CN110536019B - High-stability timing awakening method and device - Google Patents

High-stability timing awakening method and device Download PDF

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Publication number
CN110536019B
CN110536019B CN201910835476.XA CN201910835476A CN110536019B CN 110536019 B CN110536019 B CN 110536019B CN 201910835476 A CN201910835476 A CN 201910835476A CN 110536019 B CN110536019 B CN 110536019B
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Prior art keywords
wake
time
application program
user
alarm clock
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CN110536019A (en
Inventor
黄常建
陈晨
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Shenzhen JWIPC Technology Co Ltd
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Shenzhen JWIPC Technology Co Ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/724User interfaces specially adapted for cordless or mobile telephones
    • H04M1/72448User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions
    • H04M1/72451User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions according to schedules, e.g. using calendar applications
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W52/00Power management, e.g. TPC [Transmission Power Control], power saving or power classes
    • H04W52/02Power saving arrangements
    • H04W52/0209Power saving arrangements in terminal devices
    • H04W52/0225Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
    • H04W52/0229Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal where the received signal is a wanted signal
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W52/00Power management, e.g. TPC [Transmission Power Control], power saving or power classes
    • H04W52/02Power saving arrangements
    • H04W52/0209Power saving arrangements in terminal devices
    • H04W52/0225Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
    • H04W52/0248Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal dependent on the time of the day, e.g. according to expected transmission activity
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Abstract

The invention is suitable for the technical field of application program awakening, and provides a high-stability timed awakening method and device; the method comprises the following steps: when timer wake-up time intervals sent by a plurality of application programs in a one-to-one correspondence mode are received, a plurality of wake-up alarm clock groups are formed according to the power saving level of the application program set by a user or the latest updated power saving level read from a database of the application program; adjusting the timer wake-up time intervals of all application programs in the wake-up alarm clock group to be consistent; when the awakening time of the awakening alarm clock group reaches after the awakening time intervals of the timers of all the application programs in the awakening alarm clock group are adjusted to be consistent, awakening all the application programs in the awakening alarm clock group; therefore, the awakening requirement of the application program is not influenced while the number of times of awakening the mobile terminal is obviously reduced, the running stability of the mobile terminal is greatly improved, the power consumption of the mobile terminal is reduced, and the standby time of the mobile terminal is prolonged.

Description

High-stability timing awakening method and device
Technical Field
The invention belongs to the technical field of application program awakening, and particularly relates to a high-stability timed awakening method and device.
Background
Along with the popularization of the intelligent terminal, the demand of consumers on the intelligent terminal is greater and greater, and higher requirements are also put forward on the intelligent terminal; taking a smart phone in a smart terminal as an example, a user usually requires an application program on the smart phone, such as a mobile QQ, to be always online, so that the user can receive messages at any time.
If the application program is to be always online, the application program needs to interact with the network server at regular time; in the using process of the smart phone, the smart phone can be in a dormant state periodically to save power consumption, and in order to meet the requirement of interaction with the network server at regular time, the mobile phone system needs to be awakened from the dormant state first, and the mobile phone can interact with the network server.
In a specific implementation, each application program on the smartphone generally has a function of setting a timer (Alarm), and the application program sends a timer setting instruction (including a setting time of the timer) to a timer management Service unit (Alarm Manager Service) on the smartphone, and the timer management Service unit sets the timer according to the instruction and wakes up the smartphone from a sleep state at the time indicated by the timer; and each application program has a respective timer, and the timer management service unit responds to the timer setting instruction of each application program respectively to wake up the mobile phone.
However, because the number of the application programs set on the smart phone is large, each application program is interacted with the network server at regular time, and a timer is also set continuously, so that the smart phone is frequently awakened; meanwhile, the number of awakened application programs is large, so that too much operation memory of the mobile terminal is occupied, the mobile terminal is blocked seriously, stable operation cannot be realized, smooth operation of necessary application programs after awakening cannot be guaranteed, and a large number of application programs are awakened to consume a large amount of electric energy, so that the standby time of the smart phone is shortened.
Disclosure of Invention
The invention aims to provide a high-stability timed awakening method and device, and aims to solve the problems that the standby time of a mobile terminal is short and the user experience is poor due to the fact that the prior art cannot provide an effective high-stability timed awakening method and device.
