CN104219747B

CN104219747B - Method, device and terminal for adjusting wake-up time according to electric quantity information

Info

Publication number: CN104219747B
Application number: CN201410446752.0A
Authority: CN
Inventors: 张楚航
Original assignee: Hubei Vocational Promotion Technology Culture Co Ltd
Current assignee: Hubei Vocational promotion technology culture Co., Ltd
Priority date: 2014-09-03
Filing date: 2014-09-03
Publication date: 2020-05-29
Anticipated expiration: 2034-09-03
Also published as: CN104219747A

Abstract

The invention discloses a method, a device and a terminal for adjusting wake-up time according to electric quantity information, wherein the method comprises the following steps: establishing a first regulation and control relation between the residual electric quantity information of the battery and the awakening time information of the system in a terminal; and adjusting the awakening time according to the first regulation and control relation. The method and the device have the advantages that the awakening time of the application program to the system changes along with the change of the residual electric quantity of the battery, the awakening time of the application program to the system is correspondingly adjusted upwards when the residual electric quantity is low, and the awakening time of the application program to the system is correspondingly adjusted downwards when the residual electric quantity is high. Therefore, on the basis of ensuring that a user can acquire the push information of the application program in time and experience the use of the terminal, the battery consumption of the terminal is reduced, and therefore more durable terminal endurance is brought.

Description

Method, device and terminal for adjusting wake-up time according to electric quantity information

Technical Field

The present invention relates to the field of communications electronics, and in particular, to a method, an apparatus, and a terminal for adjusting wake-up time according to power information.

Background

With the development of technology, intelligent operating systems become the mainstream of the market, various intelligent operating systems provide a timer wake-up mechanism, such as an android real-time clock alert (english: android for rtcalarm) mechanism, and although the above mechanism provides a push (english: PULL) communication mechanism for upper layer applications to wake up and synchronize background information through a timer, many third party applications are not standard at present, and the timer wake-up mechanism is abused intentionally or unintentionally, so that a user terminal wastes batteries and system resources unknowingly, and the user experience of the mobile intelligent terminal is seriously affected.

At present, the battery life has become one of the most critical challenges for mobile terminals such as smart phones. End users today are generally disappointed by the inability of modern cell phones to support even a single day. Research shows that the standby time occupies a large part of the daily use time of the mobile phone battery. In standby mode, the frequency with which the handset is woken up by wake events of various third party applications, such as Gmail, Facebook, etc., is high. Also, the more applications related to communication are installed, the more frequently the handset wakes up. Although the screen of the handset is off during standby time, these frequent wakeups still greatly increase the overall power consumption of the handset in standby mode. Typically, when the handset is not awake in the standby mode, the power consumption is only about 10 milliwatts, and when awake, the average power consumption can be up to 170 milliwatts, which is about 17 times that of the absence of the awake. In order to reduce the power consumption of mobile terminals, the prior art typically switches off as many power consuming applications as possible. There are also applications designed to save the daily Power consumption of mobile terminals, such as simple Power Saver (Easy Power Saver), Power saving expert (Juice defenser), and so on.

These applications are typically controlled by controlling some control components based on predefined rules and times. However, the user can only manually adjust the corresponding component for control when the power is found to be low, and the control condition of the corresponding component must be readjusted when the power is restored to be sufficient.

Therefore, in the prior art, the timing awakening realized by adjusting the awakening time of the system through a single adjusting factor cannot well realize the defect of reducing the power consumption of the terminal, and meanwhile, the problems and the defects that the system function is lost, the system function cannot be recovered in time, the awakening time of the system cannot be adjusted in time and the like may be caused in the adjusting process.

Disclosure of Invention

In view of the above, the technical problem to be solved by the present invention is to provide a method, an apparatus, and a terminal for adjusting wake-up time according to power information, so as to solve the problems and disadvantages in the prior art that the power consumption of the terminal cannot be reduced well by performing timed wake-up by manually adjusting the wake-up time of the system by a user, and that system function is lost, system function cannot be restored in time, and system wake-up time cannot be adjusted in time during the adjustment process.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a method for adjusting the wake-up time according to the electric quantity information is constructed, and the method comprises the following steps:

establishing a first regulation and control relation between the residual electric quantity information of the battery and the awakening time information of the system in a terminal;

and adjusting the awakening time according to the first regulation and control relation.

