WO2016058322A1 - 智能省电方法、装置及终端 - Google Patents

智能省电方法、装置及终端 Download PDF

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Publication number
WO2016058322A1
WO2016058322A1 PCT/CN2015/074323 CN2015074323W WO2016058322A1 WO 2016058322 A1 WO2016058322 A1 WO 2016058322A1 CN 2015074323 W CN2015074323 W CN 2015074323W WO 2016058322 A1 WO2016058322 A1 WO 2016058322A1
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Prior art keywords
application
power saving
terminal
usage
module
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PCT/CN2015/074323
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English (en)
French (fr)
Inventor
张磊
何祥
魏然
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中兴通讯股份有限公司
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Publication of WO2016058322A1 publication Critical patent/WO2016058322A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/725Cordless telephones
    • H04M1/73Battery saving arrangements
    • 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 invention relates to an intelligent power saving method, an intelligent power saving device and a terminal.
  • the current smart terminal only has a fixed province after the power-saving mode is enabled.
  • the electrical policy turns off applications that are not allowed to run. The applications that users often use can't continue to run. The applications that are not used frequently are retained, which seriously affects the user experience. It can't satisfy the user's hope that the terminal can save power and maximize the use time. On the other hand, it also hopes that the functions will be used frequently. Unaffected demand. This also causes the current power-saving mode function of the terminal to be rarely used by the user to become a "display", which also reduces the utilization of resources to some extent.
  • the main technical problem to be solved by the present invention is to provide an intelligent power saving method and intelligent power saving Devices and terminals.
  • the present invention provides an intelligent power saving method, including:
  • An application that is allowed to operate in the power saving mode is determined based on the usage of the respective applications.
  • determining, according to the usage of each application, an application that is allowed to run in the power saving mode includes:
  • the common application that is currently in the running state of the terminal is reserved, the currently-used very useful application is closed; and/or the very useful application in the terminal that is not currently running is disabled.
  • the usage of each application in the statistics terminal includes: counting usage frequency and/or duration of use of each application;
  • Determining common applications based on the usage of each application includes:
  • An application that uses frequency and/or usage duration greater than a set threshold is determined to be a common application.
  • the method further includes: acquiring the current data connection status of the terminal; determining, after the application that is allowed to run in the power saving mode, based on the usage of each application, the method further includes:
  • the application that is not supported by the current data connection state is selected from the allowed running applications based on the current data connection state to be turned off and/or disabled.
  • the method further includes setting a display state of the terminal based on a display policy in a preset power saving mode.
  • the present invention also provides an intelligent power saving device, including a statistics module and a first setting module;
  • the statistics module is used to count usage of each application in the terminal
  • the first setting module is configured to determine, when the terminal starts the power saving mode, an application that is allowed to run in the power saving mode based on the usage of the applications.
  • the first setting module includes a determining submodule and a setting submodule
  • the determining sub-module is configured to determine a common application based on usage of each application
  • the setting sub-module is configured to reserve a common application that is currently in the running state of the terminal, and the currently-used very useful application is closed; and/or disable the very useful application that is not currently in the running state of the terminal.
  • the statistics module includes a frequency statistics sub-module for counting the usage frequency of each application and/or a duration statistics sub-module for counting the usage duration of each application; the determining sub-module includes The comparison subunit is used to determine an application frequency and/or an application duration greater than a set threshold as a common application.
  • the method further includes a state obtaining module and a second setting module, where the state acquiring module is configured to acquire a current data connection state of the terminal, and the second setting module is configured to be in the first After the setting module determines the application that is allowed to run in the power saving mode based on the usage of each application, the application that is not supported by the current data connection state is selected to be closed from the allowed running application based on the current data connection state of the terminal. And / or disabled.
  • the method further includes a display policy acquisition module and a third setting module;
  • the display policy obtaining module is configured to acquire a display policy in a preset power saving mode
  • the third setting module is configured to set a display state of the terminal according to the display policy.
  • the present invention further provides a terminal, comprising a memory and a processor, the memory for storing at least one program module; the processor for calling at least one of the program modules to perform the following steps:
  • An application that is allowed to operate in the power saving mode is determined based on the usage of the respective applications.
  • the intelligent power saving method, the intelligent power saving device and the terminal provided by the invention turn on the power saving in the terminal
  • the statistics of the usage of each application in the terminal are obtained; and then the application that the terminal is allowed to run in the power saving mode is determined based on the usage of each application.
  • the present invention can set an application that is allowed to run in the power saving mode according to the usage of each application in the terminal by the user, thereby ensuring that the application commonly used by the user can also operate normally in the power saving mode; Commonly used applications are turned off or disabled in the power saving mode, which satisfies the user's desire to maximize power saving and extend the use time. On the other hand, it also hopes that the frequently used functions are not affected, and the user experience is maximized. Satisfaction; also makes the power-saving mode function a function commonly used by users, thereby improving the system resource utilization to a certain extent.
  • FIG. 1 is a schematic flowchart of an intelligent power saving method according to Embodiment 1 of the present invention.
  • FIG. 2 is a schematic structural diagram of an intelligent power saving device according to Embodiment 2 of the present invention.
  • FIG. 3 is a schematic structural diagram of another smart power saving device according to Embodiment 2 of the present invention.
  • FIG. 4 is a schematic structural diagram of another smart power saving device according to Embodiment 2 of the present invention.
  • FIG. 5 is a schematic structural diagram of a terminal according to Embodiment 3 of the present invention.
  • FIG. 6 is a schematic flowchart of an intelligent power saving method according to Embodiment 3 of the present invention.
