CN107302633B - Application control method, device, storage medium and electronic equipment - Google Patents

Abstract

The invention discloses an application control method, an application control device, a storage medium and electronic equipment, wherein the application control method comprises the following steps: when detecting that an alarm clock is set in the electronic equipment, acquiring a current electric quantity value of the electronic equipment; acquiring the residual triggering time of the alarm clock and all first applications currently running by the electronic equipment according to the current electric quantity value; determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value; and controlling the first application according to the residual trigger time length and the residual working time length. The application control method can avoid the phenomenon that the set alarm clock fails due to low electric quantity of the electronic equipment, and is simple, high in flexibility and good in user experience.

Description

Application control method, device, storage medium and electronic equipment

Technical Field

The present invention relates to the field of computer technologies, and in particular, to an application control method and apparatus, a storage medium, and an electronic device.

Background

With the development of intelligent terminal technology, mobile terminals with various functions are becoming one of the necessities of life of people.

Taking a mobile phone as an example, the alarm clock is an indispensable reminding function, and the mobile phone alarm clock can prompt a user through ringing and/or vibrating at a specific moment set by the user so as to avoid the user from missing important matters, for example, for office workers, the morning alarm clock is particularly important. However, as is well known, ringing or vibration of a mobile phone alarm clock can be achieved only by supplying power to a battery, and if the battery power is insufficient, it is difficult to ensure that the power of the mobile phone can be maintained to the set time of the alarm clock, so that the alarm clock is often out of order.

Disclosure of Invention

The invention provides an application control method, an application control device, a storage medium and electronic equipment, which can reduce the generation of alarm clock failure and improve the working stability of an alarm clock.

The embodiment of the invention provides an application control method, which comprises the following steps:

when detecting that an alarm clock is set in the electronic equipment, acquiring a current electric quantity value of the electronic equipment;

acquiring the residual trigger time of the alarm clock and all first applications currently running by the electronic equipment;

determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value;

and controlling the first application according to the residual trigger time length and the residual working time length.

An embodiment of the present invention further provides an application control apparatus, including:

the first acquisition module is used for acquiring the current electric quantity value of the electronic equipment when detecting that an alarm clock is set in the electronic equipment;

the second acquisition module is used for acquiring the residual trigger time of the alarm clock and all the first applications currently running by the electronic equipment according to the current electric quantity value;

the determining module is used for determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value;

and the control module is used for controlling the first application according to the residual trigger time length and the residual working time length.

The embodiment of the invention also provides a storage medium, wherein a plurality of instructions are stored in the storage medium, and the instructions are suitable for being loaded by a processor to execute any one of the application control methods.

The embodiment of the present invention further provides an electronic device, which includes a processor and a memory, wherein the processor is electrically connected to the memory, the memory is used for storing instructions and data, and the processor is used for executing the following steps:

when detecting that an alarm clock is set in the electronic equipment, acquiring a current electric quantity value of the electronic equipment;

acquiring the residual trigger time of the alarm clock and all first applications currently running by the electronic equipment according to the current electric quantity value;

determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value;

and controlling the first application according to the residual trigger time length and the residual working time length.

According to the application control method, the device, the storage medium and the electronic equipment, when the alarm clock is detected to be set in the electronic equipment, the current electric quantity value of the electronic equipment is obtained, the residual triggering time of the alarm clock and all first applications currently running by the electronic equipment are obtained according to the current electric quantity value, then the residual working time of the electronic equipment is determined according to the first applications and the current electric quantity value, and the first applications are controlled according to the residual triggering time and the residual working time, so that the phenomenon that the set alarm clock fails due to low electric quantity of the electronic equipment can be avoided.

Drawings

The technical solution and other advantages of the present invention will become apparent from the following detailed description of specific embodiments of the present invention, which is to be read in connection with the accompanying drawings.

Fig. 1 is a schematic view of an application scenario of an application control system according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of an application control method according to an embodiment of the present invention;

fig. 3 is a schematic flowchart of another application control method according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an application control apparatus according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a control module according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another application control apparatus according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention provides an application control method, an application control device, a storage medium, electronic equipment and an application control system.

Referring to fig. 1, fig. 1 is a diagram illustrating an application scenario of an application control system, where the application control system may include any electronic device provided by the present invention.

The electronic equipment can acquire a current electric quantity value when detecting that the alarm clock is set; acquiring the residual trigger time of the alarm clock and all first applications currently running by the electronic equipment; determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value; and controlling the first application according to the residual trigger time length and the residual working time length.

