CN105334943B - Method and terminal for intelligent grading alignment - Google Patents

Abstract

The invention discloses a method and a terminal for applying intelligent hierarchical alignment, wherein the method comprises the following steps: acquiring a specified hierarchical alignment minimum unit time Tmin; setting the alignment time delT of each application currently running as nTmin; for instant messaging applications, the value of n meets the constraint condition that the delT is less than or equal to the heartbeat frequency of the instant messaging application; n is a natural number; the alignment time delT of each application is set to the real time clock RTC. The method of the invention carries out intelligent grading optimization on the scheme of controlling the RTC awakening frequency, ensures the cruising ability of the intelligent terminal, ensures the normal operation of the related application software functions and greatly improves the user experience.

Description

Method and terminal for intelligent grading alignment

Technical Field

The invention relates to the technical field of communication, in particular to a method and a terminal for applying intelligent hierarchical alignment.

Background

Intelligent terminals generally have two states: a sleep (suspend) state and a normal operating state. The sleep state is a low-power consumption state in which peripheral modules except power management, such as an LCD backlight, a gravity sensor, a touch screen and a CPU, of the terminal do not work, and only a memory keeps self-refreshing and the LCD (screen) is turned off. Whereas the normal operation state is a power consumption state in which most devices remain operational. If the user keeps the terminal in a dormant state all the time without operating the terminal, the power loss of the terminal can be reduced, and the endurance time of the intelligent terminal is prolonged.

The alignment wakeup control of the intelligent terminal mainly refers to the wakeup of RTC (Real Time Clock) or the wakeup of telecommunication service, and the switching of the intelligent terminal from a dormant state to a normal running state by the normal telecommunication service is the most basic service requirement and cannot be limited; the RTC awakening is that when the upper layer application runs, a plurality of support awakening state timers are set, and after the time is up, the RTC triggers interruption so as to awaken the intelligent terminal. At present, many intelligent terminals apply an alignment awakening method to control the number of times of awakening of the intelligent terminal per unit time, so that the terminal awakening frequency is reduced.

However, the existing scheme controls the RTC wake-up frequency to improve the endurance capability, and affects functions of some application software, such as the timeliness of information receiving and transmitting and the accuracy of a timing function of communication software. Therefore, how to ensure the normal operation of the related application software without influencing the user experience while ensuring the cruising ability of the intelligent terminal becomes a technical problem to be solved urgently at present.

Disclosure of Invention

The present invention has been made in view of the above problems, and provides a method and terminal for applying intelligent hierarchical alignment that solves the above problems.

According to an aspect of the present invention, there is provided a method of applying intelligent hierarchical alignment, comprising:

acquiring a specified hierarchical alignment minimum unit time Tmin;

setting the alignment time delT of each application currently running as nTmin; for instant messaging applications, the value of n meets the constraint condition that the delT is less than or equal to the heartbeat frequency of the instant messaging application; n is a natural number;

the alignment time delT of each application is set to the real time clock RTC.

Optionally, in the method of the present invention, for the instant messaging application, n is taken such that delT is less than or equal to a maximum value in the self heartbeat frequency.

Optionally, in the method of the present invention, for the non-instant messaging application, a value of n satisfies a constraint condition inversely proportional to the application priority.

Optionally, in the method of the present invention, for a currently running non-instant messaging application, a value of n in the corresponding application delT is determined according to a preset matching relationship between the application priority and the value of n.

Optionally, in the method of the present invention, the obtaining of the specified hierarchical alignment minimum unit time Tmin includes:

when the running instant messaging applications exist, acquiring the heartbeat frequency of each instant messaging application, and enabling the time corresponding to the minimum heartbeat frequency to be Tmin; otherwise, acquiring a default setting of Tmin;

or acquiring a Tmin which is counted in advance and set based on the minimum heartbeat frequency of various instant messaging applications.

Optionally, the method of the present invention further comprises: the latest alignment configuration data of the relevant application is acquired from the network server side, the priority of the corresponding application is updated according to the alignment configuration data, and the alignment time delT of the corresponding application is set based on the updated priority.

According to another aspect of the present invention, there is provided a terminal applying intelligent hierarchical alignment, including:

the alignment awakening control module is used for acquiring the specified minimum unit time Tmin of hierarchical alignment;

the Alarm management module is used for setting the alignment time delT of each application currently running to nTmin and setting the alignment time delT of each application to a real-time clock RTC;

for instant messaging applications, the value of n meets the constraint condition that the delT is less than or equal to the heartbeat frequency of the instant messaging application; n is a natural number.