  • FIG. 7 is a schematic flowchart of a process of using a frequency statistics process according to Embodiment 3 of the present invention.
  • FIG. 8 is a schematic flowchart of a process based on a data connection state setting process according to Embodiment 3 of the present invention.
  • FIG. 9 is a schematic flowchart of a process based on other power saving policies according to Embodiment 3 of the present invention.
  • Embodiment 1 is a diagrammatic representation of Embodiment 1:
  • the smart power saving method provided in this embodiment includes the following steps:
  • Step 101 When the terminal starts the power saving mode, the usage of each application in the terminal is obtained.
  • Step 102 Determine, according to the usage of each application, an application that the terminal is allowed to run in the power saving mode. In this embodiment, only the applications that are allowed to run can operate normally.
  • the usage of each application in the terminal is obtained.
  • the usage of each application may be performed before the terminal starts the power saving mode; or may be performed before the terminal starts the power saving mode (the result obtained in this stage is historical statistical result), and after the terminal turns on the power saving mode
  • the statistics of the currently running application of the terminal are added to the previous historical statistical result as the latest statistical result.
  • the statistics on the usage of each application in the terminal are essentially the learning and recording of the user's usage habits. Therefore, in order to record and learn the user's usage habits as accurately as possible, in this embodiment, a statistical period may be set, and statistics are performed according to a preset statistical interval or other principles in the statistical period.
  • the usage of each application in the statistical terminal includes: counting the frequency of use and/or duration of use of each application; the frequency of use and the duration of use can more accurately reflect the use of the application by the user to a certain extent.
  • step 102 determining, according to the usage of each application, that the applications allowed to run in the power saving mode include:
  • the common application that is currently running in the terminal is reserved, and the currently-used very useful application is closed; and/or the very useful application that is not currently running in the terminal is disabled, that is, the application is not allowed in the power saving mode. Start and run, only the commonly used applications that are allowed to run can be started and run normally.
  • determining the common application based on the usage of each application includes: determining the usage frequency and/or the application whose usage duration is greater than the set threshold as a common application, and specifically includes the following situations:
  • the frequency threshold is set, and the application whose frequency is greater than the frequency threshold is determined to be a common application
  • the duration threshold is set, and the application whose usage duration is greater than the duration threshold is determined to be a common application
  • the duration threshold and the frequency threshold are set, and when the usage duration and the usage frequency are greater than the corresponding threshold, the application is determined to be a common application; or An application is determined to be a common application when at least one of the usage duration and the usage frequency is greater than the corresponding threshold.
  • the applications in the power saving mode of the terminal may be further configured in combination with the current data connection state of the terminal. Therefore, the step of acquiring the current data connection status of the terminal may also be included, and the step may be performed before the above step 102, or may be performed after the above step 102.
  • the method further includes: selecting, according to the current data connection state of the obtained terminal, an application that is not supported by the current data connection state from the allowed running applications. Shut down and/or disable;
  • the method includes: the commonly used application in which the reserved terminal is currently in the running state, the application that is not supported by the current data connection state is closed, and the supported application is retained; and/or the current data connection state in the common application that is not currently in the running state of the terminal.
  • Unsupported applications are disabled, that is, in power saving mode, such applications are not allowed to start and run under the current data connection state.
  • Such disabled applications in this embodiment include, but are not limited to, synchronous applications (including background data synchronization applications, automatic synchronization applications, etc.) and update applications (including automatic updates of various applications, which can be disabled by setting their update time, etc.) ) and other service applications.
  • the data connection status of the terminal in this embodiment includes a network connection status (such as a WIFI network connection, a cellular network connection, etc.) and other data connection status (for example, various P2P links established by means of Bluetooth, infrared, etc.); if the terminal is currently If the network connection status is on, that is, the WIFI network connection or the cellular network connection is enabled, the PS service (ie, the Internet service) in the application that is allowed to run is retained, otherwise, the PS service in the application that is allowed to run is closed and/or disabled; Terminal If the current P2P link status is on, the P2P service (ie, the Internet service) in the application that is allowed to run is retained; otherwise, the P2P service in the application that is allowed to run is closed and/or disabled;
  • a network connection status such as a WIFI network connection, a cellular network connection, etc.
  • other data connection status for example, various P2P links established by means of Bluetooth, infrared, etc.
  • the display state of the terminal in the power saving mode may be set based on a display policy in the preset power saving mode, where the display policy includes at least one display parameter, such as a screen, for adjusting the display state.
  • the display policy includes at least one display parameter, such as a screen, for adjusting the display state.
  • the brightness parameter, the lock screen time parameter, and the like setting the display state according to the display policy, that is, setting the display state of the terminal according to the at least one display parameter.
  • Embodiment 2 is a diagrammatic representation of Embodiment 1:
  • This embodiment provides an intelligent power saving device, as shown in FIG. 2, including a statistic module and a first setting module;
  • the statistics module is used to count the usage of each application in the terminal
  • the first setting module is configured to determine, when the terminal is powered on, the application that is allowed to run in the power saving mode based on the usage of each application obtained by the statistics module; only the application that is allowed to run can operate normally.
  • the statistics of the usage of each application by the statistic module may be statistics performed before the terminal starts the power saving mode; or may be performed before the terminal starts the power saving mode (the result obtained in this stage is historical statistical result).
  • the application currently running by the terminal is counted and added to the previous historical statistical result as the latest statistical result.
  • the statistics on the usage of each application in the terminal are essentially the learning and recording of the user's usage habits. Therefore, in order to record and learn the user's usage habits as accurately as possible, in this embodiment, a statistical period may be set, and statistics are performed according to a preset statistical interval or other principles in the statistical period.
