CN108170252B - Terminal power saving method and device - Google Patents

Abstract

The invention provides a terminal power saving method and a device, which are used for judging whether currently running software has a scene type, if so, closing the corresponding software according to the current continuous running time of the software and the first association degree between the use state of the terminal and various scenes.

Description

Terminal power saving method and device

Technical Field

The invention relates to the technical field of communication, in particular to a terminal power saving method and device.

Background

Along with the function of the intelligent terminal is more and more powerful, the screen resolution is more and more high, the dependence degree of a user on the terminal is more and more high, and the phenomenon of 'non-durability' of the intelligent terminal, namely the problem of rapid consumption of the electric quantity of a battery is more and more serious. Many intelligent terminal have released the power saving mode, use a certain amount when the battery power, generally when the electric quantity only remains 10%, remind the user to open the power saving mode. The power saving strategy is generally to adjust screen brightness, volume, bluetooth, wifi (wireless fidelity) connection, etc., and even more, to return to the basic function mode, only the basic functions of phone and short message are reserved to save battery power, so as to prolong the cruising ability of the terminal in low power.

The existing terminal power saving scheme basically performs power saving management under the condition of low electric quantity of a terminal, and power saving measures are relatively rough, so that the current operation of a user can be stopped, the functional use of the user on the terminal is influenced, and the user experience is sacrificed to replace the endurance time of the terminal.

Therefore, a power saving scheme for a terminal is needed to solve the above problems.

Disclosure of Invention

The invention provides a terminal power saving method and a terminal power saving device aiming at the defects in the prior art, and aims to solve the problem that the existing terminal power saving scheme directly terminates user operation and influences the use of a user.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention provides a terminal power saving method.A part of software installed in a terminal is provided with scene types, the scene types are classified according to the use scenes of the software, and a first degree of association exists between each type of scenes; the method comprises the following steps:

selecting currently running software;

and judging whether the software has the scene type, if so, closing the software according to the current continuous operation time length of the software, the use state of the terminal and the first association degree.

Further, the software installed in the terminal has a second degree of association; the method further comprises the following steps:

and if the software does not have the scene type, closing the software according to the electric quantity of the terminal and the second association degree.

Further, at least part of software installed in the terminal is non-high-frequency using software; before the software which is currently operated is selected, or after the software is closed according to the current continuous operation time length of the software, the use state of the terminal and the first association degree, or after the software is closed according to the electric quantity of the terminal and the second association degree, the method further comprises the following steps:

selecting non-high frequency using software;

and judging whether the continuous non-running time of the non-high-frequency use software is longer than a preset first time, and if so, closing the non-high-frequency use software.

Preferably, after the software is turned off according to the current continuous operation time of the software, the usage state of the terminal, and the first association degree, or after the software is turned off according to the electric quantity of the terminal and the second association degree, or after the non-high frequency using software is turned off, the method further includes:

and determining the system resources occupied by the reserved software, and closing the system resources which are not occupied currently.

Preferably, the usage status of the terminal includes: whether the terminal is in a non-charging state and the electric quantity of the terminal; the first degree of association comprises strong association, weak association and unassociated;

the closing the software according to the current continuous operation duration of the software, the use state of the terminal and the first association degree specifically includes:

judging whether the current continuous operation time length of the software is greater than a preset second time length or not, and if so, judging whether the terminal is in a non-charging state or not; if the terminal is in the non-charging state, closing the software which is running in the scene which is not related to the scene to which the software belongs, and comparing the electric quantity of the terminal with a preset first threshold value and a preset second threshold value;

if the electric quantity is larger than the second threshold and smaller than the first threshold, closing the software which is running in the scene which is weakly related to the scene to which the software belongs; if the electric quantity is smaller than or equal to the second threshold value, closing the software which is running in the scenes which are weakly related and strongly related to the scene to which the software belongs; the first threshold is greater than the second threshold.