For example, in fig. 1, if the mobile phone detects that the user sets a 7:30 alarm clock, the mobile phone may obtain a current electric quantity value, all currently running first applications, and a remaining trigger time T1 of the alarm clock, for example, the first applications may include a WeChat, a QQ, a browser, a short message, and the like, the current electric quantity value may be 15%, then, a time T2 (i.e., a remaining operating time) of the automatic shutdown of the mobile phone from the current electric quantity value may be estimated according to the first applications and the current electric quantity value, and then, it may be determined whether all or part of the first applications need to be selected for shutdown according to the estimated time T2 and the remaining operating time T1, for example, the browser may be shut down.

The embodiment will be described from the perspective of an application control device, which may be specifically implemented as an independent entity, or may be implemented by being integrated in other electronic devices, such as a terminal, where the terminal may include a mobile phone, a tablet computer, a personal computer, and the like.

As shown in fig. 2, the specific flow of the application control method may be as follows:

s101, when the fact that the alarm clock is set in the electronic equipment is detected, the current electric quantity value of the electronic equipment is obtained.

In this embodiment, the alarm clock mainly refers to a trigger event that may be given to a user to prompt a function in the form of ringing and/or vibrating at a set time.

S102, obtaining the residual trigger time of the alarm clock and all first applications currently running by the electronic equipment according to the current electric quantity value.

In this embodiment, when it is detected that the user sets the alarm clock, the current electric quantity value, the remaining trigger duration and the first application may be acquired at the same time, or acquired step by step, which may be specifically determined according to actual needs.

For example, when the step acquisition is performed, the step S102 may specifically include:

judging whether the current electric quantity value is smaller than a preset threshold value or not;

if yes, the remaining trigger time of the alarm clock and all first applications currently running in the electronic equipment are obtained.

In this embodiment, the preset threshold is a threshold for defining the power level in the low power state, which may be set by the user, such as 20% power level. Only under the condition of low electric quantity, whether the electronic equipment can support the set time of the alarm clock or not needs to be worried, and when the electric quantity is sufficient, the electronic equipment can completely wait for the next charging of the user without other processing, so that the residual triggering time and the first application are obtained by firstly judging the high-low state of the current electric quantity value and when the current electric quantity value is lower, the electronic equipment can be prevented from executing useless operation as far as possible, and the power consumption is saved.

S103, determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value.

In this embodiment, the method for determining the remaining operating time may be determined according to an actual situation, and may be estimated according to a current actual power consumption speed of the electronic device, for example, the method may detect a time length consumed when a current electric quantity value of the electronic device changes and a variation to determine the actual power consumption speed of the electronic device, and then calculate the remaining operating time according to the electric quantity value and the actual power consumption speed, where of course, the remaining operating time may also be estimated according to a power consumption speed set for each application, and at this time, the step S103 may specifically include:

acquiring a preset power consumption speed of each first application;

adding all the obtained preset power consumption speeds to obtain a total power consumption speed;

and calculating the remaining working time of the electronic equipment according to the current electric quantity value and the total power consumption speed.

In this embodiment, the preset power consumption speed may be determined according to an actual application, for example, may be determined according to a CPU occupancy rate of each application, and generally, the higher the CPU occupancy rate is, the larger the preset power consumption speed corresponding to the application may be set. The total power consumption speed of the electronic equipment can be estimated by calculating the sum of preset power consumption speeds of all running applications in the electronic equipment, and then the quotient of the current power value and the total power consumption speed is calculated to obtain the remaining working time of the electronic equipment.

And S104, controlling the first application according to the residual trigger time length and the residual working time length.

For example, the step S104 may specifically include:

1-1, judging whether the residual trigger time length is larger than the residual working time length.

1-2, if the residual trigger time length is larger than the residual working time length, closing all the first applications.

In this embodiment, when the remaining trigger duration is longer than the remaining working duration, it indicates that the current electric quantity value of the electronic device is in a very low state, so that the electronic device is already automatically turned off due to low electric quantity before the alarm clock is started.

1-3, if the residual trigger time length is less than or equal to the residual working time length, determining a target electric quantity interval according to the current electric quantity value; and controlling the first application according to the target electric quantity interval.

In this embodiment, when the remaining trigger duration is less than or equal to the remaining working duration, it is described that the current electric quantity of the electronic device is low, but the current electric quantity can be maintained for the start time of the alarm clock, and since the alarm clock also needs to consume a certain electric quantity in the start process, for this reason, a certain power saving measure still needs to be taken, for example, a part of running applications is turned off, so as to ensure that the alarm clock can work normally, of course, the selection of the part of running applications may be determined according to the current specific electric quantity value, at this time, the step "determining the target electric quantity interval according to the current electric quantity value" may specifically include:

searching a preset electric quantity interval containing the current electric quantity value from all stored preset electric quantity intervals;

and determining the searched preset electric quantity interval as a target electric quantity interval.