Preferably, before establishing the regulation relationship between the remaining capacity information of the battery and the wake-up time information of the system, the method further comprises:

and counting and analyzing awakening time information of the application program in a preset time period, wherein the awakening time information comprises an awakening period and an awakening object.

Preferably, before counting and analyzing the wake-up time information of the application program within the preset time period, the method further includes:

and counting and analyzing system occupation information and power consumption information of the application program in a preset time period, wherein the system occupation information comprises system resource occupation amount and system resource occupation time, and the power consumption information comprises electric quantity consumption and electric quantity consumption rate.

Preferably, the establishing of the first regulation and control relationship between the remaining power information of the battery and the wake-up time information of the system specifically includes:

establishing a second regulation and control relation between the awakening period and the awakening object;

establishing a third regulation and control relation between the system resource occupation amount and the system resource occupation time;

a fourth regulatory relationship is established between the amount of power consumption and the rate of power consumption.

Preferably, the establishing a first regulation relationship between the remaining capacity information of the battery and the wake-up time information of the system further includes:

and integrating the second regulation relation, the third regulation relation and the fourth regulation relation to generate the first regulation relation.

Preferably, after establishing the first regulation relationship between the remaining power information of the battery and the wake-up time information of the system, before adjusting the wake-up time according to the first regulation relationship, the method further includes:

establishing a second regulation and control interface according to the second regulation and control relation;

establishing a third regulation and control interface according to the third regulation and control relation;

and establishing a fourth regulation and control interface according to the fourth regulation and control relation.

Preferably, adjusting the wake-up time according to the first regulation and control relationship specifically includes:

analyzing and calculating a first corresponding relation between the awakening time information and the system occupation information through a second regulation interface and a third regulation interface, and adjusting the awakening time according to the first corresponding relation;

or analyzing and calculating a second corresponding relation between the awakening time information and the power consumption information through a second regulation interface and a fourth regulation interface, and adjusting the awakening time according to the second corresponding relation;

preferably, after adjusting the wake-up time according to the first regulatory relationship, the method further comprises:

and analyzing a third corresponding relation between the occupation information and the power consumption information of the computing system through the third regulation interface and the fourth regulation interface, and adjusting the first corresponding relation and the second corresponding relation according to the third corresponding relation.

The invention also provides a device for adjusting the awakening time according to the electric quantity information, which comprises:

the system comprises a regulation relation establishing module, a first regulation relation establishing module and a second regulation relation establishing module, wherein the regulation relation establishing module is used for establishing a first regulation relation between the residual electric quantity information of a battery and the awakening time information of the system in a terminal;

and the wake-up time adjusting module is used for adjusting the wake-up time according to the first regulation and control relation.

The invention also provides a terminal for adjusting the awakening time according to the electric quantity information, and the terminal comprises the device for adjusting the awakening time according to the electric quantity information.

By implementing the method and the device, the first regulation and control relation between the residual electric quantity information of the terminal battery and the awakening time information of the system is established, and then the awakening time is regulated according to the first regulation and control relation. The method and the device enable the wake-up time of the application program to the system to change along with the change of the residual electric quantity of the battery, correspondingly adjust the wake-up time of the application program to the system up when the residual electric quantity is low, and correspondingly adjust the wake-up time of the application program to the system down when the residual electric quantity is high. Therefore, on the basis of ensuring that a user can acquire the push information of the application program in time and experience the use of the terminal, the battery consumption of the terminal is reduced, and therefore more durable terminal endurance is brought.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a flowchart of a method for adjusting wake-up time according to power information according to the present invention;

fig. 2 is a flowchart of a method for adjusting wake-up time according to power information according to a first preferred embodiment of the invention;

fig. 3 is a flowchart of a method for adjusting wake-up time according to power information according to a second preferred embodiment of the invention;

fig. 4 is a flowchart of a method for adjusting wake-up time according to power information according to a third preferred embodiment of the invention;

fig. 5 is a flowchart of a method for adjusting wake-up time according to power information according to a fourth preferred embodiment of the invention;

fig. 6 is a flowchart of a method for adjusting wake-up time according to power information according to a fifth preferred embodiment of the invention;

fig. 7 is a flowchart of a method for adjusting wake-up time according to power information according to a sixth preferred embodiment of the invention;

fig. 8 is a flowchart of a method for adjusting wake-up time according to power information according to a seventh preferred embodiment of the invention;

fig. 9 is a block diagram of a device for adjusting wake-up time according to power information according to the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention clearer and clearer, the present invention is further described in 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.