In one aspect, the present invention provides a high-stability timed wake-up method, including the following steps:
receiving timer wake-up time intervals sent by a plurality of application programs in a one-to-one correspondence manner, and reading a latest updated power saving level from a database of the application programs according to a power saving level of the application program set by a user to form a plurality of wake-up alarm clock groups, wherein the wake-up time intervals of the wake-up alarm clock groups are different from each other; adjusting timer wake-up time intervals of each application program in the wake-up alarm clock group to be consistent;
after the timer wake-up time intervals of each of the applications within the wake-up alarm clock set are adjusted to be consistent: when the wake-up time of the wake-up alarm clock group arrives, waking up all the application programs in the wake-up alarm clock group;
obtaining a latest updated power saving level in the database of the application from a remote server;
the method further comprises the step of forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user;
the power saving levels of the application programs are arranged according to a high-low sequence and sequentially comprise: high, medium, low; if the power saving level of the application program is high, the timer wake-up time interval of the application program is longer or the timer wake-up is forbidden, and if the power saving level of the application program is low, the timer wake-up time interval of the application program is shorter;
the awakening time intervals of the awakening alarm clock groups are correspondingly set one by one according to the power saving level of an application program; when a plurality of wake-up alarm clock groups are formed according to the power saving level of the application program set by the user or the latest updated power saving level read from the database of the application program, the method further comprises the following steps: and correspondingly adding the application program into the corresponding awakening alarm clock group according to the power saving level of the application program and the mapping relation between the power saving level and the awakening alarm clock group.
Further preferably, after all the applications in the wake up alarm clock set are woken up: detecting in real-time a time of any one or more of the applications within the wake up alarm clock set opened by the user; and after 24 hours, forcibly waking one or more of the applications within the wake alarm set that the user opened before 24 hours.
Preferably, after said 24 hours forcing wake-up to one or more of said applications within said wake-up alarm set opened by said user before 24 hours: setting the time length of the forced awakening time period of one or more application programs in one-to-one correspondence according to the frequency of one or more application programs in the awakening alarm clock group opened by the user before the time, and awakening the corresponding one or more application programs according to the forced awakening interval and the interval set by the user in the time length of the forced awakening time period.
Further preferably, after all the applications in the wake up alarm clock set are woken up: detecting the use duration of any one or more application programs in the wake-up alarm clock group opened by the user in real time;
and subtracting the half time of the use time of the application program with the longest opening time in any one or more application programs in the wake-up alarm clock group opened by the user last time by 24 hours to obtain the time of forced wake-up again, and correspondingly and forcibly waking up one or more application programs in the wake-up alarm clock group opened by the user last time when the time of forced wake-up again is reached.
Preferably, after the corresponding forced wake-up of one or more of the applications in the wake-up alarm set last opened by the user at the time of the arrival of the forced wake-up again: and setting the time length of the time period of forced awakening of the one or more application programs at the time in a one-to-one correspondence manner according to the frequency of the one or more application programs in the awakening alarm clock group opened by the user before the time, and awakening the corresponding one or more application programs according to the forced awakening interval and interval set by the user in the time length of the time period of forced awakening.
Further preferably, after the corresponding forced wake-up of one or more of the applications in the wake-up alarm clock set last opened by the user when the time of forced wake-up again arrives: and correspondingly setting the time length of the time period of forced awakening of the application program at the time according to the use time length of the application program opened by the user last time, and awakening one or more corresponding application programs according to the forced awakening interval and interval set by the user in the time length of the time period of forced awakening.
Preferably, in the time length of the time period corresponding to the time length of the forced wake-up of the application program, which is set according to the use time length of the application program opened by the user last time, the following steps are performed: the duration of the forced wake-up time period is equal to the usage duration of the application program opened by the user last time.
Preferably, the usage duration of the application is a time interval between a first manipulation after the application is opened and a last manipulation before the application is exited.
Further preferably, before the forming a plurality of wake-up alarm sets according to the power saving level of the application program set by the user or reading the latest updated power saving level from the database of the application program, the method further includes: determining that the application program does not have an alarm clock reminding function, a memorandum reminding function and a remote awakening function;
further comprising upon arrival of a wake-up time for the wake-up clock set after the timer wake-up time intervals for each of the applications in the wake-up clock set are adjusted to be uniform, prior to waking up all of the applications in the wake-up clock set, further comprising: determining that the mobile terminal installed with a plurality of the application programs is in a power-on state;
before forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user, the method further comprises the following steps: detecting in real-time a frequency of one or more of the applications opened by the user.
