CN106227648A - The determination methods of power consumption application and device - Google Patents

Abstract

The disclosure is directed to determination methods and the device of power consumption application.The method includes: when the display interface of application is preset in display, monitor the trigger action for default application；Obtaining for the time interval between the adjacent trigger action of default application, wherein, time interval includes: the time difference between the time started of second trigger action in adjacent trigger action and the end time of first trigger action in adjacent trigger action；Preset, in obtaining time interval, the screen-refresh number of times that application is corresponding；According to time interval and screen-refresh number of times, it is judged that whether default application is power consumption application.This technical scheme, accurately can judge to preset whether application is power consumption application, in order to process this power consumption application in time, thus improve the standby time of terminal according to this time interval and screen-refresh number of times.

Description

The determination methods of power consumption application and device

Technical field

It relates to field of terminal technology, particularly relate to determination methods and the device of power consumption application.

Background technology

It is known that in the application program installed in the terminals such as mobile phone, any one application program power consumption is too much, all can Reduce the standby time of terminal, and user be difficult to tell be actually due to which or which application program power consumption too much and Cause standby time to shorten, and correlation technique does not has corresponding solution yet.

Summary of the invention

Disclosure embodiment provides determination methods and the device of power consumption application.Described technical scheme is as follows:

First aspect according to disclosure embodiment, it is provided that the determination methods of a kind of power consumption application, including:

When the display interface of application is preset in display, monitor the trigger action for described default application；

Obtain for the time interval between the adjacent trigger action of described default application, wherein, described time interval bag Include: the time started of second trigger action in described adjacent trigger action touches with first in described adjacent trigger action Send out the time difference between the end time of operation；

The screen-refresh number of times that in obtaining described time interval, described default application is corresponding；

According to described time interval and described screen-refresh number of times, it is judged that whether described default application is power consumption application.

In one embodiment, described according to described time interval with described screen-refresh number of times, it is judged that described presetting should With being whether power consumption application, including:

According to described screen-refresh number of times and described time interval, obtain current refreshing frequency；

When described current refreshing frequency is more than described default refreshing frequency, determine that described default application is power consumption application；

When described current refreshing frequency is less than or equal to described default refreshing frequency, determine that described default application is not belonging to Power consumption is applied.

In one embodiment, described acquisition for the time interval between the adjacent trigger action of described default application, Including:

Judge whether the time interval between described adjacent trigger action reaches to preset the cumulative time；

When time interval between described adjacent trigger action is not up to the described default cumulative time, continue to obtain other Time interval between adjacent trigger action, adds up until the accumulation interval time of the N number of time interval got reaches to preset Time, wherein, described N is positive integer；

The screen-refresh number of times that in the described time interval of described acquisition, described default application is corresponding, including:

Add up the screen-refresh that in described N number of time interval, in each described time interval, described default application is corresponding successively Number of times；

According to the screen-refresh number of times that default application described in each described time interval is corresponding, obtain described N number of time Total screen-refresh number of times corresponding in interval；

Described according to described time interval with described screen-refresh number of times, it is judged that whether described default application is that power consumption should With, including:

According to described N number of time interval and described total screen-refresh number of times, it is judged that whether described default application is that power consumption should With.

In one embodiment, described according to described N number of time interval with described total screen-refresh number of times, it is judged that described pre- If whether application is power consumption application, including:

When described default application includes multiple application, determine described in described total screen-refresh number of times each in default application The screen-refresh number of times that application is the most corresponding；

The screen-refresh number of times the most corresponding according to described each application and described N number of time interval, it is judged that described each application Whether it is power consumption application.

In one embodiment, described when described default application includes multiple application, determine described total screen-refresh The screen-refresh number of times that in application, each application is the most corresponding is preset described in number, including:

Determine in described N number of time interval, the number of the interface refresh requests that described each application generates；

Determine that the number of the interface refresh requests that described each application generates is screen-refresh corresponding to described each application Number of times.

In one embodiment, described default refreshing frequency matches with the interface reconstitution properties of described default application, its In, the interface reconstitution properties of described default application includes: described default application whether can with the new display interface of automatic Reconstruction, and Can be with default refreshing frequency corresponding to the application of the new display interface of automatic Reconstruction higher than cannot the new display interface of automatic Reconstruction Default refreshing frequency corresponding to application.

In one embodiment, described method also includes:

When determining that described default application is power consumption application, power consumption application is pointed out.

Second aspect according to disclosure embodiment, it is provided that the judgment means of a kind of power consumption application, including:

Monitoring modular, during for presetting the display interface of application in display, monitors the triggering for described default application and grasps Make；

First acquisition module, for obtaining for the time interval between the adjacent trigger action of described default application, its In, described time interval includes: the time started of second trigger action in described adjacent trigger action is adjacent tactile with described Send out the time difference between the end time of first trigger action in operation；

Second acquisition module, the screen-refresh number of times that described default application is corresponding in obtaining described time interval；

Judge module, for according to described time interval and described screen-refresh number of times, it is judged that whether described default application Apply for power consumption.

In one embodiment, described judge module includes:

First obtains submodule, for according to described screen-refresh number of times and described time interval, obtaining and currently refresh frequency Rate；

First determines submodule, for when described current refreshing frequency is more than described default refreshing frequency, determines described Preset application to apply for power consumption；

Second determines submodule, is used for when described current refreshing frequency is less than or equal to described default refreshing frequency, really Fixed described default application is not belonging to power consumption application.

In one embodiment, described first acquisition module includes:

First judges submodule, adds up for judging whether the time interval between described adjacent trigger action reaches to preset Time；

Second obtains submodule, is not up to described presetting for the time interval between described adjacent trigger action and adds up During the time, continue to obtain the time interval between other adjacent trigger actions, until the N number of time interval got accumulative between Interval reaches to preset the cumulative time；

Described second acquisition module includes:

Statistics submodule, for adding up successively in described N number of time interval, in each described time interval, described presetting should With corresponding screen-refresh number of times, wherein, described N is positive integer；

3rd obtains submodule, for according to presetting the screen brush that application is corresponding described in screen in each described time interval New number of times, total screen-refresh number of times corresponding in obtaining described N number of time interval；

Described judge module includes:

Second judges submodule, for according to described N number of time interval and described total screen-refresh number of times, it is judged that described pre- If whether application is power consumption application.