The invention also provides an intelligent terminal, wherein at least part of software installed in the intelligent terminal is provided with scene types, the scene types are classified according to the use scenes of the software, and a first degree of association exists between the scenes of various types; the intelligent terminal comprises: the device comprises a selection module, a judgment module and a processing module;

the selection module is used for selecting the currently running software;

the judging module is used for judging whether the software has the scene type;

and the processing module is used for closing the software according to the current continuous running time of the software, the use state of the intelligent terminal and the first association degree when the judging module judges that the software has the scene type.

Further, the software installed in the terminal has a second degree of association;

and the processing module is further used for closing the software according to the electric quantity of the terminal and the second association degree when the judging module judges that the software does not have the scene type to which the software belongs.

Further, at least part of software installed in the terminal is non-high-frequency using software;

the selection module is further configured to select non-high-frequency software before selecting currently-running software, or after the processing module closes the software according to the current continuous running time of the software, the use state of the intelligent terminal, and the first association degree, or after the processing module closes the software according to the electric quantity of the intelligent terminal and the second association degree;

the judging module is further used for judging whether the continuous non-running time of the non-high-frequency using software is longer than a preset first time;

the processing module is further configured to close the non-high frequency application software when the judging module judges that the continuous non-running time of the non-high frequency application software is longer than a preset first time.

Further, the processing module is further configured to determine the system resources occupied by the reserved software and close the system resources not currently occupied after the software is closed according to the current continuous operation duration of the software, the usage state of the intelligent terminal, and the first association degree, or after the software is closed according to the electric quantity of the intelligent terminal and the second association degree, or after the non-high frequency using software is closed.

Preferably, the use state of the intelligent terminal includes: whether the terminal is in a non-charging state and the electric quantity of the terminal; the first degree of association comprises strong association, weak association and unassociated;

the processing module is specifically configured to determine whether a current continuous operation duration of the software is greater than a preset second duration, and when the current continuous operation duration of the software is determined to be greater than the second duration, determine whether the intelligent terminal is in a non-charging state; when the intelligent terminal is judged to be in a non-charging state, closing software running in a scene which is not related to the scene to which the software belongs, and comparing the electric quantity of the intelligent terminal with a preset first threshold value and a preset second threshold value; when the electric quantity is larger than the second threshold and smaller than the first threshold, closing the software which is running in the scene which is weakly associated with the scene to which the software belongs; when the electric quantity is smaller than or equal to the second threshold value, closing the software which is running in the scenes which are weakly related and strongly related to the scene to which the software belongs; the first threshold is greater than the second threshold.

According to the invention, whether the currently running software has the scene type is judged, if so, the corresponding software is closed according to the current continuous running time of the software, the use state of the terminal and the first association degree between various types of scenes.

Drawings

Fig. 1 is a flowchart of a power saving method for a terminal according to an embodiment of the present invention;

fig. 2 is a second flowchart of a power saving method for a terminal according to an embodiment of the present invention;

fig. 3 is a third flowchart of a power saving method for a terminal according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an intelligent terminal provided in an embodiment of the present invention.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

The terminal power-saving scheme of the invention is divided into an initialization stage and an operation stage, and in the initialization stage, the intelligent terminal executes the following operations:

1. the intelligent terminal classifies the installed application software according to the use scenes of the user, and the scene types can include: a work scene, a social scene, an entertainment scene, a home scene, a travel scene, etc. For example, the intelligent terminal automatically extracts software information installed in the terminal, and adds each software to a user usage scene according to functional distinction for classification. For example, QQ, WeChat, microblog, bean, are added to social scenes, mailbox, WPS are added to work scenes, music, video, games are added to entertainment scenes, and travel, skill dragon, ofo, Mobai are added to travel scenes.

2. And the relevance division comprises relevance division between scene types and relevance division between software. The scenes of the various types have a first degree of association, wherein the first degree of association comprises strong association, weak association and non-association, for example, a social scene is strongly associated with an entertainment scene, the social scene is weakly associated with a travel scene, and a work scene is not associated with the entertainment scene. The software has a second degree of association, which includes strong association, weak association and disassociation, for example, the software in the social scene is strongly associated with each other, and the software in the entertainment scene is disassociated with each other.

