CN109471516B - Terminal, power consumption control method and device thereof, and computer readable storage medium - Google Patents

Abstract

The embodiment of the invention discloses a terminal, a power consumption control method, a power consumption control device and a computer readable storage medium thereof, wherein the power consumption control method of the terminal is characterized in that a target power consumption mode to be set currently of the terminal is obtained, wherein the target power consumption mode comprises at least one target power consumption type and target power consumption time length of each target power consumption type; judging whether the current electric quantity of the terminal is larger than or equal to the estimated total target electric quantity, wherein the estimated total target electric quantity is obtained according to the power consumption of each target electric type and the electric duration of each target; if yes, indicating that the current electric quantity of the terminal can meet a target electricity utilization mode set by a user; if not, indicating that the current electric quantity of the terminal possibly cannot realize the electric consumption target which the user wants to reach, and generating a target electric consumption mode electric quantity alarm indication to inform the user; and the user can know whether the power utilization target which the user hopes to realize can be reached or not in advance, so that the user can prepare in advance, and the user experience is improved.

Description

Terminal, power consumption control method and device thereof, and computer readable storage medium

Technical Field

The present invention relates to the field of electronic technologies, and in particular, to a terminal, a power consumption control method and apparatus thereof, and a computer readable storage medium.

Background

Existing terminal devices, especially mobile terminal devices (such as mobile phones, tablet computers, smartwatches, etc.), are usually powered by a battery disposed in the mobile terminal device, and the capacity of the terminal battery is fixed, so that the duration of the terminal device that can be used is limited, and when the power of the terminal battery is low, the user needs to charge, so that the normal use of the terminal device can be maintained. It is of course desirable for the user to extend the duration of use of the terminal device to reduce the number of charges, and especially when the user is out of use, it is less likely to charge it at any time, affecting the user's use.

At present, there are two ways to lengthen the service life of the terminal device: firstly, the capacity of a terminal battery is increased, and as is known, the increase of the battery capacity leads to the increase of the battery volume, which is contrary to the pursuit of the light and thin design by people, so that the increase of the battery capacity cannot be limitlessly performed; and secondly, a corresponding power saving strategy is adopted to prolong the service time of the terminal.

Although the existing power saving effect can be achieved by adopting the corresponding power saving strategy, the actual use requirement of the user is not considered in the executing process of the power saving strategy, the power saving effect is uncontrollable for the user, the user cannot know whether the power saving strategy can meet the power consumption target expected to be achieved by the user, and the power saving strategy is very likely to influence the normal use of the terminal. For example, when the user drives and goes out, the user hopes that the user can navigate for 3 hours to reach the destination, according to the existing power saving mode, the user can only select the corresponding power saving strategy to prolong the service time of the mobile phone as long as possible, and the user does not have any association with the actual power consumption target which the user hopes to reach, namely, the existing power saving mode can only reach the purpose of power saving, but is irrelevant to the actual power consumption requirement of the user, the user cannot know whether the selected power saving mode can realize the desired power consumption target of the user, and the user experience is not facilitated.

Disclosure of Invention

The embodiment of the invention provides a terminal, a power consumption control method, a device and a computer readable storage medium thereof, which mainly solve the technical problems that: the existing terminal power saving mode is irrelevant to the actual power consumption requirement of a user, and the user cannot know whether the power consumption target which the user wants to achieve can be achieved or not, so that the problem of being unfavorable for the use of the user is solved.

In order to solve the above technical problems, an embodiment of the present invention provides a method for controlling power consumption of a terminal, including:

acquiring a current target power consumption mode to be set of a terminal, wherein the target power consumption mode comprises at least one target power consumption type and target power consumption time length of each target power consumption type;

judging whether the current electric quantity of the terminal is larger than or equal to the estimated total target electric quantity, wherein the estimated total target electric quantity is obtained according to the power consumption of each target electric type and each target electric duration;

if so, setting the terminal to the target power consumption mode, otherwise, generating a power alarm indication of the target power consumption mode.

The embodiment of the invention also provides a terminal power consumption control device, which comprises:

the terminal comprises an acquisition module, a control module and a control module, wherein the acquisition module is used for acquiring a target power consumption mode to be set currently of the terminal, and the target power consumption mode comprises at least one target power consumption type and target power consumption time length of each target power consumption type;

the power saving control module is used for judging whether the current electric quantity of the terminal is larger than or equal to the estimated total target electric quantity, and the estimated total target electric quantity is obtained according to the electric quantity of each target electric type and each target electric duration; if so, setting the terminal to the target power consumption mode, otherwise, generating a power alarm indication of the target power consumption mode.

The embodiment of the invention also provides a terminal, which comprises a processor, a memory and a communication bus;

the communication bus is used for realizing connection communication between the processor and the memory;

the processor is configured to execute one or more programs stored in the memory to implement the steps of the terminal power consumption control method as described above.

Embodiments of the present invention also provide a computer storage medium storing one or more programs executable by one or more processors to implement the steps of the terminal power consumption control method as described above.