  • the usage of each application in the statistics terminal includes: counting the frequency of use and/or duration of use of each application; the frequency of use and the duration of use can be relatively accurate to some extent. It really reflects the user's use of each application.
  • the statistics module includes a frequency statistics sub-module for counting the usage frequency of each application and/or a time-length statistical sub-module for counting the usage duration of each application.
  • the first setting module in this embodiment includes a determining submodule and a setting submodule
  • the judgment sub-module is used to determine a common application based on the usage of each application
  • the setting sub-module is used to keep the commonly used application whose terminal is currently running, and the currently-used very useful application is closed; and/or disable the very useful application in the terminal that is not currently running; that is, in the power-saving mode
  • This type of application is not allowed to start and run, only the normal applications that are allowed to run can start and run normally.
  • the determining sub-module includes a comparison sub-unit, and is used to determine an application whose usage frequency and/or usage duration is greater than a set threshold as a common application, and specifically includes the following situations:
  • the frequency threshold is set, and the application whose frequency is greater than the frequency threshold is determined to be a common application
  • the duration threshold is set, and the application whose usage duration is greater than the duration threshold is determined to be a common application
  • the duration threshold and the frequency threshold are set, and when the usage duration and the usage frequency are greater than the corresponding threshold, the application is determined to be a common application; or An application is determined to be a common application when at least one of the usage duration and the usage frequency is greater than the corresponding threshold.
  • the applications in the power saving mode of the terminal may be further configured in combination with the current data connection state of the terminal. Therefore, as shown in FIG. 3, the smart power saving device further includes a state acquiring module and a second setting module; the state acquiring module is configured to acquire a current data connection state of the terminal; and the second setting module is configured to be based on each application in the first setting module.
  • the usage condition determines that the application that is allowed to run in the power saving mode is closed and/or disabled according to the current data connection state of the terminal, and the application that is not supported by the current data connection state is selected from the allowed applications.
  • the application that is not supported by the current data connection state is closed, and the supported application is retained; and/or the current data connection state is not supported in the commonly used application that is not currently in the terminal.
  • the application is disabled, that is, in the power saving mode, such applications are not allowed to start and run under the current data connection state.
  • Such disabled applications in this embodiment include, but are not limited to, synchronous applications (including background data synchronization applications, automatic synchronization applications, etc.) and update applications (including automatic updates of various applications, which can be disabled by setting their update time, etc.) ) and other service applications.
  • the data connection status of the terminal in this embodiment includes a network connection status (such as a WIFI network connection, a cellular network connection, etc.) and other data connection status (for example, various P2P links established by means of Bluetooth, infrared, etc.); if the terminal is currently If the network connection status is on, that is, the WIFI network connection or the cellular network connection is enabled, the PS service (ie, the Internet service) in the application that is allowed to run is retained, otherwise, the PS service in the application that is allowed to run is closed and/or disabled; If the current P2P link status of the terminal is enabled, the P2P service (that is, the Internet service) in the application that is allowed to run is retained. Otherwise, the P2P service in the application that is allowed to run is closed and/or disabled.
  • a network connection status such as a WIFI network connection, a cellular network connection, etc.
  • other data connection status for example, various P2P links established by means of Bluetooth, infrared, etc.
  • the display state of the terminal in the power saving mode may be set based on a display policy in the preset power saving mode, where the display policy includes at least one display parameter, such as a screen, for adjusting the display state.
  • the brightness parameter, the lock screen time parameter, and the like setting the display state according to the display policy, that is, setting the display state of the terminal according to the at least one display parameter. Therefore, as shown in FIG. 4, the smart power saving device further includes a display policy acquisition module and a third setting module;
  • the display policy obtaining module is configured to obtain a display policy in a preset power saving mode
  • the third setting module is configured to set a display state of the terminal according to the display policy.
  • Embodiment 3 is a diagrammatic representation of Embodiment 3
  • the embodiment provides a terminal, which may be a smart terminal such as a mobile phone or a tablet computer of an Android, ios, WP, etc., as shown in FIG. 5, including a memory and a processor, where the memory is used to store at least one program module.
  • the processor is configured to call at least one program module to perform the following steps:
  • the application that the terminal is allowed to run in the power saving mode is determined based on the usage of each application.
  • the smart power saving process of the mobile phone includes:
  • S601 The mobile phone is in normal operation
  • S602 The mobile phone starts the smart power saving mode
  • S603 save the current usage state of the mobile phone and store it in the information database, calculate the mobile phone application frequency based on the current usage state of the mobile phone, and store the frequency database update statistical result; the frequency statistics process is shown in FIG. 7;
  • S605 determining, by using an application whose frequency is higher than a set frequency threshold, as a common application
  • S607 Acquire a current data connection status of the mobile phone, including a wifi network, a data link, a P2P link, and the like;
  • S608 determining, according to the obtained common application and the data connection status of the mobile phone, an application that should be allowed in the current power saving mode, wherein the application supported by the current mobile phone data connection state is selected in a common application, and the process is shown in FIG. 8;
  • S609 Obtain other power saving strategies (such as display policies), and further set according to the power saving strategies, as shown in FIG. 9;
  • S611 judging whether to exit the intelligent power saving mode, if not, then go to S610, continue to run the intelligent power saving mode, if exit, then go to S612;
  • FIG. 7 is a flow chart of the frequency statistics process of the embodiment, that is, a flow chart for learning user usage habits, as follows:
  • S701 The mobile phone starts the smart power saving mode
  • S702 an application that counts the running state of the current state of the mobile phone
  • S704 determining whether the application use frequency database already exists, if not, go to S705; if it already exists, go to step 706;
  • FIG. 8 is a flow chart of selecting an application supported by a current mobile phone data connection state in a common application, as follows:
  • S802 determining whether the mobile phone is currently connected to the wifi network, if yes, go to S806; if not connected to the wifi network, go to S803;
  • S803 determining whether the cellular data link is enabled, if yes, go to S806; if the data link is not enabled, go to S804;
  • S804 Turn off and/or disable the PS related application in the power saving mode
  • S807 Determine whether the mobile phone currently has a P2P link, if yes, go to S808; if it does not exist P2P link, go to S809;
  • FIG. 9 is a flowchart of setting according to other power saving policies according to the embodiment, which is specifically as follows:
  • S903 Adjusting the brightness of the screen of the mobile phone according to the display policy
  • S904 Set a mobile phone lock screen time according to a display policy
  • the user can record the usage habits of the user, acquire and store the user usage frequency of each application on the terminal, and combine the current state of the terminal, and intelligently adjust the power saving mode when the user selects the power saving mode, and close the rarely used function. , retain the frequently used functions, supplemented by other power-saving strategies, while ensuring the normal use of the user while saving power.