In one embodiment, described second judges that submodule includes:

Determine unit, for when described default application includes multiple application, determining institute in described total screen-refresh number of times State and preset the screen-refresh number of times that in application, each application is the most corresponding；

Judging unit, for the screen-refresh number of times the most corresponding according to described each application and described N number of time interval, sentences Whether disconnected described each application is power consumption application.

In one embodiment, described determine that unit includes:

First determines subelement, is used for determining in described N number of time interval, and the interface that described each application generates is refreshed please The number asked；

Second determines subelement, is described each application for determining the number of interface refresh requests that described each application generates The most corresponding screen-refresh number of times.

In one embodiment, described default refreshing frequency matches with the interface reconstitution properties of described default application, its In, the interface reconstitution properties of described default application includes: described default application whether can with the new display interface of automatic Reconstruction, and Can be with default refreshing frequency corresponding to the application of the new display interface of automatic Reconstruction higher than cannot the new display interface of automatic Reconstruction Default refreshing frequency corresponding to application.

The third aspect according to disclosure embodiment, it is provided that the judgment means of a kind of power consumption application, including:

Processor；

For storing the memorizer of processor executable；

Wherein, described processor is configured to:

When the display interface of application is preset in display, monitor the trigger action for described default application；

Obtain for the time interval between the adjacent trigger action of described default application, wherein, described time interval bag Include: the time started of second trigger action in described adjacent trigger action touches with first in described adjacent trigger action Send out the time difference between the end time of operation；

The screen-refresh number of times that in obtaining described time interval, described default application is corresponding；

According to described time interval and described screen-refresh number of times, it is judged that whether described default application is power consumption application.

Embodiment of the disclosure that the technical scheme of offer can include following beneficial effect:

The technical scheme of offer is provided, display preset application display interface time, can monitor for When presetting the trigger action of application, and then obtain for the time interval between the adjacent trigger action of default application and this time The screen-refresh number of times that application is corresponding is preset, such that it is able to according to this time interval and screen-refresh number of times, accurately sentence in interval Disconnected preset whether application is power consumption application, in order to this power consumption application is processed in time, thus when improving terminal standby Long.

It should be appreciated that it is only exemplary and explanatory, not that above general description and details hereinafter describe The disclosure can be limited.

Accompanying drawing explanation

Accompanying drawing herein is merged in description and constitutes the part of this specification, it is shown that meet the enforcement of the disclosure Example, and for explaining the principle of the disclosure together with description.

Fig. 1 is the flow chart of the determination methods applied according to a kind of power consumption shown in an exemplary embodiment.

Fig. 2 is the flow chart of the determination methods applied according to the another kind of power consumption shown in an exemplary embodiment.

Fig. 3 is the flow chart of the determination methods applied according to another power consumption shown in an exemplary embodiment one.

Fig. 4 is the block diagram of the judgment means applied according to a kind of power consumption shown in an exemplary embodiment.

Fig. 5 is the block diagram of the judgment means applied according to the another kind of power consumption shown in an exemplary embodiment.

Fig. 6 is the block diagram of the judgment means applied according to another power consumption shown in an exemplary embodiment.

Fig. 7 is the block diagram of the judgment means applied according to another power consumption shown in an exemplary embodiment.

Fig. 8 is the block diagram according to the judgment means being applicable to power consumption application shown in an exemplary embodiment.

Detailed description of the invention

Here will illustrate exemplary embodiment in detail, its example represents in the accompanying drawings.Explained below relates to During accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represents same or analogous key element.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the disclosure.On the contrary, they are only with the most appended The example of the apparatus and method that some aspects that described in detail in claims, the disclosure are consistent.

It is known that in the application program installed in the terminals such as mobile phone, any one application program power consumption is too much, all can Reduce the standby time of terminal, and user be difficult to tell be actually due to which or which application program power consumption too much and Cause standby time to shorten, and correlation technique does not the most accurately identify the scheme of power consumption application.

In order to solve above-mentioned technical problem, disclosure embodiment provides the determination methods of a kind of power consumption application, the method Can be used in determining program, system or the device of power consumption application, and executive agent corresponding to the method can be that user carries The terminals such as mobile phone, flat board, computer, and the screen of this terminal can be touch screen, as it is shown in figure 1, the method comprising the steps of S101 is to step S104:

In step S101, when the display interface of application is preset in display, monitor the trigger action for default application.

This trigger action can be that the click inputted in the blank section region of this display interface presetting application is (such as point Hit, multi-hit), sliding action, long by action, such as: can be this display interface of slip, click on the control on this display interface Deng, and this trigger action can come from user and presets the operation of application input, or this touch operation for this on the touchscreen It is also possible that by the operation for this default application of the hardware inputs such as felt pen, mouse, keyboard；

Secondly, in order to make last judged result more accurate, this trigger action can also be according to the operating habit of user Determine, such as: due to the most continuous multi-hit display interface of user, thus, if the short time (such as several seconds or Several milliseconds of person) in monitor for this preset application multi-hit operation, then the continuous multi-hit operation in this short time can be regarded It is a trigger action, or

Due to user display interface occur card etc. situation time, usually can be carried out continuously at short notice slide or Person is carried out continuously drag operation (as dragged the sliding block on interface), thus, if in short time (such as several seconds or several milliseconds) Inside monitor and preset the continuously slipping operation of application, continuous drag operation for this, then can be by sliding continuously in this short time Dynamic operation, continuous drag operation are considered as a trigger action.

It addition, this presets application can be any one or more application installed in terminal, and display interface can be The boundary of the display content preset the installation interface applied, unloading in this default application of any displays such as interface, main interface, sub-interface Face.

In step s 102, obtain for the time interval between the adjacent trigger action of default application, wherein, between the time Every including: the time started of second trigger action in adjacent trigger action and first triggering behaviour in adjacent trigger action Time difference between the end time made.

