CN103324549A - Method for realizing sleep standby and communication terminal - Google Patents

Method for realizing sleep standby and communication terminal Download PDF

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Publication number
CN103324549A
CN103324549A CN2012100758744A CN201210075874A CN103324549A CN 103324549 A CN103324549 A CN 103324549A CN 2012100758744 A CN2012100758744 A CN 2012100758744A CN 201210075874 A CN201210075874 A CN 201210075874A CN 103324549 A CN103324549 A CN 103324549A
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sleep
holding state
instruction
triggered
application
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CN103324549B (en
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郭斌
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Yulong Computer Telecommunication Scientific Shenzhen Co Ltd
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Yulong Computer Telecommunication Scientific Shenzhen Co Ltd
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Abstract

The invention is suitable for the technical field of communication, and provides a method for realizing sleep standby. The method comprises the following steps: selecting at least one application from all the currently running applications as an application to be restored; entering sleep standby state once the sleep instruction is triggered; closing all applications, saving the application running data of the application to be restored, and deleting the application running data of the applications not to be restored; invoking the sleep standby state once the invoking instruction is triggered; restoring the corresponding application to be restored to the running state before closing, according to saved application running data. Correspondingly, the invention further discloses a communication terminal. Once the sleep standby state is invoked, the application to be restored can be quickly restored, as required by a user, to the running state before closing, so as to save redundant operation steps; the unnecessary memory and cache redundancy can be released, so that the system running efficiency is increased.

Description

Implementation method and the communication terminal of sleep standby
Technical field
The present invention relates to communication technical field, relate in particular to a kind of implementation method and communication terminal of the standby of sleeping.
Background technology
Nowadays Android (Android) operating system has become the mainstream applications on the mobile phone market.Warm user experiences, the man-machine interaction of intelligence, and the application program of magnanimity has been enriched the glamour of Android mobile phone more.In the 3G epoch, mobile phone has not been simple communication tool, and except traditional phone and SMS, online is experienced and amusement, and the functions such as office seem increasingly important.Carry out the use of every application the user after, need one by one it to be closed, perhaps when shutdown, all application are withdrawed from, need to use still when again starting shooting and to open one by one, experience to the user and brought inconvenience.
The core of Android mobile phone most critical is exactly its operating system, and perfectly interactive experience is its advantage.But its shortcoming is also just at this, and it is long that is exactly on time of Android operating system.The start of non intelligent mobile phone is the time of several seconds or ten seconds, but the on time of Android mobile phone often will be several times as much as non intelligent mobile phone.In addition, thousands of application program also is the key factor that the user experiences, but also there is a shortcoming in it, be exactly the user when enjoying convenient that application program brings, when needs mobile phone shutdown or cell phone system are slack-off, the user has to withdraw from application program one by one, is very long start or wake-up waiting and reopens the loaded down with trivial details of application program one by one and at first face next time.
In summary, the existing communication terminal obviously exists inconvenience and defective in actual use, so be necessary to be improved.
Summary of the invention
For above-mentioned defective, the object of the present invention is to provide a kind of implementation method and communication terminal of the standby of sleeping, it can be in sleep after holding state be waken up, and waits to recover to use the running status that quickly recovers to before closing with what the user needed, to save redundant operation steps; And can discharge unnecessary internal memory and buffer memory redundancy, and then improved running efficiency of system.
To achieve these goals, the invention provides a kind of implementation method of the standby of sleeping, comprise that step is as follows:
From whole application programs of current operation, select at least one application program to recover to use as waiting;
After the sleep instruction is triggered, enter the sleep holding state;
Close described whole application program, and preserve the described application service data recovering to use waited, delete the non-application service data recovering to use waited;
Wake up after instruction is triggered, wake described sleep holding state up;
According to the described application service data of preserving, with the application recovery described to be recovered of correspondence to closing front running status.