In this embodiment, the preset electric quantity interval may be determined according to an actual requirement, for example, may include 5% to 10% of electric quantity, 10% to 15% of electric quantity, 15% to 20% of electric quantity, and the like.

Meanwhile, the step of "controlling the first application according to the target electric quantity interval" may specifically include:

acquiring a second application set corresponding to the target electric quantity interval from an application database, and taking the second application set as a target second application set;

acquiring a first application which is the same as a second application in the target second application set as a target first application;

the target first application is closed.

In this embodiment, different preset power intervals may correspond to different second application sets, each second application set includes at least one second application, which may be set by a user according to a preference, or obtained by analyzing an application that is actively closed by the system according to a previous low power condition of the user, and the data may be stored in an application database in advance, that is, before a second application set corresponding to the target power interval is obtained from the application database, the method may further include:

acquiring all second applications closed by a user within a preset time range and a residual electric quantity value of the electronic equipment when each second application is closed;

acquiring at least one preset electric quantity interval;

and creating an application database according to the preset electric quantity interval, the residual electric quantity value and the second application.

In this embodiment, the preset time range may be determined according to actual requirements, for example, may be one month or half a year. In the preset time range, when the user manually closes the application under the condition of low power, the system can record the residual power value at the moment, and then an application database is created according to the recorded residual power value and the closed application each time.

For example, the step of "creating the application database according to the preset electric quantity interval, the remaining electric quantity value, and the second application" may specifically include:

determining a preset electric quantity interval corresponding to each second application according to the residual electric quantity value;

and aggregating all the second applications belonging to the same preset electric quantity interval to obtain a second application set, wherein each preset electric quantity interval corresponds to one second application set.

The second set of applications is stored in an application database to create the application database.

In this embodiment, the second application set may be established once, for example, statistics of all recorded closed applications is started only when a preset time is reached, or may be established multiple times, for example, when a new closed application is recorded each time, the new closed application may be added into the corresponding second application set until the preset time is reached, and of course, other establishment manners may also be used, and the like. The data stored in the application database is obtained by analyzing and learning the historical behavior data of the user, and each second application set represents the application which is closed by the user in the corresponding preset electric quantity interval in the past, so that the subsequent electronic equipment can automatically close the running application which best meets the behavior habit of the user according to the actual electric quantity value without manual operation of the user, and the method is simple, high in flexibility and good in user experience.

As can be seen from the above, in the application control method provided in this embodiment, when it is detected that the alarm clock is set in the electronic device, the current electric quantity value of the electronic device is obtained, the remaining trigger time of the alarm clock and all the first applications currently running on the electronic device are obtained according to the current electric quantity value, then, the remaining operating time of the electronic device is determined according to the first applications and the current electric quantity value, and the first application is controlled according to the remaining trigger time and the remaining operating time, so that a phenomenon that the set alarm clock fails due to low electric quantity of the electronic device can be avoided.

In this embodiment, the application control device will be specifically integrated in an electronic device as an example for detailed description.

Referring to fig. 3, a specific process of an application control method may be as follows:

s201, the electronic device obtains all second applications closed by the user within a preset time range and the residual electric quantity value of the electronic device when each second application is closed.

For example, the predetermined time range may be half a year, and the electronic device may record all second applications that the user manually closed within the half year, and the remaining amount of power of the electronic device at each closing.

S202, the electronic device obtains at least one preset electric quantity interval, and determines the preset electric quantity interval corresponding to each second application according to the residual electric quantity value.

For example, the preset power interval may include 5% -10%, 10% -15% and 15% -20%, if the remaining power value includes { 19%, 8%, 9% … 12% }, and the corresponding second application sequentially includes { music player, short message, QQ, wechat … browser }, the preset power interval corresponding to the wechat application and the short message application is 5% -10%, the preset power interval corresponding to the browser application and the QQ application is 10% -15%, and the preset power interval corresponding to the music player is 15% -20%.

S203, the electronic device aggregates all the second applications belonging to the same preset electric quantity interval to obtain a second application set, and each preset electric quantity interval corresponds to one second application set.

For example, the electronic device may merge 5% -10%, 10% -15%, and 15% -20% of the corresponding second applications into the corresponding second application set, such as the second application set corresponding to the browser application and the QQ application both in the preset power interval of 10% -15%.

And S204, the electronic equipment stores the second application set in an application database to create the application database.

For example, all the second applications that are manually closed by the user within the preset power intervals of 5% -10%, 10% -15% and 15% -20% within half a year can be stored in the application database, and the second applications are stored in a set manner in association with the corresponding preset power intervals.

S205, when the alarm clock is detected to be set, the electronic equipment acquires the current electric quantity value.