It should be noted that not all software has the corresponding scene, and some software cannot accurately classify the corresponding scene, but the association between the software and other software is not affected, for example, the cool me music is weakly related to the car of sallow, the car of sallow is strongly related to the payment treasure, and the payment treasure is not related to the WeChat.

3. Software with high use frequency is determined, high-frequency use software is marked, and high-frequency label can be marked on the high-frequency use software. For example, software with high use frequency in daily life of a certain user includes WeChat, cool me music, Paibao, small yellow car and the like, and the intelligent terminal marks the software with high-frequency tags.

It should be noted that the user may modify the scene type according to the self condition, add the application software in the intelligent terminal to each type of scene as needed, and set and modify the second association degree between the software according to the use habit at ordinary times.

The terminal power saving process of the present invention, which is a process of the terminal operation phase, is described in detail below with reference to fig. 1.

As shown in fig. 1, the terminal power saving process includes the following steps:

step 101, selecting currently running software.

Specifically, when the intelligent terminal executes the power saving process, the software currently running is selected, which may be randomly selected or selected according to a preset strategy, for example, priorities may be set for the software in different types of scenes, the priority of the software in a working scene is set to be the highest, the priority of the software in an entertainment or home scene is set to be the lowest, and when this step is executed, the software in the current running working scene is preferentially selected.

And 102, judging whether the selected software has the scene type, if so, executing the step 103, otherwise, executing the step 104.

Specifically, the software installed in the intelligent terminal does not all have a scene to which the software belongs, in this step, it is necessary to first determine whether the selected currently running software has a scene to which the software belongs, and if the selected currently running software has a scene to which the software belongs, the relevant software is turned off according to the first scheme (i.e., step 103 is executed) to save power for the intelligent terminal; and if the selected currently-operated software does not belong to the scene, closing the corresponding software according to the second scheme (namely, executing the step 104) so as to save electricity for the intelligent terminal.

And 103, closing the software according to the current continuous running time of the software, the use state of the terminal and the first association degree.

Specifically, the step is a first scheme of an intelligent terminal power saving scheme, and factors considered for turning off related software include: the method comprises the steps of selecting the current continuous operation time of software, the using state of the intelligent terminal and the first association degree among various types of scenes. Preferably, the use state of the intelligent terminal may include: whether the intelligent terminal is in a non-charging state and the electric quantity of the intelligent terminal.

The specific flow of the intelligent terminal closing the software according to the current continuous operation time of the software, the use state of the terminal and the first association degree is described in detail with reference to fig. 3.

And step 104, closing the software according to the electric quantity of the terminal and the second association degree.

The step is a second scheme of the intelligent terminal power saving scheme, and factors considered by closing related software comprise: and a second degree of association between the electric quantity of the intelligent terminal and the software.

Specifically, when the electric quantity of the intelligent terminal is greater than 60%, only the software which is not related to the selected software can be closed; when the electric quantity is less than 60% and more than 20%, closing the software weakly related to the selected software; and when the power is less than or equal to 20%, closing all running software in the background.

It can be seen from step 101 and step 104 that, according to the present invention, by determining whether the currently running software has the scene type to which the software belongs, and if so, closing the corresponding software according to the current continuous running time of the software, the use state of the terminal, and the first association between the scenes of the types, the present invention fully considers the factors such as the software running state, the use state of the terminal, the association between the scenes to which the software belongs, and the like, the closed software is more reasonably selected, and on the premise of not affecting the running of the current software, not affecting the use of the terminal by the user, and not sacrificing the user experience, the consumption of the electric quantity of the intelligent terminal by the software which is not necessarily run is reduced, thereby improving the endurance time of the intelligent terminal.

Further, the intelligent terminal may adopt another power saving scheme (i.e., scheme three) before selecting the currently running software (i.e., step 101), or after turning off the software according to the current continuous running time of the software, the usage state of the terminal and the first association degree (i.e., step 103), or after turning off the software according to the power of the terminal and the second association degree (i.e., step 104). The third power saving scheme of the terminal is specific to the non-high frequency using software, namely how to close the non-high frequency using software and which kind of non-high frequency using software.