According to implementation method of the present invention, describedly from whole application programs of current operation, select at least one application program as waiting that the step of recovering to use further comprises:
After the first sleep instruction is triggered, enter common sleep holding state;
According to user selection instruction or system's selection instruction, from whole application programs of current operation, select at least one application program to recover to use as waiting;
After described sleep instruction was triggered, the step that enters the sleep holding state comprised:
After the second sleep instruction is triggered, described common sleep holding state is switched to the deep sleep holding state;
Described waking up after instruction is triggered, the step of waking described sleep holding state up further comprises:
Second wakes up after instruction is triggered, and described deep sleep holding state is switched to described common sleep holding state;
First wakes up after instruction is triggered, and wakes described common sleep holding state up.
According to implementation method of the present invention, described according to the user selection instruction, from whole application programs of current operation, select at least one application program as waiting that the step of recovering to use further comprises:
The application of option to be recovered that shows the whole application programs that comprise current operation;
According to the user selection instruction, from application of option described to be recovered, select at least one application program to recover to use as waiting.
According to implementation method of the present invention, described according to system's selection instruction, from whole application programs of current operation, select at least one application program as waiting that the step of recovering to use further comprises:
Whole application programs of adding up current operation by user selection as the preservation number of times of waiting to recover to use;
The recovery priority of described whole application programs is set according to described preservation number of times, and described preservation number of times more described recovery priority is higher;
From described whole application programs, automatically select the application program of the forward predetermined number of described recovery priority, recover to use as waiting.
According to implementation method of the present invention, after described the second sleep instruction was triggered, the step that described common sleep holding state is switched to the deep sleep holding state comprised:
After entering described common sleep holding state and reaching the schedule time, trigger generating the second sleep instruction;
According to described the second sleep instruction, described common sleep holding state is switched to the deep sleep holding state.
The present invention also provides a kind of communication terminal, includes:
Select module, be used for selecting at least one application program to recover to use as waiting from whole application programs of current operation;
The sleep module is used for entering the sleep holding state after the sleep instruction is triggered;
Closing module is used for closing described whole application program after entering described sleep holding state, and preserves the described application service data recovering to use waited, deletes the non-application service data recovering to use waited;
Wake module is used for waking described sleep holding state up waking up after instruction is triggered;
Recover module, be used for according to the described application service data of preserving, with the application recovery described to be recovered of correspondence to closing front running status.
According to communication terminal of the present invention, described sleep module further comprises:
The first sleep submodule is used for entering common sleep holding state after the first sleep instruction is triggered;
The second sleep submodule is used for after the second sleep instruction is triggered described common sleep holding state being switched to the deep sleep holding state;
Described selection module also is used for after entering common sleep holding state, according to user selection instruction or system's selection instruction, selects at least one application program to recover to use as waiting from whole application programs of current operation;
Described wake module further comprises:
Second wakes submodule up, is used for waking up after instruction is triggered second, and described deep sleep holding state is switched to described common sleep holding state;
First wakes submodule up, is used for waking up after instruction is triggered first, wakes described common sleep holding state up.
According to communication terminal of the present invention, described selection module further comprises:
Display sub-module is used for the application of option to be recovered that demonstration comprises whole application programs of current operation;
The chooser module is used for according to the user selection instruction, selects at least one application program to recover to use as waiting from application of option described to be recovered.
According to communication terminal of the present invention, described selection module further comprises:
Add up submodule, waited the preservation number of times that recovers to use for whole application programs of adding up current operation by the user selection conduct;
Submodule is set, is used for arranging according to described preservation number of times the recovery priority of described whole application programs, described preservation number of times more described recovery priority is higher;
Described chooser module is used for automatically selecting from described whole application programs the application program of the forward predetermined number of described recovery priority, recovers to use as waiting.
According to communication terminal of the present invention, described the second sleep submodule is used for after entering described common sleep holding state and reaching the schedule time, trigger generating the second sleep instruction, and according to described the second sleep instruction, described common sleep holding state is switched to the deep sleep holding state.