In another aspect, the present invention provides a high stability timed wake-up apparatus, comprising:
the memory is used for storing program codes and is also used for storing timer awakening time intervals sent by each application program;
a processor for executing program code stored in the memory;
when the processor executes the program code, the mobile terminal is caused to perform the following:
receiving timer wake-up time intervals sent by a plurality of application programs in a one-to-one correspondence manner, and reading a latest updated power saving level from a database of the application programs according to a power saving level of the application program set by a user to form a plurality of wake-up alarm clock groups, wherein the wake-up time intervals of the wake-up alarm clock groups are different from each other; adjusting timer wake-up time intervals of each application program in the wake-up alarm clock group to be consistent;
waking all of the applications in the wake-up alarm clock set when a wake-up time for the wake-up alarm clock set has arrived after the timer wake-up time intervals for each of the applications in the wake-up alarm clock set have been adjusted to be consistent;
obtaining a latest updated power saving level in the database of the application from a remote server;
the method further comprises the step of forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user;
after all of the applications within the wake alarm clock set are woken up: detecting the use duration of any one or more application programs in the wake-up alarm clock group opened by the user in real time;
subtracting the half time of the use time of the application program with the longest opening time in any one or more application programs in the wake-up alarm clock group by using 24 hours, obtaining the time of forced wake-up again, and when the time of forced wake-up again is reached, correspondingly and forcibly waking up one or more application programs in the wake-up alarm clock group opened by the user last time;
after the corresponding forced wake-up of one or more of the applications in the wake-up alarm clock set last opened by the user at the time of the arrival of the forced wake-up again: correspondingly setting the duration of a forced awakening time period of the application program at the time according to the use duration of the application program opened by the user last time, and awakening one or more corresponding application programs according to a forced awakening interval and an interval set by the user within the duration of the forced awakening time period;
in the time length of the time period of the forced wakeup of the application program at the time correspondingly set according to the use time length of the application program opened by the user last time: the duration of the forced wake-up time period is equal to the use duration of the application program opened by the user last time;
before the forming a plurality of wake-up alarm clock groups according to the power saving level of the application program set by the user or the power saving level which is read from the database of the application program and updated latest: determining that the application program does not have an alarm clock reminding function, a memorandum reminding function and a remote awakening function;
further comprising upon arrival of a wake-up time for the wake-up clock set after the timer wake-up time intervals for each of the applications in the wake-up clock set are adjusted to be uniform, prior to waking up all of the applications in the wake-up clock set, further comprising: determining that a mobile terminal provided with a plurality of application programs is in a starting state;
before forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user, the method further comprises the following steps: detecting in real-time a frequency of one or more of the applications opened by the user.
The invention has the beneficial effects that: when timer wake-up time intervals sent by a plurality of application programs in a one-to-one correspondence mode are received, a plurality of wake-up alarm clock groups are formed according to the power saving level of the application program set by a user or the latest updated power saving level read from a database of the application program, wherein the wake-up time intervals of the wake-up alarm clock groups are different from each other; adjusting the timer wake-up time intervals of all application programs in the wake-up alarm clock group to be consistent; when the awakening time of the awakening alarm clock group reaches after the awakening time intervals of the timers of all the application programs in the awakening alarm clock group are adjusted to be consistent, awakening all the application programs in the awakening alarm clock group; wherein the most recently updated power saving level in the database of the application is obtained from the remote server; and also forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user; therefore, the awakening requirement of the application program is not influenced while the number of times of awakening the mobile terminal is obviously reduced, the running stability of the mobile terminal is greatly improved, the power consumption of the mobile terminal is reduced, the standby time of the mobile terminal is prolonged, and the user experience is improved.
Drawings
Fig. 1 is a flowchart illustrating an implementation of a high-stability timed wake-up method according to an embodiment of the present invention;
fig. 2 is a flowchart of an implementation of a high-stability timed wake-up method according to a second embodiment of the present invention;
fig. 3 is a flowchart of an implementation of a high-stability timed wake-up method according to a third embodiment of the present invention;
fig. 4 is a flowchart of an implementation of a high-stability timed wake-up method according to a fourth embodiment of the present invention;
fig. 5 is a flowchart of an implementation of the high-stability timed wake-up method according to the fifth embodiment of the present invention;
fig. 6 is a schematic structural diagram of a high-stability timing wake-up apparatus according to a sixth embodiment of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The following detailed description of specific implementations of the present invention is provided in conjunction with specific embodiments:
the first embodiment is as follows:
fig. 1 shows an implementation flow of a high-stability timed wake-up method according to an embodiment of the present invention, and for convenience of description, only the relevant parts related to the embodiment of the present invention are shown, which are detailed as follows:
in step S101: and receiving timer wake-up time intervals sent by a plurality of application programs in a one-to-one correspondence manner.
In an embodiment of the invention: the mobile terminal is usually provided with a plurality of application programs, and the application programs can regularly interact with the network server to meet the online requirement of a terminal user, so that each application program can continuously set a timer wake-up time interval to wake up the intelligent terminal in a dormant state at the specified wake-up time so as to establish communication connection with the remote server.
In step S102, a plurality of wake-up alarm clock sets are formed according to the power saving level of the application program set by the user or the latest updated power saving level read from the database of the application program.
In an embodiment of the invention: forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user; and before forcing an update of the power saving level in the database of the application according to the frequency with which the application is opened by the user, further comprising: detecting in real-time a frequency of one or more applications opened by a user;
and the wake-up time intervals of the plurality of wake-up alarm clock groups are different from each other, and before the plurality of wake-up alarm clock groups are formed according to the power saving level of the application program set by the user or the latest updated power saving level read from the database of the application program, the method further comprises: determining that the application program does not have an alarm clock reminding function, a memorandum reminding function and a remote awakening function;
further preferably, the latest updated power saving level in the database of the application program is obtained from a remote server; and in an embodiment of the invention further comprising: forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user; wherein, the power saving level of the application program sequentially comprises according to the high-low order: high, medium, low; if the power saving level of the application program is high, the timer awakening time interval of the application program is longer or forbidden to be awakened, and if the power saving level of the application program is low, the timer awakening time interval of the application program is shorter; for example: the power saving level of the communication software such as the WeChat and the QQ is low, the aim is to better realize instant communication, and the query software such as the mobile phone Taobao, the dictionary communication and the like has no real-time communication requirement, so the power saving level is relatively high, and the software consumes relatively less electric energy compared with the WeChat and the QQ.