Further, since each trigger action may make screen produce the electricity of N number of continuous print somewhat time interval Signal, and screen is after generating this N number of signal of telecommunication, and this N number of signal of telecommunication can report system successively, such system just can be true Surely have received the trigger action for default application, further, terminal determine each trigger action time started and During the end time, can by this N number of signal of telecommunication first signal of telecommunication on call time the beginning being defined as this trigger action time Between, simultaneously by this N number of signal of telecommunication the n-th signal of telecommunication on call time and be defined as the end time of this trigger action.

In step s 103, presetting, in obtaining time interval, the screen-refresh number of times that application is corresponding, wherein, this screen is tactile Touch screen, and screen-refresh number of times i.e. this default application request system presetting application correspondence carries out the number of times of screen-refresh.

When the end time of first trigger action in this adjacent trigger action be t1 and in adjacent trigger action When the time started of two trigger actions is t2, this time interval is exactly Δ t=t2-t1, should and screen-refresh number of times is exactly t1 In this Δ t time period in moment to t2 moment, terminal carries out the number of times of screen-refresh according to the request presetting application.

In step S104, according to time interval and screen-refresh number of times, it is judged that whether default application is power consumption application.

When the display interface of application is preset in display, without receiving the trigger action of user, illustrate that user is not Require the content refreshing display interface, so, if it is will not to ask brush singularly that this default application belongs to normal application New screen, thus, the screen-refresh of the default application correspondence in determining the time interval not receiving trigger action After number, can accurately can judge to preset whether application is power consumption application according to this time interval and screen-refresh number of times, with It is easy to this power consumption application is processed in time, thus improves the standby time of terminal.

As in figure 2 it is shown, in one embodiment, step S104 shown in above-mentioned Fig. 1 can be performed as:

In step A1, according to screen-refresh number of times and time interval, obtain current refreshing frequency.

Screen-refresh number of times is exactly that this presets the current refreshing frequency of screen corresponding to application with the ratio of this time interval.

In step A2, when current refreshing frequency is more than when presetting refreshing frequency, determine that presetting application applies for power consumption.

In step A3, when current refreshing frequency is less than or equal to when presetting refreshing frequency, determine that default application is not belonging to Power consumption is applied.

Owing to applying normally when showing its interface, if not receiving trigger action, its display interface will not change Or will not change too frequent, and then be not result in screen-refresh or be not result in that screen refreshes the most continually, thus, when When counting this current refreshing frequency presetting application correspondence more than default refreshing frequency, illustrate that this is preset in display and apply display During interface, this is preset and applies in the period not receiving trigger action, is still asking refreshing screen continually, and this is abnormal Screen-refresh performance, therefore, it is possible to accurately determine preset application for power consumption apply, i.e. this default application be likely due to develop The most perfect, cause it to refresh its display interface and then the most frequent in the case of there is no trigger action the most continually Require that screen refreshes, thus cause the waste of electricity, even result in terminal heating.

It addition, when the current refreshing frequency counted is less than or equal to when presetting refreshing frequency, illustrate that this is preset in display During the display interface applied, this is preset and applies in the period not receiving trigger action, asks the most continually to refresh Screen, therefore, it is possible to determine that presetting application applies for power consumption.

In addition, it is necessary to explanation:

That installs in terminal applies when showing its display interface mostly, when there is no trigger action, its display interface Content is no variation in, without requiring screen-refresh, or be slightly changed and only need to carry out a small amount of screen-refresh, because of And, for this kind of application, when showing its display interface, without trigger action, the refreshing frequency of screen is low-down, Thus, default refreshing frequency can be smaller, as with the highest refreshing frequency 60Hz of screen as reference, and corresponding pre-of this kind of application If refreshing frequency can be 10Hz.

Further, since its display interfaces automatically updated such as various video, audio frequency generally also can be installed in terminal and then want Ask the application refreshing screen, for this kind of application, when showing its display interface, even without trigger action, the refreshing of screen Frequency is the highest, thus, the default refreshing frequency of this kind of application correspondence can be larger, with the highest refreshing frequency of screen 60Hz is reference, and default refreshing frequency corresponding to this kind of application can be 55Hz etc..

In one embodiment, step S102 in above-mentioned Fig. 1 can be performed as:

Judge whether the time interval between adjacent trigger action reaches to preset the cumulative time.

When time interval between adjacent trigger action not up to presets the cumulative time, continue to obtain other adjacent triggerings Time interval between operation, until the accumulation interval time of the N number of time interval got reach preset the cumulative time, its In, N is positive integer.

After the time interval got between adjacent trigger action, it is also possible to whether determine whether this time interval Reach to preset the cumulative time, if not up to, then can continuing to add up the time interval between next adjacent trigger action, depend on Secondary analogize, till the accumulation interval time of the N number of time interval counted on reaches this default cumulative time, so can be many Add up some time intervals, so that it is guaranteed that the current refreshing frequency calculated is more accurate, have more referential.

It addition, other adjacent trigger actions are exactly the adjacent trigger action after the adjacent trigger action determined at first, Such as: when the adjacent trigger action determined at first is respectively the trigger action 1 and trigger action 2 presetting application for this, then Other adjacent trigger actions are respectively trigger action 2 and trigger action 3, trigger action 3 and trigger action 4 ..., trigger action N and trigger action N+1.

Step S103 shown in above-mentioned Fig. 1 can be performed as:

Add up successively and N number of time interval is preset in each time interval the screen-refresh number of times that application is corresponding.

According to presetting the screen-refresh number of times that application is corresponding in each time interval, corresponding in obtaining N number of time interval Total screen-refresh number of times.

The screen in+the second time interval of screen-refresh number of times in total screen-refresh number of times=the first time interval Refreshing frequency+... the screen-refresh number of times of screen in+n-th time interval.

Step S104 shown in above-mentioned Fig. 1 can be performed as:

According to N number of time interval and total screen-refresh number of times, it is judged that whether default application is power consumption application.

According to this N number of time interval and total screen-refresh number of times, can count and N number of not have trigger action to input at this In time interval, this presets the average freshness frequency of screen corresponding to application, and then can more precisely judge that this presets application Whether it is power consumption application, and concrete judge process is as follows:

If average freshness frequency is more than this default refreshing frequency, it is determined that this is preset application and applies for power consumption.

If average freshness frequency is less than or equal to this default refreshing frequency, it is determined that this default application is not belonging to power consumption should With.