The beneficial effects of the invention are as follows:

according to the terminal, the power consumption control method, the device and the computer readable storage medium thereof provided by the embodiment of the invention, the power consumption control method of the terminal obtains the current target power consumption mode to be set of the terminal, wherein the target power consumption mode comprises at least one target power consumption type and target power consumption time length of each target power consumption type; judging whether the current electric quantity of the terminal is larger than or equal to the estimated total target electric quantity, wherein the estimated total target electric quantity is obtained according to the power consumption of each target electric type and the electric duration of each target; if the current electric quantity of the terminal is judged to be more than or equal to the estimated total target electric quantity, the current electric quantity of the terminal is indicated to be capable of meeting the target electric mode set by the user, and the terminal is set to be in the target electric mode at the moment, so that the aim of achieving the target electric consumption expected by the user is effectively ensured; if the current electric quantity of the terminal is judged to be smaller than the estimated total target electric quantity, the current electric quantity of the terminal is indicated to possibly not realize the electric target which the user hopes to reach, and a target electric quantity alarm indication is generated at the moment to inform the user; and the user can know whether the power utilization target which the user hopes to realize can be reached or not in advance, so that the user can prepare in advance, and the user experience is improved.

Drawings

Fig. 1 is a schematic flow chart of a method for controlling power consumption of a terminal according to a first embodiment of the present invention;

FIG. 2 is a schematic diagram of a target power consumption mode interface according to a first embodiment of the present invention;

FIG. 3 is a second schematic diagram of a target power consumption mode interface according to the first embodiment of the present invention;

FIG. 4 is a third schematic diagram of a target power consumption mode interface according to the first embodiment of the present invention;

FIG. 5 is a schematic diagram of a target power consumption mode interface according to a first embodiment of the present invention;

fig. 6 is a flowchart of another method for controlling power consumption of a terminal according to the first embodiment of the present invention;

FIG. 7 is a schematic diagram of a target power consumption mode interface according to a first embodiment of the present invention;

FIG. 8 is a diagram illustrating a target power consumption mode interface according to a first embodiment of the present invention;

fig. 9 is a schematic diagram of a terminal power consumption control device according to a second embodiment of the present invention;

fig. 10 is a schematic diagram of a terminal structure according to a third embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following detailed description of the embodiments of the present invention is given with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Embodiment one:

In order to solve the problem that the current terminal power saving mode is irrelevant to the actual power consumption requirement of a user, the user cannot know whether the power consumption target which the user wants to achieve can be achieved or not, and is unfavorable for the user to use, the embodiment of the invention provides a terminal power consumption control method, referring to fig. 1, which comprises the following steps:

s11: the method comprises the steps of obtaining a target electricity consumption mode to be set currently of a terminal, wherein the target electricity consumption mode comprises at least one target electricity consumption type and target electricity consumption time length of each target electricity consumption type.

It should be noted that, the target electricity consumption mode to be set in the present embodiment refers to an electricity consumption mode selected by a user according to his actual electricity consumption requirement. Specifically, referring to fig. 2, one or more power modes may be preset on the terminal, for example, a power mode for going out, a power mode for entertainment, a power mode for talking, and so on. The user can select the power consumption mode for the tour assuming that the user plans to drive the tour together with the family, and the power consumption mode for the tour is the target power consumption mode to be set currently by the terminal.

In this embodiment, the power consumption mode includes specific target power consumption types and target power consumption durations corresponding to the target power consumption types. Before the user selects the corresponding target power utilization mode to be set, the terminal can estimate a general use time length of each target power utilization type in each power utilization mode according to the current residual electric quantity condition. The user can know whether the electricity utilization target which the user hopes to realize can be realized or not in advance. Of course, when or after the user selects the target power consumption mode to be set, the terminal estimates the approximate use duration according to the current residual electric quantity so as to inform the user.

The use duration of each electricity type in each electricity mode is estimated through the current residual electric quantity of the terminal, including but not limited to the following modes:

and obtaining the average power consumption rate of the power consumption type, and dividing the value of the current residual electric quantity of the terminal by the average power consumption rate to obtain the use duration of the power consumption type. The average power consumption rate of the power consumption type can be obtained through a data server at the background, and the average power consumption rate can also be calculated by counting the long-term use condition of the power consumption type on the terminal. For example, the terminal may count the total time each application that has been installed runs on the terminal, respectively, and the total amount of power consumed by each application, so that the average power consumption rate of each application may be calculated.

In this embodiment, the user selecting the target power consumption mode to be set should further include selecting and adjusting the power consumption type and the target power consumption duration in the target power consumption mode. When the current estimated electricity duration of the terminal meets the actual requirement of the user, the user can directly select the current estimated electricity duration of the terminal. When the current estimated electricity consumption time length of the terminal does not accord with the actual electricity consumption target of the user, the user can manually edit or set the corresponding electricity consumption time length according to the actual demand.

For better explanation, please refer to fig. 3, in the power consumption mode for traveling, the power consumption type for photographing and the power consumption type for navigation are included, the terminal estimates that the power consumption type for photographing can be used for 2 hours according to the current residual electric quantity, and the power consumption mode for navigation can be estimated to be used for 3 hours (it is assumed that the estimated power consumption time length can be the time used by both power consumption types, that is, the terminal can photograph for 2 hours and can realize navigation for 3 hours). And the user wants to realize navigation for 4 hours and also wants to take a picture for 2 hours, then the user can directly set the target electricity duration of the power consumption type for taking a picture to be 2 hours and set the target electricity duration of the power consumption type for navigation to be 4 hours.