In step S103: and correspondingly adding the application program into the corresponding awakening alarm clock group according to the power saving level of the application program and the mapping relation between the power saving level and the awakening alarm clock group.
In the embodiment of the invention, the awakening time intervals of a plurality of awakening alarm clock groups are correspondingly set one by one according to the power saving level of an application program; when a plurality of wake-up alarm clock groups are formed according to the power saving level of the application program set by a user or the latest updated power saving level read from the database of the application program, the method further comprises the following steps: correspondingly adding the application program into the corresponding awakening alarm clock group according to the power saving level of the application program and the mapping relation between the power saving level and the awakening alarm clock group; for example: all the application programs with high power-saving levels or all the application programs with medium power-saving levels are in one wake-up alarm clock group, wherein the higher the power-saving level is, the longer the wake-up time interval is, and the more the electric energy is saved.
In step S104, the timer wake-up time intervals of the respective applications in the wake-up alarm clock group are all adjusted to be the same.
In the embodiment of the invention: the timer wake-up time intervals of the applications in the wake-up alarm clock set are adjusted to be consistent so as to meet the wake-up requirements of the rest applications with the same power saving level in the wake-up alarm clock set.
In step S105, when the wake-up time of the wake-up alarm clock group arrives, all the applications in the wake-up alarm clock group are woken up.
In an embodiment of the invention: when the wakeup time of the wakeup alarm clock set reaches after the timer wakeup time intervals of the applications in the wakeup alarm clock set are adjusted to be consistent, and before waking up all the applications in the wakeup alarm clock set, the method further comprises the following steps: determining that a mobile terminal provided with a plurality of application programs is in a starting state; the method has significance only when the mobile terminal is in a power-on state and is awakened.
Example two:
fig. 2 shows an implementation flow of the high-stability timed wake-up method according to the second embodiment of the present invention, and for convenience of description, only the parts related to the second embodiment of the present invention are shown, which are detailed as follows:
the present embodiment (embodiment two) is different from the above-mentioned embodiment (embodiment one) in that the present embodiment further includes:
step 201: the time of any one or more applications within a wake alarm clock set that a user turns on is detected in real time.
Step 202: after 24 hours, one or more applications within the wake alarm set that the user opened before 24 hours are forced to wake up.
In an embodiment of the invention: after all applications within the wake alarm clock group are woken up: detecting the time of any one or more application programs in a wake alarm clock group opened by a user in real time; and after 24 hours, forcibly waking up one or more application programs in the wake alarm clock group opened by the user before 24 hours (meaning waking up for a certain time and then closing the application program without continuing to wake up at intervals); the method is in line with the daily life rules of people, particularly office workers, or can forcibly wake up one or more application programs in a wake-up alarm clock group opened by a user before 23 hours after 23 hours, so as to refresh data in advance for the use of the user; in the embodiment of the invention, the forced wake-up time of the working day can be further distinguished from the forced wake-up time of the rest day, that is, the time of any one or more application programs in the wake-up alarm clock group opened by the user is detected in real time when the current date is the working day; and when continuing on the working day after 24 hours, forcibly waking up one or more applications within the wake alarm clock set that the user opened before 24 hours; if the day of rest is reached after 24 hours, one or more applications in the wake alarm group opened by the user at the same time of the last day of rest are forced to wake up.
Example three:
fig. 3 shows an implementation flow of a high-stability timed wake-up method provided by the third embodiment of the present invention, and for convenience of description, only the parts related to the third embodiment of the present invention are shown, which are detailed as follows:
the present embodiment (third embodiment) is different from the first embodiment in that the present embodiment further includes:
step 301: the time of any one or more applications within a wake alarm clock set that a user turns on is detected in real time.
Step 302: after 24 hours, one or more applications within the wake alarm set that the user opened before 24 hours are forced to wake up.
In an embodiment of the invention: after all applications within the wake alarm clock group are woken up: detecting the time of any one or more application programs in a wake alarm clock group opened by a user in real time; and after 24 hours, forcibly waking up one or more application programs in the wake alarm clock group opened by the user before 24 hours (meaning waking up for a certain time and then closing the application program without continuing to wake up at intervals); according to big data analysis, the daily life of most people is a repeated daily life rule, particularly office workers, and here or after 23 hours, one or more application programs in a wake-up alarm clock group opened by a user before 23 hours can be forcibly awakened so as to refresh data in advance for the use of the user, namely: after being awakened, the application program can communicate with a remote server to acquire the latest data; it is to be excluded that the user closes the data connection of the mobile terminal or the application.