  • the disclosed apparatus and method may be implemented in other manners.
  • the device embodiments described above are merely illustrative.
  • the division of the unit is only a logical function division.
  • there may be another division manner such as: multiple units or components may be combined, or Can be integrated into another system, or some features can be ignored or not executed.
  • the coupling, or direct coupling, or communication connection of the various components shown or discussed may be indirect coupling or communication connection through some interface, device or unit, and may be electrical, mechanical or otherwise. Form.
  • the units described above as separate components may or may not be physically separated, and the components displayed as the unit may or may not be physical units, that is, may be located in one place or distributed to multiple network units; Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
  • each functional unit in each embodiment of the present invention may be integrated into one processing module, or each unit may be separately used as one unit, or two or more units may be integrated into one unit; the above integration
  • the unit can be implemented in the form of hardware or in the form of hardware plus software functional units.
  • the foregoing program may be stored in a computer readable storage medium, and the program is executed when executed.
  • the foregoing storage device includes the following steps: the foregoing storage medium includes: a mobile storage device, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk.
  • ROM read-only memory
  • RAM random access memory
  • magnetic disk or an optical disk.
  • optical disk A medium that can store program code.
  • the embodiment of the invention discloses an intelligent power saving method, an intelligent power saving device and a terminal.
  • the terminal starts the power saving mode
  • the usage of each application in the terminal is obtained, and then the terminal is determined based on the usage of each application.
  • the application that is allowed to run in the power-saving mode can be set according to the usage of each application in the terminal, thereby ensuring that the application commonly used by the user can also operate normally in the power-saving mode; Used in the power-saving mode to turn off or prohibit, to meet the user's hope that the terminal can maximize power saving, extend the use time, on the other hand, while hoping that the frequently used functions are not affected, to maximize the satisfaction of the user experience.