The present invention enters sleep during holding state at communication terminal, will close whole application programs, and waiting of preserving that the user the needs application service data recovering to use, and deletes the application service data of other application; When the sleep holding state is waken up, according to the application service data of preserving, preferentially will wait to recover to use the running status that returns to rapidly before closing, wait the execution efficient recovering to use after waking up thereby improved, save redundant operation steps and running time; Because the application service data of other application is eliminated, has at utmost discharged the redundancy in internal memory and the buffer memory, and then improved the running efficiency of system after waking up simultaneously.
Description of drawings
Fig. 1 is the structural representation of communication terminal of the present invention;
Fig. 2 is the structural representation of preferred communication terminal of the present invention;
Fig. 3 is the sleep process flow diagram of implementation method of standby of the present invention;
Fig. 4 is preferably the sleep process flow diagram of implementation method of standby of the present invention; And
Fig. 5 is the preferably process flow diagram of application choice step to be recovered of the present invention.
Embodiment
In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, is not intended to limit the present invention.
Fig. 1 shows the structure of communication terminal of the present invention, described communication terminal 100 can be mobile phone, PDA (Personal Digital Assistant, personal digital assistant), panel computer etc., described communication terminal 100 comprises at least to be selected module 10, sleep module 20, closing module 30, wake module 40 and recovers module 50, wherein:
Select module 10, be used for selecting at least one application program to recover to use as waiting from whole application programs of current operation.
Sleep module 20 is used for after the sleep instruction is triggered, and for example presses power key with the head of a household and triggers generation sleep instruction, enters the sleep holding state.Described sleep holding state is really shutdown not, and this moment, the internal memory of communication terminal 100 still was in the powered operation state, but the CPU of communication terminal 100 (Central Processing Unit, central processing unit) and storer can be closed.
Closing module 30 is used for closing whole application programs after entering the sleep holding state, and preserves and wait the application service data recovering to use, deletes the non-application service data recovering to use waited, with the junk data of releasing memory and buffer memory.The described application service data of recovering to use of waiting will be stored in the internal memory of communication terminal 100, certainly for preventing the improper loss of power accident, described application service data can be stored in the internal memory and storer of communication terminal 100 simultaneously.
Wake module 40 is used for for example triggering to generate by power key with the head of a household and waking instruction up waking up after instruction is triggered, and wakes the sleep holding state up, and communication terminal 100 will enter normal operating condition this moment.
Recover module 50, be used for the application service data of preserving according to closing module 30, with the application recovery to be recovered of correspondence to closing front running status.Specifically, recovery module 50 can be transferred the application service data in the internal memory that is stored in communication terminal 100, and according to this application service data with correspondence wait to recover to use the running status that returns to rapidly before closing, the user can continue the operation of last time and used this moment.If improper outage has occured in sleep in the stand-by time, then recover module 50 and can transfer application service data in the storer that is stored in communication terminal 100, and according to use service data with the application recovery to be recovered of correspondence to closing front running status.
The present invention considers that long and when shutdown on time of communication terminal 100 can close the factors such as all application programs, a new sleep standby scheme has been proposed, the user not only can eliminate bothering that the important application of closing opens again again one by one, and can also uncompleted running status continue to use before waking communication terminal 100 rear quick joinings up and closing.In addition, close application program during sleep and can discharge the buffer memory redundancy, improve the operational efficiency of after waking up, using system.The present invention is particularly useful for being equipped with the communication terminal of Android operating system, certainly also applicable to the communication terminal according to other operating systems.