Fig. 1 is a flowchart of a method for adjusting wake-up time according to power information according to the present invention. The method comprises the following steps:

s1, in a terminal, establishing a first regulation relation between the remaining capacity information of the battery and the wake-up time information of the system.

Firstly, the remaining capacity is detected by a battery capacity detection chip in the terminal, and the detection mode can be to detect a battery voltage signal or a battery current signal. When the battery of the terminal is detachable, the serial number information, the maximum electric capacity information and the current remaining capacity information of the battery are also correspondingly recorded.

And then, acquiring the application programs running on the operating system through an application program management interface of the terminal operating system, and respectively acquiring the awakening time of each application program to the operating system. The wakeup time refers to a time interval, which is built in each application program and is used for waking up a system and executing information push when the application program receives the information push.

And finally, establishing a first regulation and control relation between the residual electric quantity information of the battery and the awakening time information of the system. Since the remaining power information is a variable, the variable factors include a remaining power value factor and a current time factor, and similarly, the wake-up time information is also a variable, and the variable factors include an application factor and a current wake-up time factor. Therefore, a remaining power information database and a wake-up time database are respectively established for the remaining power information of the battery and the wake-up time information of the system, and a first regulation and control relation between the two databases is established according to the regulation and control requirements of the wake-up time.

For example, an application program M, an application program N, an application program P, and an application program L run in an operating system of the terminal, where current wake-up times of the application program M, the application program N, the application program P, and the application program L are 20s, 15s, 10s, and 5s, respectively, and meanwhile, the terminal commonly uses two batteries, namely a battery X and a battery Y, where a capacity of the battery X is 2000mA and a capacity of the battery Y is 3000 mA. When the terminal is installed with the battery X at the time point T1, the applications running in the background are the application M, the application N, and the application P, so that the information recorded in the remaining capacity information database includes the remaining capacity information of the battery X at the time point T1 and the serial number of the battery X, and the information recorded in the wake-up time database includes the wake-up times 20s, 15s, and 10s of the application M, the application N, and the application P at the time point T1. Then the first regulatory relationship at this time may be: if the residual battery capacity is within 500mA, adjusting the awakening time of all the application programs to be 20s, if the residual battery capacity is within the range of 500mA-1000mA, adjusting the awakening time of all the application programs to be 10s, and if the residual battery capacity is above 1000mA, keeping the awakening time of all the application programs unchanged.

And S2, adjusting the wake-up time according to the first regulation relation. As described in the above example, when the wake-up time is adjusted according to the first regulation and control relationship, a plurality of first regulation and control relationships may be established according to the usage habits or usage requirements of the user.

The method has the advantages that the wake-up time is adjusted according to the first regulation and control relation between the residual capacity information of the terminal battery and the wake-up time information of the system. The method and the device enable the wake-up time of the application program to the system to change along with the change of the residual electric quantity of the battery, correspondingly adjust the wake-up time of the application program to the system up when the residual electric quantity is low, and correspondingly adjust the wake-up time of the application program to the system down when the residual electric quantity is high. Therefore, on the basis of ensuring that a user can acquire the push information of the application program in time and experience the use of the terminal, the battery consumption of the terminal is reduced, and therefore more durable terminal endurance is brought.

Example one

Fig. 2 is a flowchart of a method for adjusting a wake-up time according to power information according to a first preferred embodiment of the invention. On the basis of the method, before establishing the regulation relationship between the remaining power information of the battery and the wake-up time information of the system, the method further comprises the following steps:

and S01, counting and analyzing the wake-up time information of the application program in a preset time period, wherein the wake-up time information comprises a wake-up period and a wake-up object.