  • Degree also makes the power-saving mode function become a function commonly used by users, thereby improving the system resource utilization to a certain extent.

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Abstract

本发明公开了一种智能省电方法、智能省电装置及终端,在终端开启省电模式时,获取统计的该终端中各应用的使用情况;然后基于各应用的使用情况确定终端在省电模式下允许运行的应用。

Description

智能省电方法、装置及终端 技术领域
本发明涉及一种智能省电方法、智能省电装置及终端。
背景技术
目前,随着通信技术、移动互联网以及相关终端产品的快速发展,人们越来越多地使用智能终端实现了基础通信之外的诸如社交、多媒体娱乐、办公等功能,逐渐地,智能手机尤其是Android、ios、WP系统的手机、平板电脑等智能终端的功能和使用场景也朝着多元化的方向不断地在拓展,从而,智能终端的功耗问题越来越突出,成为影响使用的主要问题之一。由于终端即时通信成为深受大众欢迎的功能,不同的用户具有不同的使用习惯,有些用户习惯于使用微信,有些用户习惯于使用QQ,有些用户习惯于使用淘宝客户端,还有一些用户仅使用短信,不一而足。用户使用场景也有不同,有些场景存在无线网络,有些场景下开启了数据链接,有些场景下并无数据网络交互。用户希望在终端在开启省电模式后仍然不影响常用应用的正常使用,而当前各类智能终端的省电模式并未考虑到上述情况,当前智能终端开启省电模式后只会按照固定的省电策略关闭掉不允许运行的应用。导致用户经常使用的应用无法继续运行,不经常使用的应用反而保留,严重影响用户体验,不能满足用户一方面希望终端能够最大限度的省电,延长使用时间,另一方面同时希望经常使用的功能不受影响的需求。这也导致目前终端的省电模式功能很少被用户使用而成为“摆设”,这也在一定程度上降低了资源的利用率。
发明内容
本发明要解决的主要技术问题是,提供一种智能省电方法、智能省电 装置及终端。
为解决上述技术问题,本发明提供一种智能省电方法,包括:
终端开启省电模式时,获取统计的该终端中各应用的使用情况;
基于所述各应用的使用情况确定在省电模式下允许运行的应用。
在本发明的一种实施例中,基于各应用的使用情况确定在省电模式下允许运行的应用包括:
基于各应用的使用情况确定常用应用;
将所述终端当前处于运行状态的常用应用保留,当前处于运行状态的非常用应用关闭;和/或将所述终端中当前未处于运行状态的非常用应用禁用。
在本发明的一种实施例中,所述统计终端中各应用的使用情况包括:统计各应用的使用频率和/或使用时长;
基于各应用的使用情况选确定常用应用包括:
将使用频率和/或使用时长大于设定阈值的应用确定为常用应用。
在本发明的一种实施例中,还包括获取所述终端当前的数据连接状态;基于各应用的使用情况确定在省电模式下允许运行的应用后,还包括:
基于当前数据连接状态从所述允许运行的应用中选择出当前数据连接状态不支持的应用进行关闭和/或禁用。
在本发明的一种实施例中,还包括基于预设省电模式下的显示策略设置所述终端的显示状态。
为了解决上述问题,本发明还提供了一种智能省电装置,包括统计模块和第一设置模块;
所述统计模块用于统计终端中各应用的使用情况;
所述第一设置模块用于在所述终端开启省电模式时,基于所述各应用的使用情况确定在省电模式下允许运行的应用。
在本发明的一种实施例中,所述第一设置模块包括判断子模块和设置子模块;
所述判断子模块用于基于各应用的使用情况确定常用应用;
所述设置子模块用于将所述终端当前处于运行状态的常用应用保留,当前处于运行状态的非常用应用关闭;和/或将所述终端中当前未处于运行状态的非常用应用禁用。
在本发明的一种实施例中,所述统计模块包括用于统计各应用的使用频率的频率统计子模块和/或用于统计各应用使用时长的时长统计子模块;所述判断子模块包括比较子单元,用于将使用频率和/或使用时长大于设定阈值的应用确定为常用应用。
在本发明的一种实施例中,还包括状态获取模块和第二设置模块;所述状态获取模块用于获取所述终端当前的数据连接状态;所述第二设置模块用于在所述第一设置模块基于各应用的使用情况确定在省电模式下允许运行的应用后,基于所述终端当前的数据连接状态从所述允许运行的应用中选择出当前数据连接状态不支持的应用进行关闭和/或禁用。
在本发明的一种实施例中,还包括显示策略获取模块和第三设置模块;
所述显示策略获取模块用于获取预设的省电模式下的显示策略;
所述第三设置模块用于根据所述显示策略设置所述终端的显示状态。
为了解决上述问题,本发明还提供了一种终端,包括存储器和处理器,所述存储器用于存储至少一个程序模块;所述处理器用于调用至少一个所述程序模块执行以下步骤:
终端开启省电模式时,获取统计的该终端中各应用的使用情况;
基于所述各应用的使用情况确定在省电模式下允许运行的应用。
本发明的有益效果是:
本发明提供的智能省电方法、智能省电装置及终端,在终端开启省电 模式时,获取统计的该终端中各应用的使用情况;然后基于各应用的使用情况确定终端在省电模式下允许运行的应用。可见,本发明在省电模式下可根据用户对终端中各应用的使用情况设置在省电模式下允许运行的应用,进而可保证用户常用的应用在省电模式下也能正常运行;用户不常用的应用在省电模式下关闭或禁止,满足用户一方面希望终端能够最大限度的省电,延长使用时间,另一方面同时希望经常使用的功能不受影响的需求,最大程度上提升用户体验的满意度;也使省电模式功能成为用户普遍使用的功能,进而在一定程度上提升系统资源利用率。
附图说明
图1为本发明实施例一中的智能省电方法流程示意图;
图2为本发明实施例二中的智能省电装置结构示意图;
图3为本发明实施例二中的另一智能省电装置结构示意图;
图4为本发明实施例二中的另一智能省电装置结构示意图;
图5为本发明实施例三中的终端结构示意图;
图6为本发明实施例三中的智能省电方法流程示意图;