Fig. 2 is the structural representation of preferred communication terminal of the present invention, and described communication terminal 100 comprises at least to be selected module 10, sleep module 20, closing module 30, wake module 40 and recover module 50, wherein:
Described sleep module 20 further comprises:
The first sleep submodule 21 is used for entering common sleep holding state after the first sleep instruction is triggered.Described common sleep holding state is identical with existing sleep holding state, can be waken up rapidly.When for example communication terminal 100 stand-by times surpass the schedule time, trigger generating the first sleep instruction, communication terminal 100 enters common sleep holding state, and this moment, screen can show common sleep standby interface in the short time.
The second sleep submodule 22 is used for after the second sleep instruction is triggered communication terminal 100 being switched to the deep sleep holding state from common sleep holding state, and this moment, screen preferably entered the blank screen state.Be more preferably, the second sleep submodule 22 is used for after communication terminal 100 enters common sleep holding state and reaches the schedule time, for example after 20 minutes, trigger generating the second sleep instruction, and according to the second sleep instruction common sleep holding state is switched to the deep sleep holding state.The described schedule time can be by User Defined setting or system default setting.Certain the second sleep instruction also can trigger generation by modes such as power keys by long.
Described selection module 10 is used for after entering common sleep holding state, according to user selection instruction or system's selection instruction, selects at least one application program to recover to use as waiting from whole application programs of current operation.Namely waiting to recover to use has two kinds of selection modes: the user manually selects or system is selected automatically.
Preferably, described selection module 10 further comprises:
Display sub-module 11 is used for the application of option to be recovered that demonstration comprises whole application programs of current operation.
Chooser module 12 is used for according to the user selection instruction, selects at least one application program to recover to use as waiting from application of option to be recovered.
After communication terminal 100 enters common sleep holding state, can on common sleep standby interface, automatically list the option sign of current all application programs of moving, this option sign place also can be with corresponding application function prompting, and the user can manually select one or more application programs to preserve as waiting to recover to use.
Be more preferably, described selection module 10 further comprises:
Add up submodule 13, waited the preservation number of times that recovers to use for whole application programs of adding up current operation by the user selection conduct; It is pointed out that as the user and manually select after recover to use preserving, statistics submodule 13 is the preservation number of times of the corresponding application program of record automatically, so that as the basis of later stage statistics.
Submodule 14 is set, is used for arranging according to the preservation number of times recovery priority of whole application programs, it is higher that the preservation number of times recovers priority more at most.
Described chooser module 12 is used for automatically selecting from whole application programs the application program of the forward predetermined number of recovery priority, and for example 3 forward application programs of priority are recovered to use as waiting.
Described closing module 30 is used for closing whole application programs after entering the sleep holding state, and preserves and wait the application service data recovering to use, deletes the non-application service data recovering to use waited, with the redundancy of releasing memory and buffer memory.
Described wake module 40 further comprises:
Second wakes submodule 42 up, is used for waking up after instruction is triggered second, and the deep sleep holding state is switched to common sleep holding state.Preferably trigger second by length by modes such as power keys and wake instruction up, this moment, screen can show common sleep standby interface.Be more preferably, can in the wake operation of deep sleep holding state, cryptographic authorization functions be set, need to just can normally wake up by checking, otherwise can't wake up.
First wakes submodule 41 up, is used for waking up after instruction is triggered first, wakes common sleep holding state up, and this moment, communication terminal 100 entered normal operating condition.
Recover module 50, be used for according to the application service data of preserving, to closing front running status, the user can continue the operation of last time and use with the application recovery to be recovered of correspondence.
The present invention is similar to state of redefinition between the off-mode of communication terminal and common sleep holding state, can be described as the deep sleep holding state, simultaneously can keep original common sleep holding state, can be in sleep after holding state be waken up, wait to recover to use the running status that quickly recovers to before closing with what the user needed.When not only having avoided the communication terminal long-play to widely apply program, owing to the rubbish of internal memory and buffer memory is in time cleared up by system recoveries, and the problem that causes system to become more and more slower; All application programs all will be closed after also having avoided simultaneously shutdown, and the user can only open the drawback of required application program one by one behind very long booting wait.