In one embodiment, step S104 shown in above-mentioned Fig. 1 can be performed as including:

When default application includes multiple application, determine and total screen-refresh number of times is preset each application correspondence respectively in application Screen-refresh number of times.

The screen-refresh number of times the most corresponding according to each application and N number of time interval, it is judged that whether each application is that power consumption should With.

When this default application includes multiple application, illustrate that the application showing its display interface is multiple, thus, for Accurately determine which application is applied for power consumption, need to determine respectively the screen of each application correspondence respectively in this total screen-refresh number of times Curtain refreshing frequency, and then according to the respectively corresponding screen-refresh number of times of each application and this N number of time interval, can obtain each respectively Apply refreshing frequency corresponding in this N number of time interval not having trigger action to input, consequently facilitating accurately judge respectively should With being whether power consumption application.

As it is shown on figure 3, in one embodiment, above-mentioned steps " when default application includes multiple application, determines total screen Refreshing frequency is preset the screen-refresh number of times that in application, each application is the most corresponding " can be performed as:

In step bl is determined., determine in N number of time interval, the number of the interface refresh requests that each application generates.

The situation that each application generates interface refresh requests is generally divided into three kinds:

Situation one, for ripe, improve and will not the application of the new display interface of automatic Reconstruction:

When showing its display interface, after receiving trigger action, often rebuild new display interface, and in order to aobvious Illustrate that its new display interface rebuild, this kind of application can generate interface refresh requests after receiving trigger action, with request System refresh screen, thus demonstrate its new display interface rebuild according to this trigger action.

Situation two, for ripe, improve and can with the application of the new display interface of automatic Reconstruction (such as video class application or Audio class is applied):

When showing its display interface, it is not necessary to rely on trigger action, will constantly rebuild new display interface, and in order to aobvious Its new display interface rebuild is shown, this kind of apply will generate after the display interface that automatic Reconstruction is new that interface refreshes please Ask, refresh screen with Request System, thus demonstrate the new display interface of its automatic Reconstruction.

Situation three, for immature or incomplete application:

Even if there is no trigger action, new display interface will not being automatically created, do not need new display circle of display Face, it is also possible to because the defect of design constantly sends interface refresh requests, carry out the refreshing that there is no need with continuous Request System Screen.

Further, since application is every time when system sends interface refresh requests, the application identities of himself all can be carried, as The information such as the title of this application self, installation kit title, numbering, thus, system can identify the interface refreshing received please Which application of Seeking Truth generates.

In step B2, determine that the number of the interface refresh requests that each application generates is screen brush corresponding to each application New number of times.

When carrying out screen-refresh due to system, all it is derived from the interface refresh requests that each application sends every time, thus, pass through In determining N number of time interval, the number of the interface refresh requests that each application generates, it is simple to determine the screen that each application is the most corresponding Refreshing frequency, i.e. determines the screen-refresh number of times number equal to the interface refresh requests of each application generation of each application correspondence respectively Mesh.

In one embodiment, presetting refreshing frequency and match with the interface reconstitution properties presetting application, wherein, presetting should Interface reconstitution properties include: whether default application can be with the new display interface of automatic Reconstruction, and can be new with automatic Reconstruction Default refreshing frequency corresponding to the application of display interface is higher than cannot corresponding the presetting of application of the new display interface of automatic Reconstruction Refreshing frequency.

Wherein, if can represent in the case of being independent of trigger action with the display interface that automatic Reconstruction is new, if energy Enough create new display interface, it is possible to the application of the display interface that automatic Reconstruction is new may include that various video, audio frequency etc. should With, these are applied when showing its broadcast interface, as long as network state is good and is in the state of commencing play out, then need not user Input trigger action can the new display interface of automatic Reconstruction, constantly update its display interface, thus, corresponding pre-of this kind of application If refreshing frequency will be larger.

Cannot the application of the new display interface of automatic Reconstruction can be the conventional application such as picture library, office software, these should When being used in its display interface of display, if needing to rebuild new display interface, being necessary for relying on trigger action, only receiving During the trigger action inputted, new display interface could be rebuild, refresh the display content at its interface, thus, this kind of application correspondence Default refreshing frequency will be smaller, in some instances it may even be possible to be zero.

In one embodiment, said method may also include that

When determining that presetting application applies for power consumption, power consumption application is pointed out.

When determining that this default application is applied for power consumption, this power consumption application can be pointed out, as passed through notifications Or the form of pop-up informs that this default application of user can cause unnecessary power consumption, so that user can make corresponding actively row For, as unload this preset application or supervise preset application developer improve this preset application, thus avoid terminal power because of For applying the problem of self and power consumption is too fast, it is ensured that terminal can run the longer time in the case of electricity total amount is constant.

The determination methods of the above-mentioned power consumption application that corresponding disclosure embodiment provides, disclosure embodiment also provides for a kind of consumption The judgment means of electricity application, as shown in Figure 4, this device includes:

Monitoring modular 401, is configured to, when the display interface of application is preset in display, monitor the triggering for default application Operation.

This trigger action can be to preset the click of blank section region input of display interface of application, slip at this Action, such as: can be this display interface that slides, click on the control etc. on this display interface, and this trigger action can come from User on the touchscreen for this preset application input operation, or this touch operation it is also possible that by felt pen, mouse, The operation for this default application of the hardware inputs such as keyboard.

First acquisition module 402, is configured to obtain for the time interval between the adjacent trigger action of default application, Wherein, time interval includes: the time started of second trigger action in adjacent trigger action with in adjacent trigger action Time difference between the end time of first trigger action.

Second acquisition module 403, presets, in being configured to obtain time interval, the screen-refresh number of times that application is corresponding.

Judge module 404, is configured to according to time interval and screen-refresh number of times, it is judged that whether default application is power consumption Application.

When the display interface of application is preset in display, without receiving the trigger action of user, illustrate that user is not Require the content refreshing display interface, so, if it is will not to ask brush singularly that this default application belongs to normal application New screen, thus, the screen-refresh of the default application correspondence in determining the time interval not receiving trigger action After number, can accurately can judge to preset whether application is power consumption application according to this time interval and screen-refresh number of times, with It is easy to this power consumption application is processed in time, thus improves the standby time of terminal.