Of course, the estimated electricity consumption time of the terminal for each target electricity consumption type may also be a time duration that the terminal can last only using the electricity consumption type. Also taking fig. 3 as an example, the terminal can only take a picture for 2 hours, or can only navigate for 3 hours.

In some examples, in order to be more fit to the actual needs of the user, the terminal is convenient for the user to use, and the terminal can also receive the modification or adjustment of the power utilization mode and the power utilization type in the power utilization mode from the user. Such as adding new power usage patterns, deleting existing power usage patterns, adding new power usage types, deleting existing power usage types, etc.

It should be noted that, in this embodiment, the power usage type may be one application type, for example, wiFi (wireless fidelity) is one application type, QQ is one application type, a hundred-degree map is one application type, and the like, where the target power usage duration of the target power usage type selected by the user specifically refers to a duration that a specific Application (APP) is expected to be able to run; in this embodiment, the electricity consumption type may also be a type of electricity consumption according to a corresponding rule, for example, the application with similar or similar performance or usage is divided into one type of electricity consumption, for example, "king glory" and "running" are divided into "game electricity consumption type"; the cool dog music and the cool video are divided into audio-video power utilization types and the like.

S12: judging whether the current electric quantity of the terminal is larger than or equal to the estimated total target electric quantity; if yes, go to step S13; if not, go to step S14.

When the user selects to finish the corresponding target electricity consumption mode to be set, judging whether the current electric quantity of the terminal is larger than or equal to the estimated total target electricity consumption. The estimated total target electricity consumption is obtained according to the electricity consumption of each target electricity consumption type and each target electricity consumption time. It should be noted that, in this embodiment, the estimated total target electricity consumption specifically refers to:

When the current target electricity consumption mode to be set comprises one target electricity consumption type, the estimated total target electricity consumption amount can be estimated target electricity consumption amount corresponding to the target electricity consumption type;

when the current target electricity consumption mode to be set includes at least two target electricity consumption types, the estimated total target electricity consumption amount may be the sum of the estimated target electricity consumption amounts corresponding to the target electricity consumption types. For example, when the target electricity consumption mode a to be set includes three target electricity consumption types, i.e., target electricity consumption types A1, A2, and A3, the electric quantity required to be consumed by the target electricity consumption types A1, A2, and A3 may be estimated first, and assuming that the electric quantity is Q1, Q2, and Q3, respectively, the estimated total target electricity consumption quantity may be the sum of Q1, Q2, and Q3.

In some examples, in order to better ensure that the electricity consumption target set by the user can be achieved, a part of electricity is reserved for the terminal, and the estimated actual electricity value can be multiplied by a preset error coefficient, so that the obtained final electricity value is used as the estimated target electricity consumption. For example, an actual electricity consumption value is estimated according to an average value of a certain target electricity consumption type and a target electricity consumption time length corresponding to the target electricity consumption type, and the obtained actual electricity consumption value is multiplied by a preset error coefficient (for example, 1.1, 1.2, etc.), so as to obtain a final estimated target electricity consumption.

It should be understood that the preset error coefficient can be flexibly determined according to the experimental simulation result, and is not limited to a specific numerical value, but the accuracy of terminal judgment should be ensured, specifically, when the terminal judges that the current electric quantity is greater than or equal to the estimated total target electric quantity, the electric consumption target (specifically, the electric consumption time length of each electric consumption type) set by the target electric consumption mode selected by the user should be finally reached or realized; when the terminal judges that the current electric quantity is smaller than the estimated total target electric quantity, the power consumption target set by the target power consumption mode selected by the user cannot be reached or realized according to the normal power consumption mode (namely, the power saving strategy is not adopted).

S13: and setting the terminal to the target power consumption mode.

When the current electric quantity of the terminal is judged to be larger than or equal to the estimated total target electric quantity, the current electric quantity of the terminal is indicated to meet the electric consumption target set by the target electric consumption mode to be set selected by the user, and the terminal directly sets the target electric consumption mode to be set as the target electric consumption mode so as to execute the target electric consumption mode. The user can also indirectly learn that the electricity utilization target set by the user can be basically realized.

S14: and generating a target electricity consumption mode electric quantity alarm indication.

When the current electric quantity of the terminal is judged to be smaller than the estimated total target electric quantity, the current electric quantity of the terminal can be considered to be difficult to support to achieve the electric target set by the user, and the terminal generates a target electric quantity alarm indication in the electric consumption mode to prompt the user that the set electric target can not be achieved.

Further, the target electricity consumption mode electric quantity alarm indication can be used for prompting the user to modify the target electricity consumption type, the target electricity consumption duration and the like, and the user can modify the target electricity consumption mode. Before the user modifies according to the target electricity consumption mode electric quantity alarm indication generated by the terminal, the terminal can also give corresponding modification suggestions. For example, referring to fig. 4, the terminal may generate and display a prompt to inform the user of "the target power consumption time period of the navigation power consumption type currently set for 4 hours may not be achieved, the recommendation is modified to 3 hours", where the recommendation is modified to 3 hours may be the power consumption time period of the photographing power consumption type estimated by the terminal according to the current power.