Optionally, in the terminal of the present invention, the Alarm management module is further configured to, for the instant messaging application, take the maximum value of the frequency of the heartbeat of the terminal that is equal to or less than delT.

Optionally, in the terminal of the present invention, the Alarm management module is further configured to, for the non-instant messaging application, satisfy a constraint condition that a value of n is inversely proportional to an application priority.

Optionally, in the terminal of the present invention:

the alignment wakeup control module is specifically used for acquiring the heartbeat frequency of each instant messaging application when the instant messaging application is currently running, and enabling the time corresponding to the minimum heartbeat frequency to be Tmin; otherwise, acquiring a default setting of Tmin;

or, the alignment wakeup control module is specifically configured to obtain a Tmin that is pre-counted and is set based on the minimum heartbeat frequency of each type of instant messaging application.

Optionally, in the terminal of the present invention:

the alignment wakeup control module is further configured to actively or passively obtain latest alignment configuration data of the relevant applications stored on the network server side according to preset, update the priorities of the corresponding applications according to the alignment configuration data, and notify the Alarm management module;

the Alarm management module is further configured to set an alignment time delT of the corresponding application based on the updated priority information.

The invention has the following beneficial effects:

according to the method and the terminal, the alignment awakening method is intelligently and hierarchically optimized, the terminal is awakened by the RTC regularly, the awakening frequency is reduced, the power loss of the terminal in normal operation is reduced to a certain extent, the function of the terminal application software is ensured to be normal, and the user experience is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flowchart of a method for applying intelligent hierarchical alignment according to an embodiment of the present invention;

FIG. 2 is a schematic illustration of a method according to an embodiment of the present invention;

fig. 3 is a flowchart of an alignment process for acquiring a heartbeat frequency of an instant messaging application when a system runs in an embodiment of the present invention;

FIG. 4 is a flowchart illustrating a process of acquiring application latest alignment configuration data from a network server by the system according to an embodiment of the present invention;

fig. 5 is a block diagram of a terminal applying intelligent hierarchical alignment according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to solve the problems in the prior art, embodiments of the present invention provide a method and a terminal for applying intelligent hierarchical alignment. According to the method and the terminal, intelligent hierarchical optimization is performed on the scheme of controlling the RTC awakening frequency, the cruising ability of the intelligent terminal is guaranteed, the normal operation of related application software functions is also guaranteed, and the user experience is greatly improved. The following is a detailed description of the practice of the invention with several specific examples.

Example one

An embodiment of the present invention provides a method for applying intelligent hierarchical alignment, as shown in fig. 1, the method includes:

step S101, obtaining a specified minimum unit time Tmin of hierarchical alignment;

preferably, this step is achieved by:

the first method is as follows: if the instant messaging applications are currently operated, acquiring the heartbeat frequency of each instant messaging application, and enabling the time corresponding to the minimum heartbeat frequency to be Tmin;

and if no instant messaging application is currently running, acquiring the default setting of the Tmin. The default setting can be preset in the terminal, or can be a setting performed by the user according to the self-requirement.

The obtaining of the heartbeat frequency of each instant messaging application specifically includes: monitoring the heartbeat packet of each running instant messaging application, analyzing the heartbeat packet, and acquiring the heartbeat frequency of each instant messaging application.

The second method comprises the following steps: and acquiring a Tmin which is counted in advance and is set based on the minimum heartbeat frequency of various instant messaging applications. The method is also one of default settings, and the default settings need to consider the heartbeat frequencies of various instant messaging applications, count the heartbeat frequencies, and set based on the heartbeat frequency after obtaining the minimum heartbeat frequency. Of course, because of the wide variety of applications for instant messaging, if all the applications can be counted during the counting, the obtained Tmin is certainly the most appropriate; if not all statistics can be set based on the accepted heartbeat frequency of most mainstream instant messaging applications. In addition, if a new instant messaging application is available, Tmin can be updated in an updating manner.

Step S102, setting the alignment time delT of each application currently running to nTmin, wherein n is a natural number;

in this step, the delT of the instant messaging application also needs to satisfy the constraint condition that the frequency of the heartbeat is less than or equal to the self heartbeat frequency; in order to reduce the wake-up frequency, preferably, n is set to a maximum value in the heart rate that makes delT less than or equal to itself, so that delT is as close to the heart rate that applies itself as possible.

Further, in the step, for the non-instant messaging application, the value of n meets the constraint condition in inverse proportion to the application priority;

preferably, for each currently running non-instant messaging application, the value of n in the delT of the corresponding application is determined according to the preset matching relationship between the application priority and the value of n.