As it is shown in figure 5, in one embodiment, the judge module 404 shown in above-mentioned Fig. 4 includes:

First obtains submodule 4041, is configured to, according to screen-refresh number of times and time interval, obtain and currently refresh frequency Rate.

First determines submodule 4042, when being configured as current refreshing frequency more than default refreshing frequency, determines default Apply and apply for power consumption.

Second determines submodule 4043, when being configured as current refreshing frequency less than or equal to default refreshing frequency, really Surely preset application and be not belonging to power consumption application.

Owing to applying normally when showing its interface, if not receiving trigger action, its display interface will not change Or will not change too frequent, and then be not result in screen-refresh or be not result in that screen refreshes the most continually, thus, when When counting this current refreshing frequency presetting application correspondence more than default refreshing frequency, illustrate that this is preset in display and apply display During interface, this is preset and applies in the period not receiving trigger action, is still asking refreshing screen continually, and this is abnormal Screen-refresh performance, therefore, it is possible to accurately determine preset application for power consumption apply, i.e. this default application be likely due to develop The most perfect, cause it to refresh its display interface and then the most frequent in the case of there is no trigger action the most continually Require that screen refreshes, thus cause the waste of electricity, even result in terminal heating.

It addition, when the current refreshing frequency counted is less than or equal to when presetting refreshing frequency, illustrate that this is preset in display During the display interface applied, this is preset and applies in the period not receiving trigger action, asks the most continually to refresh Screen, therefore, it is possible to determine that presetting application applies for power consumption.

As shown in Figure 6, in one embodiment, the first acquisition module 402 in above-mentioned Fig. 4 may include that

First judges submodule 4021, and whether the time interval being configured to judge between adjacent trigger action reaches default Cumulative time.

Second obtains submodule 4022, is configured as the time interval between adjacent trigger action and not up to presets accumulative During the time, continue to obtain the time interval between other adjacent trigger actions, until the N number of time interval got accumulative between Interval reaches to preset the cumulative time, and wherein, N is positive integer.

The second acquisition module 403 in above-mentioned Fig. 4 may include that

Statistics submodule 4031, is configured to add up successively in N number of time interval in each time interval that to preset application right The screen-refresh number of times answered.

3rd obtains submodule 4032, is configured to preset, according to screen in each time interval, the screen brush that application is corresponding New number of times, total screen-refresh number of times corresponding in obtaining N number of time interval.

Judge module 404 in above-mentioned Fig. 4 may include that

Second judges submodule 4044, is configured to according to N number of time interval and total screen-refresh number of times, it is judged that presetting should With being whether power consumption application.

According to this N number of time interval and total screen-refresh number of times, can count and N number of not have trigger action to input at this In time interval, this presets the average freshness frequency of screen corresponding to application, and then can more precisely judge that this presets application Whether it is power consumption application.

In one embodiment, second judges that submodule 4044 may include that

Determine unit, be configured as preset application include multiple application time, determine in total screen-refresh number of times preset should The screen-refresh number of times that in, each application is the most corresponding.

Judging unit, is configured to the screen-refresh number of times the most corresponding according to each application and N number of time interval, it is judged that each Whether application is power consumption application.

When this default application includes multiple application, illustrate that the application showing its display interface is multiple, thus, for Accurately determine which application is applied for power consumption, need to determine respectively the screen of each application correspondence respectively in this total screen-refresh number of times Curtain refreshing frequency, and then according to the respectively corresponding screen-refresh number of times of each application and this N number of time interval, can obtain each respectively Apply refreshing frequency corresponding in this N number of time interval not having trigger action to input, consequently facilitating accurately judge respectively should With being whether power consumption application.

In one embodiment, determine that unit includes:

First determines subelement, is configured to determine that in N number of time interval, the interface refresh requests that each application generates Number.

Second determines subelement, be configured to determine that the number of the interface refresh requests that each application generates be each application respectively Corresponding screen-refresh number of times.

When carrying out screen-refresh due to system, all it is derived from the interface refresh requests that each application sends every time, thus, pass through In determining N number of time interval, the number of the interface refresh requests that each application generates, it is simple to determine the screen that each application is the most corresponding Refreshing frequency, i.e. determines the screen-refresh number of times number equal to the interface refresh requests of each application generation of each application correspondence respectively Mesh.

As it is shown in fig. 7, in one embodiment, preset refreshing frequency and match with the interface reconstitution properties presetting application, Wherein, the interface reconstitution properties presetting application includes: default application whether can with the new display interface of automatic Reconstruction, and can from Default refreshing frequency corresponding to the dynamic application rebuilding new display interface is higher than cannot the application of the new display interface of automatic Reconstruction Corresponding default refreshing frequency.

In one embodiment, said apparatus may also include that

Reminding module 701, is configured to, when determining that presetting application applies for power consumption, power consumption application be pointed out.

When determining that this default application is applied for power consumption, this power consumption application can be pointed out, as passed through notifications Or the form of pop-up informs that this default application of user can cause unnecessary power consumption, so that user can make corresponding actively row For, as unload this preset application or supervise preset application developer improve this preset application, thus avoid terminal power because of For applying the problem of self and power consumption is too fast, it is ensured that terminal can run the longer time in the case of electricity total amount is constant.

The third aspect according to disclosure embodiment, it is provided that the judgment means of a kind of power consumption application, including:

Processor；

For storing the memorizer of processor executable；

Wherein, processor is configured to:

When the display interface of application is preset in display, monitor the trigger action for described default application；

Obtain for the time interval between the adjacent trigger action of described default application, wherein, described time interval bag Include: the time started of second trigger action in described adjacent trigger action touches with first in described adjacent trigger action Send out the time difference between the end time of operation；

The screen-refresh number of times that in obtaining described time interval, described default application is corresponding；

According to described time interval and described screen-refresh number of times, it is judged that whether described default application is power consumption application.

Above-mentioned processor is also configured to:

Described according to described time interval with described screen-refresh number of times, it is judged that whether described default application is that power consumption should With, including:

According to described screen-refresh number of times and described time interval, obtain current refreshing frequency；

When described current refreshing frequency is more than described default refreshing frequency, determine that described default application is power consumption application；

When described current refreshing frequency is less than or equal to described default refreshing frequency, determine that described default application is not belonging to Power consumption is applied.