In some examples, a target power usage mode power alert indication may also be used to prompt the user for charging. For example, referring to fig. 5, the terminal includes, but is not limited to, reminding the user that the current remaining power is 40%, and may not realize the target power use duration of the navigation power use type currently set by you for 4 hours, suggesting timely charging.

After receiving an instruction of modifying (including electricity consumption mode, electricity consumption type, electricity consumption duration, etc.) the user according to the electricity consumption alarm indication of the target electricity consumption mode, obtaining the estimated total target electricity consumption again according to the electricity consumption of the target electricity consumption type and the target electricity consumption duration currently set by the user, that is, turning to step S12 to execute, and judging whether the current electricity consumption of the terminal is greater than or equal to the calculated estimated total target electricity consumption.

It should be noted that, when the current power of the terminal is determined to be less than the estimated total target power consumption, a target power consumption mode power alarm indication is generated to suggest the user to modify the target power consumption mode, or prompt the user to charge. At this time, if the user does not modify the target power consumption mode accordingly, the currently set target power consumption mode is still determined, and the terminal should also determine to execute the target power consumption mode, that is, set the terminal to the target power consumption mode.

It should be understood that, in the use process, there may be a situation that a large error exists between an actual use situation and a power consumption (for example, a power consumption rate, etc.) used by a terminal to estimate a target power consumption amount in advance, so as to better ensure that the target power consumption mode can be implemented to an application power target, and the current power consumption target to be completed may be monitored in real time or intermittently, see, specifically, fig. 6, including:

S61: after the terminal is set to the target power consumption mode, when the terminal is monitored to enter the target power consumption mode, the current power consumption time length of each target power consumption type in the target power consumption mode and the current electric quantity of the terminal are obtained.

For a better understanding of the present invention, reference is made to the following description, taken in conjunction with the accompanying examples:

assuming that the target electricity consumption mode is a tour electricity consumption mode, the target electricity consumption mode comprises the following two target electricity consumption types: the target electricity consumption time length of the hundred-degree map and the camera (namely, one application APP is of an electricity consumption type) is 2 hours, and the target electricity consumption time length of the camera is 3 hours. And when the terminal is monitored to enter the power consumption mode for the tour, starting to count the current power consumption time length of the corresponding target power consumption type and the current electric quantity of the terminal.

Specifically, when the terminal is monitored to start the "hundred-degree map", the current electricity duration of the "hundred-degree map" is counted, and if the terminal is monitored to start the "hundred-degree map" at 9:00 and is in an operation state until 10:00 days, the current electricity duration of the "hundred-degree map" is 1 hour. The current electricity utilization time length of the target electricity utilization type camera can be obtained in the statistical mode.

S62: and calculating the electricity consumption time to be completed of each target electricity consumption type according to the current electricity consumption time and the target electricity consumption time.

Continuing with the above example, at this time (10:00) "hundred-degree map" has a current electricity consumption time length of 1 hour, and according to the target electricity consumption time length (2 hours) set by the user, the electricity consumption time length to be completed of "hundred-degree map" may be calculated to be 2-1=1 hour. If the terminal is set to the power-on mode for the tour until the camera is not detected to be started currently, the current power-on time length of the camera is 0 at the moment, and the target power-on time length (3 hours) set by the user is obtained, so that the current power-on time length to be completed of the camera can be calculated to be 3-0=3 hours.

S63: and obtaining estimated current target electricity consumption according to the to-be-completed electricity consumption time and the electricity consumption of each target electricity consumption type.

And obtaining estimated current target electricity consumption according to the obtained electricity consumption time to be completed of each target electricity type (the electricity consumption time to be completed of a hundred-degree map is 1 hour, the electricity consumption time to be completed of a camera is 3 hours) and the electricity consumption of each target electricity type. Specifically, assuming that the power consumption of the "hundred degree map" is X and the power consumption of the "camera" is Y, the approximate power consumption required by the "hundred degree map" and the "camera" may be calculated to be X and 3Y, respectively, so as to obtain the estimated current target power consumption as x+3y.

In some examples, the calculated rough electricity consumption needed by the hundred-degree map and the camera may be combined with a preset error coefficient to calculate the final estimated current target electricity consumption. For example, the error coefficient is 1.3, then the estimated current target electricity consumption is 1.3 (x+3y).

S64: judging whether the current electric quantity of the terminal is smaller than or equal to the estimated current target electric quantity according to the preset judging rule, and determining a power saving control strategy according to a comparison result.

In this embodiment, the preset determination rule includes, but is not limited to, determining according to a preset time interval. For example, every 1 minute, 5 minutes, 10 minutes, 20 minutes, etc., it is determined whether the current power of the primary terminal is equal to or greater than the estimated current target power consumption. In some examples, the preset determination rule may also determine whether the current power of the terminal is less than or equal to the estimated current target power consumption in a real-time determination manner.

In this embodiment, the current electric quantity of the terminal is compared with the estimated current target electric quantity, that is, whether the electric quantity at the current moment can meet the current electric consumption target to be completed is determined, and an optimal power saving control strategy is further determined according to the comparison result.