Step 303: and setting the time length of the forced awakening time period of one or more application programs in one-to-one correspondence according to the frequency of one or more application programs in the awakening alarm clock group opened by the user before the time, and awakening the corresponding one or more application programs according to the forced awakening interval and the interval set by the user in the time length of the forced awakening time period.
In an embodiment of the invention: setting the duration of the time period of the forced wake-up of the one or more applications in the wake-up alarm clock group which is opened by the user before the time in a one-to-one correspondence manner according to the frequency of the one or more applications in the wake-up alarm clock group which is opened by the user before the time, namely, for example, the time period of the forced wake-up time period is only 10 times when the user opens the certain application before the time, the duration of the forced wake-up time period can be set to be 1 minute, and if the time period of the user opens the certain application before the time is only 1 time, the duration of the forced wake-up time period can be set to be 10 seconds or the wake-up time period can not be set, namely, the application is immediately closed after wake; waking up one or more corresponding application programs at intervals according to a forced wake-up interval set by a user within the duration of the forced wake-up time period, that is, for example, if the duration of the forced wake-up time period in the above example is 1 minute, waking up the corresponding application programs at intervals according to the forced wake-up interval set by the user within 1 minute, and if the forced wake-up interval set by the user is 3 seconds, waking up the application programs 20 times at intervals within 1 minute, so that the data of the application programs can be guaranteed to be frequently refreshed within a certain time range after the user opens the application programs for a certain time; the user can obtain the latest data when opening the application program again in a certain time range after opening the application program for a certain time, and does not need to wait to obtain the latest data on site; that is, the early wake-up time when the user opens the application again is extended from one point of time to one period of time.
It needs to be further explained that: in an embodiment of the invention: step S303: setting the time length of a forced awakening time period of one or more application programs in a one-to-one correspondence mode according to the frequency of the one or more application programs in the awakening alarm clock group opened by the user before the time, and awakening the corresponding one or more application programs according to the forced awakening interval and the interval set by the user in the time length of the forced awakening time period; not limited to this embodiment, the step can be used independently, i.e. without being limited by the foregoing steps S301 and S302; based on the above situation, the method can be further modified as follows: and setting timer wake-up time intervals of one or more application programs in a one-to-one correspondence mode according to the frequency of the one or more application programs opened by the user before the time.
Example four:
fig. 4 shows an implementation flow of the high-stability timed wake-up method according to the fourth embodiment of the present invention, and for convenience of description, only the parts related to the fourth embodiment of the present invention are shown, and the details are as follows:
the present embodiment (fourth embodiment) is different from the first embodiment in that:
step S401: and detecting the use duration of any one or more application programs in the wake alarm clock group opened by the user in real time.
In an embodiment of the invention: after all applications within the wake alarm clock group are woken up: and detecting the use duration of any one or more application programs in the wake alarm clock group opened by the user in real time.
Step S402: and subtracting the half time of the use time of the application program with the longest opening time in any one or more application programs in the wake-up alarm clock set opened by the user last time by 24 hours to obtain the time of forced wake-up again, and when the time of forced wake-up again is reached, correspondingly forcing to wake up one or more application programs in the wake-up alarm clock set opened by the user last time.
In an embodiment of the invention: subtracting the half time of the use time of the application program with the longest opening time in any one or more application programs in the last time when the user opens the wake-up alarm clock group by 24 hours to obtain the time of forced wake-up again; the time length of using the application program with the longest opening time in any one or more application programs in the wake-up alarm clock group opened by the user last time indicates that the user is using the mobile terminal in the time (within the time length of using), that is, the time obtained by subtracting the half time of the time length of using the application program with the longest opening time in any one or more application programs in the wake-up alarm clock group opened by the user last time from 24 hours, so as to obtain the time of forced wake-up again, and the time is more in line with the habit of using the mobile terminal by the user; when people use the mobile terminal, people tend to have time to open the lock screen of the mobile terminal, refresh an important application program and see whether a new message comes or not; after 24 hours, the corresponding application program is awakened in advance by one end time (one half of the using time of the application program with the longest opening time in any one or more application programs in the last time of the user opening the awakening alarm clock set), and advanced data updating (refreshing) is performed to prepare for the use of the user;
and subtracting the half time of the use time of the application program with the longest opening time in any one or more application programs in the wake-up alarm clock group opened by the user last time by 24 hours to obtain the time of forced wake-up again, and if the time of forced wake-up again is reached, in one or more application programs in the wake-up alarm clock group opened by the corresponding forced wake-up user last time, if the user opens one application program, the opening time of the application program is the use time of the longest application program.
Step S403: and setting the time length of the time period of the forced awakening of the one or more application programs at the time in a one-to-one correspondence manner according to the frequency of the one or more application programs in the awakening alarm clock group opened by the user before the time, and awakening the corresponding one or more application programs according to the forced awakening interval and the interval set by the user in the time length of the time period of the forced awakening.