It should be noted that, in the non-instant messaging application, there is a high priority application (the application needs to respond in time), such as an alarm clock, and when setting the value n, let n be 0, and at this time, let delT be 0, which means that the alignment setting is not performed for the application.

Step S103 sets the alignment time delT of each application to the real-time clock RTC.

Preferably, the method of this embodiment further includes: the latest alignment configuration data of the relevant application is acquired from the network server side, the priority of the corresponding application is updated according to the alignment configuration data, and the alignment time delT of the corresponding application is set based on the updated priority.

In summary, according to the method of the embodiment, while the alignment wake-up method is used to control the wake-up frequency of the intelligent terminal so as to reduce the power loss of the terminal, the alignment wake-up method is intelligently optimized in a grading manner, so that power consumption is reduced, the normal function of software is ensured, and the user experience is improved.

In order to illustrate the present invention more clearly, a preferred embodiment of the present invention is given below with reference to fig. 2 to 4, and the technical details of the present invention are further given in conjunction with the description of the embodiment, so that the specific implementation process of the method provided by the present invention can be better illustrated.

Fig. 2 is a schematic diagram illustrating an operation principle of the method for applying intelligent hierarchical alignment according to the embodiment of the present invention, specifically:

the alarmmmanager module: all the Alarm timers set by the upper application or system need to be set through an alarmManager service; applying an alignment wakeup control algorithm (as described in step S102), setting alignment time of each currently running application, and setting the alignment time to the RTC; and meanwhile, dynamically monitoring an interrupt signal from the RTC and reporting the interrupt signal to a corresponding timing source.

RTC: the related hardware equipment belonging to the terminal can store the Alarm timing of the application layer, and simultaneously generates and reports an interrupt signal after the time of the corresponding Alarm timer is up.

And an alignment wake-up control module: storing an application list and an Action list of each application, wherein priority information of each application is recorded in the application list; monitoring heartbeat data of the instant messaging applications analyzed by the network side, and sending the heartbeat data to an AlarmManager module after acquiring time Tmin corresponding to the minimum heartbeat frequency of each instant messaging application; and passively or actively synchronizing the latest alignment configuration data of the related applications with the network server, updating the priority of the related applications in the application list according to the alignment configuration data, and synchronizing to the AlarmManager module so that the AlarmManager module calculates the alignment time of the related applications according to the latest data.

The network data packet analysis module: and analyzing network data, particularly heartbeat packets, in a terminal network layer, acquiring the heartbeat frequency of the currently running instant messaging application, and informing the heartbeat frequency to an alignment awakening control module.

A network server: storing the latest alignment configuration data of the related application, and periodically sending the data to the alignment wakeup control module of the terminal after informing the alignment wakeup control module of the terminal to update or responding to an update request initiated by the terminal.

That is to say, the intelligent hierarchical data comes from the analysis of the data packet at the terminal network side and the data at the network server side, the analysis of the terminal network data heartbeat can obtain the heartbeat frequency of the currently running instant messaging application, and the correct hierarchical alignment of the application can be ensured after the heartbeat frequency is notified to the alignment wakeup control module; and the network server stores the updated optimal configuration data, and synchronizes the optimal configuration data to the alignment awakening control module to better assist the network server in intelligent hierarchical alignment.

In summary, it can be known that each application or the system itself generates many Alarm timings when the terminal system runs, and the Alarm timing setting needs to be performed through an Alarm manager module, which applies an algorithm for aligning wakeup control, and sets the algorithm to the RTC after performing algorithm hierarchical alignment processing according to configuration data; after the Alarm timing time is up, the RTC generates an interrupt signal. The alignment awakening control module simultaneously monitors or applies for heartbeat frequency data of instant messaging application analyzed by the terminal data packet or latest application alignment data update issued by the network server side, and updates related application alignment configuration data in real time. The terminal data packet analysis module is used for analyzing data packets of some instant messaging applications when the terminal runs, analyzing related heartbeat frequency data of the data packets and informing the alignment wakeup control module to update; the network server stores real-time data of relevant application optimal configuration obtained by a manufacturer according to user use behavior statistics or actual test analysis, and can issue latest data to the terminal to update basic data of the alignment wake-up control module according to timing update needs or a request corresponding to the terminal.

