and the function is improved. The optionality of the carrier aggregation function of the mobile phone. After the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario is selected, the downlink carrier aggregation function or the uplink carrier aggregation function may be activated to carry the application by using the downlink carrier aggregation function or the uplink carrier aggregation function. The running of the program can determine the corresponding carrier aggregation function according to the specific startup application to support the running of the application, improve the controllability of the power consumption of the mobile phone, and enhance the endurance of the mobile phone.
参见图3,是本发明实施例提供的射频链路控制的方法的第二实施例流程示意图。本发明实施例中所描述的方法,包括步骤:FIG. 3 is a schematic flowchart diagram of a second embodiment of a method for controlling radio frequency link according to an embodiment of the present invention. The method described in the embodiments of the present invention includes the following steps:
S201,根据移动终端的配置信息,以及所述移动终端所属的运营商网络功能设定多种应用场景。S201. Set multiple application scenarios according to configuration information of the mobile terminal and an operator network function to which the mobile terminal belongs.
在一些可行的实施方式中,手机可预先设定手机运行过程中可能遇到的多种应用场景,其中,上述应用场景可由手机自身的配置信息,或者手机所属的网络状态,或者手机所处环境等因素确定。具体实现中,手机可根据其配置信息和手机所属的运营商网络功能设定多种应用场景,其中,上述手机的配置信息可包括:手机的硬件配置信息或者手机的软件配置信息。上述手机所属的运营商网络功能可为手机所属的运营商的不同网络制式包含的网络功能,包括2G、3G或者4G等不同网络。其中,上述运营商可包括:中国移动、中国电信或者中国联通等,在此不做限制。即,手机可根据上述因素确定其所支持的载波聚合功能的情况,进而可根据可所支持的载波聚合功能的不同情况设定多种不同的应用场景。In some possible implementation manners, the mobile phone may preset various application scenarios that may be encountered during the operation of the mobile phone, where the application scenario may be configured by the mobile phone itself, or the network status of the mobile phone, or the environment where the mobile phone is located. And other factors are determined. In a specific implementation, the mobile phone may set multiple application scenarios according to the configuration information and the carrier network function to which the mobile phone belongs. The configuration information of the mobile phone may include: hardware configuration information of the mobile phone or software configuration information of the mobile phone. The carrier network function of the above mobile phone may be a network function included in different network standards of the operator to which the mobile phone belongs, including different networks such as 2G, 3G or 4G. Among them, the above operators may include: China Mobile, China Telecom or China Unicom, etc., and no restrictions are imposed here. That is, the mobile phone can determine the carrier aggregation function supported by the mobile phone according to the above factors, and can set a plurality of different application scenarios according to different conditions of the supported carrier aggregation function.
在一些可行的实施方式中,上述手机预先设定的应用场景可包括:第一应用场景、第二应用场景、第三应用场景、第四应用场景以及第五应用场景中的任一种。其中,上述第一应用场景为手机的配置信息支持下行载波聚合功能,并且手机的运营商网络支持下行载波聚合功能,即当前手机只支持下行载波聚合功能,无法支持上行载波聚合功能。上述第二应用场景为手机的配置信息支持上行载波聚合功能,并且手机的运营商网络支持上行载波聚合功能,即当前手机只支持上行载波聚合功能,无法支持下行载波聚合功能。上述第三应用场景为手机的配置信息支持下行载波聚合功能和上行载波聚合功能,并且手机的运营商网络支持下行载波聚合功能。即当前手机的配置信息支持两种载波聚合功能,但是手机的网络功能只支持下行载波聚合功能,使得手机只支持下行载波聚合功能,无法支持上行载波聚合功能。上述第四应用场景为手机的配置信息支持下行载波聚合功能和上行载波聚合功能,并且手机的运营商网络支持上行载波聚合功能;即当前手机的配置信息支持两种载波聚合功能,但是手机的网络功能只支持上行载波聚合功能,使得手机只支持上行载波聚合功能,无法支持下行载波聚合功能。上述第五应用场景为手机的配置信息支持下行载波聚合功能和上行载波聚合功能,并且手机的运营商网络支持下行载波聚合功能和上行载波聚合功能,此时,手机可同时支持下行载波聚合功能和上行载波聚合功能两种载波聚合功能。In some possible implementations, the application scenario preset by the mobile phone may include any one of a first application scenario, a second application scenario, a third application scenario, a fourth application scenario, and a fifth application scenario. The first application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function, that is, the current mobile phone only supports the downlink carrier aggregation function, and cannot support the uplink carrier aggregation function. The second application scenario is that the configuration information of the mobile phone supports the uplink carrier aggregation function, and the carrier network of the mobile phone supports the uplink carrier aggregation function, that is, the current mobile phone only supports the uplink carrier aggregation function, and cannot support the downlink carrier aggregation function. The third application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function. That is, the configuration information of the current mobile phone supports two types of carrier aggregation functions, but the network function of the mobile phone only supports the downlink carrier aggregation function, so that the mobile phone only supports the downlink carrier aggregation function and cannot support the uplink carrier aggregation function. The fourth application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the uplink carrier aggregation function; that is, the current mobile phone configuration information supports two carrier aggregation functions, but the mobile phone network The function only supports the uplink carrier aggregation function, so that the mobile phone only supports the uplink carrier aggregation function and cannot support the downlink carrier aggregation function. The fifth application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function. At this time, the mobile phone can simultaneously support the downlink carrier aggregation function and The uplink carrier aggregation function has two carrier aggregation functions.
手机设定了上述各种应用场景之后,则可设定每一种应用场景关联的载波聚合功能,进而可根据具体的应用场景确定启动的载波聚合功能。After the mobile phone is configured with the foregoing various application scenarios, the carrier aggregation function associated with each application scenario may be set, and the activated carrier aggregation function may be determined according to the specific application scenario.
S202,设定每一种应用场景关联的载波聚合功能。S202. Set a carrier aggregation function associated with each application scenario.
在一些可行的实施方式中,手机设定了多种应用场景之后,还可设定每一种应用场景关联的载波聚合功能,即手机可预先设定每一种应用场景下手机优先选择启动的载波聚合功能。具体的,手机可设定上述第一应用场景和第三应用场景关联的载波聚合功能均为下行载波聚合功能,上述第二应用场景和第四应用场景关联的载波聚合功能为上行载波聚合功能,上述第五应用场景关联的载波聚合功能为下行载波聚合功能和上行载波聚合功能。具体实现中,手机设定上述第五应用场景关联的载波聚合功能为下行载波聚合功能和上行载波聚合功能之后,还可设定在上述第五应用场景中下行载波聚合功能和上行载波聚合功能的选择优先权,具体可设定下行载波聚合功能的选择优先级为第一选择优先级,上行载波聚合功能的选择优先级为第二选择优先级,此时,第五应用场景关联的载波聚合功能可默认为下行载波聚合功能。当手机启动下行载波聚合功能失败时,可选择第二选择优先权的上行载波聚合功能作为第五应用场景关联的载波聚合功能。In some possible implementation manners, after the mobile phone is configured with multiple application scenarios, the carrier aggregation function associated with each application scenario may also be set, that is, the mobile phone may preset the mobile phone priority selection startup in each application scenario. Carrier aggregation function. Specifically, the mobile phone may set the carrier aggregation function associated with the first application scenario and the third application scenario to be a downlink carrier aggregation function, and the carrier aggregation function associated with the second application scenario and the fourth application scenario is an uplink carrier aggregation function. The carrier aggregation function associated with the foregoing fifth application scenario is a downlink carrier aggregation function and an uplink carrier aggregation function. In a specific implementation, after the mobile phone sets the carrier aggregation function associated with the fifth application scenario as the downlink carrier aggregation function and the uplink carrier aggregation function, the downlink carrier aggregation function and the uplink carrier aggregation function in the fifth application scenario may also be set. The priority of the downlink application aggregation function is set to be the first selection priority, and the selection priority of the uplink carrier aggregation function is the second selection priority. In this case, the carrier aggregation function associated with the fifth application scenario The default is downlink carrier aggregation. When the downlink carrier aggregation function of the mobile phone fails, the uplink carrier aggregation function of the second selected priority may be selected as the carrier aggregation function associated with the fifth application scenario.