For example, when the user sets a 7:30, when the alarm clock is started, the current electric quantity value needs to be acquired for analysis because the fact that whether the electric quantity of the electronic equipment can be supported is not determined.

S206, the electronic device determines whether the current electric quantity value is smaller than a preset threshold, if so, the following step S207 is executed, and if not, the electronic device may return to execute the step S205.

For example, the predetermined threshold may be 20%, and in this case, if the current electric quantity value is 15%, the determination result is yes, and if the current electric quantity value is 40%, the determination result is no.

S207, the electronic equipment obtains the residual trigger time of the alarm clock and all currently running first applications.

For example, the remaining trigger duration of the alarm clock may be T_{Alarm clock}The currently running first application may include QQ, wechat, browser and text message.

S208, the electronic equipment acquires the preset power consumption speed of each first application, and adds all the acquired preset power consumption speeds to obtain the total power consumption speed.

For example, the total power consumption rate can be obtained by adding the preset power consumption rates of the QQ, the wechat, the browser and the short message application.

And S209, the electronic equipment calculates the remaining working time according to the current electric quantity value and the total power consumption speed.

For example, a quotient of the current charge value and the total consumption rate can be calculated and used as the remaining operating time T_{Worker's tool}。

S210, the electronic device determines whether the remaining trigger time is longer than the remaining working time, if so, all the first applications may be closed, and if not, the following steps S211 to S213 may be executed.

For example, ifT_{Alarm clock}＞T_{Worker's tool}If the current electric quantity cannot support the starting time of the alarm clock, the QQ, the WeChat, the browser and the short message application can be closed to save the electric quantity of the equipment to the maximum extent, and if the T is reached_{Alarm clock}≤T_{Worker's tool}If the current electric quantity is low, the current electric quantity can be maintained to the starting time of the alarm clock, and at the moment, the current electric quantity can be further analyzed.

S211, the electronic device searches a preset electric quantity interval containing the current electric quantity value from the preset electric quantity interval to serve as a target electric quantity interval, and obtains a second application set corresponding to the target electric quantity interval from the application database to serve as a target second application set.

For example, if the current power value is 14%, the determined target power interval may be 10% to 15%, and the second set of applications obtained from the application database may be { browser, QQ … }.

S212, the electronic device acquires the first application which is the same as the second application in the target second application set and closes the first application.

For example, if the first application includes a QQ, WeChat, browser, and SMS application and the second set of applications is { browser, QQ … }, then the closed first application may be a QQ and browser.

As can be seen from the above, in the application control method provided in this embodiment, the electronic device may obtain all the second applications closed by the user within the preset time range and the remaining power value of the electronic device when each of the second applications is closed, then obtain at least one preset power interval, determine the preset power interval corresponding to each of the second applications according to the remaining power value, then aggregate all the second applications belonging to the same preset power interval to obtain a second application set, each of the preset power intervals corresponds to a second application set, then store the second application set in the application database to create the application database, so as to create an application library to be closed according to the historical behavior habit of the user, and then, when it is detected that the alarm clock has been set, the electronic device may obtain the current power value and determine whether the current power value is smaller than the preset threshold value, if so, acquiring the residual triggering time length of the alarm clock and all currently running first applications, then acquiring the preset power consumption speed of each first application, adding all the acquired preset power consumption speeds to obtain a total power consumption speed, then calculating the residual working time length of the electronic equipment according to the current power consumption value and the total power consumption speed, judging whether the residual triggering time length is greater than the residual working time length, if so, closing all the first applications, if not, searching a preset power interval containing the current power value from the preset power interval to be used as a target power interval, acquiring a second application set corresponding to the target power interval from the application database to be used as a target second application set, and then acquiring the first applications which are the same as the second applications in the target second application set to close the alarm clock, thereby avoiding the phenomenon that the set alarm clock fails due to low power of the electronic equipment, the method is simple, high in flexibility and good in user experience.

The present embodiment will be further described from the perspective of an application control device that can be integrated in an electronic device, according to the methods described in the above embodiments.

Referring to fig. 4, fig. 4 specifically illustrates an application control apparatus according to an embodiment of the present invention, which may include: a first obtaining module 10, a second obtaining module 20, a determining module 30 and a control module 40, wherein:

(1) first acquisition module 10

The first obtaining module 10 is configured to obtain a current electric quantity value of the electronic device when it is detected that an alarm clock has been set in the electronic device.

In this embodiment, the alarm clock mainly refers to a trigger event that may be given to a user to prompt a function in the form of ringing and/or vibrating at a set time.

(2) Second acquisition module 20

And a second obtaining module 20, configured to obtain, according to the current electric quantity value, the remaining trigger time of the alarm clock and all first applications currently running in the electronic device.