The third power saving scheme of the terminal of the present invention is described in detail below with reference to fig. 2. As shown in fig. 2, the power saving method of the third scheme includes the following steps:

step 201, selecting non-high frequency using software.

Specifically, the intelligent terminal selects software without a high-frequency tag, and the software is non-high-frequency using software. The number of the non-high-frequency using software installed in the intelligent terminal can be many, and the specific selection of the non-high-frequency using software can be selected according to a preset strategy or can be selected randomly.

Step 202, judging whether the continuous non-running time of the selected non-high frequency using software is greater than a preset first time, if so, executing step 203, otherwise, ending the process.

Preferably, the first time period may be set to 30 minutes.

Specifically, if the intelligent terminal determines that the continuous non-operation duration of the selected non-high-frequency using software is longer than the first duration, which indicates that the non-high-frequency using software is not used for a long time, the non-high-frequency using software is closed (i.e., step 203 is executed); if the continuous non-running time length of the selected non-high-frequency using software is less than or equal to the first time length, it indicates that the user has not a great need to close the non-high-frequency using software just before using the non-high-frequency using software, and therefore the flow can be ended without closing the non-high-frequency using software temporarily.

Step 203, turning off the non-high frequency using software.

It can be seen from step 201 and step 203 that, by the third power saving scheme of the terminal, the non-high frequency software which is not operated continuously for a long time can be screened out and shut down. Because the software is the software with low use frequency for the user, and the software is not continuously operated for a long time, if the software is closed, the normal function and the user experience of the intelligent terminal are not influenced, the electric quantity of the intelligent terminal is saved, and the cruising ability of the intelligent terminal is prolonged.

The first, second and third power saving schemes of the intelligent terminal achieve energy conservation and consumption reduction by turning off software on the intelligent terminal, however, even if the software on the intelligent terminal is turned off, some unused system resources on the terminal still consume the electric quantity of the terminal, such as wifi network, mobile data network, local area network, bluetooth, personal hot spot, screen brightness, sound, peripheral equipment, and the like. Therefore, in order to further save the power of the intelligent terminal, after the first scenario (i.e., step 103) is executed, or after the second scenario (i.e., step 104) is executed, or after the third scenario (i.e., step 203) is executed, the system resources occupied by the reserved software may be determined, and the system resources not currently occupied may be turned off, so as to further save the power consumption of the intelligent terminal by the part of the system resources.

The following describes in detail a specific process of the intelligent terminal closing the software according to the current continuous operation duration of the software, the use state of the terminal, and the first association degree, with reference to fig. 3. As shown in fig. 3, closing the software according to the current continuous operation duration of the software, the use state of the terminal, and the first association degree specifically includes the following steps:

step 301, judging whether the current continuous operation time length of the software is greater than a preset second time length, if so, executing step 302; otherwise, the flow ends.

Preferably, the second period of time may be set to 5 minutes.

Specifically, the intelligent terminal judges whether the current continuous operation time length of the selected currently-operating software with the scene is longer than a second time length, if so, the software is indicated to be continuously operated for a long time (namely, a user continuously uses the software for a long time), the software is important for the user at the current moment, the software needs to be ensured to be started and operated, and the software related to the software needs to be closed, specifically, the software needing to be closed can be further determined by judging the current use state of the intelligent terminal (namely, step 302 and subsequent steps are executed); if the current continuous operation time length of the selected currently-operating software with the scene is less than or equal to the second time length, the software is indicated to have a short continuous operation time length (that is, a user does not continuously use the software for a long time), it is ensured that the necessity of starting the software to operate is not great, that is, the software related to the software does not need to be closed, and the process can be ended.

Step 302, judging whether the terminal is in a non-charging state, if so, executing step 303; otherwise, the flow ends.