需要说明的是,当手机确定了上述各种应用场景关联的载波聚合功能之后,若上述应用场景关联的载波聚合功能仅有一种,则手机可在启动上述应用场景关联的载波聚合功能失败时,自行启动手机的单载波射频工作模式,实现射频链路的切换控制。It should be noted that, after the mobile phone determines the carrier aggregation function associated with the foregoing various application scenarios, if the carrier aggregation function associated with the application scenario is only one type, the mobile phone may start the carrier aggregation function associated with the application scenario. The single-carrier radio mode of the mobile phone is activated by itself to implement the switching control of the radio link.
S203,获取移动终端的用户操作界面上的用户操作指令,并根据预存的多种应用程序对应的启动方式,确定所述用户操作指令对应的应用程序。S203. Acquire a user operation instruction on a user operation interface of the mobile terminal, and determine an application program corresponding to the user operation instruction according to a startup manner corresponding to the pre-stored multiple application programs.
在一些可行的实施方式中,手机根据用户操作指令确定待启动的目标应用程序的具体实现过程可参见上述第一实施例中的步骤S102所描述的实现方式,在此不再赘述。In some possible implementations, the specific implementation process of determining the target application to be started according to the user operation instruction may refer to the implementation manner described in step S102 in the foregoing first embodiment, and details are not described herein again.
进一步的,在一些可行的实施方式中,如图4,为本发明实施例提供的用户操作界面的操作示意图。手机可对手机的用户操作界面上的用户操作状态进行监控,以根据用户操作界面上的用户操作指令确定需要启动的应用程序。当手机获取到其用户操作界面上的用户操作指令(具体可为触摸指令),则可根据上述设定的多种应用程序对应的启动方式,确定上述获取到的用户操作指令对应于哪种应用程序的启动方式,进而可根据上述对应关系确定上述用户操作指令对应的待启动的应用程序(即目标应用程序)。Further, in some feasible implementation manners, FIG. 4 is a schematic diagram of operations of a user operation interface according to an embodiment of the present invention. The mobile phone can monitor the user operation state on the user operation interface of the mobile phone to determine the application to be started according to the user operation instruction on the user operation interface. When the mobile phone obtains a user operation instruction (specifically, a touch instruction) on the user operation interface, the mobile device may determine, according to the startup manner corresponding to the multiple application programs set above, which application corresponding to the obtained user operation instruction. The startup mode of the program, and further, the application to be launched corresponding to the user operation instruction (ie, the target application) may be determined according to the foregoing correspondence.
S204,确定所述应用程序在移动终端中运行的目标应用场景。S204. Determine a target application scenario in which the application runs in the mobile terminal.
在一些可行的实施方式中,手机确定目标应用场景的具体实现过程可参见上述第一实施例中的步骤S102所描述的实现方式,在此不再赘述。In some possible implementation manners, the specific implementation process of the mobile phone to determine the target application scenario may be referred to the implementation manner described in step S102 in the foregoing first embodiment, and details are not described herein again.
进一步的,手机可检测目标应用程序在手机中运行时手机的硬件配置信息或者软件配置信息,进而可确定上述手机的硬件配置信息和软件配置信息所支持的载波聚合功能。进一步的,手机还获取目标应用程序在手机中运行时手机的网络信息,进而可确定手机当前所属运营商网络所支持的载波聚合功能。手机确定了其硬件配置信息或者软件配置信息所支持的载波聚合功能,以及手机所属运营商网络所支持的载波聚合功能之后,则根据上述设定的多种应用场景中包含的信息,确定当前应用程序在手机中运行的目标应用场景。其中,上述目标应用场景可为上述第一应用场景、第二应用场景、第三应用场景、第四应用场景和第五应用场景中的任一种,具体可根据实际应用场景确定,在此不做限制。Further, the mobile phone can detect the hardware configuration information or the software configuration information of the mobile phone when the target application is running in the mobile phone, and can further determine the carrier aggregation function supported by the hardware configuration information and the software configuration information of the mobile phone. Further, the mobile phone also obtains the network information of the mobile phone when the target application is running in the mobile phone, and further determines the carrier aggregation function supported by the current carrier network of the mobile phone. After the mobile phone determines the carrier aggregation function supported by the hardware configuration information or the software configuration information, and the carrier aggregation function supported by the carrier network of the mobile phone, the current application is determined according to the information included in the multiple application scenarios set above. The target application scenario in which the program runs on the phone. The target application scenario may be any one of the foregoing first application scenario, the second application scenario, the third application scenario, the fourth application scenario, and the fifth application scenario, where the specific application scenario may be determined according to the actual application scenario. Make restrictions.
S205,根据所述每一种应用场景关联的载波聚合功能,确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能。S205. Determine, according to the carrier aggregation function associated with each application scenario, a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario.
在一些可行的实施方式中,手机确定目标应用场景关联的下行载波聚合功能或上行载波聚合功能的具体实现过程可参见上述第一实施例中的步骤S103所描述的实现方式,在此不再赘述。In some implementations, the specific implementation process of the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario may be referred to the implementation manner described in step S103 in the foregoing first embodiment, and details are not described herein again. .
S206,启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,以通过所述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行。S206. Start the downlink carrier aggregation function or the uplink carrier aggregation function that is associated with the target application scenario, so as to carry the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
在一些可行的实施方式中,手机启动确定出的下行载波聚合功能或上行载波聚合功能的具体实现过程可参见上述第一实施例中的步骤S104所描述的实现方式,在此不再赘述。In some possible implementation manners, the specific implementation process of the downlink carrier aggregation function or the uplink carrier aggregation function that is determined by the mobile phone may be referred to the implementation manner described in step S104 in the foregoing first embodiment, and details are not described herein again.
在本发明实施例中,手机可设定多种应用场景,还可设定每一种应用场景关联的载波聚合功能。手机还可从手机的用户操作界面上获取用户操作指令,根据获取得到的用户操作指令启动目标应用程序时可确定应用程序在手机中运行的目标应用场景,提高了手机的趣味性,进而可确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,提高了手机的载波聚合功能的可选性。手机选定了目标应用场景关联的下行载波聚合功能或者上行载波聚合功能之后,可启动上述下行载波聚合功能或上行载波聚合功能,以通过上述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行,可根据具体启动的应用程序确定相应的载波聚合功能来支持应用程序的运行,提高了手机的功耗的可控性,增强手机的续航能力。In the embodiment of the present invention, the mobile phone can set multiple application scenarios, and can also set a carrier aggregation function associated with each application scenario. The mobile phone can also obtain a user operation instruction from the user operation interface of the mobile phone, and can determine the target application scenario of the application running in the mobile phone when the target application is started according to the obtained user operation instruction, thereby improving the interest of the mobile phone, and further determining The downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario improves the optionalness of the carrier aggregation function of the mobile phone. After the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario is selected, the downlink carrier aggregation function or the uplink carrier aggregation function may be activated to carry the application by using the downlink carrier aggregation function or the uplink carrier aggregation function. The running of the program can determine the corresponding carrier aggregation function according to the specific startup application to support the running of the application, improve the controllability of the power consumption of the mobile phone, and enhance the endurance of the mobile phone.
