WO2018126770A1

WO2018126770A1 - Method for solving abnormal power consumption of mobile terminal

Info

Publication number: WO2018126770A1
Application number: PCT/CN2017/108160
Authority: WO
Inventors: 刘可靖
Original assignee: 中兴通讯股份有限公司
Priority date: 2017-01-03
Filing date: 2017-10-28
Publication date: 2018-07-12
Also published as: CN108268116B; CN108268116A

Abstract

Provided are a method and device for solving the abnormal power consumption of a mobile terminal, and a mobile terminal. The method for solving the abnormal power consumption of a mobile terminal comprises: monitoring the occurrence of foreground and background switch operations in a current application program (S10); forming a correlation between a name of the current application program and a corresponding state flag bit (S20); based on the name of the current application program, determining the existence of a name, consistent with the name of the current application program, of an electricity consumption application program with a bright screen lock (S30); and based on the state flag bit, identifying a position of the electricity consumption application program as being a corresponding identifier (S40), wherein the abnormal power consumption is actively processed, thereby improving the user experience.

Description

Method for solving abnormal power consumption of mobile terminal

Technical field

The present disclosure relates to the field of mobile terminal technologies, and in particular, to a method, an apparatus, and a mobile terminal for solving abnormal power consumption of a mobile terminal.

Background technique

The mobile terminal's operating system has an invisible screen mechanism that holds a bright screen lock. After the application holds the bright screen lock, the operating system will keep the screen of the mobile terminal intact. For example, the application such as photo, alarm clock, etc. needs to hold a bright screen lock to keep the screen intact when working, when the application exits or goes to When the background is running, the application releases the bright screen lock, the mobile terminal enters the screen, and the operating system goes to sleep to save power.

However, some applications hold a bright screen lock in the foreground, do not release the bright screen lock when going to the background, and hold a bright screen lock, such as a game software, put the game in the background after the user plays, move The display of the terminal is not extinguished, resulting in an increase in power consumption of the operating system of the mobile terminal, and the application has been retired to the background and is invisible, and the uninterrupted screen is also an abnormality for the mobile terminal.

In the case of the above abnormal power consumption, the usual practice is that the operating system determines that the abnormally holds the bright screen lock or monitors the application to the background and continues to light up for a set period of time to notify the user. The problem is that if the mobile terminal is not at the user's side, the user cannot handle the abnormal power consumption in time. Therefore, there is a need for a method, apparatus, and mobile terminal for solving abnormal power consumption of a mobile terminal to solve the above-mentioned technical problems existing in the related art.

Summary of the invention

The present disclosure provides a method, device, and mobile terminal for solving abnormal power consumption of a mobile terminal, which can actively handle abnormal power consumption, reduce power consumption of the mobile terminal, and improve user experience.

The technical solution adopted by the present disclosure is: monitoring a background switching operation before a current application occurs; forming a correspondence between a name of the current application and a corresponding status flag bit; and confirming existence of the current application based on the name of the current application The name of the power-consuming application of the bright-screen lock is consistent with the name of the current application; based on the status identifier, the bright-screen lock identification position of the power-consuming application is the corresponding identifier.

Preferably, the monitoring the background switching operation before the current application occurs includes: monitoring that the current application is switched from the foreground state to the background state; accordingly, forming the name and corresponding state of the current application The correspondence between the flag bits includes: the current application is in a background state, and the state identifier position is 0.

Preferably, the forming a correspondence between the name of the current application and the corresponding status flag bit is further included The current application is in the foreground state, and the status identifier is set to 1.

Preferably, the determining, according to the status identifier, the location of the bright screen lock of the power consumption application as a corresponding identifier, comprising: if the status identifier position is 0, the location of the bright screen lock flag False; or, if the status flag is 1, the bright lock flag is set to true.

Preferably, the method further includes: before the name of the application, confirming that the name of the power consumption application holding the bright screen lock is consistent with the name of the current application, the method further includes: in the current application The bright screen lock is configured for the current application under the condition that it is in the background state and does not hold a bright screen lock.

Preferably, the determining, according to the name of the application, that the name of the power consumption application holding the bright screen lock is consistent with the name of the current application, including: holding the bright screen lock through the interface management module; receiving The name of the power consumption application sent by the interface management module; determining that the name of the power consumption application is consistent with the name of the current application.

The present disclosure further provides an apparatus for solving abnormal power consumption of a mobile terminal, comprising: a monitoring module configured to monitor a background switching operation before a current application occurs; a relationship forming module configured to form a name and corresponding of the current application Corresponding relationship of the status flag bits; the confirmation module is configured to confirm that the name of the power-consuming application holding the bright-screen lock is consistent with the name of the current application based on the name of the current application; And setting, according to the status identifier bit, the location of the bright screen lock identifier of the power consumption application as a corresponding identifier.