In this embodiment, when it is detected that the user sets the alarm clock, the current electric quantity value, the remaining trigger duration and the first application may be acquired at the same time, or acquired step by step, which may be specifically determined according to actual needs.

For example, when the step acquisition is performed, the second acquisition module 20 may be specifically configured to:

judging whether the current electric quantity value is smaller than a preset threshold value or not;

if yes, the remaining trigger time of the alarm clock and all first applications currently running in the electronic equipment are obtained.

In this embodiment, the preset threshold is a threshold for defining the power level in the low power state, which may be set by the user, such as 20% power level. Only under the condition of low electric quantity, whether the electronic equipment can support the set time of the alarm clock needs to be worried, and when the electric quantity is sufficient, the electronic equipment can completely wait for the next charging of the user without other processing, so that the second acquisition module 20 firstly judges the high-low state of the current electric quantity value and acquires the residual trigger time and the first application when the current electric quantity value is lower, the electronic equipment can be prevented from executing useless operation as far as possible, and the power consumption is saved.

(3) Determination module 30

And the determining module 30 is used for determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value.

In this embodiment, the method for determining the remaining operating time may be determined according to an actual situation, and may be estimated according to a current actual power consumption speed of the electronic device, for example, the method may detect a time length consumed when a current electric quantity value of the electronic device changes and a change amount to determine the actual power consumption speed of the electronic device, and then calculate the remaining operating time according to the electric quantity value and the actual power consumption speed, where of course, the remaining operating time may also be estimated according to a power consumption speed set for each application, and at this time, the determining module 30 may specifically be configured to:

acquiring a preset power consumption speed of each first application;

adding all the obtained preset power consumption speeds to obtain a total power consumption speed;

and calculating the remaining working time of the electronic equipment according to the current electric quantity value and the total power consumption speed.

In this embodiment, the preset power consumption speed may be determined according to an actual application, for example, may be determined according to a CPU occupancy rate of each application, and generally, the higher the CPU occupancy rate is, the larger the preset power consumption speed corresponding to the application may be set. The total power consumption speed of the electronic equipment can be estimated by calculating the sum of preset power consumption speeds of all running applications in the electronic equipment, and then the quotient of the current power value and the total power consumption speed is calculated to obtain the remaining working time of the electronic equipment.

(4) Control module 40

And the control module 40 is used for controlling the first application according to the residual trigger time length and the residual working time length.

For example, referring to fig. 5, the control module 40 may specifically include a determination sub-module 41, a closing sub-module 42, and a control sub-module 43, where:

and a judging submodule 41, configured to judge whether the remaining trigger time is greater than the remaining operating time.

A closing submodule 42, configured to close all the first applications if the remaining trigger time is greater than the remaining operating time.

In this embodiment, when the remaining trigger duration is longer than the remaining working duration, it indicates that the current electric quantity value of the electronic device is in a very low state, so that the electronic device is already automatically turned off due to low electric quantity before the alarm clock is started.

The control submodule 43 is configured to determine a target electric quantity interval according to the current electric quantity value if the remaining trigger time is less than or equal to the remaining working time; and controlling the first application according to the target electric quantity interval.

In this embodiment, when the remaining trigger duration is less than or equal to the remaining working duration, it indicates that the current electric quantity of the electronic device is low, but the current electric quantity can be maintained to the start time of the alarm clock, and since the alarm clock also needs to consume a certain electric quantity in the start process, for this reason, a certain power saving measure still needs to be taken, for example, a part of running applications is closed, so as to ensure that the alarm clock can work normally, of course, the selection of the part of running applications can be determined according to the current specific electric quantity value, at this time, the control submodule 43 further can be configured to:

searching a preset electric quantity interval containing the current electric quantity value from all stored preset electric quantity intervals;

and determining the searched preset electric quantity interval as a target electric quantity interval.

In this embodiment, the preset electric quantity interval may be determined according to an actual requirement, for example, may include 5% to 10% of electric quantity, 10% to 15% of electric quantity, 15% to 20% of electric quantity, and the like.

At the same time, the control sub-module 43 may be further configured to:

acquiring a second application set corresponding to the target electric quantity interval from an application database, and taking the second application set as a target second application set;

acquiring a first application which is the same as a second application in the target second application set as a target first application;

the target first application is closed.

In this embodiment, different preset power intervals may correspond to different second application sets, each second application set includes at least one second application, which may be set by a user according to a preference, or obtained by analyzing, by a system, an application that is actively closed by the user in a low power state in the past, and the data may be stored in an application database in advance, that is, please refer to fig. 6, where the application control apparatus may further include a creating module 50 configured to:

before the control sub-module 43 obtains the second application set corresponding to the target electric quantity interval from the application database, obtaining all the second applications closed by the user within a preset time range and the remaining electric quantity value of the electronic device when each second application is closed;

acquiring at least one preset electric quantity interval;

and creating an application database according to the preset electric quantity interval, the residual electric quantity value and the second application.