参见图5,是本发明实施例提供的射频链路控制的装置的实施例的一结构示意图。本发明实施例中所描述的装置,包括:FIG. 5 is a schematic structural diagram of an embodiment of an apparatus for controlling radio frequency link according to an embodiment of the present invention. The device described in the embodiment of the present invention includes:
设置模块10,用于设定多种应用场景,并设定每一种应用场景关联的载波聚合功能。The setting module 10 is configured to set a plurality of application scenarios, and set a carrier aggregation function associated with each application scenario.
确定模块20,用于在根据用户操作指令启动所述用户操作指令对应的应用程序时,确定所述应用程序在移动终端中运行的目标应用场景。The determining module 20 is configured to determine a target application scenario that the application runs in the mobile terminal when the application corresponding to the user operation instruction is started according to the user operation instruction.
所述确定模块20,还用于根据所述设置模块设定的所述每一种应用场景关联的载波聚合功能,确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能。The determining module 20 is further configured to determine, according to the carrier aggregation function associated with each application scenario that is set by the setting module, a downlink carrier aggregation function or an uplink carrier aggregation function that is associated with the target application scenario.
启动模块30,用于启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,以通过所述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行。The initiating module 30 is configured to start the determined downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, to carry the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
在一些可行的实施方式中,上述设置模块10具体用于:In some possible implementations, the foregoing setting module 10 is specifically configured to:
根据移动终端的配置信息,以及所述移动终端所属的运营商网络功能设定多种应用场景;Setting a plurality of application scenarios according to configuration information of the mobile terminal and an operator network function to which the mobile terminal belongs;
其中,所述移动终端的配置信息包括:所述移动终端的硬件配置信息,或者所述移动终端的软件配置信息。The configuration information of the mobile terminal includes: hardware configuration information of the mobile terminal, or software configuration information of the mobile terminal.
在一些可行的实施方式中,上述确定模块20具体用于:In some possible implementations, the determining module 20 is specifically configured to:
确定所述应用程序在所述移动终端中运行时所述移动终端的配置信息所支持的载波聚合功能,以及所述移动终端当前所属运营商网络所支持的载波聚合功能;Determining a carrier aggregation function supported by the configuration information of the mobile terminal when the application is running in the mobile terminal, and a carrier aggregation function supported by the operator network to which the mobile terminal currently belongs;
根据所述移动终端的配置信息所支持的载波聚合功能,以及所述运营商网络所支持的载波聚合功能确定目标应用场景。Determining a target application scenario according to a carrier aggregation function supported by the configuration information of the mobile terminal and a carrier aggregation function supported by the carrier network.
在一些可行的实施方式中,如图6,本发明实施例所描述的装置还包括:In some possible implementations, as shown in FIG. 6, the apparatus described in the embodiment of the present invention further includes:
接收模块40,用于获取移动终端的用户操作界面上的用户操作指令。The receiving module 40 is configured to acquire a user operation instruction on a user operation interface of the mobile terminal.
所述确定模块20,还用于根据预存的多种应用程序对应的启动方式,确定所述接收模块接收到的所述用户操作指令对应的应用程序。The determining module 20 is further configured to determine, according to a startup manner corresponding to the pre-stored multiple applications, an application corresponding to the user operation instruction received by the receiving module.
在一些可行的实施方式中,所述应用场景包括:第一应用场景、第二应用场景、第三应用场景、第四应用场景以及第五应用场景中的任一种;In some possible implementations, the application scenario includes: any one of a first application scenario, a second application scenario, a third application scenario, a fourth application scenario, and a fifth application scenario;
其中,所述第一应用场景为所述移动终端的配置信息支持下行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能; The first application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
所述第二应用场景为所述移动终端的配置信息支持上行载波聚合功能,并且所述移动终端的运营商网络支持上行载波聚合功能;The second application scenario is that the configuration information of the mobile terminal supports an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
所述第三应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能;The third application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
所述第四应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持上行载波聚合功能;The fourth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
所述第五应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能和上行载波聚合功能。The fifth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function.
在一些可行的实施方式中,手机可通过设置模块10预先设定手机运行过程中可能遇到的多种应用场景,其中,上述应用场景可由手机自身的配置信息,或者手机所属的网络状态,或者手机所处环境等因素确定。设置模块10可根据上述因素确定手机所支持的载波聚合功能的情况,进而可根据可所支持的载波聚合功能的不同情况设定多种不同的应用场景,进而根据具体的应用场景确定启动的载波聚合功能。具体实现中,设置模块10设定了多种应用场景之后,还可设定每一种应用场景关联的载波聚合功能,即手机可预先设定每一种应用场景下手机优先选择启动的载波聚合功能。In some possible implementation manners, the mobile phone may preset, by using the setting module 10, a plurality of application scenarios that may be encountered during the operation of the mobile phone, where the application scenario may be configured by the mobile phone itself, or the network state to which the mobile phone belongs, or Factors such as the environment in which the mobile phone is located are determined. The setting module 10 can determine the carrier aggregation function supported by the mobile phone according to the foregoing factors, and then set a plurality of different application scenarios according to different conditions of the supported carrier aggregation function, and then determine the activated carrier according to the specific application scenario. Aggregation function. In a specific implementation, after the setting module 10 sets a plurality of application scenarios, the carrier aggregation function associated with each application scenario may also be set, that is, the mobile phone may pre-set the carrier aggregation initiated by the mobile phone preferentially in each application scenario. Features.
具体实现中,本发明实施例中所描述的载波聚合功能可包括:下行载波聚合功能和上行载波聚合功能等,在此不做限制。In a specific implementation, the carrier aggregation function described in the embodiment of the present invention may include: a downlink carrier aggregation function and an uplink carrier aggregation function, and is not limited herein.
进一步的,在一些可行的实施方式中,设置模块10可根据手机的配置信息和手机所属的运营商网络功能设定多种应用场景,其中,上述手机的配置信息可包括:手机的硬件配置信息或者手机的软件配置信息。上述手机所属的运营商网络功能可为手机所属的运营商的不同网络制式包含的网络功能,包括2G、3G或者4G等不同网络。其中,上述运营商可包括:中国移动、中国电信或者中国联通等,在此不做限制。即,设置模块10可根据上述因素确定其所支持的载波聚合功能的情况,进而可根据可所支持的载波聚合功能的不同情况设定多种不同的应用场景。Further, in some possible implementation manners, the setting module 10 may set multiple application scenarios according to the configuration information of the mobile phone and the carrier network function to which the mobile phone belongs. The configuration information of the mobile phone may include: hardware configuration information of the mobile phone. Or the software configuration information of the mobile phone. The carrier network function of the above mobile phone may be a network function included in different network standards of the operator to which the mobile phone belongs, including different networks such as 2G, 3G or 4G. Among them, the above operators may include: China Mobile, China Telecom or China Unicom, etc., and no restrictions are imposed here. That is, the setting module 10 can determine the carrier aggregation function supported by the device according to the above factors, and can set a plurality of different application scenarios according to different conditions of the supported carrier aggregation function.