Above-mentioned processor is also configured to:

Described acquisition for the time interval between the adjacent trigger action of described default application, including:

Judge whether the time interval between described adjacent trigger action reaches to preset the cumulative time；

When time interval between described adjacent trigger action is not up to the described default cumulative time, continue to obtain other Time interval between adjacent trigger action, adds up until the accumulation interval time of the N number of time interval got reaches to preset Time, wherein, described N is positive integer；

The screen-refresh number of times that in the described time interval of described acquisition, described default application is corresponding, including:

Add up the screen-refresh that in described N number of time interval, in each described time interval, described default application is corresponding successively Number of times；

According to the screen-refresh number of times that default application described in each described time interval is corresponding, obtain described N number of time Total screen-refresh number of times corresponding in interval；

Described according to described time interval with described screen-refresh number of times, it is judged that whether described default application is that power consumption should With, including:

According to described N number of time interval and described total screen-refresh number of times, it is judged that whether described default application is that power consumption should With.

Above-mentioned processor is also configured to:

Described according to described N number of time interval with described total screen-refresh number of times, it is judged that whether described default application is consumption Electricity application, including:

When described default application includes multiple application, determine described in described total screen-refresh number of times each in default application The screen-refresh number of times that application is the most corresponding；

The screen-refresh number of times the most corresponding according to described each application and described N number of time interval, it is judged that described each application Whether it is power consumption application.

Above-mentioned processor is also configured to:

Described when described default application includes multiple application, determine and described in described total screen-refresh number of times, preset application In screen-refresh number of times corresponding to each application, including:

Determine in described N number of time interval, the number of the interface refresh requests that described each application generates；

Determine that the number of the interface refresh requests that described each application generates is screen-refresh corresponding to described each application Number of times.

Above-mentioned processor is also configured to:

Described default refreshing frequency matches with the interface reconstitution properties of described default application, wherein, and described default application Interface reconstitution properties include: whether described default application can be with the new display interface of automatic Reconstruction, and can be new with automatic Reconstruction Default refreshing frequency corresponding to the application of display interface higher than cannot corresponding pre-of the application of the new display interface of automatic Reconstruction If refreshing frequency,

In one embodiment, described method also includes:

When determining that described default application is power consumption application, power consumption application is pointed out.

Fig. 8 is the block diagram according to a kind of judgment means 800 for power consumption application shown in an exemplary embodiment, this dress Put and be applicable to terminal unit.Such as, device 800 can be mobile phone, computer, digital broadcast terminal, messaging devices, Game console, tablet device, armarium, body-building equipment, individual number assistant etc..

With reference to Fig. 8, device 800 can include with next or at least two assembly: process assembly 802, memorizer 804, Power supply module 806, multimedia groupware 808, audio-frequency assembly 810, input/output (I/O) interface 812, sensor cluster 814, with And communications component 816.

Process assembly 802 and generally control the integrated operation of device 800, such as with display, call, data communication, phase The operation that machine operation and record operation are associated.Process assembly 802 and can include one or at least two processor 820 performs Instruction, to complete all or part of step of above-mentioned method.Additionally, process assembly 802 can include one or at least two Module, it is simple to process between assembly 802 and other assemblies is mutual.Such as, process assembly 802 and can include multi-media module, With facilitate multimedia groupware 808 and process between assembly 802 mutual.

Memorizer 804 is configured to store various types of data to support the operation at device 800.Showing of these data Example include on device 800 operation any storage object or the instruction of method, contact user data, telephone book data, Message, picture, video etc..Memorizer 804 can by any kind of volatibility or non-volatile memory device or they Combination realizes, such as static RAM (SRAM), Electrically Erasable Read Only Memory (EEPROM), erasable can Program read-only memory (EPROM), programmable read only memory (PROM), read only memory (ROM), magnetic memory, flash memory Reservoir, disk or CD.

The various assemblies that power supply module 806 is device 800 provide power supply.Power supply module 806 can include power management system System, one or at least two power supply, and other generate, manage and distribute, with for device 800, the assembly that power supply is associated.

The screen of one output interface of offer that multimedia groupware 808 is included between described device 800 and user.One In a little embodiments, screen can include liquid crystal display (LCD) and touch panel (TP).If screen includes touch panel, screen Curtain may be implemented as touch screen, to receive the input signal from user.Touch panel includes one or at least two touch Sensor is with the gesture on sensing touch, slip and touch panel.Described touch sensor can not only sense touch or slide The border of action, but also detect the persistent period relevant to described touch or slide and pressure.In certain embodiments, Multimedia groupware 808 includes a front-facing camera and/or post-positioned pick-up head.When device 800 is in operator scheme, such as shooting mould When formula or video mode, front-facing camera and/or post-positioned pick-up head can receive the multi-medium data of outside.Each preposition shooting Head and post-positioned pick-up head can be a fixing optical lens system or have focal length and optical zoom ability.

Audio-frequency assembly 810 is configured to output and/or input audio signal.Such as, audio-frequency assembly 810 includes a Mike Wind (MIC), when device 800 is in operator scheme, during such as call model, logging mode and speech recognition mode, mike is joined It is set to receive external audio signal.The audio signal received can be further stored at memorizer 804 or via communication set Part 816 sends.In certain embodiments, audio-frequency assembly 810 also includes a speaker, is used for exporting audio signal.

I/O interface 812 provides interface for processing between assembly 802 and peripheral interface module, above-mentioned peripheral interface module can To be keyboard, put striking wheel, button etc..These buttons may include but be not limited to: home button, volume button, start button and lock Set button.

Sensor cluster 814 includes one or at least two sensor, for providing the state of various aspects for device 800 Assessment.Such as, what sensor cluster 814 can detect device 800 opens/closed mode, the relative localization of assembly, such as institute Stating display and keypad that assembly is device 800, sensor cluster 814 can also detect device 800 or 800 1 groups of device The position change of part, the presence or absence that user contacts with device 800, device 800 orientation or acceleration/deceleration and device 800 Variations in temperature.Sensor cluster 814 can include proximity transducer, is configured to when not having any physical contact examine The existence of object near surveying.Sensor cluster 814 can also include optical sensor, such as CMOS or ccd image sensor, is used for Imaging applications uses.In certain embodiments, this sensor cluster 814 can also include acceleration transducer, and gyroscope passes Sensor, Magnetic Sensor, pressure transducer or temperature sensor.