In this embodiment, the preset time range may be determined according to actual requirements, for example, may be one month or half a year. In the preset time range, when the user manually closes the application under the condition of low power, the system can record the residual power value at the moment, and then an application database is created according to the recorded residual power value and the closed application each time.

For example, the creation module 50 may be specifically configured to:

determining a preset electric quantity interval corresponding to each second application according to the residual electric quantity value;

aggregating all second applications belonging to the same preset electric quantity interval to obtain second application sets, wherein each preset electric quantity interval corresponds to one second application set;

the second set of applications is stored in an application database to create the application database.

In this embodiment, the second application set may be established once, for example, statistics of all recorded closed applications is started only when a preset time is reached, or may be established multiple times, for example, when a new closed application is recorded each time, the new closed application may be added into the corresponding second application set until the preset time is reached, and of course, other establishment manners may also be used, and the like. The data stored in the application database is obtained by analyzing and learning the historical behavior data of the user, and each second application set represents the application which is closed by the user in the corresponding preset electric quantity interval in the past, so that the subsequent electronic equipment can automatically close the running application which best meets the behavior habit of the user according to the actual electric quantity value without manual operation of the user, and the method is simple, high in flexibility and good in user experience.

In a specific implementation, the above units may be implemented as independent entities, or may be combined arbitrarily to be implemented as the same or several entities, and the specific implementation of the above units may refer to the foregoing method embodiments, which are not described herein again.

As can be seen from the above description, in the application control apparatus provided in this embodiment, when detecting that an alarm clock is set in an electronic device, the first obtaining module 10 obtains a current electric quantity value of the electronic device, the second obtaining module 20 obtains the remaining trigger time of the alarm clock and all first applications currently running on the electronic device according to the current electric quantity value, then, the determining module 30 determines the remaining operating time of the electronic device according to the first applications and the current electric quantity value, and the control module 40 controls the first applications according to the remaining trigger time and the remaining operating time, so that a phenomenon that the set alarm clock fails due to low electric quantity of the electronic device can be avoided.

In addition, an embodiment of the present invention further provides a storage medium, where the storage medium stores a plurality of instructions, and the instructions are adapted to be loaded by a processor to perform the following steps:

when detecting that an alarm clock is set in the electronic equipment, acquiring a current electric quantity value of the electronic equipment;

acquiring the residual triggering time of the alarm clock and all first applications currently running by the electronic equipment according to the current electric quantity value;

determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value;

and controlling the first application according to the residual trigger time length and the residual working time length.

In addition, the embodiment of the invention also provides electronic equipment which can be equipment such as a smart phone and a tablet personal computer. As shown in fig. 7, the electronic device 600 includes a processor 601, a memory 602, a display 603, and a control circuit 604. The processor 601 is electrically connected to the memory 602, the display screen 603, and the control circuit 604.

The processor 601 is a control center of the electronic device 600, connects various parts of the whole electronic device by using various interfaces and lines, and performs various functions of the electronic device and processes data by running or loading an application program stored in the memory 602 and calling the data stored in the memory 602, thereby performing overall monitoring of the electronic device.

In this embodiment, the processor 601 in the electronic device 600 loads instructions corresponding to processes of one or more application programs into the memory 602 according to the following steps, and the processor 601 runs the application programs stored in the memory 602, thereby implementing various functions:

when detecting that an alarm clock is set in the electronic equipment, acquiring a current electric quantity value of the electronic equipment;

acquiring the residual triggering time of the alarm clock and all first applications currently running by the electronic equipment according to the current electric quantity value;

determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value;

and controlling the first application according to the residual trigger time length and the residual working time length.

In some embodiments, when controlling the first application according to the remaining trigger time and the remaining operating time, the processor is configured to perform the steps of:

judging whether the residual trigger time length is greater than the residual working time length;

if the residual trigger time length is greater than the residual working time length, closing all the first applications;

if the residual trigger time is less than or equal to the residual working time, determining a target electric quantity interval according to the current electric quantity value; and controlling the first application according to the target electric quantity interval.

In some embodiments, when controlling the first application according to the target power interval, the processor is configured to perform the following steps:

acquiring a second application set corresponding to the target electric quantity interval from an application database, and taking the second application set as a target second application set;

acquiring a first application which is the same as a second application in the target second application set as a target first application;

the target first application is closed.