在一些可行的实施方式中,上述手机预先设定的应用场景可包括:第一应用场景、第二应用场景、第三应用场景、第四应用场景以及第五应用场景中的任一种。其中,上述第一应用场景为手机的配置信息支持下行载波聚合功能,并且手机的运营商网络支持下行载波聚合功能,即当前手机只支持下行载波聚合功能,无法支持上行载波聚合功能。上述第二应用场景为手机的配置信息支持上行载波聚合功能,并且手机的运营商网络支持上行载波聚合功能,即当前手机只支持上行载波聚合功能,无法支持下行载波聚合功能。上述第三应用场景为手机的配置信息支持下行载波聚合功能和上行载波聚合功能,并且手机的运营商网络支持下行载波聚合功能。即当前手机的配置信息支持两种载波聚合功能,但是手机的网络功能只支持下行载波聚合功能,使得手机只支持下行载波聚合功能,无法支持上行载波聚合功能。上述第四应用场景为手机的配置信息支持下行载波聚合功能和上行载波聚合功能,并且手机的运营商网络支持上行载波聚合功能;即当前手机的配置信息支持两种载波聚合功能,但是手机的网络功能只支持上行载波聚合功能,使得手机只支持上行载波聚合功能,无法支持下行载波聚合功能。上述第五应用场景为手机的配置信息支持下行载波聚合功能和上行载波聚合功能,并且手机的运营商网络支持下行载波聚合功能和上行载波聚合功能,此时,手机可同时支持下行载波聚合功能和上行载波聚合功能两种载波聚合功能。设置模块10设定了上述各种应用场景之后,则可设定每一种应用场景关联的载波聚合功能,进而可根据具体的应用场景确定启动的载波聚合功能。In some possible implementations, the application scenario preset by the mobile phone may include any one of a first application scenario, a second application scenario, a third application scenario, a fourth application scenario, and a fifth application scenario. The first application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function, that is, the current mobile phone only supports the downlink carrier aggregation function, and cannot support the uplink carrier aggregation function. The second application scenario is that the configuration information of the mobile phone supports the uplink carrier aggregation function, and the carrier network of the mobile phone supports the uplink carrier aggregation function, that is, the current mobile phone only supports the uplink carrier aggregation function, and cannot support the downlink carrier aggregation function. The third application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function. That is, the configuration information of the current mobile phone supports two types of carrier aggregation functions, but the network function of the mobile phone only supports the downlink carrier aggregation function, so that the mobile phone only supports the downlink carrier aggregation function and cannot support the uplink carrier aggregation function. The fourth application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the uplink carrier aggregation function; that is, the current mobile phone configuration information supports two carrier aggregation functions, but the mobile phone network The function only supports the uplink carrier aggregation function, so that the mobile phone only supports the uplink carrier aggregation function and cannot support the downlink carrier aggregation function. The fifth application scenario is that the configuration information of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function, and the carrier network of the mobile phone supports the downlink carrier aggregation function and the uplink carrier aggregation function. At this time, the mobile phone can simultaneously support the downlink carrier aggregation function and The uplink carrier aggregation function has two carrier aggregation functions. After the setting module 10 sets the foregoing various application scenarios, the carrier aggregation function associated with each application scenario may be set, and the activated carrier aggregation function may be determined according to the specific application scenario.
在一些可行的实施方式中,手机可内置多种应用程序,每一种应用程序对应一种启动方式,每一种启动方式对应一种用户操作指令。手机用户可根据预先设定的启动方式输入相应的用户操作指令,以触发手机启动相应的应用程序。具体实现中,接收模块40可首先获取用户操作界面上的用户操作指令,确定模块20可根据接收模块40获取到的用户操作指令确定上述用户操作指令对应的应用程序(即目标应用程序)。其中,上述目标应用程序可为上述多种应用程序中的一种,上述用户操作指令可包括:按压指令、触摸指令、振动指令或者音频指令等,在此不做限制。In some feasible implementation manners, the mobile phone can have a plurality of applications built in, each of which corresponds to a startup mode, and each startup mode corresponds to a user operation instruction. The mobile phone user can input a corresponding user operation instruction according to a preset startup manner to trigger the mobile phone to start the corresponding application. In a specific implementation, the receiving module 40 may first acquire a user operation instruction on the user operation interface, and the determining module 20 may determine, according to the user operation instruction acquired by the receiving module 40, the application program corresponding to the user operation instruction (ie, the target application program). The above-mentioned target application program may be one of the above-mentioned various application programs, and the user operation instruction may include: a pressing instruction, a touch instruction, a vibration instruction, an audio instruction, and the like, which are not limited herein.
在一些可行的实施方式中,手机启动了目标应用程序之后,确定模块20还可检测目标应用程序在手机中运行的应用场景(即目标应用场景),其中,上述目标应用场景由手机当前的硬件配置信息、软件配置信息、网络功能状态或者运行功耗状态等运行环境因素构成,在此不做限制。In some possible implementations, after the mobile phone launches the target application, the determining module 20 may also detect an application scenario (ie, a target application scenario) in which the target application runs in the mobile phone, where the target application scenario is determined by the current hardware of the mobile phone. There are no restrictions on the operating environment factors such as configuration information, software configuration information, network function status, or running power consumption status.
进一步的,在一些可行的实施方式中,设置模块10设定了多种应用场景之后,还可设定每一种应用场景关联的载波聚合功能,即设置模块10可预先设定每一种应用场景下手机优先选择启动的载波聚合功能。具体的,设置模块10可设定上述第一应用场景和第三应用场景关联的载波聚合功能均为下行载波聚合功能,上述第二应用场景和第四应用场景关联的载波聚合功能为上行载波聚合功能,上述第五应用场景关联的载波聚合功能为下行载波聚合功能和上行载波聚合功能。具体实现中,设置模块10设定上述第五应用场景关联的载波聚合功能为下行载波聚合功能和上行载波聚合功能之后,还可设定在上述第五应用场景中下行载波聚合功能和上行载波聚合功能的选择优先权,具体可设定下行载波聚合功能的选择优先级为第一选择优先级,上行载波聚合功能的选择优先级为第二选择优先级,此时,第五应用场景关联的载波聚合功能可默认为下行载波聚合功能。当手机启动下行载波聚合功能失败时,可选择第二选择优先权的上行载波聚合功能作为第五应用场景关联的载波聚合功能。Further, in some feasible implementation manners, after the setting module 10 sets a plurality of application scenarios, the carrier aggregation function associated with each application scenario may also be set, that is, the setting module 10 may preset each application. In the scenario, the mobile phone preferentially selects the carrier aggregation function that is started. Specifically, the setting module 10 can set the carrier aggregation function associated with the first application scenario and the third application scenario to be a downlink carrier aggregation function, and the carrier aggregation function associated with the second application scenario and the fourth application scenario is uplink carrier aggregation. The carrier aggregation function associated with the fifth application scenario is a downlink carrier aggregation function and an uplink carrier aggregation function. In a specific implementation, after the setting module 10 sets the carrier aggregation function associated with the fifth application scenario to the downlink carrier aggregation function and the uplink carrier aggregation function, the downlink carrier aggregation function and the uplink carrier aggregation in the fifth application scenario may also be set. The priority of the selection of the function may be that the selection priority of the downlink carrier aggregation function is the first selection priority, and the selection priority of the uplink carrier aggregation function is the second selection priority. At this time, the carrier associated with the fifth application scenario The aggregation function can default to downlink carrier aggregation. When the downlink carrier aggregation function of the mobile phone fails, the uplink carrier aggregation function of the second selected priority may be selected as the carrier aggregation function associated with the fifth application scenario.