Preferably, the monitoring module is configured to: monitor that the current application is switched from a foreground state to a background state; accordingly, the relationship forming module is configured to: the current application is in a background state, and the status identifier is The position is 0.

Preferably, the relationship forming module is further configured to: the current application is in a foreground state, and the status identifier is set to 1.

Preferably, the identification position bit module is configured to: if the status identification position is 0, the bright screen lock flag position is false; or, if the status identification position is 1, the bright screen is The lock flag is set to true.

Preferably, the device further comprises a bright screen lock acquisition module configured to configure the bright screen lock for the current application under the condition that the current application is in a background state and does not hold a bright screen lock.

Preferably, the confirmation module is configured to: hold a bright screen lock through the interface management module; receive a name of the power consumption application sent by the interface management module; and determine a name and a location of the power consumption application The name of the current application is the same.

The present disclosure also provides a mobile terminal comprising the apparatus according to the above.

The present disclosure also provides a storage medium configured to store program code for performing the above The method of any of the preceding claims.

With the above technical solution, the present disclosure has at least the following effects:

The method for solving the abnormal power consumption of the mobile terminal provided by the present disclosure, when monitoring the background switching operation before the occurrence, the screen lock is performed on the screen of the mobile terminal based on the bright screen lock held by the application, and the method has low cost and saves the mobile terminal. The power has improved the user experience.

DRAWINGS

1 is a flowchart of a method for solving an abnormal power consumption of a mobile terminal according to a first embodiment of the present disclosure;

2 is a flowchart of a method for solving abnormal power consumption of a mobile terminal according to a second embodiment of the present disclosure;

3 is a flowchart of a method for solving abnormal power consumption of a mobile terminal according to a third embodiment of the present disclosure;

4 is a flowchart of a method for solving abnormal power consumption of a mobile terminal according to a fourth embodiment of the present disclosure;

5 is a block diagram of an apparatus for solving abnormal power consumption of a mobile terminal according to a fifth embodiment, a sixth embodiment, and a seventh embodiment of the present disclosure;

FIG. 6 is a block diagram of an apparatus for solving abnormal power consumption of a mobile terminal according to an eighth embodiment of the present disclosure.

detailed description

The present disclosure will be described in detail below with reference to the accompanying drawings and preferred embodiments.

The method for abnormally consuming power of the mobile terminal provided by the present disclosure reduces abnormal power consumption of the mobile terminal, improves the user experience, and the method is low in cost. The method of abnormally consuming power consumption of the mobile terminal of the present disclosure and its respective steps will be described in detail below.

First embodiment

As shown in FIG. 1 , the method for solving the abnormal power consumption of the mobile terminal provided by the embodiment includes: Step S10: monitoring the background switching operation before the current application occurs. Applications for applications installed on the mobile terminal, such as video playback, camera recording, game software, etc., the front-end switching operation includes the application switching from the foreground state to the background state, or the application is switched from the background state to the foreground state, as long as If the above-mentioned front and back office switching operations occur, they need to be monitored. Step S20: Form a correspondence between the name of the current application and the corresponding status flag. The status flag corresponds to the status of the current application after the background switching operation. For example, after the current application occurs before the background switching operation, the background flag is corresponding to the background status. Step S30: Based on the name of the current application, confirm that the name of the power-consuming application holding the bright screen lock is consistent with the name of the current application. Traversing all power-hungry applications that hold a bright-screen lock to find a power-hungry application with a bright-screen lock, the power-consuming application The name of the sequence is the same as the name of the current application. Step S40: Based on the status identifier, the bright screen lock identification position of the power consumption application is a corresponding identifier, and the bright screen lock identification position is expanded from the bright screen lock attribute structure held by the operating system to ensure each one. The power application holds the uniqueness of the lock. Based on the status identifier bit corresponding to the current application set in step S20, the bright screen lock identification position of the power consumption application found in step S30 is the corresponding identifier. That is, if the identifier of the bright screen lock flag in the foreground state and the background state is different, the screen or the screen may be illuminated according to the difference of the bright screen lock flag of the power consumption application. After the current application in the above-mentioned background switching operation, if the current application holds a bright screen lock, the current application is converted into a power consumption application, and the power consumption application mentioned in the present disclosure is held bright. Screen lock app.