In some embodiments, before obtaining the second application set corresponding to the target power interval from the application database, the processor is further configured to:

acquiring all second applications closed by a user within a preset time range and a residual electric quantity value of the electronic equipment when each second application is closed;

acquiring at least one preset electric quantity interval;

and creating an application database according to the preset electric quantity interval, the residual electric quantity value and the second application.

In some embodiments, when creating the application database according to the preset power interval, the remaining power value and the second application, the processor is configured to perform the following steps:

determining a preset electric quantity interval corresponding to each second application according to the residual electric quantity value;

aggregating all second applications belonging to the same preset electric quantity interval to obtain second application sets, wherein each preset electric quantity interval corresponds to one second application set;

the second set of applications is stored in an application database to create the application database.

In some embodiments, the processor is configured to perform the following steps in determining a remaining operating time of the electronic device based on the first application and a current charge value:

acquiring a preset power consumption speed of each first application;

adding all the obtained preset power consumption speeds to obtain a total power consumption speed;

and calculating the remaining working time of the electronic equipment according to the current electric quantity value and the total power consumption speed.

The memory 602 may be used to store applications and data. The memory 602 stores applications containing instructions that are executable in the processor. The application programs may constitute various functional modules. The processor 601 executes various functional applications and data processing by running an application program stored in the memory 602.

The display screen 603 may be used to display information input by or provided to the user as well as various graphical user interfaces of the terminal, which may be comprised of images, text, icons, video, and any combination thereof.

The control circuit 604 is electrically connected to the display screen 603, and is configured to control the display screen 603 to display information.

In some embodiments, as shown in fig. 7, the electronic device 600 further comprises: a radio frequency circuit 605, an input unit 606, an audio circuit 607, a sensor 608, and a power supply 609. The processor 601 is electrically connected to the rf circuit 605, the input unit 606, the audio circuit 607, the sensor 608, and the power supply 609, respectively.

The rf circuit 605 is used for transceiving rf signals to establish wireless communication with a network device or other electronic devices through wireless communication, and to transceive signals with the network device or other electronic devices.

The input unit 606 may be used to receive input numbers, character information, or user characteristic information (e.g., fingerprint), and generate keyboard, mouse, joystick, optical, or trackball signal inputs related to user settings and function control. Wherein, the input unit 606 may include a fingerprint identification module.

The audio circuit 607 may provide an audio interface between the user and the terminal through a speaker, microphone.

The electronic device 600 may also include at least one sensor 608, such as light sensors, motion sensors, and other sensors. Specifically, the light sensor may include an ambient light sensor that may adjust the brightness of the display panel according to the brightness of ambient light, and a proximity sensor that may turn off the display panel and/or the backlight when the terminal is moved to the ear. As one of the motion sensors, the gravity acceleration sensor can detect the magnitude of acceleration in each direction (generally, three axes), can detect the magnitude and direction of gravity when the mobile phone is stationary, and can be used for applications of recognizing the posture of the mobile phone (such as horizontal and vertical screen switching, related games, magnetometer posture calibration), vibration recognition related functions (such as pedometer and tapping), and the like; as for other sensors such as a gyroscope, a barometer, a hygrometer, a thermometer, and an infrared sensor, which can be configured in the terminal, detailed description is omitted here.

The power supply 609 is used to power the various components of the electronic device 600. In some embodiments, the power supply 609 may be logically connected to the processor 601 through a power management system, such that the power management system performs functions of managing charging, discharging, and power consumption.

Although not shown in fig. 7, the electronic device 600 may further include a camera, a bluetooth module, and the like, which are not described in detail herein.

According to the electronic device provided by the embodiment of the invention, when the alarm clock is detected to be set in the electronic device, the current electric quantity value of the electronic device is obtained, the residual triggering duration of the alarm clock and all the first applications currently running by the electronic device are obtained according to the current electric quantity value, then the residual working duration of the electronic device is determined according to the first applications and the current electric quantity value, and the first applications are controlled according to the residual triggering duration and the residual working duration, so that the phenomenon that the set alarm clock fails due to low electric quantity of the electronic device can be avoided.

It should be noted that, as one of ordinary skill in the art would understand, all or part of the steps in the methods of the above embodiments may be implemented by hardware related to instructions of a program, where the program may be stored in a computer-readable storage medium, and the storage medium may include: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, therefore, the scope of the present invention shall be determined by the appended claims.