Fig. 3 is the sleep process flow diagram of implementation method of standby of the present invention, its can by as Fig. 1 or communication terminal 100 realizations shown in Figure 2, described method comprises that step is as follows:
Step S301 selects at least one application program to recover to use as waiting from whole application programs of current operation.
Step S302 after the sleep instruction is triggered, enters the sleep holding state.Described sleep holding state is really shutdown not, and this moment, the internal memory of communication terminal 100 still was in the powered operation state, but the CPU of communication terminal 100 and storer can be closed.
Step S303 closes whole application programs, and preserves and wait the application service data recovering to use, deletes the non-application service data recovering to use waited, with the junk data of releasing memory and buffer memory.The described application service data of recovering to use of waiting will be stored in the internal memory of communication terminal 100, call rapidly afterwards so that wake up; Described application service data can certainly be stored in the internal memory and storer of communication terminal 100 simultaneously.
Step S304 wakes up after instruction is triggered, and wakes the sleep holding state up, and communication terminal 100 will enter normal operating condition this moment.
Step S305, according to the application service data of preserving, with the application recovery to be recovered of correspondence to closing front running status.Specifically, this step can be transferred the application service data in the internal memory that is stored in communication terminal 100, and according to this application service data with correspondence wait to recover to use the running status that returns to rapidly before closing, the user can continue the operation of last time and used this moment.
Fig. 4 is preferably the sleep process flow diagram of implementation method of standby of the present invention, and it can realize by communication terminal 100 as shown in Figure 2, and described method comprises that step is as follows:
Step S401, the normal use after communication terminal 100 starts.
Step S402 after the first sleep instruction is triggered, enters common sleep holding state, and described common sleep holding state is identical with existing sleep holding state, can be waken up rapidly.
Step S403 according to user selection instruction or system's selection instruction, selects at least one application program to recover to use as waiting from whole application programs of current operation, and this step is application choice step to be recovered.
Step S404 after the second sleep instruction is triggered, switches to the deep sleep holding state with common sleep holding state.Preferably, after communication terminal 100 entered common sleep holding state and reaches the schedule time, for example after 10 minutes, system automatically triggered and generates the second sleep instruction, and according to the second sleep instruction, communication terminal 100 is switched to the deep sleep holding state from common sleep holding state.
Step S405 closes whole application programs, and preserves and wait the application service data recovering to use, deletes the non-application service data recovering to use waited.
Step S406, second wakes up after instruction is triggered, and the deep sleep holding state is switched to common sleep holding state.
Step S407, first wakes up after instruction is triggered, and wakes common sleep holding state up.
Step S408 according to the application service data of preserving, waits to recover to use the running status that returns to rapidly before closing with correspondence.
Fig. 5 is the preferably process flow diagram of application choice step to be recovered of the present invention, and they can be by communication terminal 100 realizations as shown in Figure 2, and application choice step described to be recovered specifically includes:
Step S501, system judge it is to select to wait to recover to use according to user selection instruction or system's selection instruction, if according to user selection instruction execution in step S502 then, if according to system's selection instruction execution in step S505 then.The user can arrange in advance by manual selection in communication terminal 100 or automatically select to wait and recover to use, certainly also can be when communication terminal 100 enter common sleep holding state, the display alarm user manually selects or automatically selects to wait the selection information recovering to use.
Step S502 shows the application of option to be recovered of the whole application programs that comprise current operation at the screen of communication terminal 100, this step can be realized by the display sub-module 11 of selecting module 10.
Step S503 according to the user selection instruction, selects at least one application program to recover to use as waiting from application of option to be recovered, and this step can be realized by the chooser module 12 of selecting module 10.
As the preservation number of times of waiting to recover to use, this step can be realized by the statistics submodule 13 of selecting module 10 by the application program of user selection for step S504, record.In the manual selection operation of at every turn waiting to recover to use, the number of times that system all can recover to use to waiting of preserving of record is so that later stage statistics and recovery priority is set.