Specifically, the intelligent terminal judges whether the device is in a non-charging state, if the intelligent terminal is in the non-charging state, it indicates that the intelligent terminal does not currently have an external power supply to supply power to the intelligent terminal, and power saving measures need to be taken, the software running in a scene not associated with the scene to which the software belongs is closed (i.e. step 303 is executed); if the intelligent terminal is in a charging state, the intelligent terminal is charging, and the process can be ended without power saving measures.

Step 303, closing the software running in the scene which is not related to the scene to which the software belongs.

Specifically, when the intelligent terminal is in the uncharged state, the software which is running in the scene which is not related to the scene to which the software with the continuous running time length longer than the second time length belongs is closed, so that the normal use of the software cannot be influenced, and the bad user experience cannot be brought to the intelligent terminal user.

After the intelligent terminal closes the software running in the unrelated scene, whether other software needs to be closed can be further determined according to the electric quantity of the intelligent terminal, so that the electric quantity of the intelligent terminal is further saved.

Step 304, comparing the power of the terminal with a preset first threshold and a preset second threshold, and if the power is greater than the second threshold and smaller than the first threshold, executing step 305; if the electric quantity is less than or equal to the second threshold, executing step 306; if the electric quantity is larger than or equal to the first threshold value, the process is ended.

Wherein the first threshold is greater than the second threshold, preferably, the first threshold may be set to 50%, and the second threshold may be set to 20%.

Specifically, the intelligent terminal compares the electric quantity of the terminal with a first threshold and a second threshold, and when the electric quantity is judged to be greater than the second threshold and smaller than the first threshold, it is indicated that the electric quantity of the current terminal is moderate, and only software which is running in a weakly-associated scene can be closed (i.e., step 305 is executed); when the electric quantity is judged to be less than or equal to the second threshold value, which indicates that the electric quantity of the current terminal is low, not only the software running in the weakly associated scene needs to be closed, but also the software running in the strongly associated scene needs to be closed (i.e. step 306 is executed); when the electric quantity is judged to be larger than or equal to the first threshold value, the electric quantity of the current terminal is higher, no power-saving measures need to be taken, and the process can be ended.

And 305, closing the software which is running in the scene which is weakly associated with the scene to which the software belongs.

And step 306, closing the software which is running in the scenes which are weakly related and strongly related to the scene to which the software belongs.

It can be seen from the above step 301 plus 306 that, according to the duration of the current continuous operation of the software, whether the intelligent terminal is in the non-charging state and the electric quantity, and the first correlation between the scenes, the invention determines whether the software needs to be closed, and what kind of software is closed, the selection of the closed software is more reasonable, and the consumption of the unnecessary software on the electric quantity of the intelligent terminal is reduced on the premise of not affecting the operation of the current software, not affecting the use of the terminal by the user, and not sacrificing the user experience, thereby improving the endurance time of the intelligent terminal.

After the power saving measures are taken according to the scheme, namely the relevant software and the system resources and the peripheral resources which are not used temporarily are closed, and when the user operates the intelligent terminal again, the system resources and the peripheral resources which are required by the user can be gradually started.

It should be noted that the invention may also set the software as conflict software, for example, a user may not have a habit of watching a video when swiping a microblog, and may set the microblog and the video to be unrelated, so long as the user runs the microblog software, even if the social scene to which the microblog belongs is strongly related to the entertainment scene to which the video belongs, regardless of the power condition, the video software may be closed as long as the microblog software runs.

In addition, a white list can be set, and software on the white list is generally more important software, is not limited by the above process, and cannot be turned off due to power saving.

The high-frequency tags of the software may be set according to time periods, and the second degree of association between the software may also be set according to time periods.

The terminal power saving scheme of the invention monitors the use condition of the user software no matter the electric quantity of the intelligent terminal, and when the user uses a certain software for a long time and has no other operation on the terminal, the other software of the same type and the system resources and peripheral resources which can not be used by the current software temporarily are closed, so as to achieve the effect of saving power. When the user operates the terminal, the resources required by the user are gradually started. The method saves the electric quantity and does not restrict the real use requirement of the user on the application function in the terminal.