The alignment processing procedure for acquiring the heartbeat frequency of the instant messaging application during the operation of the terminal system, as shown in fig. 3, specifically includes:

step 300, the terminal normally operates, and the terminal has instant messaging application operation;

step 310, the terminal analyzes a data packet of the instant messaging application and acquires heartbeat frequency data of the corresponding application by analyzing data of the heartbeat packet;

step 320, informing the alignment wakeup control module to update heartbeat frequency data of corresponding application;

step 330, the AlarmManager module applies the latest data of the alignment wakeup control module to perform intelligent alignment hierarchical operation on the received Alarm of the instant messaging application;

in step 340, the aligned Alarm timing is set to the RTC.

Further, the processing procedure for the terminal system to obtain the application alignment data from the network server side, as shown in fig. 4, specifically includes:

step 400, the network server has the latest application alignment configuration data configured;

step 410, sending the data to the terminal through the network link;

step 420, the alignment wakeup control module of the terminal receives the data, and updates the priority of the corresponding application after the data is analyzed;

430, the AlarmManager module applies the latest data of the alignment wakeup control module to perform intelligent alignment hierarchical operation on the received Alarm of the relevant application;

at step 440, the aligned Alarm timing is set to the RTC.

Based on the above scheme explanation, the following describes the implementation process of the present invention with reference to a specific application example, specifically:

when a user uses the terminal and the terminal is in a normal operation state, the AlarmManager module intelligently and hierarchically aligns all Alarm timers generated by the system according to the data of the alignment awakening control module and by using an alignment awakening control algorithm.

The heartbeat frequencies of the instant messaging application a, the instant messaging application B and the instant messaging application C which are currently running are respectively 3Min, 4Min and 6Min, the minimum time value Tmin of 3, 4 and 6 is obtained as the minimum alignment time, and the alignment time delT of the application A, B, C needs to satisfy ((delT ═ Tmin) | ((delT ═ n Tmin) & & (delT & & [. ta.b.c))), that is, the alignment time delT of the instant messaging application is equal to the minimum alignment time Tmin or is equal to an integral multiple of the minimum alignment time Tmin and needs to be less than or equal to the heartbeat frequency ta.b.c of the corresponding application itself. That is, after the alignment wake-up control algorithm is used, the alignment time delT of application a is 3, the alignment time delT of application B is 1 Tmin is 3, and the alignment time delT of application C is 2 Tmin is 6.

For non-instant messaging applications that need to respond in time (the priority of the applications is higher), such as alarm clock applications and screen lock applications, the applications need to respond in time, so alignment cannot be delayed, and at this time, let n be 0, and then delT of the applications be 0 (that is, the applications do not need to be aligned).

And for the non-instant messaging applications which do not need to respond in time, the alignment time delT-n-Tmin of each application is set according to the application priority level acquired from the network. Wherein, the higher the application priority, the smaller the n value of delT, and the inverse relationship is formed.

In conclusion, the method of the invention reduces the running frequency of the terminal system for timing processing, reduces the power loss of the terminal during normal running to a certain extent, and the terminal can be awakened by the RTC regularly, thereby reducing the awakening frequency, ensuring the normal function of the terminal application software, and greatly improving the user experience.

Example two

The embodiment of the present invention provides a terminal applying intelligent hierarchical alignment, as shown in fig. 5, specifically including:

an alignment wakeup control module 510 for obtaining a specified hierarchical alignment minimum unit time Tmin;

an Alarm management module 520, configured to set an alignment time delT of each currently running application to nTmin, and set the alignment time delT of each application to a real-time clock RTC; n is a natural number.

For instant messaging applications, the value of n meets the constraint condition that the delT is less than or equal to the heartbeat frequency of the instant messaging application; in order to reduce the wake-up frequency, preferably, the Alarm management module 520 takes the maximum value of the delT, which is smaller than or equal to the self heartbeat frequency, for the instant messaging application;

further, in this embodiment, for the non-instant messaging application, the value of n satisfies a constraint condition inversely proportional to the application priority by the Alarm management module 520.

In specific implementation, for the non-instant messaging applications, the delT may be calculated in the preferred manner, and for each currently running non-instant messaging application, the Alarm management module 520 determines a value of n in the delT of the corresponding application according to a preset matching relationship between the application priority and the value of n.

Further, in this embodiment:

the alignment wakeup control module 510, when there is an instant messaging application running currently, obtains the heartbeat frequency of each instant messaging application, and sets the time corresponding to the minimum heartbeat frequency as Tmin; otherwise, acquiring a default setting of Tmin;

at this time, the terminal further includes: the network data packet parsing module 530 is configured to monitor a heartbeat packet of each running instant messaging application, parse the heartbeat packet, obtain a heartbeat frequency of each instant messaging application, and send the heartbeat frequency to the alignment wakeup control module 510.