Step S505, as the preservation number of times of waiting to recover to use, this step can be realized by the statistics submodule 13 of selecting module 10 whole application programs of adding up current operation by user selection.
Step S506, according to the recovery priority of preserving number of times and arrange whole application programs, preserving number of times, to recover more at most priority higher, namely according to preserving how much sorting of number of times, automatically adjusts from high to low and arrange recovery priority.This step can be realized by the submodule 14 that arranges of selecting module 10.
Step S507, the automatic application program of selecting to recover the forward predetermined number of priority from whole application programs is recovered to use as waiting, and this step can be realized by the chooser module 12 of selection module 10.
When the present embodiment is selected to wait to recover to use in system automatically, that preservation number of times according to application program arranges and recovers priority, but arranging according to being not limited to this of described recovery priority is such as can also recovery priority being set according to the frequency of utilization of application program etc.
Be more preferably, in communication terminal 100 normal uses, if cross lowly when needing to cause certain applications program that hard closing moving because of internal memory, can automatically close from low to high according to the recovery priority of application program, until internal memory recovers normal operating condition.
In sum, the present invention enters sleep during holding state at communication terminal, will close whole application programs, and waiting of preserving that the user the needs application service data recovering to use, and deletes the application service data of other application; When the sleep holding state is waken up, according to the application service data of preserving, preferentially will wait to recover to use the running status that returns to rapidly before closing, wait the execution efficient recovering to use after waking up thereby improved, save redundant operation steps and running time; Because the application service data of other application is eliminated, has at utmost discharged the redundancy in internal memory and the buffer memory, and then improved the running efficiency of system after waking up simultaneously.
Certainly; the present invention also can have other various embodiments; in the situation that do not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make according to the present invention various corresponding changes and distortion, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the present invention.

Claims (10)

1. the implementation method of the standby of sleeping is characterized in that, comprises that step is as follows:
From whole application programs of current operation, select at least one application program to recover to use as waiting;
After the sleep instruction is triggered, enter the sleep holding state;
Close described whole application program, and preserve the described application service data recovering to use waited, delete the non-application service data recovering to use waited;
Wake up after instruction is triggered, wake described sleep holding state up;
According to the described application service data of preserving, with the application recovery described to be recovered of correspondence to closing front running status.
2. implementation method according to claim 1 is characterized in that, describedly selects at least one application program as waiting that the step of recovering to use further comprises from whole application programs of current operation:
After the first sleep instruction is triggered, enter common sleep holding state;
According to user selection instruction or system's selection instruction, from whole application programs of current operation, select at least one application program to recover to use as waiting;
After described sleep instruction was triggered, the step that enters the sleep holding state comprised:
After the second sleep instruction is triggered, described common sleep holding state is switched to the deep sleep holding state;
Described waking up after instruction is triggered, the step of waking described sleep holding state up further comprises:
Second wakes up after instruction is triggered, and described deep sleep holding state is switched to described common sleep holding state;
First wakes up after instruction is triggered, and wakes described common sleep holding state up.
3. implementation method according to claim 2 is characterized in that, and is described according to the user selection instruction, selects at least one application program as waiting that the step of recovering to use further comprises from whole application programs of current operation:
The application of option to be recovered that shows the whole application programs that comprise current operation;
According to the user selection instruction, from application of option described to be recovered, select at least one application program to recover to use as waiting.
4. implementation method according to claim 3 is characterized in that, and is described according to system's selection instruction, selects at least one application program as waiting that the step of recovering to use further comprises from whole application programs of current operation:
Whole application programs of adding up current operation by user selection as the preservation number of times of waiting to recover to use;
The recovery priority of described whole application programs is set according to described preservation number of times, and described preservation number of times more described recovery priority is higher;
From described whole application programs, automatically select the application program of the forward predetermined number of described recovery priority, recover to use as waiting.