Based on the same technical concept, the embodiment of the invention also provides the intelligent terminal, at least part of software installed in the intelligent terminal is provided with the scene types, the scene types are classified according to the use scenes of the software, and the scenes of all types have first relevance. As shown in fig. 4, the smart terminal may include: a selection module 41, a judgment module 42 and a processing module 43.

The selection module 41 is used to select the currently running software.

The determining module 42 is configured to determine whether the software has the scene type.

The processing module 43 is configured to, when the determining module 42 determines that the software has the scene type, close the software according to the current continuous operation duration of the software, the use state of the intelligent terminal, and the first association degree.

Furthermore, the software installed in the intelligent terminal has a second degree of association. The processing module 43 is further configured to, when the determining module 42 determines that the software does not have the scene type, close the software according to the electric quantity of the intelligent terminal and the second association degree.

Further, at least part of software installed in the intelligent terminal is non-high-frequency using software. The selecting module 41 is further configured to select the non-high frequency software before selecting the currently running software, or after the processing module closes the software according to the current continuous running time of the software, the use state of the intelligent terminal, and the first association degree, or after the processing module closes the software according to the electric quantity of the intelligent terminal and the second association degree.

The judging module 43 is further configured to judge whether a duration of continuous non-operation of the non-high frequency application software is greater than a preset first duration.

The processing module 43 is further configured to, when the determining module 42 determines that the continuous non-running time of the non-high frequency using software is longer than the preset first time, close the non-high frequency using software.

Further, the processing module 43 is further configured to determine the system resource occupied by the reserved software and close the system resource not currently occupied after the software is closed according to the current continuous operation duration of the software, the usage state of the intelligent terminal, and the first association degree, or after the software is closed according to the electric quantity of the intelligent terminal and the second association degree, or after the non-high frequency using software is closed.

Preferably, the use state of the intelligent terminal includes: whether the terminal is in a non-charging state and the electric quantity of the terminal; the first degree of association includes strong association, weak association, and no association.

The processing module 43 is specifically configured to determine whether a current continuous operation duration of the software is greater than a preset second duration, and when it is determined that the current continuous operation duration of the software is greater than the second duration, determine whether the intelligent terminal is in a non-charging state; when the intelligent terminal is judged to be in a non-charging state, closing software running in a scene which is not related to the scene to which the software belongs, and comparing the electric quantity of the intelligent terminal with a preset first threshold value and a preset second threshold value; when the electric quantity is larger than the second threshold and smaller than the first threshold, closing the software which is running in the scene which is weakly associated with the scene to which the software belongs; when the electric quantity is smaller than or equal to the second threshold value, closing the software which is running in the scenes which are weakly related and strongly related to the scene to which the software belongs; the first threshold is greater than the second threshold.

It will be understood that the above embodiments are merely exemplary embodiments taken to illustrate the principles of the present invention, which is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and substance of the invention, and these modifications and improvements are also considered to be within the scope of the invention.

Claims (8)

1. A terminal power saving method is characterized in that at least part of software installed in a terminal is provided with scene types, the scene types are classified according to the use scenes of the software, and a first degree of association exists between each type of scenes; the method comprises the following steps:

selecting currently running software;

judging whether the software has the scene type, if so, closing the software according to the current continuous operation duration of the software, the use state of the terminal and the first association degree; wherein, the use state of the terminal comprises: whether the terminal is in a non-charging state and the electric quantity of the terminal; the first degree of association comprises strong association, weak association and unassociated;

the closing the software according to the current continuous operation duration of the software, the use state of the terminal and the first association degree specifically includes:

judging whether the current continuous operation time length of the software is greater than a preset second time length or not, and if so, judging whether the terminal is in a non-charging state or not; if the terminal is in the non-charging state, closing the software which is running in the scene which is not related to the scene to which the software belongs, and comparing the electric quantity of the terminal with a preset first threshold value and a preset second threshold value;

if the electric quantity is larger than the second threshold and smaller than the first threshold, closing the software which is running in the scene which is weakly related to the scene to which the software belongs; if the electric quantity is smaller than or equal to the second threshold value, closing the software which is running in the scenes which are weakly related and strongly related to the scene to which the software belongs; the first threshold is greater than the second threshold.