需要说明的是,当确定模块20确定了上述各种应用场景关联的载波聚合功能之后,若上述应用场景关联的载波聚合功能仅有一种,则启动模块30可在启动上述应用场景关联的载波聚合功能失败时,自行启动手机的单载波射频工作模式,实现射频链路的切换控制。It should be noted that, after the determining module 20 determines the carrier aggregation function associated with the foregoing various application scenarios, if the carrier aggregation function associated with the application scenario is only one type, the startup module 30 may start the carrier aggregation associated with the application scenario. When the function fails, the single-carrier radio working mode of the mobile phone is activated by itself to implement the switching control of the radio link.
在一些可行的实施方式中,设置模块10预先设定了多种应用场景,并设定每一种应用场景关联的载波聚合功能之后,当确定模块20确定了当前启动的应用程序在手机中运行的目标应用场景之后,则可根据上述应用场景和载波聚合功能的关联关系,确定上述目标应用场景关联的载波聚合功能。其中,上述目标应用场景关联的载波聚合功能可包括下行载波聚合功能,或者上行载波聚合功能,在此不再赘述。例如,当手设置模块10预先设定了两种应用场景,包括第一应用场景和第二应用场景,并设定第一应用场景关联的载波聚合功能为下行载波聚合功能,第二应用场景关联的载波聚合功能为上行载波聚合功能。当手机启动了应用程序A之后,若确定模块20确定应用程序A在手机中运行的目标应用场景与上述预设的第一应用场景相同,则可确定上述目标应用场景关联的载波聚合功能为下行载波聚合功能。若确定模块20确定应用程序A在手机中运行的目标应用场景与上述预设的第二应用场景相同,则可确定上述目标应用场景关联的载波聚合功能为上行载波聚合功能。In some feasible implementation manners, after the setting module 10 presets a plurality of application scenarios and sets a carrier aggregation function associated with each application scenario, when the determining module 20 determines that the currently launched application is running in the mobile phone, After the target application scenario, the carrier aggregation function associated with the target application scenario is determined according to the association between the application scenario and the carrier aggregation function. The carrier aggregation function associated with the target application scenario may include a downlink carrier aggregation function or an uplink carrier aggregation function, and details are not described herein. For example, when the hand setting module 10 pre-sets two application scenarios, including the first application scenario and the second application scenario, and sets the carrier aggregation function associated with the first application scenario as the downlink carrier aggregation function, and the second application scenario association. The carrier aggregation function is an uplink carrier aggregation function. After the application A is started, if the determining module 20 determines that the target application scenario of the application A is the same as the preset first application scenario, the carrier aggregation function associated with the target application scenario may be determined as the downlink. Carrier aggregation function. If the determining module 20 determines that the target application scenario of the application A is the same as the preset second application scenario, the carrier aggregation function associated with the target application scenario may be determined as an uplink carrier aggregation function.
进一步的,在一些可行的实施方式中,如图4,为本发明实施例提供的用户操作界面的操作示意图。接收模块40可对手机的用户操作界面上的用户操作状态进行监控,以根据用户操作界面上的用户操作指令确定需要启动的应用程序。当接收模块40获取到其用户操作界面上的用户操作指令(具体可为触摸指令),则可根据上述设定的多种应用程序对应的启动方式,确定上述获取到的用户操作指令对应于哪种应用程序的启动方式,进而可根据上述对应关系确定上述用户操作指令对应的待启动的应用程序(即目标应用程序)。Further, in some feasible implementation manners, FIG. 4 is a schematic diagram of operations of a user operation interface according to an embodiment of the present invention. The receiving module 40 can monitor the user operation state on the user operation interface of the mobile phone to determine an application to be started according to the user operation instruction on the user operation interface. When the receiving module 40 obtains a user operation instruction (specifically, a touch instruction) on the user operation interface, it may determine, according to the startup manner corresponding to the plurality of application programs set above, where the obtained user operation instruction corresponds to The startup mode of the application, and further, the application to be launched corresponding to the user operation instruction (ie, the target application) may be determined according to the foregoing correspondence.
在一些可行的实施方式中,确定模块20确定了上述目标应用场景关联的载波聚合功能为下行载波聚合功能或者上行载波聚合功能之后,启动模块30则可启动上述确定出的下行载波聚合功能或者上行载波聚合功能,进而可通过上述上行载波聚合功能或者下行载波聚合功能来承载上述目标应用程序的运行。例如,若确定模块20确定应用程序A在手机中运行的目标应用场景关联的载波聚合功能为下行载波聚合功能,启动模块30则可启动下行载波聚合功能来承载应用程序A的运行。若确定模块20确定应用程序A在手机中运行的目标应用场景关联的载波聚合功能为上行载波聚合功能,启动模块30则可启动上行载波聚合功能来承载应用程序A的运行。In some possible implementation manners, after the determining module 20 determines that the carrier aggregation function associated with the target application scenario is the downlink carrier aggregation function or the uplink carrier aggregation function, the startup module 30 may start the determined downlink carrier aggregation function or uplink. The carrier aggregation function can further carry the operation of the target application by using the uplink carrier aggregation function or the downlink carrier aggregation function. For example, if the determining module 20 determines that the carrier aggregation function associated with the target application scenario run by the application A in the mobile phone is the downlink carrier aggregation function, the startup module 30 may start the downlink carrier aggregation function to carry the operation of the application A. If the determining module 20 determines that the carrier aggregation function associated with the target application scenario run by the application A in the mobile phone is the uplink carrier aggregation function, the startup module 30 may initiate an uplink carrier aggregation function to carry the operation of the application A.
在本发明实施例中,手机可设定多种应用场景,还可设定每一种应用场景关联的载波聚合功能。手机还可从手机的用户操作界面上获取用户操作指令,根据获取得到的用户操作指令启动目标应用程序时可确定应用程序在手机中运行的目标应用场景,提高了手机的趣味性,进而可确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,提高了手机的载波聚合功能的可选性。手机选定了目标应用场景关联的下行载波聚合功能或者上行载波聚合功能之后,可启动上述下行载波聚合功能或上行载波聚合功能,以通过上述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行,可根据具体启动的应用程序确定相应的载波聚合功能来支持应用程序的运行,提高了手机的功耗的可控性,增强手机的续航能力。In the embodiment of the present invention, the mobile phone can set multiple application scenarios, and can also set a carrier aggregation function associated with each application scenario. The mobile phone can also obtain a user operation instruction from the user operation interface of the mobile phone, and can determine the target application scenario of the application running in the mobile phone when the target application is started according to the obtained user operation instruction, thereby improving the interest of the mobile phone, and further determining The downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario improves the optionalness of the carrier aggregation function of the mobile phone. After the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario is selected, the downlink carrier aggregation function or the uplink carrier aggregation function may be activated to carry the application by using the downlink carrier aggregation function or the uplink carrier aggregation function. The running of the program can determine the corresponding carrier aggregation function according to the specific startup application to support the running of the application, improve the controllability of the power consumption of the mobile phone, and enhance the endurance of the mobile phone.