Claims (8)

1. An application control method, comprising:

acquiring all second applications closed by a user within a preset time range and a residual electric quantity value of the electronic equipment when each second application is closed;

acquiring at least one preset electric quantity interval;

creating an application database according to the preset electric quantity interval, the residual electric quantity value and the second application;

when detecting that an alarm clock is set in the electronic equipment, acquiring a current electric quantity value of the electronic equipment;

judging whether the current electric quantity value is smaller than a preset threshold value or not;

if yes, acquiring the residual trigger time of the alarm clock and all first applications currently running by the electronic equipment;

determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value;

judging whether the residual trigger time length is greater than the residual working time length or not;

if the residual trigger time length is greater than the residual working time length, closing all the first applications;

if the residual trigger time length is less than or equal to the residual working time length, determining a target electric quantity interval according to the current electric quantity value; controlling the first application according to the target electric quantity interval and an application database;

acquiring a second application set corresponding to the target electric quantity interval from the application database to serve as a target second application set;

acquiring a first application which is the same as a second application in the target second application set as a target first application;

and closing the target first application.

2. The application control method according to claim 1, wherein the creating an application database according to the preset electric quantity interval, the residual electric quantity value and the second application comprises:

determining a preset electric quantity interval corresponding to each second application according to the residual electric quantity value;

aggregating all second applications belonging to the same preset electric quantity interval to obtain second application sets, wherein each preset electric quantity interval corresponds to one second application set;

storing the second set of applications in an application database to create the application database.

3. The application control method according to any one of claims 1-2, wherein the determining the remaining operating time of the electronic device according to the first application and the current electric quantity value comprises:

acquiring a preset power consumption speed of each first application;

adding all the obtained preset power consumption speeds to obtain a total power consumption speed;

and calculating the remaining working time of the electronic equipment according to the current electric quantity value and the total power consumption speed.

4. An application control apparatus, comprising:

the creating module is used for acquiring all second applications closed by a user within a preset time range and the residual electric quantity value of the electronic equipment when each second application is closed; acquiring at least one preset electric quantity interval; creating an application database according to the preset electric quantity interval, the residual electric quantity value and the second application;

the first acquisition module is used for acquiring the current electric quantity value of the electronic equipment when detecting that an alarm clock is set in the electronic equipment;

the second acquisition module is used for judging whether the current electric quantity value is smaller than a preset threshold value or not; if yes, acquiring the residual trigger time of the alarm clock and all first applications currently running by the electronic equipment;

the determining module is used for determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value;

the control module is used for controlling the first application according to the residual trigger time length, the residual working time length, the current electric quantity and an application database;

the control module specifically comprises:

the judging submodule is used for judging whether the residual triggering time length is greater than the residual working time length or not;

a closing submodule, configured to close all the first applications if the remaining trigger time is greater than the remaining operating time;

the control submodule is used for determining a target electric quantity interval according to the current electric quantity value if the residual trigger time length is less than or equal to the residual working time length; acquiring a second application set corresponding to the target electric quantity interval from the application database to serve as a target second application set; acquiring a first application which is the same as a second application in the target second application set as a target first application; and closing the target first application.

5. The application control apparatus of claim 4, wherein the creation module is configured to:

determining a preset electric quantity interval corresponding to each second application according to the residual electric quantity value;

aggregating all second applications belonging to the same preset electric quantity interval to obtain second application sets, wherein each preset electric quantity interval corresponds to one second application set;

storing the second set of applications in an application database to create the application database.

6. The application control device according to any one of claims 4 to 5, wherein the determining module is specifically configured to:

acquiring a preset power consumption speed of each first application;

adding all the obtained preset power consumption speeds to obtain a total power consumption speed;

and calculating the remaining working time of the electronic equipment according to the current electric quantity value and the total power consumption speed.

7. A storage medium having stored therein a plurality of instructions adapted to be loaded by a processor to perform the application control method of any of claims 1 to 3.

8. An electronic device comprising a processor and a memory, the processor being electrically connected to the memory, the memory being configured to store instructions and data, the processor being configured to perform the steps of:

acquiring all second applications closed by a user within a preset time range and a residual electric quantity value of the electronic equipment when each second application is closed;

acquiring at least one preset electric quantity interval;

creating an application database according to the preset electric quantity interval, the residual electric quantity value and the second application;

when detecting that an alarm clock is set in the electronic equipment, acquiring a current electric quantity value of the electronic equipment;

judging whether the current electric quantity value is smaller than a preset threshold value or not;

if yes, acquiring the residual trigger time of the alarm clock and all first applications currently running by the electronic equipment;

determining the remaining working time of the electronic equipment according to the first application and the current electric quantity value;

judging whether the residual trigger time length is greater than the residual working time length or not;

if the residual trigger time length is greater than the residual working time length, closing all the first applications;

if the residual trigger time length is less than or equal to the residual working time length, determining a target electric quantity interval according to the current electric quantity value; controlling the first application according to the target electric quantity interval and an application database;

acquiring a second application set corresponding to the target electric quantity interval from the application database to serve as a target second application set;

acquiring a first application which is the same as a second application in the target second application set as a target first application;

and closing the target first application.

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