Second embodiment

As shown in FIG. 2, on the basis of the first embodiment, in the method for solving the abnormal power consumption of the mobile terminal in this embodiment, step S10: monitoring the background switching operation before the current application occurs, including: step S100: monitoring out The current application is switched from the foreground state to the background state; correspondingly, step S20: forming a correspondence between the name of the current application and the corresponding status flag bit, including: step S200: the current application is in the background state, and the status identification location is 0.

As shown in FIG. 2, step S40: based on the status identifier, the position of the bright screen lock of the power consumption application is the corresponding identifier, including: step S400: if the status identifier position is 0, the position of the bright screen lock flag is False. If the bright screen lock flag of the power-consuming application holding the bright screen lock is false, the screen of the mobile terminal is screened to reduce power consumption. The method for solving the abnormal power consumption of the mobile terminal in this embodiment ensures the function of the application when the application is in the background state, does not actively turn off the application, and directly processes the abnormal power consumption, even if the user needs to be in the background state. When you switch to the foreground state, there will be no reopening of the application interface to affect the user experience.

In addition, step S20: forming a correspondence between the name of the current application and the corresponding status flag bit, further comprising: the current application is in the foreground state, and the status identification position is 1. Correspondingly, step S40 further includes: if the status identification position is 1, the position of the bright screen lock flag is true. The power-consuming application is in the foreground state, and the bright-screen lock flag of the bright-screen lock held by the power-consuming application is true, and the screen of the mobile terminal is illuminated.

In the first embodiment and the second embodiment, a callback function is registered in the operating system, and the operating system monitors the front-end and background switching operations of the current application by using the callback function, and the current application that holds the bright screen lock by itself. You can directly send the name of your current application to the operating system, and set the corresponding status flag according to whether the current application after the background switching operation is in the foreground or background state. The operating system is based on the name of the current application. And the status flag bit is the corresponding identifier for the position of the bright screen lock flag, and then the screen of the mobile terminal is illuminated or processed according to the difference of the bright screen lock flag.

Third embodiment

As shown in FIG. 3, based on the first embodiment and the second embodiment, step S30: based on the name of the application, confirming that the name of the power-consuming application holding the bright screen lock is consistent with the name of the current application. The method for solving the abnormal power consumption of the mobile terminal in this embodiment further includes: Step S50: configuring the bright screen lock for the current application under the condition that the current application is in the background state and does not hold the bright screen lock.

In this embodiment, when the current application is in the foreground state, the bright screen lock is not held, and when the current application is transferred from the foreground state to the background state, the current application is configured with a bright screen lock, thereby the current application is turned into a hold. Power consumption application for bright screen locks. Then step S30 is performed again.

Fourth embodiment

As shown in FIG. 4, based on the first embodiment, the second embodiment, and the third embodiment, step S30: confirming the name of the power-consuming application holding the bright screen lock and the current application based on the name of the application. The name of the program is consistent, including: step S300: holding a bright screen lock by the interface management module; step S301: receiving the name of the power consumption application sent by the interface management module; step S302: determining the name and current of the power consumption application The names of the applications are the same.

The embodiment does not hold a bright screen lock for the current application itself, and holds a bright screen lock through the interface management module, for example, the current application is a current application that needs to hold a bright screen lock, such as a camera, an MP4, an alarm clock, an incoming call, and the like. The operating system cannot obtain the name of the current application through the current application. Therefore, after the interface management module obtains the bright screen lock, the operating system receives the name of the power-consuming application that holds the bright screen lock sent by the interface management module. Determine that the name of the power-consuming application matches the name of the current application.

Fifth embodiment

As shown in FIG. 5, the device for solving the abnormal power consumption of the mobile terminal provided by the embodiment includes: a monitoring module 10 configured to monitor a background switching operation before the current application occurs; and the relationship forming module 20 is configured to form a current The correspondence between the name of the application and the corresponding status flag; the confirmation module 30 is configured to confirm that the name of the power-consuming application holding the bright-screen lock is consistent with the name of the current application based on the name of the current application; The bit module 40 is configured to position the bright screen lock of the power consuming application as a corresponding identifier based on the status identification bit.

This embodiment is only for the bright screen lock, but the above embodiment can be extended to FULL WAKELOCK, DIM WAKELOCK and SCREEN BRIGHT WAKELOCK, etc., which can make the mobile terminal bright or screen lock, and the same applies to this scheme.

Sixth embodiment

As shown in FIG. 5, on the basis of the fifth embodiment, in the apparatus for solving the abnormal power consumption of the mobile terminal in this embodiment, the monitoring module 10 is configured to: monitor the current application to switch from the foreground state to the background state. Correspondingly The module 20 is set to: the current application is in the background state, and the status identification position is 0.