In an embodiment of the invention: if the number of times that the user opens the application program before the time is only 10 times, the duration of the forced wake-up time period may be set to 1 minute, and if the number of times that the user opens the application program before the time is only 1 time, the duration of the forced wake-up time period may be set to 10 seconds or may not be set to the wake-up time period, that is, the application program is immediately closed after wake-up (the application program is closed after the communication with the remote server is successful and the data is updated);
awakening one or more corresponding application programs according to the forced awakening interval and the interval set by the user within the duration of the forced awakening time period; for example: if the duration of the time period of the forced wakeup in the above example is 1 minute, the corresponding application program is awakened within 1 minute according to the forced wakeup interval and interval set by the user;
if the forced wake-up interval set by the user is 3 seconds, the application program can be woken up 20 times within 1 minute; after the user opens the application program for a certain time (24 hours), the data of the application program can be ensured to be frequently refreshed (awakened at intervals) within a certain time range (within a forced awakening time period), so that the user can obtain the latest data in time when opening the application program after the certain time (24 hours) (namely, the latest messages can be obtained by the timely communication application programs such as QQ and WeChat within the time period (within the forced awakening time period)) and the latest data does not need to be obtained on site; that is, the time for the user to open the application again for early wake-up of the application is extended from one point in time to one period of time.
Example five:
fig. 5 shows an implementation flow of the high-stability timed wake-up method provided in the fifth embodiment of the present invention, and for convenience of description, only the parts related to the fifth embodiment of the present invention are shown, which are detailed as follows:
the present embodiment (embodiment five) is different from the first embodiment in that:
step S501: and detecting the use duration of any one or more application programs in the wake alarm clock group opened by the user in real time.
In an embodiment of the invention: after all applications within the wake alarm clock group are woken up: and detecting the use duration of any one or more application programs in the wake alarm clock group opened by the user in real time.
Step S502: and subtracting the half time of the use time of the application program with the longest opening time in any one or more application programs in the wake-up alarm clock set opened by the user last time by 24 hours to obtain the time of forced wake-up again, and when the time of forced wake-up again is reached, correspondingly forcing to wake up one or more application programs in the wake-up alarm clock set opened by the user last time.
In an embodiment of the invention: subtracting the half time of the use time of the application program with the longest opening time in any one or more application programs in the last time when the user opens the wake-up alarm clock group by 24 hours to obtain the time of forced wake-up again; the time length of using the application program with the longest opening time in any one or more application programs in the wake-up alarm clock group opened by the user last time indicates that the user is using the mobile terminal in the time (within the time length of using), that is, the time obtained by subtracting the half time of the time length of using the application program with the longest opening time in any one or more application programs in the wake-up alarm clock group opened by the user last time from 24 hours, so as to obtain the time of forced wake-up again, and the time is more in line with the habit of using the mobile terminal by the user; when people use the mobile terminal, people tend to have time to open the lock screen of the mobile terminal, refresh an important application program and see whether a new message comes or not; and awakening the corresponding application program by a period of time (one half of the using time of the application program with the longest opening time in any one or more application programs in the last time when the user opens the awakening alarm clock set) in advance after 24 hours, and updating (refreshing) the data in advance to prepare for the use of the user.
Step S503: and correspondingly setting the duration of the forced awakening time period of the application program according to the use duration of the application program opened by the user last time, and awakening one or more corresponding application programs according to the forced awakening interval and interval set by the user in the duration of the forced awakening time period.
In an embodiment of the invention: the duration of the time period of the forced wake-up of the application program is correspondingly set according to the duration of the application program last opened by the user, that is, the time period of the forced wake-up can be obtained according to the duration of the application program last opened by the user multiplied by a certain time proportion (for example, if the user wants to gradually reduce the wake-up times of the application program in the time period of the forced wake-up, the wake-up proportion can be set to be less than 100%, otherwise, the wake-up times of the application program are gradually increased); the application program is awakened at a forced awakening interval and interval set by a user in the time period, so that data is updated more frequently, and related information is acquired more timely, wherein the duration of the forced awakening time period can be equal to the use duration of the application program opened by the user last time; for different use requirements, for example, in the case that the application program used by the user feeds back detailed information in the same time period after 24 hours.
It should be noted that: the use duration of the application is the time interval between the first manipulation after the application is opened and the last manipulation before the application is exited.
Example six:
fig. 6 shows a structure of a high-stability timed wake-up apparatus according to a sixth embodiment of the present invention, and for convenience of description, only the parts related to the embodiment of the present invention are shown, where the parts include:
the memory is used for storing program codes and is also used for storing timer awakening time intervals sent by each application program;
a processor for executing program code stored in the memory;
when the processor executes the program code, the units of the mobile terminal are caused to perform the following operations:
the receiving unit 601 receives timer wakeup time intervals sent by a plurality of application programs in a one-to-one correspondence.