Communications component 816 is configured to facilitate the communication of wired or wireless mode between device 800 and other equipment.Device 800 can access wireless network based on communication standard, such as WiFi, 2G or 3G, or combinations thereof.An exemplary enforcement In example, communications component 816 receives the broadcast singal from external broadcasting management system or broadcast related information via broadcast channel. In one exemplary embodiment, described communications component 816 also includes near-field communication (NFC) module, to promote junction service.Example As, can be based on RF identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology, ultra broadband (UWB) technology, Bluetooth (BT) technology and other technologies realize.

In the exemplary embodiment, device 800 can be by one or at least two application specific integrated circuit (ASIC), number Word signal processor (DSP), digital signal processing appts (DSPD), PLD (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic building bricks realize, be used for performing said method.

In the exemplary embodiment, a kind of non-transitory computer-readable recording medium including instruction, example are additionally provided As included the memorizer 804 of instruction, above-mentioned instruction can have been performed said method by the processor 820 of device 800.Such as, Described non-transitory computer-readable recording medium can be ROM, random access memory (RAM), CD-ROM, tape, floppy disk With optical data storage devices etc..

A kind of non-transitory computer-readable recording medium, when the instruction in described storage medium is by said apparatus 800 When processor performs so that said apparatus 800 is able to carry out the determination methods of a kind of power consumption application, including:

When the display interface of application is preset in display, monitor the trigger action for described default application；

Obtain for the time interval between the adjacent trigger action of described default application, wherein, described time interval bag Include: the time started of second trigger action in described adjacent trigger action touches with first in described adjacent trigger action Send out the time difference between the end time of operation；

The screen-refresh number of times that in obtaining described time interval, described default application is corresponding；

According to described time interval and described screen-refresh number of times, it is judged that whether described default application is power consumption application.

In one embodiment, described according to described time interval with described screen-refresh number of times, it is judged that described presetting should With being whether power consumption application, including:

According to described screen-refresh number of times and described time interval, obtain current refreshing frequency；

When described current refreshing frequency is more than described default refreshing frequency, determine that described default application is power consumption application；

When described current refreshing frequency is less than or equal to described default refreshing frequency, determine that described default application is not belonging to Power consumption is applied.

In one embodiment, described acquisition for the time interval between the adjacent trigger action of described default application, Including:

Judge whether the time interval between described adjacent trigger action reaches to preset the cumulative time；

When time interval between described adjacent trigger action is not up to the described default cumulative time, continue to obtain other Time interval between adjacent trigger action, adds up until the accumulation interval time of the N number of time interval got reaches to preset Time, wherein, described N is positive integer；

The screen-refresh number of times that in the described time interval of described acquisition, described default application is corresponding, including:

Add up the screen-refresh that in described N number of time interval, in each described time interval, described default application is corresponding successively Number of times；

According to the screen-refresh number of times that default application described in each described time interval is corresponding, obtain described N number of time Total screen-refresh number of times corresponding in interval；

Described according to described time interval with described screen-refresh number of times, it is judged that whether described default application is that power consumption should With, including:

According to described N number of time interval and described total screen-refresh number of times, it is judged that whether described default application is that power consumption should With.

In one embodiment, described according to described N number of time interval with described total screen-refresh number of times, it is judged that described pre- If whether application is power consumption application, including:

When described default application includes multiple application, determine described in described total screen-refresh number of times each in default application The screen-refresh number of times that application is the most corresponding；

The screen-refresh number of times the most corresponding according to described each application and described N number of time interval, it is judged that described each application Whether it is power consumption application.

In one embodiment, described when described default application includes multiple application, determine described total screen-refresh The screen-refresh number of times that in application, each application is the most corresponding is preset described in number, including:

Determine in described N number of time interval, the number of the interface refresh requests that described each application generates；

Determine that the number of the interface refresh requests that described each application generates is screen-refresh corresponding to described each application Number of times.

In one embodiment, described default refreshing frequency matches with the interface reconstitution properties of described default application, its In, the interface reconstitution properties of described default application includes: described default application whether can with the new display interface of automatic Reconstruction, and Can be with default refreshing frequency corresponding to the application of the new display interface of automatic Reconstruction higher than cannot the new display interface of automatic Reconstruction Default refreshing frequency corresponding to application.

In one embodiment, described method also includes:

When determining that described default application is power consumption application, power consumption application is pointed out.

Art technology user person, after considering description and putting into practice disclosure disclosed herein, will readily occur to the disclosure Other embodiment.The application is intended to any modification, purposes or the adaptations of the disclosure, these modification, purposes Or adaptations follow the disclosure general principle and include the disclosure undocumented in the art known often Know or conventional techniques means.Description and embodiments is considered only as exemplary, and the true scope of the disclosure and spirit are by following Claim point out.

It should be appreciated that the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and And various modifications and changes can carried out without departing from the scope.The scope of the present disclosure is only limited by appended claim.

Claims (14)

1. the determination methods of a power consumption application, it is characterised in that including:

When the display interface of application is preset in display, monitor the trigger action for described default application；

Obtaining for the time interval between the adjacent trigger action of described default application, wherein, described time interval includes: institute State the time started of second trigger action in adjacent trigger action and first triggering behaviour in described adjacent trigger action Time difference between the end time made；

The screen-refresh number of times that in obtaining described time interval, described default application is corresponding；

According to described time interval and described screen-refresh number of times, it is judged that whether described default application is power consumption application.

Method the most according to claim 1, it is characterised in that

Described according to described time interval with described screen-refresh number of times, it is judged that whether described default application is power consumption application, bag Include:

According to described screen-refresh number of times and described time interval, obtain current refreshing frequency；

When described current refreshing frequency is more than described default refreshing frequency, determine that described default application is power consumption application；

When described current refreshing frequency is less than or equal to described default refreshing frequency, determine that described default application is not belonging to power consumption Application.