Or, aligning the wakeup control module 510 to obtain a Tmin that is pre-counted and set based on the minimum heartbeat frequency of each type of instant messaging application.

The method is also one of acquiescent settings, and the acquiescent settings need to consider the heartbeat frequencies of various instant messaging applications, count the heartbeat frequencies, and set based on the heartbeat frequency after obtaining the minimum heartbeat frequency. Of course, because of the wide variety of applications for instant messaging, if all the applications can be counted during the counting, the obtained Tmin is certainly the most appropriate; if not all statistics can be set based on the accepted heartbeat frequency of most mainstream instant messaging applications. In addition, if a new instant messaging application is available, Tmin can be updated in an updating manner.

Further, in the terminal according to this embodiment, the alignment wakeup control module 510 is further configured to actively or passively obtain latest alignment configuration data of a relevant application stored at the network server side according to a preset setting, update the priority of the corresponding application according to the alignment configuration data, and notify the Alarm management module 520;

the Alarm management module 520 is further configured to set an alignment time delT of the corresponding application based on the updated priority information.

In summary, the terminal according to the embodiment of the present invention performs intelligent hierarchical optimization on the alignment wakeup method, and the terminal is regularly awakened by the RTC, so that the wakeup frequency is reduced, the power loss of the terminal during normal operation is reduced to a certain extent, the normal function of the terminal application software is ensured, and the user experience is greatly improved.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. A method for applying intelligent hierarchical alignment, comprising:

acquiring a specified hierarchical alignment minimum unit time Tmin;

setting the alignment time delT of each application currently running as nTmin; for instant messaging applications, the value of n meets the constraint condition that the delT is less than or equal to the heartbeat frequency of the instant messaging application; n is a natural number;

setting the alignment time delT of each application to a real-time clock RTC;

wherein the obtaining of the specified hierarchical alignment minimum unit time Tmin comprises:

when the running instant messaging applications exist, acquiring the heartbeat frequency of each instant messaging application, and enabling the time corresponding to the minimum heartbeat frequency to be Tmin; otherwise, acquiring a default setting of Tmin;

or acquiring a Tmin which is counted in advance and set based on the minimum heartbeat frequency of various instant messaging applications.

2. A method according to claim 1, wherein for an instant messaging class application, n is taken such that delT is equal to or less than the maximum value in the own heartbeat frequency.

3. The method of claim 1, wherein the value of n satisfies a constraint that is inversely proportional to application priority for non-instant messaging type applications.

4. The method of claim 3, wherein for a currently running non-instant messaging application, the value of n in the corresponding application delT is determined according to a preset matching relationship between the application priority and the value of n.

5. The method of any of claims 3 or 4, further comprising: the latest alignment configuration data of the relevant application is acquired from the network server side, the priority of the corresponding application is updated according to the alignment configuration data, and the alignment time delT of the corresponding application is set based on the updated priority.

6. A terminal for applying intelligent hierarchical alignment, comprising:

the alignment awakening control module is used for acquiring the specified minimum unit time Tmin of hierarchical alignment;

the Alarm management module is used for setting the alignment time delT of each application currently running to nTmin and setting the alignment time delT of each application to a real-time clock RTC;

for instant messaging applications, the value of n meets the constraint condition that the delT is less than or equal to the heartbeat frequency of the instant messaging application; n is a natural number;

the alignment awakening control module is specifically used for acquiring the heartbeat frequency of each instant messaging application when the instant messaging application is currently running, and enabling the time corresponding to the minimum heartbeat frequency to be Tmin; otherwise, acquiring a default setting of Tmin;

or, the alignment wakeup control module is specifically configured to obtain a Tmin that is pre-counted and is set based on the minimum heartbeat frequency of each type of instant messaging application.

7. The terminal of claim 6, wherein the Alarm management module is further configured to, for an instant messaging application, take n such that delT is less than or equal to a maximum value in a self heartbeat frequency.

8. The terminal of claim 6, wherein the Alarm management module is further configured to, for a non-instant messaging application, satisfy a constraint that a value of n is inversely proportional to an application priority.

9. The terminal of claim 8,

the alignment wakeup control module is further configured to actively or passively obtain latest alignment configuration data of the relevant applications stored on the network server side according to preset, update the priorities of the corresponding applications according to the alignment configuration data, and notify the Alarm management module;

the Alarm management module is further configured to set an alignment time delT of the corresponding application based on the updated priority information.

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