图7为本发明实施例三中的使用频率统计过程流程示意图;
图8为本发明实施例三中的基于数据连接状态设置过程流程示意图;
图9为本发明实施例三中的基于其他省电策略设置过程流程示意图。
具体实施方式
下面通过具体实施方式结合附图对本发明作进一步详细说明。
实施例一:
请参见图1所示,本实施例提供的智能省电方法包括以下步骤:
步骤101:终端开启省电模式时,获取统计的该终端中各应用的使用情况;
步骤102:基于各应用的使用情况确定终端在省电模式下允许运行的应用。本实施例中,只有允许运行的应用才能正常运行。
上述步骤101中,获取统计的终端中各应用的使用情况。各应用的使用情况可以是在终端开启省电模式之前进行的统计;也可以是在终端开启省电模式之前进行统计(这个阶段得到的结果为历史统计结果),同时在终端开启省电模式之后,对终端当前运行的应用进行统计并累加到之前的历史统计结果之上作为最新的统计结果。对终端中各应用的使用情况的统计其实质是对用户使用习惯的学习和记录。因此,为了尽可能准确的记录和学习用户的使用习惯,本实施例中可以设置统计周期,在该统计周期内按照预设统计间隔或其他原则进行统计。统计周期和统计间隔的设定需满足使得统计结果能满足用户的使用习惯。本实施例中,统计终端中各应用的使用情况包括:统计各应用的使用频率和/或使用时长;使用频率和使用时长都能在一定程度上比较准确的反应用户对各应用的使用情况。
上述步骤102中,基于各应用的使用情况确定在省电模式下允许运行的应用包括:
基于各应用的使用情况确定出常用应用;
将终端当前处于运行状态的常用应用保留,当前处于运行状态的非常用应用关闭;和/或将终端中当前未处于运行状态的非常用应用禁用,也即在省电模式下不允许这类应用启动和运行,只有允许运行的常用应用才能正常启动和运行。
本实施例中基于各应用的使用情况选确定常用应用包括:将使用频率和/或使用时长大于设定阈值的应用确定为常用应用,具体包括以下几种情况:
统计终端中各应用的使用情况为仅统计各应用的使用频率时,则设定频率阈值,使用频率大于该频率阈值的应用判定为常用应用;
统计终端中各应用的使用情况为仅统计各应用的使用时长时,则设定时长阈值,使用时长大于该时长阈值的应用判定为常用应用;
统计终端中各应用的使用情况为仅统计各应用的使用时长和使用频率时,则设定时长阈值和频率阈值,当使用时长和使用频率都大于对应的阈值的应用才判定为常用应用;或当使用时长和使用频率中的至少一个大于对应的阈值的应用才判定为常用应用。
本实施例中,还可结合终端当前的数据连接状态对终端的省电模式下的各应用进行进一步的设定。因此还可包括获取终端当前的数据连接状态的步骤,该步骤可以在上述步骤102之前执行,也可在上述步骤102之后执行。
在上述步骤102基于各应用的使用情况确定在省电模式下允许运行的应用后,还包括:基于获取的终端当前数据连接状态从允许运行的应用中选择出当前数据连接状态不支持的应用进行关闭和/或禁用;
具体包括:将保留的终端当前处于运行状态的常用应用中,当前数据连接状态不支持的应用关闭,支持的应用保留;和/或将终端中当前未处于运行状态的常用应用中当前数据连接状态不支持的应用进行禁用,也即在省电模式下,在当前数据连接状态下不允许这类应用启动和运行。本实施例中这类禁用的应用包括但不限于同步应用(包括背景数据同步应用、自动同步应用等)和更新应用(包括各类应用程序的自动更新,具体可通过设置其更新时间等进行禁用)以及其他服务应用。
本实施例中终端的数据连接状态包括网络连接状态(例如WIFI网络连接、蜂窝网络连接等)和其他数据连接状态(例如通过蓝牙、红外等方式建立的各种P2P链接等);如果终端当前的网络连接状态为开启,即WIFI网络连接或蜂窝网络连接开启,则保留允许运行的应用中的PS业务(即上网业务),否则,则关闭和/或禁用允许运行的应用中的PS业务;如果终端 当前的P2P链接状态为开启,则保留允许运行的应用中的P2P业务(即上网业务),否则,则关闭和/或禁用允许运行的应用中的P2P业务;
在本实施例中,在上述基础上,还可基于预设省电模式下的显示策略设置省电模式下终端的显示状态,该显示策略包括用于调整显示状态的至少一个显示参数,例如屏幕亮度参数、锁屏时间参数等;根据显示策略设置显示状态即根据上述至少一个显示参数对终端的显示状态进行设置。
本实施例中,当检测到终端退出省电模式时,则执行省电模式的退出。之前设置的禁用的应用都解除禁用。
实施例二:
本实施例提供了一种智能省电装置,请参见图2所示,包括统计模块和第一设置模块;
统计模块用于统计终端中各应用的使用情况;
第一设置模块用于在终端开启省电模式时,基于统计模块统计得到的各应用的使用情况确定在省电模式下允许运行的应用;只有允许运行的应用才能正常运行。
本实施例中,统计模块对各应用的使用情况的统计可以是在终端开启省电模式之前进行的统计;也可以是在终端开启省电模式之前进行统计(这个阶段得到的结果为历史统计结果),同时在终端开启省电模式之后,对终端当前运行的应用进行统计并累加到之前的历史统计结果之上作为最新的统计结果。对终端中各应用的使用情况的统计其实质是对用户使用习惯的学习和记录。因此,为了尽可能准确的记录和学习用户的使用习惯,本实施例中可以设置统计周期,在该统计周期内按照预设统计间隔或其他原则进行统计。统计周期和统计间隔的设定需满足使得统计结果能满足用户的使用习惯。本实施例中,统计终端中各应用的使用情况包括:统计各应用的使用频率和/或使用时长;使用频率和使用时长都能在一定程度上比较准 确的反应用户对各应用的使用情况。对应的,统计模块包括用于统计各应用的使用频率的频率统计子模块和/或用于统计各应用使用时长的时长统计子模块。
本实施例中的第一设置模块包括判断子模块和设置子模块;
判断子模块用于基于各应用的使用情况确定常用应用;
设置子模块用于将终端当前处于运行状态的常用应用保留,当前处于运行状态的非常用应用关闭;和/或将终端中当前未处于运行状态的非常用应用禁用;也即在省电模式下不允许这类应用启动和运行,只有允许运行的常用应用才能正常启动和运行。
本实施例中,判断子模块包括比较子单元,用于将使用频率和/或使用时长大于设定阈值的应用确定为常用应用,具体包括以下几种情况:
统计终端中各应用的使用情况为仅统计各应用的使用频率时,则设定频率阈值,使用频率大于该频率阈值的应用判定为常用应用;
统计终端中各应用的使用情况为仅统计各应用的使用时长时,则设定时长阈值,使用时长大于该时长阈值的应用判定为常用应用;
统计终端中各应用的使用情况为仅统计各应用的使用时长和使用频率时,则设定时长阈值和频率阈值,当使用时长和使用频率都大于对应的阈值的应用才判定为常用应用;或当使用时长和使用频率中的至少一个大于对应的阈值的应用才判定为常用应用。
本实施例中,还可结合终端当前的数据连接状态对终端的省电模式下的各应用进行进一步的设定。因此请参见图3所示,智能省电装置还包括状态获取模块和第二设置模块;状态获取模块用于获取终端当前的数据连接状态;第二设置模块用于在第一设置模块基于各应用的使用情况确定在省电模式下允许运行的应用后,基于终端当前的数据连接状态从允许运行的应用中选择出当前数据连接状态不支持的应用进行关闭和/或禁用,具体 包括:
将保留的终端当前处于运行状态的常用应用中,当前数据连接状态不支持的应用关闭,支持的应用保留;和/或将终端中当前未处于运行状态的常用应用中当前数据连接状态不支持的应用进行禁用,也即在省电模式下,在当前数据连接状态下不允许这类应用启动和运行。本实施例中这类禁用的应用包括但不限于同步应用(包括背景数据同步应用、自动同步应用等)和更新应用(包括各类应用程序的自动更新,具体可通过设置其更新时间等进行禁用)以及其他服务应用。
本实施例中终端的数据连接状态包括网络连接状态(例如WIFI网络连接、蜂窝网络连接等)和其他数据连接状态(例如通过蓝牙、红外等方式建立的各种P2P链接等);如果终端当前的网络连接状态为开启,即WIFI网络连接或蜂窝网络连接开启,则保留允许运行的应用中的PS业务(即上网业务),否则,则关闭和/或禁用允许运行的应用中的PS业务;如果终端当前的P2P链接状态为开启,则保留允许运行的应用中的P2P业务(即上网业务),否则,则关闭和/或禁用允许运行的应用中的P2P业务;
在本实施例中,在上述基础上,还可基于预设省电模式下的显示策略设置省电模式下终端的显示状态,该显示策略包括用于调整显示状态的至少一个显示参数,例如屏幕亮度参数、锁屏时间参数等;根据显示策略设置显示状态即根据上述至少一个显示参数对终端的显示状态进行设置。因此请参见图4所示,智能省电装置还包括显示策略获取模块和第三设置模块;
显示策略获取模块用于获取预设的省电模式下的显示策略;
第三设置模块用于根据该显示策略设置终端的显示状态。
本实施例中,当检测到终端退出省电模式时,则执行省电模式的退出。之前设置的禁用的应用都解除禁用。
实施例三:
本实施例提供了一种终端,该终端可以是Android、ios、WP等系统的手机、平板电脑等智能终端,请参见图5所示,包括存储器和处理器,存储器用于存储至少一个程序模块述处理器用于调用至少一个程序模块执行以下步骤:
终端开启省电模式时,获取统计的该终端中各应用的使用情况;
基于各应用的使用情况确定终端在省电模式下允许运行的应用。
为了更好的理解本发明,下面以终端为手机为例,对本发明的方案进行一个具体的示例性说明。请参见图6所示,手机的智能省电处理过程包括:
S601:手机正常运行;
S602:手机开启智能省电模式;
S603:保存手机当前使用状态并存入信息数据库,基于手机当前使用状态统计手机应用使用频率,并存入频率数据库更新统计结果;频率统计过程请参见图7所示;
S604:读取应用使用的频率数据库;
S605:将使用频率高于设定的频率阈值的应用判定为常用应用;
S606:将常用应用从频率数据库中提取出来;
S607:获取手机当前数据连接状态,包括wifi网络、数据链接、P2P链接等;
S608:根据得到的常用应用和手机数据连接状态确定当前省电模式应允许的应用,其中需在常用应用中选择当前手机数据连接状态支持的应用,该过程请参见图8所示;
S609:获取其他省电策略(例如显示策略),根据这些省电策略进一步设置,详见图9;
S610:运行智能省电模式;
S611:判断是否退出智能省电模式,若否,则转S610,继续运行智能省电模式,若退出,则转S612;
S612:退出智能省电模式。
图7是本实施例频率统计过程的流程图,也即学习用户使用习惯的流程图,具体如下:
S701:手机开启智能省电模式;
S702:统计手机当前状态的运行的应用程序;
S703:以使用频率标记各应用程序;
S704:判断应用使用频率数据库是否已存在,若不存在,转S705;若已存在,转至步骤706;
S705:创建应用使用频率数据库;
S706:将统计的新使用频率存入频率数据库进行更新;
S707:完成应用使用频率更新。
图8是在常用应用中选择当前手机数据连接状态支持的应用的流程图,具体如下:
S801:开启智能省电模式;
S802:判断手机当前是否已连接wifi网络,若是,转S806;若未连接wifi网络,转S803;
S803:判断是否已开启蜂窝数据链接,若是,转S806;若未开启数据链接,转S804;
S804:省电模式中关闭和/或禁用PS相关应用程序;
S805:关闭PS业务;
S806:保留PS业务;
S807:判断手机当前是否存在P2P链接,若存在,转S808;若不存在 P2P链接,转S809;
S808:保留P2P业务;
S809:关闭P2P业务。
图9是本实施例根据获取其他省电策略进行设置的流程图,具体如下:
S901:开启智能省电模式;
S902:获取显示策略;
S903:根据显示策略调整手机屏幕亮度;
S904:根据显示策略设置手机锁屏时间;
S905:获取其他省电策略进行相应设置;
S906:省电策略设置完毕。
可见,本发明可对用户使用习惯进行记录,获取并存储终端上各应用的用户使用频率,结合终端当前的状态,在用户选择省电模式时,智能调整省电方式,关闭很少使用的功能,保留经常使用的功能,辅以其他省电策略,在省电的同时,最大限度的保证用户的正常使用。
以上内容是结合具体的实施方式对本发明所作的进一步详细说明,不能认定本发明的具体实施只局限于这些说明。对于本发明所属技术领域的普通技术人员来说,在不脱离本发明构思的前提下,还可以做出若干简单推演或替换,都应当视为属于本发明的保护范围。