When the current electric quantity of the terminal is less than or equal to the estimated current target electric quantity, at least one of the following strategies is adopted, including but not limited to:

starting a terminal security mode;

starting a terminal flight mode;

adjusting the brightness of a terminal screen;

and performing power saving limitation on the application to be limited which is currently in the running state.

When the current electric quantity of the terminal is judged to be larger than the estimated current target electric quantity, the current electric quantity of the terminal is indicated to be capable of meeting the electric quantity required by realizing the corresponding electric target, the current state of the terminal can be kept at the moment, or the power saving strategy is not adopted, so that the normal use of a user is prevented from being influenced after the corresponding application or function of the terminal is limited. Therefore, the problem that the normal use of the user cannot be guaranteed due to the fact that the corresponding electricity-saving strategy is adopted when the terminal electric quantity is sufficient is solved, the optimal electricity-saving processing cannot be performed when the terminal is low and the electricity-saving target which the user wants to achieve cannot be guaranteed, the optimal electricity-saving strategy is selected, and the electricity-saving target of the user cannot be maximally approached or reached is solved.

In this embodiment, the power saving control policy includes that when power saving is performed on an application to be limited that is currently in an operating state, the target power consumption mode further includes a protected application list; the power saving limitation of the application to be limited currently in the running state in this embodiment includes:

and acquiring the application in the current running state in the terminal, taking the application which does not belong to the application list in the current running state as the application to be limited, and then carrying out power saving limitation on the corresponding application to be limited according to the preset processing rule.

The running state comprises a foreground running state and a background running state. In this embodiment, the application in the running state may be an application APP (for example, "WeChat", "microblog", "netbook news", "Payment" etc.) that is manually installed by the user, or may be a related application (for example, "WiFi", "Bluetooth", "data", "telephone", "calendar", "weather", "information" etc.) that is self-contained in the terminal system. It should be understood that any existing detection method may be used to detect whether the application is in a running state, which is not limited herein.

And matching all the detected applications in the running state with the applications in the protected application list, and determining the applications which do not belong to the application list and are in the running state as applications to be limited, so that the corresponding applications to be limited are subjected to power saving limitation processing according to a preset processing rule, the consumption of the electric quantity of the terminal is reduced, and the power consumption target set by a user is achieved as much as possible.

Specific processing manners for performing power saving restrictions on applications to be restricted include, but are not limited to: limiting some of the functions of the application to be limited (e.g., for chat communication applications, video chat functions may be turned off, for navigation applications, voice navigation functions may be turned off, etc.), or the application to be limited may be turned off directly.

And for the application in the protected application list, the application is not used as the application to be limited to perform power saving limitation, so that the purpose of protecting the application is achieved. For example, during execution of the target power mode, it is undesirable for the user to power save limit processing for the system application "data" which the user may select as the protected application. Specifically, referring to fig. 7, the user may choose not to sort "allow close data"; with continued reference to fig. 7, if the user does not want to perform power saving restriction on the "GPS" (global positioning system) application, that is, does not want to turn it off, the user may not choose to "allow GPS to turn off" at this time, so that the application "data" and "GPS" are used as protected applications, and the terminal may add them to the protected application list.

Further, with continued reference to FIG. 7, the user may also edit other applications that are desired to be protected, edit, modify, select, etc. by clicking on "other protected applications". After the user clicks the "other protected applications", the terminal may display all the applications currently installed, please refer to fig. 8, and the user selects the applications that the user wants to protect according to his actual power consumption, and adds the applications to the protected application list. For example, the user's selection of "hundred degrees" and "drop" indicates that the application is allowed to be power-saving limited, and the non-selection of "WeChat", "camera", "phone" and "hundred degrees map" indicates that the user does not wish to be limited, and the user wishes to use the application normally, i.e. belonging to the protected application.

The above processing manner of the protected application is merely an illustration, and the present solution may also be processed in other manners, which are not limited herein.

In this embodiment, the preset processing rules include, but are not limited to, the following rules:

sequentially selecting the application to be limited with the largest power consumption from the current applications to be limited to perform power saving limiting;

Sequentially selecting the application to be limited with the lowest use frequency from the current applications to be limited to perform power saving limitation;

and selecting the application to be limited with the longest using time from the current applications to be limited in sequence to perform power saving limitation processing.

Specifically, assume that determining the application to be currently restricted includes three applications: and if the processing is performed according to the first processing rule (selecting the application with the largest power consumption to be limited), the power saving limiting processing is performed on the application A. When the current electric quantity of the terminal is judged to be smaller than or equal to the estimated current target electric quantity next time, the application B with the largest current electric quantity can be subjected to power saving limitation, if the current electric quantity of the terminal is judged to be larger than the estimated current target electric quantity next time, the current power saving strategy of the terminal can be kept for processing, new application to be limited is not selected for power saving processing, and normal use of the terminal can be fully ensured for a user.

In this embodiment, when there is no corresponding application to be limited that needs to perform power saving limitation at the present time, it may be that power saving limitation has been performed on all applications to be limited, or there may be no application to be limited (for example, there is no application in a running state at the present time or there is an application in a running state of the terminal, but the running state of the application belongs to a protected application, etc.), which indicates that the terminal has not been able to perform effective power saving processing at this time, and notifies the user to modify the target power consumption mode and/or remind the user of charging.