2. The method of claim 1, wherein there is a second degree of association between the software installed in the terminal; the method further comprises the following steps:

and if the software does not have the scene type, closing the software according to the electric quantity of the terminal and the second association degree.

3. The method according to claim 2, wherein at least part of the software installed in the terminal is non-high frequency use software; before the software which is currently operated is selected, or after the software is closed according to the current continuous operation time length of the software, the use state of the terminal and the first association degree, or after the software is closed according to the electric quantity of the terminal and the second association degree, the method further comprises the following steps:

selecting non-high frequency using software;

and judging whether the continuous non-running time of the non-high-frequency use software is longer than a preset first time, and if so, closing the non-high-frequency use software.

4. The method according to claim 3, wherein after the software is turned off according to the current continuous operation time of the software, the use state of the terminal and the first association degree, or after the software is turned off according to the electric quantity of the terminal and the second association degree, or after the non-high frequency use software is turned off, the method further comprises:

and determining the system resources occupied by the reserved software, and closing the system resources which are not occupied currently.

5. An intelligent terminal is characterized in that at least part of software installed in the intelligent terminal is provided with scene types, the scene types are classified according to the use scenes of the software, and a first degree of association exists between each type of scene; the intelligent terminal comprises: the device comprises a selection module, a judgment module and a processing module;

the selection module is used for selecting the currently running software;

the judging module is used for judging whether the software has the scene type;

the processing module is used for closing the software according to the current continuous operation duration of the software, the use state of the intelligent terminal and the first association degree when the judging module judges that the software has the scene type; wherein, the service condition of the intelligent terminal comprises: whether the terminal is in a non-charging state and the electric quantity of the terminal; the first degree of association comprises strong association, weak association and unassociated;

the processing module is specifically configured to determine whether a current continuous operation duration of the software is greater than a preset second duration, and when the current continuous operation duration of the software is determined to be greater than the second duration, determine whether the intelligent terminal is in a non-charging state; when the intelligent terminal is judged to be in a non-charging state, closing software running in a scene which is not related to the scene to which the software belongs, and comparing the electric quantity of the intelligent terminal with a preset first threshold value and a preset second threshold value; when the electric quantity is larger than the second threshold and smaller than the first threshold, closing the software which is running in the scene which is weakly associated with the scene to which the software belongs; when the electric quantity is smaller than or equal to the second threshold value, closing the software which is running in the scenes which are weakly related and strongly related to the scene to which the software belongs; the first threshold is greater than the second threshold.

6. The intelligent terminal according to claim 5, wherein the software installed in the intelligent terminal has a second degree of association;

and the processing module is further used for closing the software according to the electric quantity of the intelligent terminal and the second association degree when the judging module judges that the software does not have the scene type to which the software belongs.

7. The intelligent terminal according to claim 6, wherein at least part of the software installed in the intelligent terminal is non-high frequency use software;

the selection module is further configured to select non-high-frequency software before selecting currently-running software, or after the processing module closes the software according to the current continuous running time of the software, the use state of the intelligent terminal, and the first association degree, or after the processing module closes the software according to the electric quantity of the intelligent terminal and the second association degree;

the judging module is further used for judging whether the continuous non-running time of the non-high-frequency using software is longer than a preset first time;

the processing module is further configured to close the non-high frequency application software when the judging module judges that the continuous non-running time of the non-high frequency application software is longer than a preset first time.

8. The intelligent terminal according to claim 7, wherein the processing module is further configured to determine the system resources occupied by the reserved software and turn off the currently unoccupied system resources after turning off the software according to the current continuous running time of the software, the usage state of the intelligent terminal, and the first association degree, or after turning off the software according to the power of the intelligent terminal and the second association degree, or after turning off the non-high frequency use software.

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