Preferably, the relationship forming module 20 is further configured to: the current application is in the foreground state, and the status identification position is set to 1.

In an embodiment, the confirmation module 30 is configured to: hold the bright screen lock through the interface management module; receive the name of the power consumption application sent by the interface management module; determine the name of the power consumption application and the name of the current application Consistent.

Seventh embodiment

As shown in FIG. 5, on the basis of the sixth embodiment, in the apparatus for solving the abnormal power consumption of the mobile terminal in the embodiment, the identification position bit module 40 is set to: if the status identification position is 0, the bright screen lock flag is set. The position is false; or, if the status flag is 1, the bright lock flag is set to true.

Eighth embodiment

As shown in FIG. 6, on the basis of the fifth embodiment, the apparatus for solving the abnormal power consumption of the mobile terminal in the embodiment further includes the bright screen lock acquisition module 50 being configured to: the current application is in the background state and is not held. Under the condition of a bright screen lock, configure a bright screen lock for the current application.

Ninth embodiment

The technical means and functions of the present disclosure for achieving the intended purpose can be more deeply and specifically understood by the description of the exemplary embodiments, but the accompanying drawings are only for the purpose of illustration and description, Limit it.

Industrial applicability

Claims

A method for solving abnormal power consumption of a mobile terminal, comprising:

Monitor the background switching operation before the current application occurs;

Forming a correspondence between the name of the current application and the corresponding status flag bit;

Confirming that the name of the power consuming application holding the bright screen lock is consistent with the name of the current application based on the name of the current application;

Based on the status identifier, the bright screen lock identifier of the power consuming application is located as a corresponding identifier.
The method of claim 1, wherein the monitoring of a background switching operation before the current application occurs comprises:

Monitoring that the current application switches from a foreground state to a background state;

Correspondingly, the forming a correspondence between the name of the current application and the corresponding status flag bit includes:

The current application is in a background state, and the status identification location is 0.
The method of claim 2, wherein the forming the correspondence between the name of the current application and the corresponding status flag bit further comprises:

The current application is in a foreground state, and the status identifier is set to 1.
The method of claim 3, wherein the determining, by the status flag, the location of the bright screen lock of the power consuming application as a corresponding identifier comprises:

If the status identifier position is 0, the bright screen lock flag position is set to false; or,

If the status flag position is 1, the bright screen lock flag position is true.
The method according to any one of claims 2 to 4, wherein the confirmation, based on the name of the application, that the name of the power consuming application holding the bright screen lock is the same as the name of the current application Previously, the method further includes:

The bright screen lock is configured for the current application under the condition that the current application is in a background state and does not hold a bright screen lock.
The method of claim 1, wherein the confirming that the name of the power-consuming application holding the bright screen lock is consistent with the name of the current application based on the name of the application comprises:

Holding a bright screen lock through the interface management module;

Receiving a name of the power consumption application sent by the interface management module;

It is determined that the name of the power consumption application is consistent with the name of the current application.
A device for solving abnormal power consumption of a mobile terminal, which comprises:

The monitoring module is configured to monitor a background switching operation before the current application occurs;

a relationship forming module, configured to form a correspondence between a name of the current application and a corresponding status flag bit;

a confirmation module, configured to confirm that a name of the power consumption application holding the bright screen lock is consistent with the name of the current application based on the name of the current application;

The identification location bit module is configured to position the bright screen lock identifier of the power consumption application as a corresponding identifier based on the status identification bit.
The apparatus of claim 7 wherein said monitoring module is configured to:

Monitoring that the current application switches from a foreground state to a background state;

Correspondingly, the relationship forming module is set to:

The current application is in a background state, and the status identification location is 0.
The device according to claim 8, wherein the relationship forming module is further configured to:

The current application is in a foreground state, and the status identifier is set to 1.
The apparatus of claim 9 wherein said identification location bit module is configured to:

If the status identifier position is 0, the bright screen lock flag position is set to false; or,

If the status flag position is 1, the bright screen lock flag position is true.
The apparatus according to any one of claims 8 to 10, wherein the apparatus further comprises a bright screen lock acquisition module, configured to:

The bright screen lock is configured for the current application under the condition that the current application is in a background state and does not hold a bright screen lock.
The apparatus of claim 7, wherein the confirmation module is configured to:

Holding a bright screen lock through the interface management module;

Receiving a name of the power consumption application sent by the interface management module;

It is determined that the name of the power consumption application is consistent with the name of the current application.
A mobile terminal comprising the apparatus according to any one of claims 7 to 12.
A storage medium arranged to store program code for performing the method of any one of claims 1 to 6.