参见图7,是本发明实施例提供的移动终端的实施例结构示意图,本发明实施例中所描述的移动终端可用于执行上述本发明实施例中所描述的射频链路控制的方法。本发明实施例中所描述的移动终端,包括:至少一个输入设备1001;至少一个输出设备1002;至少一个处理器1003,例如CPU;和存储器1004,上述输入设备1001、输出设备1002、处理器1003和存储器1004通过总线1005连接。FIG. 7 is a schematic structural diagram of an embodiment of a mobile terminal according to an embodiment of the present invention. The mobile terminal described in the embodiment of the present invention may be used to perform the method for controlling radio frequency link described in the foregoing embodiment of the present invention. The mobile terminal described in the embodiment of the present invention includes: at least one input device 1001; at least one output device 1002; at least one processor 1003, such as a CPU; and a memory 1004, the input device 1001, the output device 1002, and the processor 1003. The memory 1004 is connected via a bus 1005.
上述存储器1004可以是高速RAM存储器,也可为非不稳定的存储器(non-volatile memory),例如磁盘存储器。上述存储器1004用于存储一组程序代码,上述输入设备1001、输出设备1002和处理器1003用于调用存储器1004中存储的程序代码,执行如下操作:The above memory 1004 may be a high speed RAM memory or a non-volatile memory (non-volatile memory). Memory), such as disk storage. The above memory 1004 is configured to store a set of program codes, and the input device 1001, the output device 1002, and the processor 1003 are configured to call the program code stored in the memory 1004, and perform the following operations:
上述处理器1003,用于设定多种应用场景,并设定每一种应用场景关联的载波聚合功能。The processor 1003 is configured to set multiple application scenarios and set a carrier aggregation function associated with each application scenario.
上述处理器1003,还用于当根据用户操作指令启动所述用户操作指令对应的应用程序时,确定所述应用程序在移动终端中运行的目标应用场景。The processor 1003 is further configured to: when the application corresponding to the user operation instruction is started according to a user operation instruction, determine a target application scenario that the application runs in the mobile terminal.
上述处理器1003,还用于根据所述每一种应用场景关联的载波聚合功能,确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能。The processor 1003 is further configured to determine, according to the carrier aggregation function associated with each application scenario, a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario.
上述处理器1003,还用于启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,以通过所述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行。The processor 1003 is further configured to start the determined downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, to carry the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function. .
在一些可行的实施方式中,上述处理器1003具体用于:In some possible implementations, the processor 1003 is specifically configured to:
根据移动终端的配置信息,以及所述移动终端所属的运营商网络功能设定多种应用场景;Setting a plurality of application scenarios according to configuration information of the mobile terminal and an operator network function to which the mobile terminal belongs;
其中,所述移动终端的配置信息包括:所述移动终端的硬件配置信息,或者所述移动终端的软件配置信息。The configuration information of the mobile terminal includes: hardware configuration information of the mobile terminal, or software configuration information of the mobile terminal.
在一些可行的实施方式中,上述处理器1003具体用于:In some possible implementations, the processor 1003 is specifically configured to:
确定所述应用程序在所述移动终端中运行时所述移动终端的配置信息所支持的载波聚合功能,以及所述移动终端当前所属运营商网络所支持的载波聚合功能;Determining a carrier aggregation function supported by the configuration information of the mobile terminal when the application is running in the mobile terminal, and a carrier aggregation function supported by the operator network to which the mobile terminal currently belongs;
根据所述移动终端的配置信息所支持的载波聚合功能,以及所述运营商网络所支持的载波聚合功能确定目标应用场景。Determining a target application scenario according to a carrier aggregation function supported by the configuration information of the mobile terminal and a carrier aggregation function supported by the carrier network.
在一些可行的实施方式中,上述输入设备1001,用于获取移动终端的用户操作界面上的用户操作指令。In some possible implementations, the input device 1001 is configured to acquire a user operation instruction on a user operation interface of the mobile terminal.
上述处理器1003,还用于根据预存的多种应用程序对应的启动方式,确定所述用户操作指令对应的应用程序。The processor 1003 is further configured to determine an application corresponding to the user operation instruction according to a startup manner corresponding to the pre-stored plurality of application programs.
在一些可行的实施方式中,所述应用场景包括:第一应用场景、第二应用场景、第三应用场景、第四应用场景以及第五应用场景中的任一种;In some possible implementations, the application scenario includes: any one of a first application scenario, a second application scenario, a third application scenario, a fourth application scenario, and a fifth application scenario;
其中,所述第一应用场景为所述移动终端的配置信息支持下行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能; The first application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
所述第二应用场景为所述移动终端的配置信息支持上行载波聚合功能,并且所述移动终端的运营商网络支持上行载波聚合功能;The second application scenario is that the configuration information of the mobile terminal supports an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
所述第三应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能;The third application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
所述第四应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持上行载波聚合功能;The fourth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
所述第五应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能和上行载波聚合功能。The fifth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function.
具体实现中,本发明实施例中所描述移动终端可通过其内置的各个模块(输入设备1001、输出设备1002和处理器1003等)执行本发明实施例提供的射频链路控制的方法的第一实施例和第二实施例中所描述的实现方式,也可执行本发明实施例提供的射频链路控制的装置的实施例所描述的实现方式,具体实现过程可参见上述各个实施例,在此不再赘述。In a specific implementation, the mobile terminal described in the embodiment of the present invention may perform the first method of the radio frequency link control provided by the embodiment of the present invention by using the built-in modules (the input device 1001, the output device 1002, the processor 1003, and the like). The implementations described in the embodiments and the second embodiment may also implement the implementations described in the embodiments of the apparatus for controlling the radio frequency link provided by the embodiments of the present invention. For the specific implementation process, refer to the foregoing embodiments. No longer.
本领域普通技术人员可以理解实现上述实施例方法中的全部或部分流程,是可以通过计算机程序来指令相关的硬件来完成,所述的程序可存储于一计算机可读取存储介质中,该程序在执行时,可包括如上述各方法的实施例的流程。其中,所述的存储介质可为磁碟、光盘、只读存储记忆体(Read-Only Memory,ROM)或随机存储记忆体(Random Access Memory,RAM)等。One of ordinary skill in the art can understand that all or part of the process of implementing the foregoing embodiments can be completed by a computer program to instruct related hardware, and the program can be stored in a computer readable storage medium. When executed, the flow of an embodiment of the methods as described above may be included. The storage medium may be a magnetic disk, an optical disk, or a read-only storage memory (Read-Only) Memory, ROM) or Random Access Memory (RAM).
以上所揭露的仅为本发明较佳实施例而已,当然不能以此来限定本发明之权利范围,因此依本发明权利要求所作的等同变化,仍属本发明所涵盖的范围。The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, and thus equivalent changes made in the claims of the present invention are still within the scope of the present invention.