According to the terminal power consumption control method provided by the embodiment of the invention, the current target power consumption mode to be set of the terminal is obtained, wherein the target power consumption mode comprises at least one target power consumption type and target power consumption time length of each target power consumption type; judging whether the current electric quantity of the terminal is larger than or equal to the estimated total target electric quantity according to a preset judging rule, wherein the estimated total target electric quantity is obtained according to the power consumption of each target electric type and the power consumption time of each target; if the current electric quantity of the terminal is judged to be more than or equal to the estimated total target electric quantity, the current electric quantity of the terminal is indicated to be capable of meeting the target electric mode set by the user, and the terminal is set to be in the target electric mode at the moment, so that the aim of achieving the target electric consumption expected by the user is effectively ensured; if the current electric quantity of the terminal is judged to be smaller than the estimated total target electric quantity, the current electric quantity of the terminal is indicated to possibly not realize the electric target which the user hopes to reach, and a target electric quantity alarm indication is generated at the moment to inform the user; and the user can know whether the power utilization target which the user hopes to realize can be reached or not in advance, so that the user can prepare in advance, and the user experience is improved.

Embodiment two:

an embodiment of the present invention provides a terminal power consumption control device, configured to implement the terminal power consumption control method described in the first embodiment, referring to fig. 9, where the terminal power consumption control device includes the following structure:

the obtaining module 91 is configured to obtain a target power consumption mode currently to be set by the terminal, where the target power consumption mode includes at least one target power consumption type and a target power consumption duration of each target power consumption type.

The target electricity consumption mode to be set acquired by the acquisition module 91 in this embodiment refers to an electricity consumption mode selected by a user according to the actual electricity consumption requirement of the user. Specifically, one or more power consumption modes may be preset on the terminal, for example, a tour power consumption mode, an entertainment power consumption mode, a custom power consumption mode, and the like. The user can select the power consumption mode for the tour assuming that the user plans to drive the tour together with the family, and the power consumption mode for the tour is the target power consumption mode to be set currently by the terminal.

In this embodiment, the target electricity type may be one application, or may be an application with similar or similar performance or usage, for example, divided into one electricity type according to a corresponding division rule.

The power saving control module 92 is configured to determine whether the current power of the terminal is greater than or equal to an estimated total target power consumption, where the estimated total target power consumption is obtained according to power consumption of each target power consumption type and power consumption duration of each target; if so, setting the terminal as the target power consumption mode, otherwise, generating a power alarm indication of the target power consumption mode.

When the obtaining module 91 obtains the corresponding target power consumption mode to be set, the power saving control module 92 is configured to determine whether the current power of the terminal is greater than or equal to the estimated total target power consumption. The method for estimating the total target electricity consumption may be described in the first embodiment, and will not be described herein.

When the current electric quantity of the terminal is judged to be greater than or equal to the estimated total target electric quantity, the current electric quantity of the terminal is indicated to meet the electric consumption target set by the target electric consumption mode to be set selected by the user, and the power saving control module 92 directly sets the target electric consumption mode to be set as the target electric consumption mode so as to execute the target electric consumption mode. Therefore, the user can also indirectly learn that the self-set electricity utilization target can be basically realized.

When the current electric quantity of the terminal is judged to be smaller than the estimated total target electric quantity, the current electric quantity of the terminal can be considered to be difficult to support to achieve the electric target set by the user, and the power saving control module 92 generates a target electric quantity alarm indication to prompt the user that the set electric target can not be achieved.

The user may also modify the target power consumption mode according to the target power consumption mode power alarm indication generated by the power saving control module 92, or may directly use the target power consumption mode without modification. After the user modifies the target power consumption mode correspondingly, the power saving control module 92 may be further configured to obtain an estimated total target power consumption according to the power consumption of the target power consumption type and the target power consumption duration after the current modification by the user, and determine whether the current power consumption of the terminal is greater than or equal to the estimated total target power consumption obtained by the recalculation.

In this embodiment, the power saving control module 92 is further configured to, after setting the terminal to the target power consumption mode, monitor, when the terminal enters the target power consumption mode, obtain a current power consumption time length of each target power consumption type in the target power consumption mode and a current power consumption of the terminal, calculate a to-be-completed power consumption time length of each target power consumption type according to the current power consumption time length and the target power consumption time length, obtain an estimated current target power consumption according to each to-be-completed power consumption time length and a power consumption of each target power consumption type, determine whether the current power consumption of the terminal is less than or equal to the estimated current target power consumption according to a preset determination rule, and determine a power saving control policy according to a comparison result.

In this embodiment, the power saving control module 92 is configured to compare the current power of the terminal with the estimated current power consumption of the target, that is, determine whether the current power consumption meets the current power consumption target to be completed, further determine an optimal power saving control policy according to the comparison result, and on the premise of ensuring the power consumption target set by the user as much as possible, avoid excessive limitation on the terminal function or application, and intelligently assist in achieving the power consumption target that the user wants to achieve, thereby improving the user experience.

In this embodiment, the preset determination rule includes, but is not limited to, determining according to a preset time interval. The power saving control module 92 determines whether the current power of the primary terminal is equal to or greater than the estimated current target power consumption at intervals of, for example, 10 seconds, 1 minute, 2 minutes, 5 minutes, etc. In some examples, the preset determination rule may also determine whether the current power of the terminal is less than or equal to the estimated current target power consumption in a real-time determination manner.