在本申请所提供的几个实施例中,应该理解到,所揭露的设备和方法,可以通过其它的方式实现。以上所描述的设备实施例仅仅是示意性的,例如,所述单元的划分,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,如:多个单元或组件可以结合,或可以集成到另一个系统,或一些特征可以忽略,或不执行。另外,所显示或讨论的各组成部分相互之间的耦合、或直接耦合、或通信连接可以是通过一些接口,设备或单元的间接耦合或通信连接,可以是电性的、机械的或其它 形式的。
上述作为分离部件说明的单元可以是、或也可以不是物理上分开的,作为单元显示的部件可以是、或也可以不是物理单元,即可以位于一个地方,也可以分布到多个网络单元上;可以根据实际的需要选择其中的部分或全部单元来实现本实施例方案的目的。
另外,在本发明各实施例中的各功能单元可以全部集成在一个处理模块中,也可以是各单元分别单独作为一个单元,也可以两个或两个以上单元集成在一个单元中;上述集成的单元既可以采用硬件的形式实现,也可以采用硬件加软件功能单元的形式实现。
本领域普通技术人员可以理解:实现上述方法实施例的全部或部分步骤可以通过程序指令相关的硬件来完成,前述的程序可以存储于一计算机可读取存储介质中,该程序在执行时,执行包括上述方法实施例的步骤;而前述的存储介质包括:移动存储设备、只读存储器(ROM,Read-Only Memory)、随机存取存储器(RAM,Random Access Memory)、磁碟或者光盘等各种可以存储程序代码的介质。
以上所述,仅为本发明的具体实施方式,但本发明的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本发明揭露的技术范围内,可轻易想到变化或替换,都应涵盖在本发明的保护范围之内。因此,本发明的保护范围应以所述权利要求的保护范围为准。
工业实用性
本发明实施例公开了一种智能省电方法、智能省电装置及终端,在终端开启省电模式时,获取统计的该终端中各应用的使用情况;然后基于各应用的使用情况确定终端在省电模式下允许运行的应用。在省电模式下可根据用户对终端中各应用的使用情况设置在省电模式下允许运行的应用,进而可保证用户常用的应用在省电模式下也能正常运行;用户不常用的应 用在省电模式下关闭或禁止,满足用户一方面希望终端能够最大限度的省电,延长使用时间,另一方面同时希望经常使用的功能不受影响的需求,最大程度上提升用户体验的满意度;也使省电模式功能成为用户普遍使用的功能,进而在一定程度上提升系统资源利用率。

Claims (11)

  1. 一种智能省电方法,包括:
    终端开启省电模式时,获取统计的该终端中各应用的使用情况;
    基于所述各应用的使用情况确定在省电模式下允许运行的应用。
  2. 如权利要求1所述的智能省电方法,其中,基于各应用的使用情况确定在省电模式下允许运行的应用,包括:
    基于各应用的使用情况确定常用应用;
    将所述终端当前处于运行状态的常用应用保留,当前处于运行状态的非常用应用关闭;和/或将所述终端中当前未处于运行状态的非常用应用禁用。
  3. 如权利要求2所述的智能省电方法,其中,所述统计终端中各应用的使用情况包括:统计各应用的使用频率和/或使用时长;
    基于各应用的使用情况选确定常用应用包括:
    将使用频率和/或使用时长大于设定阈值的应用确定为常用应用。
  4. 如权利要求1-3任一项所述的智能省电方法,其中,获取所述终端当前的数据连接状态;基于各应用的使用情况确定在省电模式下允许运行的应用之后,所述方法还包括:
    基于当前数据连接状态从所述允许运行的应用中选择出当前数据连接状态不支持的应用进行关闭和/或禁用。
  5. 如权利要求1-3任一项所述的智能省电方法,其中,还包括基于预设省电模式下的显示策略设置所述终端的显示状态。
  6. 一种智能省电装置,包括:统计模块和第一设置模块;其中,
    所述统计模块,配置为统计终端中各应用的使用情况;
    所述第一设置模块,配置为在所述终端开启省电模式时,基于所述各应用的使用情况确定在省电模式下允许运行的应用。
  7. 如权利要求6所述的智能省电装置,其中,所述第一设置模块包括判断子模块和设置子模块;
    所述判断子模块,配置为基于各应用的使用情况确定常用应用;
    所述设置子模块,配置为将所述终端当前处于运行状态的常用应用保留,当前处于运行状态的非常用应用关闭;和/或将所述终端中当前未处于运行状态的非常用应用禁用。
  8. 如权利要求7所述的智能省电装置,其中,所述统计模块包括用于统计各应用的使用频率的频率统计子模块和/或用于统计各应用使用时长的时长统计子模块;
    所述判断子模块包括比较子单元,配置为将使用频率和/或使用时长大于设定阈值的应用确定为常用应用。
  9. 如权利要求6-8任一项所述的智能省电装置,其中,还包括状态获取模块和第二设置模块;
    所述状态获取模块,配置为获取所述终端当前的数据连接状态;
    所述第二设置模块,配置为在所述第一设置模块基于各应用的使用情况确定在省电模式下允许运行的应用后,基于所述终端当前的数据连接状态从所述允许运行的应用中选择出当前数据连接状态不支持的应用进行关闭和/或禁用。
  10. 如权利要求6-8任一项所述的智能省电装置,其中,还包括显示策略获取模块和第三设置模块;
    所述显示策略获取模块,配置为获取预设的省电模式下的显示策略;
    所述第三设置模块,配置为根据所述显示策略设置所述终端的显示状态。
  11. 一种终端,包括存储器和处理器,所述存储器用于存储至少一个程序模块;所述处理器,配置为调用至少一个所述程序模块执行以下步骤:
    终端开启省电模式时,获取统计的该终端中各应用的使用情况;
    基于所述各应用的使用情况确定在省电模式下允许运行的应用。
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