Claims (20)

  1. 一种射频链路控制的方法,其中所述射频链路控制的方法包括:A method for controlling a radio frequency link, wherein the method for controlling a radio frequency link includes:
    设定多种应用场景,并设定每一种应用场景关联的载波聚合功能;Set a variety of application scenarios, and set the carrier aggregation function associated with each application scenario;
    当根据用户操作指令启动所述用户操作指令对应的应用程序时,确定所述应用程序在移动终端中运行的目标应用场景;Determining, according to a user operation instruction, an application corresponding to the user operation instruction, determining a target application scenario that the application runs in the mobile terminal;
    根据所述每一种应用场景关联的载波聚合功能,确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能;Determining, by the carrier aggregation function associated with each application scenario, a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario;
    启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,以通过所述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行。And performing the downlink carrier aggregation function or the uplink carrier aggregation function associated with the determined target application scenario, to perform the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
  2. 如权利要求1所述的射频链路控制的方法,其中所述设定多种应用场景,包括:The method of controlling radio frequency link according to claim 1, wherein the setting a plurality of application scenarios comprises:
    根据移动终端的配置信息,以及所述移动终端所属的运营商网络功能设定多种应用场景;Setting a plurality of application scenarios according to configuration information of the mobile terminal and an operator network function to which the mobile terminal belongs;
    其中,所述移动终端的配置信息包括:所述移动终端的硬件配置信息,或者所述移动终端的软件配置信息。The configuration information of the mobile terminal includes: hardware configuration information of the mobile terminal, or software configuration information of the mobile terminal.
  3. 如权利要求2所述的射频链路控制的方法,其中所述确定所述应用程序在移动终端中运行的目标应用场景,包括:The method for controlling a radio frequency link according to claim 2, wherein the determining a target application scenario in which the application runs in a mobile terminal comprises:
    确定所述应用程序在所述移动终端中运行时所述移动终端的配置信息所支持的载波聚合功能,以及所述移动终端当前所属运营商网络所支持的载波聚合功能;Determining a carrier aggregation function supported by the configuration information of the mobile terminal when the application is running in the mobile terminal, and a carrier aggregation function supported by the operator network to which the mobile terminal currently belongs;
    根据所述移动终端的配置信息所支持的载波聚合功能,以及所述运营商网络所支持的载波聚合功能确定目标应用场景。Determining a target application scenario according to a carrier aggregation function supported by the configuration information of the mobile terminal and a carrier aggregation function supported by the carrier network.
  4. 如权利要求1-3任一项所述的射频链路控制的方法,其中所述确定所述应用程序在移动终端中运行的目标应用场景之前,所述方法还包括:The method of radio frequency link control according to any one of claims 1 to 3, wherein the method further comprises: before determining the target application scenario that the application runs in the mobile terminal, the method further comprises:
    获取移动终端的用户操作界面上的用户操作指令;Obtaining a user operation instruction on a user operation interface of the mobile terminal;
    根据预存的多种应用程序对应的启动方式,确定所述用户操作指令对应的应用程序。The application corresponding to the user operation instruction is determined according to a startup manner corresponding to the pre-stored plurality of applications.
  5. 如权利要求2或3所述的射频链路控制的方法,其中所述应用场景包括:第一应用场景、第二应用场景、第三应用场景、第四应用场景以及第五应用场景中的任一种;The method for controlling a radio frequency link according to claim 2 or 3, wherein the application scenario includes: a first application scenario, a second application scenario, a third application scenario, a fourth application scenario, and any of the fifth application scenarios. One type;
    其中,所述第一应用场景为所述移动终端的配置信息支持下行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能; The first application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
    所述第二应用场景为所述移动终端的配置信息支持上行载波聚合功能,并且所述移动终端的运营商网络支持上行载波聚合功能;The second application scenario is that the configuration information of the mobile terminal supports an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
    所述第三应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能;The third application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
    所述第四应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持上行载波聚合功能;The fourth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
    所述第五应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能和上行载波聚合功能。The fifth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function.
  6. 如权利要求1所述的射频链路控制的方法,其中所述射频链路控制的方法,还包括:The method of controlling radio frequency link according to claim 1, wherein the method for controlling the radio frequency link further comprises:
    在启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能失败时,自行启动单载波射频工作模式。When the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario is determined to be initiated, the single carrier radio mode is automatically started.
  7. 如权利要求5所述的射频链路控制的方法,其中所述射频链路控制的方法,还包括:The method of controlling radio frequency link according to claim 5, wherein the method for controlling the radio frequency link further comprises:
    在设定每一种应用场景关联的载波聚合功能之后,还设定每一种应用场景下移动终端优先选择启动的载波聚合功能。After the carrier aggregation function associated with each application scenario is set, the carrier aggregation function initiated by the mobile terminal in each application scenario is also set.
  8. 一种射频链路控制的装置,其中所述射频链路控制的装置包括:A device for controlling a radio frequency link, wherein the device for controlling the radio frequency link comprises:
    设置模块,用于设定多种应用场景,并设定每一种应用场景关联的载波聚合功能;a setting module, configured to set a plurality of application scenarios, and set a carrier aggregation function associated with each application scenario;
    确定模块,用于在根据用户操作指令启动所述用户操作指令对应的应用程序时,确定所述应用程序在移动终端中运行的目标应用场景;a determining module, configured to determine a target application scenario that the application runs in the mobile terminal when the application corresponding to the user operation instruction is started according to the user operation instruction;
    所述确定模块,还用于根据所述设置模块设定的所述每一种应用场景关联的载波聚合功能,确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能;The determining module is further configured to determine a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario according to the carrier aggregation function associated with each application scenario set by the setting module;
    启动模块,用于启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,以通过所述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行。The initiating module is configured to start the determined downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, to carry the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function.
  9. 如权利要求8所述的射频链路控制的装置,其中所述设置模块具体用于:The apparatus for controlling radio frequency link according to claim 8, wherein the setting module is specifically configured to:
    根据移动终端的配置信息,以及所述移动终端所属的运营商网络功能设定多种应用场景;Setting a plurality of application scenarios according to configuration information of the mobile terminal and an operator network function to which the mobile terminal belongs;
    其中,所述移动终端的配置信息包括:所述移动终端的硬件配置信息,或者所述移动终端的软件配置信息。The configuration information of the mobile terminal includes: hardware configuration information of the mobile terminal, or software configuration information of the mobile terminal.
  10. 如权利要求9所述的射频链路控制的装置,其中所述确定模块具体用于:The apparatus for controlling radio frequency link according to claim 9, wherein said determining module is specifically configured to:
    确定所述应用程序在所述移动终端中运行时所述移动终端的配置信息所支持的载波聚合功能,以及所述移动终端当前所属运营商网络所支持的载波聚合功能;Determining a carrier aggregation function supported by the configuration information of the mobile terminal when the application is running in the mobile terminal, and a carrier aggregation function supported by the operator network to which the mobile terminal currently belongs;
    根据所述移动终端的配置信息所支持的载波聚合功能,以及所述运营商网络所支持的载波聚合功能确定目标应用场景。Determining a target application scenario according to a carrier aggregation function supported by the configuration information of the mobile terminal and a carrier aggregation function supported by the carrier network.
  11. 如权利要求8-10任一项所述的射频链路控制的装置,其中所述射频链路控制的装置还包括:The apparatus for controlling a radio frequency link according to any one of claims 8 to 10, wherein the apparatus for controlling the radio frequency link further comprises:
    接收模块,用于获取移动终端的用户操作界面上的用户操作指令;a receiving module, configured to acquire a user operation instruction on a user operation interface of the mobile terminal;
    所述确定模块,还用于根据预存的多种应用程序对应的启动方式,确定所述接收模块接收到的所述用户操作指令对应的应用程序。The determining module is further configured to determine, according to a startup manner corresponding to the pre-stored plurality of applications, an application corresponding to the user operation instruction received by the receiving module.