5. implementation method according to claim 2 is characterized in that, after described the second sleep instruction was triggered, the step that described common sleep holding state is switched to the deep sleep holding state comprised:
After entering described common sleep holding state and reaching the schedule time, trigger generating the second sleep instruction;
According to described the second sleep instruction, described common sleep holding state is switched to the deep sleep holding state.
6. a communication terminal is characterized in that, includes:
Select module, be used for selecting at least one application program to recover to use as waiting from whole application programs of current operation;
The sleep module is used for entering the sleep holding state after the sleep instruction is triggered;
Closing module is used for closing described whole application program after entering described sleep holding state, and preserves the described application service data recovering to use waited, deletes the non-application service data recovering to use waited;
Wake module is used for waking described sleep holding state up waking up after instruction is triggered;
Recover module, be used for according to the described application service data of preserving, with the application recovery described to be recovered of correspondence to closing front running status.
7. communication terminal according to claim 6 is characterized in that, described sleep module further comprises:
The first sleep submodule is used for entering common sleep holding state after the first sleep instruction is triggered;
The second sleep submodule is used for after the second sleep instruction is triggered described common sleep holding state being switched to the deep sleep holding state;
Described selection module also is used for after entering common sleep holding state, according to user selection instruction or system's selection instruction, selects at least one application program to recover to use as waiting from whole application programs of current operation;
Described wake module further comprises:
Second wakes submodule up, is used for waking up after instruction is triggered second, and described deep sleep holding state is switched to described common sleep holding state;
First wakes submodule up, is used for waking up after instruction is triggered first, wakes described common sleep holding state up.
8. communication terminal according to claim 7 is characterized in that, described selection module further comprises:
Display sub-module is used for the application of option to be recovered that demonstration comprises whole application programs of current operation;
The chooser module is used for according to the user selection instruction, selects at least one application program to recover to use as waiting from application of option described to be recovered.
9. communication terminal according to claim 8 is characterized in that, described selection module further comprises:
Add up submodule, waited the preservation number of times that recovers to use for whole application programs of adding up current operation by the user selection conduct;
Submodule is set, is used for arranging according to described preservation number of times the recovery priority of described whole application programs, described preservation number of times more described recovery priority is higher;
Described chooser module is used for automatically selecting from described whole application programs the application program of the forward predetermined number of described recovery priority, recovers to use as waiting.
10. communication terminal according to claim 7, it is characterized in that, described the second sleep submodule is used for after entering described common sleep holding state and reaching the schedule time, trigger and generate the second sleep instruction, and according to described the second sleep instruction, described common sleep holding state is switched to the deep sleep holding state.
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CN104021330A (en) * 2014-05-28 2014-09-03 宇龙计算机通信科技(深圳)有限公司 Method and device for user switching
CN104375839A (en) * 2014-11-28 2015-02-25 东莞宇龙通信科技有限公司 Data processing method and device in sleep mode and mobile terminal
CN105630628A (en) * 2015-12-17 2016-06-01 小米科技有限责任公司 Application restoration method and apparatus
CN105955803A (en) * 2016-04-22 2016-09-21 上海斐讯数据通信技术有限公司 Terminal and method for recovering state of application program
CN106020415A (en) * 2016-05-09 2016-10-12 深圳市万普拉斯科技有限公司 Application control method and apparatus for intelligent device in standby state
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CN106341733A (en) * 2016-10-20 2017-01-18 北京小米移动软件有限公司 Smart TV power control method and apparatus
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CN106162340A (en) * 2016-07-25 2016-11-23 四川长虹电器股份有限公司 The changing method of the multiple standby mode of intelligent television
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CN111901649A (en) * 2020-08-13 2020-11-06 海信视像科技股份有限公司 Video playing method and display equipment
CN114416183A (en) * 2020-10-28 2022-04-29 武汉软艺信息技术有限公司 Method and device for rapidly restoring App state based on iOS system

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