As described in the above example, the current wake-up periods of the application M, the application N, the application P, and the application L in the terminal are 20s, 15s, 10s, and 5s, respectively, and the wake-up object refers to a system component that is woken up at the wake-up time point of the application, for example, the application M is social software and needs to wake up a network component, the application N is music software and needs to wake up an audio decoding component, the application P is navigation software and needs to wake up a geolocation component, and the application L is web browsing software and needs to wake up a network component. Therefore, the wake-up network component, the audio decoding component and the geographic position positioning component are wake-up objects. It will be appreciated that the same application may have multiple wake objects, while different applications may have a common wake object.

The beneficial effects of this embodiment lie in, through the classification record to awakening cycle and awakening object in the awakening time information, make before regulating and controlling the awakening time, the condition of calling the component of the system is clearer, meanwhile, because the electric quantity that different awakening objects consumed in the same awakening time is not the same, therefore, according to different awakening objects and corresponding awakening cycles, can regulate and control the awakening time of the application program to the relevant component of the system more accurately, make the terminal utilize the residual electric quantity of the battery more effectively.

Example two

Fig. 3 is a flowchart of a method for adjusting a wake-up time according to power information according to a second preferred embodiment of the invention.

Based on the first embodiment, before counting and analyzing the wake-up time information of the application program in the preset time period, the method further includes:

and S02, counting and analyzing system occupation information and power consumption information of the application program in a preset time period, wherein the system occupation information comprises system resource occupation amount and system resource occupation time, and the power consumption information comprises power consumption amount and power consumption rate.

In this step, the statistics and analysis of the system occupation information and the power consumption information of the application program means that the information such as the occupation amount and the priority of the application program on the system is counted, and meanwhile, the information of the power consumption of the single application program caused by the occupation amount and the priority of the application program on the system is counted for the application program.

It can be understood that the system occupation information includes the system resource occupation amount and the system resource occupation time, as described in the above example, the application M is social software and needs to wake up the network component, the application N is music software and needs to wake up the audio decoding component, the application P is navigation software and needs to wake up the geolocation component, and the application L is web browsing software and needs to wake up the network component. Therefore, within one hour of running of the application program, the system resource occupation amounts are respectively as follows: one hour of network component occupancy, one hour of audio decoding component occupancy, one hour of geo-location positioning component occupancy, and one hour of network component occupancy.

The power consumption information of the present embodiment includes the amount of power consumption and the rate of power consumption. As described in the above example, the amounts of power consumed by the application M, the application N, the application P, and the application L, respectively, in the time of one hour are counted, and the power consumption rates are calculated accordingly.

The beneficial effect of the embodiment is that the system resource occupation amount, the system resource occupation time, the electric quantity consumption amount and the electric quantity consumption rate are respectively counted and analyzed. And subdividing the power consumption factors of the terminal, and carrying out statistical analysis according to the power consumption degree when the application program wakes up the system, thereby more accurately regulating and controlling the wake-up time of the application program to the system.

EXAMPLE III

FIG. 4 is a flowchart of a method for adjusting wake-up time according to power information according to a third preferred embodiment of the present invention

Based on the above embodiment, establishing the first regulation and control relationship between the remaining power information of the battery and the wake-up time information of the system specifically includes:

and S11, establishing a second regulation relation between the wake-up period and the wake-up object. The regulation relationship can be established through a related logical relationship, and it can be understood that both the wake-up period and the wake-up object can be set as corresponding sub-databases, and then the regulation relationship between the two sub-databases is established.

And S12, establishing a third regulation and control relation between the system resource occupation amount and the system resource occupation time. And similarly, establishing a system resource occupation amount sub-database and a system resource occupation time sub-database.

S13, a fourth regulation relationship is established between the amount of power consumption and the rate of power consumption. Similarly, a power consumption quantum database and a power consumption rate sub-database are established.

In this embodiment, a plurality of regulation and control relationships are established among a plurality of sub-databases, and it can be understood that, firstly, statistical analysis is performed on the operation state of the whole terminal within a preset time, then, a corresponding regulation and control relationship is generated according to a user requirement or a preset scheme and by combining the result of the statistical analysis, and finally, the wake-up time is adjusted through the generated regulation and control relationship.

The embodiment has the advantages that by combining a plurality of sub-databases and a plurality of corresponding regulation and control relations, the referenceable regulation and control variables are more, the adaptability of the regulation and control environment is stronger, and various requirements in the process of regulating and controlling the wake-up time according to the residual electric quantity can be more comprehensively met.