  12. 如权利要求9或10所述的射频链路控制的装置,其中所述应用场景包括:第一应用场景、第二应用场景、第三应用场景、第四应用场景以及第五应用场景中的任一种;The apparatus for controlling a radio frequency link according to claim 9 or 10, wherein the application scenario includes: a first application scenario, a second application scenario, a third application scenario, a fourth application scenario, and a fifth application scenario. One type;
    其中,所述第一应用场景为所述移动终端的配置信息支持下行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能; The first application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
    所述第二应用场景为所述移动终端的配置信息支持上行载波聚合功能,并且所述移动终端的运营商网络支持上行载波聚合功能;The second application scenario is that the configuration information of the mobile terminal supports an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
    所述第三应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能;The third application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
    所述第四应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持上行载波聚合功能;The fourth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
    所述第五应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能和上行载波聚合功能。The fifth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function.
  13. 如权利要求12所述的射频链路控制的装置,其中所述设置模块具体用于:The apparatus for controlling a radio frequency link according to claim 12, wherein said setting module is specifically configured to:
    设定了多种应用场景之后,还设定每一种应用场景关联的载波聚合功能,还设定每一种应用场景下移动终端优先选择启动的载波聚合功能。After a plurality of application scenarios are set, the carrier aggregation function associated with each application scenario is also set, and the carrier aggregation function initiated by the mobile terminal in each application scenario is also set.
  14. 一种移动终端,其中所述移动终端包括存储器和处理器,所述处理器和所述存储器通过总线连接;所述存储器用于存储一组程序代码,所述处理器用于调用所述存储器中存储的程序代码,执行如下操作:A mobile terminal, wherein the mobile terminal includes a memory and a processor, the processor and the memory are connected by a bus; the memory is for storing a set of program codes, and the processor is configured to call the memory to store The program code, do the following:
    所述处理器,用于设定多种应用场景,并设定每一种应用场景关联的载波聚合功能;The processor is configured to set a plurality of application scenarios, and set a carrier aggregation function associated with each application scenario;
    所述处理器,还用于在根据用户操作指令启动所述用户操作指令对应的应用程序时,确定所述应用程序在移动终端中运行的目标应用场景;The processor is further configured to: when the application corresponding to the user operation instruction is started according to a user operation instruction, determine a target application scenario that the application runs in the mobile terminal;
    所述处理器,还用于根据所述设置模块设定的所述每一种应用场景关联的载波聚合功能,确定所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能;The processor is further configured to determine a downlink carrier aggregation function or an uplink carrier aggregation function associated with the target application scenario according to the carrier aggregation function associated with each application scenario that is set by the setting module;
    所述处理器,还用于启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能,以通过所述下行载波聚合功能或上行载波聚合功能来承载所述应用程序的运行。The processor is further configured to start the determined downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario, to carry the running of the application by using the downlink carrier aggregation function or the uplink carrier aggregation function. .
  15. 如权利要求14所述的移动终端,其中所述处理器具体用于:The mobile terminal of claim 14, wherein the processor is specifically configured to:
    根据移动终端的配置信息,以及所述移动终端所属的运营商网络功能设定多种应用场景;Setting a plurality of application scenarios according to configuration information of the mobile terminal and an operator network function to which the mobile terminal belongs;
    其中,所述移动终端的配置信息包括:所述移动终端的硬件配置信息,或者所述移动终端的软件配置信息。The configuration information of the mobile terminal includes: hardware configuration information of the mobile terminal, or software configuration information of the mobile terminal.
  16. 如权利要求15所述的移动终端,其中所述处理器具体用于:The mobile terminal of claim 15, wherein the processor is specifically configured to:
    确定所述应用程序在所述移动终端中运行时所述移动终端的配置信息所支持的载波聚合功能,以及所述移动终端当前所属运营商网络所支持的载波聚合功能;Determining a carrier aggregation function supported by the configuration information of the mobile terminal when the application is running in the mobile terminal, and a carrier aggregation function supported by the operator network to which the mobile terminal currently belongs;
    根据所述移动终端的配置信息所支持的载波聚合功能,以及所述运营商网络所支持的载波聚合功能确定目标应用场景。Determining a target application scenario according to a carrier aggregation function supported by the configuration information of the mobile terminal and a carrier aggregation function supported by the carrier network.
  17. 如权利要求14-16任一项所述的移动终端,其中移动终端还包括:输入设备,所述输入设备通过所述总线与所述处理器和所述存储器连接;A mobile terminal according to any one of claims 14 to 16, wherein the mobile terminal further comprises: an input device, the input device being connected to the processor and the memory via the bus;
    所述输入设备,用于获取移动终端的用户操作界面上的用户操作指令;The input device is configured to acquire a user operation instruction on a user operation interface of the mobile terminal;
    所述处理器,还用于根据预存的多种应用程序对应的启动方式,确定所述接收模块接收到的所述用户操作指令对应的应用程序。The processor is further configured to determine, according to a startup manner corresponding to the pre-stored multiple applications, an application corresponding to the user operation instruction received by the receiving module.
  18. 如权利要求15或16所述的移动终端,其中所述应用场景包括:第一应用场景、第二应用场景、第三应用场景、第四应用场景以及第五应用场景中的任一种;The mobile terminal according to claim 15 or 16, wherein the application scenario comprises: any one of a first application scenario, a second application scenario, a third application scenario, a fourth application scenario, and a fifth application scenario;
    其中,所述第一应用场景为所述移动终端的配置信息支持下行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能; The first application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
    所述第二应用场景为所述移动终端的配置信息支持上行载波聚合功能,并且所述移动终端的运营商网络支持上行载波聚合功能;The second application scenario is that the configuration information of the mobile terminal supports an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
    所述第三应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能;The third application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function;
    所述第四应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持上行载波聚合功能;The fourth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports an uplink carrier aggregation function;
    所述第五应用场景为所述移动终端的配置信息支持下行载波聚合功能和上行载波聚合功能,并且所述移动终端的运营商网络支持下行载波聚合功能和上行载波聚合功能。The fifth application scenario is that the configuration information of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function, and the carrier network of the mobile terminal supports a downlink carrier aggregation function and an uplink carrier aggregation function.
  19. 如权利要求18所述的移动终端,其中所述处理器还用于:The mobile terminal of claim 18, wherein the processor is further configured to:
    设定了多种应用场景之后,还设定每一种应用场景关联的载波聚合功能,还设定每一种应用场景下移动终端优先选择启动的载波聚合功能。After a plurality of application scenarios are set, the carrier aggregation function associated with each application scenario is also set, and the carrier aggregation function initiated by the mobile terminal in each application scenario is also set.
  20. 如权利要求18所述的移动终端,其中所述处理器还用于:The mobile terminal of claim 18, wherein the processor is further configured to:
    在启动确定出的所述目标应用场景关联的下行载波聚合功能或上行载波聚合功能失败时,自行启动单载波射频工作模式。When the downlink carrier aggregation function or the uplink carrier aggregation function associated with the target application scenario is determined to be initiated, the single carrier radio mode is automatically started.
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