The grouping unit 602 is configured to form a plurality of wake-up alarm clock groups according to a power saving level of an application program set by a user or a power saving level newly updated read from a database of the application program, where wake-up time intervals of the wake-up alarm clock groups are different from each other.
The adjusting unit 603 adjusts the timer wake-up time intervals of the applications in the wake-up alarm clock group to be consistent.
The wakeup unit 604 wakes up all the applications in the wakeup alarm clock group when the wakeup time of the wakeup alarm clock group reaches after the timer wakeup time intervals of the applications in the wakeup alarm clock group are all adjusted to be consistent. Wherein the most recently updated power saving level in the database of the application is obtained from the remote server.
The adjusting unit 603 also forcibly updates the power saving level in the database of the application according to the frequency of opening the application by the user.
The wake-up unit 604, further after all the applications in the wake-up alarm clock group are woken up: detecting the use duration of any one or more application programs in a wake-up alarm clock set opened by a user in real time;
subtracting the half time of the use time length of the application program with the longest opening time in any one or more application programs in the awakening alarm clock set opened by the user for 24 hours to obtain the time for forced awakening again, and correspondingly forcing to awaken one or more application programs in the awakening alarm clock set opened by the user last time when the time for forced awakening again is reached;
after the corresponding forced wake-up user turns on one or more applications in the wake-up alarm clock set last time when the time for forced wake-up again arrives: setting the duration of a forced awakening time period of the application program according to the use duration of the application program opened by the user last time, and awakening one or more corresponding application programs according to a forced awakening interval and an interval set by the user in the duration of the forced awakening time period;
further preferably, in the time length of the time period of the forced wakeup of the application program, which is set correspondingly according to the use time length of the application program opened by the user last time: the duration of the forced wake-up time period is equal to the use duration of the application program opened by the user last time;
before forming a plurality of wake-up alarm sets according to the power saving level of the application program set by a user or reading the latest updated power saving level from a database of the application program, the method further comprises the following steps: determining that the application program does not have an alarm clock reminding function, a memorandum reminding function and a remote awakening function;
when the wakeup time of the wakeup alarm clock set reaches after the timer wakeup time intervals of the application programs in the wakeup alarm clock set are adjusted to be consistent, and before all the application programs in the wakeup alarm clock set are awakened, the method further comprises the following steps: determining that a mobile terminal provided with a plurality of application programs is in a starting state;
before forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user, the method further comprises the following steps: the frequency of one or more applications opened by the user is detected in real-time.
Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.
Finally, it should be noted that: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. A high-stability timed wake-up method, characterized in that the method comprises the following steps:
receiving timer wake-up time intervals sent by a plurality of application programs in a one-to-one correspondence manner, and reading a latest updated power saving level from a database of the application programs according to a power saving level of the application program set by a user to form a plurality of wake-up alarm clock groups, wherein the wake-up time intervals of the wake-up alarm clock groups are different from each other; adjusting timer wake-up time intervals of each application program in the wake-up alarm clock group to be consistent;
after the timer wake-up time intervals of each of the applications within the wake-up alarm clock set are adjusted to be consistent: when the wake-up time of the wake-up alarm clock group arrives, waking up all the application programs in the wake-up alarm clock group;
obtaining a latest updated power saving level in the database of the application from a remote server;
the method further comprises the step of forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user;
the power saving levels of the application programs are arranged according to a high-low sequence and sequentially comprise: high, medium, low; if the power saving level of the application program is high, the timer wake-up time interval of the application program is longer or the timer wake-up is forbidden, and if the power saving level of the application program is low, the timer wake-up time interval of the application program is shorter;
the awakening time intervals of the awakening alarm clock groups are correspondingly set one by one according to the power saving level of an application program; when a plurality of wake-up alarm clock groups are formed according to the power saving level of the application program set by the user or the latest updated power saving level read from the database of the application program, the method further comprises the following steps: correspondingly adding the application program into the corresponding awakening alarm clock group according to the power saving level of the application program and the mapping relation between the power saving level and the awakening alarm clock group;
the method further comprises the following steps:
after all of the applications within the wake alarm clock set are woken up: detecting in real-time a time of any one or more of the applications within the wake up alarm clock set opened by the user; and after 24 hours forcibly waking one or more of the applications within the wake alarm set that the user opened before 24 hours;
the method further comprises the following steps:
after the 24-hour forced wake-up is after one or more of the applications within the wake-up alarm set that were opened by the user before 24 hours: setting the time length of the forced awakening time period of one or more application programs in one-to-one correspondence according to the frequency of one or more application programs in the awakening alarm clock group opened by the user before the time, and awakening the corresponding one or more application programs according to the forced awakening interval and the interval set by the user in the time length of the forced awakening time period.
2. The method of claim 1, wherein the method further comprises:
after all of the applications within the wake alarm clock set are woken up: detecting the use duration of any one or more application programs in the wake-up alarm clock group opened by the user in real time;
and subtracting the half time of the use time of the application program with the longest opening time in any one or more application programs in the wake-up alarm clock group opened by the user last time by 24 hours to obtain the time of forced wake-up again, and correspondingly and forcibly waking up one or more application programs in the wake-up alarm clock group opened by the user last time when the time of forced wake-up again is reached.