In this embodiment, the power saving control policy includes: and when the comparison result is yes, adopting at least one of the following strategies:

starting a terminal security mode;

Starting a terminal flight mode;

the brightness of a terminal screen is reduced;

and performing power saving limitation on the application to be limited which is currently in the running state.

When the current electric quantity of the terminal is judged to be larger than the estimated current target electric quantity, the current electric quantity of the terminal is indicated to be capable of meeting the electric quantity required by realizing the corresponding electric power application target, and at the moment, the power saving control module 92 can keep the current state of the terminal or does not adopt the power saving strategy, so that the normal use of a user is prevented from being influenced after the corresponding application or function of the terminal is limited. Therefore, the problem that the normal use of the user cannot be guaranteed due to the fact that the corresponding electricity-saving strategy is adopted when the terminal electric quantity is sufficient is solved, the optimal electricity-saving processing cannot be performed when the terminal is low and the electricity-saving target which the user wants to achieve cannot be guaranteed, the optimal electricity-saving strategy is selected, and the electricity-saving target of the user cannot be maximally approached or reached is solved.

When the power saving control module 92 controls the power saving limitation on the application to be limited currently in the running state, the target power consumption mode may further include a protected application list; the power saving control module 92 is configured to perform power saving restriction on the application to be restricted currently in the running state specifically includes:

Acquiring an application currently in an operation state in the terminal; taking the application which does not belong to the application list in the application in the running state as the application to be limited; and carrying out power saving limitation on the application to be limited according to a preset power saving limitation rule.

The preset processing rule comprises at least one of the following rules:

sequentially selecting the application to be limited with the largest power consumption from the current applications to be limited to perform power saving limiting;

sequentially selecting the application to be limited with the lowest use frequency from the current applications to be limited to perform power saving limitation;

and selecting the application to be limited with the longest using time from the current applications to be limited in sequence to perform power saving limitation processing.

In this embodiment, the power saving control module 92 is further configured to notify the user to modify the target power consumption mode and/or remind the user of charging when the application to be limited does not exist at present in the terminal (for example, the terminal does not currently exist an application in a running state or exists an application in a running state, but the application in the running state belongs to a protected application, etc.).

The embodiment of the invention provides a terminal power consumption control device, which comprises an acquisition module and a power saving control module, wherein the acquisition module is used for acquiring a target power consumption mode to be set currently by a terminal, and the target power consumption mode comprises at least one target power consumption type and target power consumption duration of each target power consumption type; the power saving control module is used for judging whether the current electric quantity of the terminal is larger than or equal to the estimated total target electric quantity, and the estimated total target electric quantity is obtained according to the power consumption of each target electric type and the power consumption time of each target; if the current electric quantity of the terminal is judged to be more than or equal to the estimated total target electric quantity, the current electric quantity of the terminal is indicated to be capable of meeting the target electric mode set by the user, and the terminal is set to be in the target electric mode at the moment, so that the aim of achieving the target electric consumption expected by the user is effectively ensured; if the current electric quantity of the terminal is judged to be smaller than the estimated total target electric quantity, the current electric quantity of the terminal is indicated to possibly not realize the electric target which the user hopes to reach, and a target electric quantity alarm indication is generated at the moment to inform the user; and the user can know whether the power utilization target which the user hopes to realize can be reached or not in advance, so that the user can prepare in advance, and the user experience is improved.

Embodiment III:

the present embodiment also provides a terminal, as shown in fig. 10, which includes a processor 101, a memory 102, and a communication bus 103, wherein:

the communication bus 103 is used for realizing connection communication between the processor 101 and the memory 102;

the processor 101 is configured to execute one or more programs stored in the memory 102 to implement the steps of the terminal power consumption control method described in the above embodiment.

The terminal provided by the embodiment of the invention comprises, but is not limited to, a mobile phone, a smart watch, a tablet computer, a smart wearable device and the like.

The embodiment of the present invention also provides a computer readable storage medium storing one or more programs executable by one or more processors to implement the steps of the terminal power consumption control method according to the above embodiment.

It will be appreciated by those skilled in the art that the modules or steps of the embodiments of the invention described above may be implemented in a general purpose computing device, they may be centralized on a single computing device, or distributed over a network of computing devices, or they may alternatively be implemented in program code executable by computing devices, such that they are stored in a computer storage medium (ROM/RAM, magnetic or optical disk) and, in some cases, the steps shown or described may be performed in a different order than what is shown or described, or they may be separately fabricated into individual integrated circuit modules, or a plurality of modules or steps in them may be fabricated into a single integrated circuit module. Therefore, the present invention is not limited to any specific combination of hardware and software.

The foregoing is a further detailed description of embodiments of the invention in connection with the specific embodiments, and it is not intended that the invention be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the invention, and these should be considered to be within the scope of the invention.