Example four

Fig. 5 is a flowchart of a method for adjusting a wake-up time according to power information according to a fourth preferred embodiment of the invention.

Based on the above embodiment, establishing the first regulation and control relationship between the remaining power information of the battery and the wake-up time information of the system further includes:

and S14, integrating the second regulation relation, the third regulation relation and the fourth regulation relation to generate a first regulation relation.

It can be understood that the integration operation may be a simple merge operation, or may be a process of extracting relevant points and integrating relevant regulatory relationships according to the relevant points. For example, when the second regulation and control relationship and the third regulation and control relationship have the resource occupation amount of the awakening object of the relevant point, the second regulation and control relationship and the third regulation and control relationship are integrated according to the resource occupation amount of the awakening object, and when the awakening time needs to be adjusted according to the resource occupation amount corresponding to the awakening, the relevant point in the first regulation and control relationship can be correspondingly called, and the awakening time is adjusted according to the relevant point.

The method and the device have the advantages that the multiple regulation and control relations are integrated, so that the logic relation among the regulation and control relations is stronger, and meanwhile, the efficiency of calling the regulation and control relations is higher.

EXAMPLE five

Fig. 6 is a flowchart of a method for adjusting a wake-up time according to power information according to a fifth preferred embodiment of the invention.

Based on the above embodiment, after establishing the first regulation and control relationship between the remaining power information of the battery and the wake-up time information of the system, before adjusting the wake-up time according to the first regulation and control relationship, the method further includes:

and S15, establishing a second regulation and control interface according to the second regulation and control relation.

And S16, establishing a third regulation and control interface according to the third regulation and control relation.

And S17, establishing a fourth regulation and control interface according to the fourth regulation and control relation.

And establishing a corresponding regulation and control interface according to the regulation and control relationship, and calling the required regulation and control relationship by a system or an application program through the regulation and control interface.

EXAMPLE six

based on the above embodiment, adjusting the wake-up time according to the first regulation and control relationship specifically includes:

and S21, analyzing and calculating a first corresponding relation between the awakening time information and the system occupation information through the second regulation interface and the third regulation interface, and adjusting the awakening time according to the first corresponding relation. In this step, the second regulation and control interface and the third regulation and control interface are respectively used for calling the second regulation and control relationship and the third regulation and control relationship, and it can be known from the above embodiment that the relevant point of the two regulation and control relationships lies in the wake-up time information and the system occupation information, so that the wake-up time is adjusted by using the wake-up time information and the system occupation information as reference variables.

Specifically, the wake-up time information and the system occupation information recorded according to the above embodiment are analyzed, the wake-up time and the system occupation state at the current time point are extracted, then, a preset second and third regulation relationship is called, and the wake-up time is adjusted by combining the wake-up time and the system occupation state.

And S21', analyzing and calculating a second corresponding relation between the awakening time information and the power consumption information through the second regulation interface and the fourth regulation interface, and adjusting the awakening time according to the second corresponding relation. This step is a parallel optional step with the step S21 described above, and will not be described herein.

The method has the advantages that the factors for adjusting the wake-up time are divided into two levels, wherein the first level is to establish a corresponding relation between single influence factors, such as the wake-up period and the wake-up object, the system resource occupation amount and the system resource occupation time, the electric quantity consumption amount and the electric quantity consumption rate, and the second level is to perform cross integration on the basis of the first level, so that the mechanism for adjusting the wake-up time is further perfected, and more adjusting schemes are provided for adjusting the wake-up time.

EXAMPLE seven

based on the sixth embodiment, after adjusting the wake-up time according to the first regulation relationship, the method includes:

and S3, analyzing and calculating a third corresponding relation between the system occupation information and the power consumption information through the third regulation interface and the fourth regulation interface, and adjusting the first corresponding relation and the second corresponding relation according to the third corresponding relation. It is to be understood that this step is an integration operation and an update operation of the first corresponding relationship and the second corresponding relationship according to the second layer regulation and control manner of the above embodiment.

It will be understood by those skilled in the art that all or part of the steps in the method for implementing the above embodiments may be implemented by controlling the relevant hardware through a program, and the program may be stored in a computer readable storage medium, such as ROM/RAM, magnetic disk, optical disk, etc.

a regulation relation establishing module 10, configured to establish a first regulation relation between remaining power information of a battery and wake-up time information of a system in a terminal;

and a wake-up time adjusting module 20, configured to adjust the wake-up time according to the first regulation relationship.