3. The method of claim 2, wherein the method further comprises:
after the corresponding forced wake-up of one or more of the applications in the wake-up alarm clock set last opened by the user at the time of the arrival of the forced wake-up again: and setting the time length of the time period of forced awakening of the one or more application programs at the time in a one-to-one correspondence manner according to the frequency of the one or more application programs in the awakening alarm clock group opened by the user before the time, and awakening the corresponding one or more application programs according to the forced awakening interval and interval set by the user in the time length of the time period of forced awakening.
4. The method of claim 2, wherein the method further comprises:
after the corresponding forced wake-up of one or more of the applications in the wake-up alarm clock set last opened by the user at the time of the arrival of the forced wake-up again: and correspondingly setting the time length of the time period of forced awakening of the application program at the time according to the use time length of the application program opened by the user last time, and awakening one or more corresponding application programs according to the forced awakening interval and interval set by the user in the time length of the time period of forced awakening.
5. The method of claim 4, wherein the method further comprises:
in the time length of the time period of the forced wakeup of the application program at the time correspondingly set according to the use time length of the application program opened by the user last time: the duration of the forced wake-up time period is equal to the usage duration of the application program opened by the user last time.
6. The method of any one of claims 2 to 5, wherein the duration of use of the application is the time interval between the first manipulation after opening the application and the last manipulation before exiting the application.
7. The method of claim 1, wherein prior to forming a plurality of wake alarm sets according to the power saving level of the application program set by the user or reading a latest updated power saving level from a database of the application program, further comprising: determining that the application program does not have an alarm clock reminding function, a memorandum reminding function and a remote awakening function;
further comprising upon arrival of a wake-up time for the wake-up clock set after the timer wake-up time intervals for each of the applications in the wake-up clock set are adjusted to be uniform, prior to waking up all of the applications in the wake-up clock set, further comprising: determining that a mobile terminal provided with a plurality of application programs is in a starting state;
before forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user, the method further comprises the following steps: detecting in real-time a frequency of one or more of the applications opened by the user.
8. A high stability timed wake-up apparatus, the apparatus comprising:
the memory is used for storing program codes and is also used for storing timer awakening time intervals sent by each application program;
a processor for executing program code stored in the memory;
when the processor executes the program code, causing a mobile terminal to:
receiving timer wake-up time intervals sent by a plurality of application programs in a one-to-one correspondence manner, and reading a latest updated power saving level from a database of the application programs according to a power saving level of the application program set by a user to form a plurality of wake-up alarm clock groups, wherein the wake-up time intervals of the wake-up alarm clock groups are different from each other; adjusting timer wake-up time intervals of each application program in the wake-up alarm clock group to be consistent;
waking all of the applications in the wake-up alarm clock set when a wake-up time for the wake-up alarm clock set has arrived after the timer wake-up time intervals for each of the applications in the wake-up alarm clock set have been adjusted to be consistent;
obtaining a latest updated power saving level in the database of the application from a remote server;
the method further comprises the step of forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user;
after all of the applications within the wake alarm clock set are woken up: detecting the use duration of any one or more application programs in the wake-up alarm clock group opened by the user in real time;
subtracting the half time of the use time of the application program with the longest opening time in any one or more application programs in the wake-up alarm clock group by using 24 hours, obtaining the time of forced wake-up again, and when the time of forced wake-up again is reached, correspondingly and forcibly waking up one or more application programs in the wake-up alarm clock group opened by the user last time;
after the corresponding forced wake-up of one or more of the applications in the wake-up alarm clock set last opened by the user at the time of the arrival of the forced wake-up again: correspondingly setting the duration of a forced awakening time period of the application program at the time according to the use duration of the application program opened by the user last time, and awakening one or more corresponding application programs according to a forced awakening interval and an interval set by the user within the duration of the forced awakening time period;
in the time length of the time period of the forced wakeup of the application program at the time correspondingly set according to the use time length of the application program opened by the user last time: the duration of the forced wake-up time period is equal to the use duration of the application program opened by the user last time;
before the forming a plurality of wake-up alarm clock groups according to the power saving level of the application program set by the user or the power saving level which is read from the database of the application program and updated latest: determining that the application program does not have an alarm clock reminding function, a memorandum reminding function and a remote awakening function;
further comprising upon arrival of a wake-up time for the wake-up clock set after the timer wake-up time intervals for each of the applications in the wake-up clock set are adjusted to be uniform, prior to waking up all of the applications in the wake-up clock set, further comprising: determining that a mobile terminal provided with a plurality of application programs is in a starting state;
before forcibly updating the power saving level in the database of the application program according to the frequency of opening the application program by the user, the method further comprises the following steps: detecting in real-time a frequency of one or more of the applications opened by the user.
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