Claims (11)

1. A terminal power consumption control method, characterized in that the terminal power consumption control method comprises:

acquiring a current target electricity consumption mode to be set of a terminal, wherein the target electricity consumption mode comprises at least one target electricity consumption type and target electricity consumption time length of each target electricity consumption type, and the target electricity consumption mode is an electricity consumption mode selected by a user according to actual electricity consumption requirements;

judging whether the current electric quantity of the terminal is larger than or equal to the estimated total target electric quantity, wherein the estimated total target electric quantity is obtained by multiplying the actual electric quantity value estimated by the power consumption of each target electric type and the target electric duration by a preset error coefficient, and the error coefficient is larger than 1;

if so, setting the terminal to the target power consumption mode, otherwise, generating a target power consumption mode electric quantity alarm indication, wherein the target power consumption mode electric quantity alarm indication is used for prompting the user, and the target power consumption mode cannot be realized.

2. The terminal power consumption control method according to claim 1, characterized in that the terminal power consumption control method further comprises: after the terminal is set to the target electricity consumption mode, when the terminal is monitored to enter the target electricity consumption mode, the current electricity consumption time length of each target electricity consumption type and the current electricity quantity of the terminal in the target electricity consumption mode are obtained, the to-be-completed electricity consumption time length of each target electricity consumption type is calculated according to the current electricity consumption time length and the target electricity consumption time length, the estimated current target electricity consumption quantity is obtained according to the to-be-completed electricity consumption time length and the electricity consumption quantity of each target electricity consumption type, whether the current electricity quantity of the terminal is smaller than or equal to the estimated current target electricity consumption quantity is judged according to a preset judgment rule, and a power saving control strategy is determined according to a comparison result.

3. The terminal power consumption control method according to claim 2, wherein the power saving control strategy includes: and when the comparison result is yes, adopting at least one of the following strategies:

starting a terminal security mode;

starting a terminal flight mode;

adjusting the brightness of a terminal screen;

and performing power saving limitation on the application to be limited which is currently in the running state.

4. The method for controlling power consumption of a terminal according to claim 3, wherein the power saving control policy includes that the target power consumption mode further includes a protected application list when power saving is performed on an application to be limited currently in an operating state; the power saving limitation on the currently running application to be limited comprises the following steps:

acquiring an application currently in an operation state in the terminal;

taking the application which does not belong to the application list in the application in the current running state as the application to be limited;

and carrying out power saving limitation on each application to be limited according to a preset processing rule.

5. The terminal power consumption control method according to claim 4, wherein the preset processing rule includes at least one of the following rules:

sequentially selecting the application to be limited with the largest power consumption from the current applications to be limited to perform power saving limiting;

sequentially selecting the application to be limited with the lowest use frequency from the current applications to be limited to perform power saving limitation;

and selecting the application to be limited with the longest using time from the current applications to be limited in sequence to perform power saving limitation processing.

6. The terminal power consumption control method according to claim 4 or 5, characterized in that the terminal power consumption control method further comprises:

And when the application to be limited does not exist at present, notifying a user to modify the target power utilization mode and/or reminding the user of charging.

7. A terminal power consumption control apparatus, comprising:

the system comprises an acquisition module, a control module and a control module, wherein the acquisition module is used for acquiring a target power consumption mode to be set currently of a terminal, the target power consumption mode comprises at least one target power consumption type and target power consumption time length of each target power consumption type, and the target user mode is a power consumption mode selected by a user according to actual power consumption requirements;

the power consumption control module is used for judging whether the current electric quantity of the terminal is larger than or equal to the estimated total target electric quantity, the estimated total target electric quantity is obtained by multiplying the estimated actual electric quantity value obtained by the estimation of the power consumption of each target electric type and the estimated target electric time length by a preset error coefficient, and the error coefficient is larger than 1; if so, setting the terminal to the target power consumption mode, otherwise, generating a target power consumption mode electric quantity alarm indication, wherein the target power consumption mode electric quantity alarm indication is used for prompting the user, and the target power consumption mode cannot be realized.

8. The power consumption control device of claim 7, wherein the power consumption control module is further configured to, after setting the terminal to the target power consumption mode, monitor whether the current power consumption of the terminal is less than or equal to the estimated current target power consumption according to a preset judgment rule, determine a power saving control policy according to a comparison result, and calculate a to-be-completed power consumption time of each target power consumption type according to the current power consumption time and the target power consumption time when the current power consumption time of each target power consumption type and the current power consumption of the terminal are obtained after the terminal is in the target power consumption mode.

9. The terminal power consumption control apparatus according to claim 8, wherein the power saving control policy includes that the target power consumption mode further includes a protected application list when power saving restriction is performed on an application to be restricted that is currently in an operating state; the power consumption control module is used for performing power saving limitation on the application to be limited which is currently in the running state, and comprises the following steps:

acquiring an application currently in an operation state in the terminal;

taking the application which does not belong to the application list in the application in the current running state as the application to be limited;

and carrying out power saving limitation on the application to be limited according to a preset power saving limitation rule.

10. A terminal comprising a processor, a memory, and a communication bus;

the communication bus is used for realizing connection communication between the processor and the memory;

the processor is configured to execute one or more programs stored in a memory to implement the steps of the terminal power consumption control method according to any one of claims 1 to 6.

11. A computer-readable storage medium storing one or more programs executable by one or more processors to implement the steps of the terminal power consumption control method of any one of claims 1 to 6.

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