It should be noted that, the technical features in the above method embodiments are all applicable to the present apparatus, and are not repeated here.

The preferred embodiments of the present invention have been described above with reference to the accompanying drawings, and are not to be construed as limiting the scope of the invention. Those skilled in the art can implement the invention in various modifications, such as features from one embodiment can be used in another embodiment to yield yet a further embodiment, without departing from the scope and spirit of the invention. Any modification, equivalent replacement and improvement made within the technical idea of using the present invention should be within the scope of the right of the present invention.

Claims

1. A method for adjusting wake-up time according to power information, the method comprising:

adjusting the awakening time according to the first regulation and control relation, establishing a second regulation and control relation between an awakening period and an awakening object, establishing a third regulation and control relation between system resource occupation amount and system resource occupation time, extracting relevant points, integrating relevant regulation and control relations according to the relevant points, integrating the second regulation and control relation and the third regulation and control relation according to the resource occupation amount of the awakening object of the relevant points when the second regulation and control relation and the third regulation and control relation have the resource occupation amount of the awakening object of the relevant points, correspondingly taking the relevant points in the first regulation and control relation when the awakening time needs to be adjusted according to the corresponding awakening resource occupation amount, and adjusting the awakening time according to the relevant points.

2. The method of claim 1, wherein before establishing the relationship between the remaining power information of the battery and the wake-up time information of the system, the method further comprises:

3. The method of claim 2, wherein before counting and analyzing the wake-up time information of the application program within a preset time period, the method further comprises:

and counting and analyzing system occupation information and power consumption information of the application program in the preset time period, wherein the system occupation information comprises system resource occupation amount and system resource occupation time, and the power consumption information comprises electric quantity consumption and electric quantity consumption rate.

4. The method according to claim 3, wherein establishing the first regulation relationship between the remaining power information of the battery and the wake-up time information of the system specifically comprises:

and establishing a fourth regulation relation between the electric quantity consumption and the electric quantity consumption rate.

5. The method of claim 4, wherein establishing the first control relationship between the remaining power information of the battery and the wake-up time information of the system further comprises:

and integrating the second regulation and control relation, the third regulation and control relation and the fourth regulation and control relation to generate the first regulation and control relation.

6. The method according to claim 5, wherein after establishing the first regulation relationship between the remaining power information of the battery and the wake-up time information of the system, and before adjusting the wake-up time according to the first regulation relationship, the method further comprises:

7. The method according to claim 6, wherein adjusting the wake-up time according to the first regulation relationship specifically comprises:

analyzing and calculating a first corresponding relation between the awakening time information and the system occupation information through the second regulation interface and the third regulation interface, and adjusting the awakening time according to the first corresponding relation;

or, analyzing and calculating a second corresponding relation between the awakening time information and the power consumption information through the second regulation interface and the fourth regulation interface, and adjusting the awakening time according to the second corresponding relation.

8. The method according to claim 7, wherein after adjusting the wake-up time according to the first regulation relationship, the method further comprises:

and analyzing and calculating a third corresponding relation between the system occupation information and the power consumption information through the third regulation interface and the fourth regulation interface, and adjusting the first corresponding relation and the second corresponding relation according to the third corresponding relation.

9. An apparatus for adjusting wake-up time according to power information, the apparatus comprising:

and the awakening time adjusting module is used for adjusting the awakening time according to the first regulation and control relation, establishing a second regulation and control relation between an awakening period and an awakening object, establishing a third regulation and control relation between the system resource occupation amount and the system resource occupation time, extracting relevant points, integrating the relevant regulation and control relations according to the relevant points, integrating the second regulation and control relation and the third regulation and control relation according to the resource occupation amount of the awakening object of the relevant points when the second regulation and control relation and the third regulation and control relation have the resource occupation amount of the awakening object of the relevant points, correspondingly calling the relevant points in the first regulation and control relation when the awakening time needs to be adjusted according to the resource occupation amount corresponding to awakening, and adjusting the awakening time according to the relevant points.

10. A terminal for adjusting wake-up time according to power information, wherein the terminal comprises the apparatus of claim 9.