Method the most according to claim 1, it is characterised in that

Described acquisition for the time interval between the adjacent trigger action of described default application, including:

Judge whether the time interval between described adjacent trigger action reaches to preset the cumulative time；

When time interval between described adjacent trigger action is not up to the described default cumulative time, continue to obtain other adjacent Time interval between trigger action, until the accumulation interval time of the N number of time interval got reach preset the cumulative time, Wherein, described N is positive integer；

The screen-refresh number of times that in the described time interval of described acquisition, described default application is corresponding, including:

Add up the screen-refresh that in described N number of time interval, in each described time interval, described default application is corresponding successively Number；

According to the screen-refresh number of times that default application described in each described time interval is corresponding, obtain described N number of time interval Total screen-refresh number of times of interior correspondence；

Described according to described time interval with described screen-refresh number of times, it is judged that whether described default application is power consumption application, bag Include:

According to described N number of time interval and described total screen-refresh number of times, it is judged that whether described default application is power consumption application.

Method the most according to claim 3, it is characterised in that

Described according to described N number of time interval with described total screen-refresh number of times, it is judged that whether described default application is that power consumption should With, including:

When described default application includes multiple application, determine to preset in application described in described total screen-refresh number of times and respectively apply The most corresponding screen-refresh number of times；

The screen-refresh number of times the most corresponding according to described each application and described N number of time interval, it is judged that whether described each application Apply for power consumption.

Method the most according to claim 4, it is characterised in that

Described when described default application includes multiple application, determine described in described total screen-refresh number of times each in default application The screen-refresh number of times that application is the most corresponding, including:

Determine in described N number of time interval, the number of the interface refresh requests that described each application generates；

Determine that the number of the interface refresh requests that described each application generates is screen-refresh number of times corresponding to described each application.

6. according to the method according to any one of claim 2 to 5, it is characterised in that

Described default refreshing frequency matches with the interface reconstitution properties of described default application, wherein, and the boundary of described default application Face reconstitution properties includes: whether described default application can be with the new display interface of automatic Reconstruction, and can be with new aobvious of automatic Reconstruction Show that default refreshing frequency corresponding to the application at interface is higher than cannot default brush corresponding to the application of the new display interface of automatic Reconstruction New frequency.

Method the most according to any one of claim 1 to 5, it is characterised in that

Described method also includes:

When determining that described default application is power consumption application, power consumption application is pointed out.

8. the judgment means of a power consumption application, it is characterised in that including:

Monitoring modular, during for presetting the display interface of application in display, monitors the trigger action for described default application；

First acquisition module, for obtaining for the time interval between the adjacent trigger action of described default application, wherein, institute State time interval to include: the time started of second trigger action in described adjacent trigger action and described adjacent trigger action In first trigger action end time between time difference；

Second acquisition module, the screen-refresh number of times that described default application is corresponding in obtaining described time interval；

Judge module, for according to described time interval and described screen-refresh number of times, it is judged that whether described default application is consumption Electricity application.

Device the most according to claim 8, it is characterised in that

Described judge module includes:

First obtains submodule, for according to described screen-refresh number of times and described time interval, obtaining current refreshing frequency；

First determines submodule, for when described current refreshing frequency is more than described default refreshing frequency, determines described presetting Apply and apply for power consumption；

Second determines submodule, for when described current refreshing frequency is less than or equal to described default refreshing frequency, determining institute State default application and be not belonging to power consumption application.

Device the most according to claim 8, it is characterised in that

Described first acquisition module includes:

First judges submodule, during for judging whether the time interval between described adjacent trigger action reaches to preset accumulative Between；

Second obtains submodule, is not up to the described default cumulative time for the time interval between described adjacent trigger action Time, continue to obtain the time interval between other adjacent trigger actions, until during the accumulation interval of the N number of time interval got Between reach preset the cumulative time, wherein, described N is positive integer；

Described second acquisition module includes:

Statistics submodule, right for adding up in described N number of time interval described default application in each described time interval successively The screen-refresh number of times answered；

3rd obtains submodule, for according to presetting screen-refresh corresponding to application described in screen in each described time interval Number, total screen-refresh number of times corresponding in obtaining described N number of time interval；

Described judge module includes:

Second judges submodule, for according to described N number of time interval and described total screen-refresh number of times, it is judged that described presetting should With being whether power consumption application.

11. devices according to claim 10, it is characterised in that

Described second judges that submodule includes:

Determine unit, for when described default application includes multiple application, determine described in described total screen-refresh number of times pre- If the screen-refresh number of times that in Ying Yong, each application is the most corresponding；

Judging unit, for the screen-refresh number of times the most corresponding according to described each application and described N number of time interval, it is judged that institute State whether each application is power consumption application.

12. devices according to claim 11, it is characterised in that

Described determine that unit includes:

First determines subelement, is used for determining in described N number of time interval, the interface refresh requests that described each application generates Number；

Second determines subelement, is that described each application is distinguished for determining the number of interface refresh requests that described each application generates Corresponding screen-refresh number of times.

13. according to the device according to any one of claim 9 to 12, it is characterised in that

Described default refreshing frequency matches with the interface reconstitution properties of described default application, wherein, and the boundary of described default application Face reconstitution properties includes: whether described default application can be with the new display interface of automatic Reconstruction, and can be with new aobvious of automatic Reconstruction Show that default refreshing frequency corresponding to the application at interface is higher than cannot default brush corresponding to the application of the new display interface of automatic Reconstruction New frequency.

The judgment means of 14. 1 kinds of power consumption application, it is characterised in that including:

Processor；

For storing the memorizer of processor executable；

Wherein, described processor is configured to:

When the display interface of application is preset in display, monitor the trigger action for described default application；

Obtaining for the time interval between the adjacent trigger action of described default application, wherein, described time interval includes: institute State the time started of second trigger action in adjacent trigger action and first triggering behaviour in described adjacent trigger action Time difference between the end time made；

The screen-refresh number of times that in obtaining described time interval, described default application is corresponding；

According to described time interval and described screen-refresh number of times, it is judged that whether described default application is power consumption application.