CN106681619A - Method and device for controlling energy consumption of electronic equipment - Google Patents

Abstract

The invention discloses a method and a device for controlling energy consumption of electronic equipment. The method includes acquiring historical movement data of a user; determining to obtain a movement rule of the user according to the historical movement data; adjusting dormancy time of the electronic equipment within a corresponding time period. The method has the advantages that the dormancy time of the electronic equipment in different time periods is adjusted dynamically according to the user movement rule determined by the acquired historical movement data of the user, so that energy consumption of the electronic equipment is reduced on the premise of step counting accuracy.

Description

A kind of method and device of the energy consumption of control electronics

Technical field

The present invention relates to intelligent terminal field, more particularly to a kind of method and dress of energy consumption of control electronics Put.

Background technology

With the continuous popularization and development of intelligent terminal, multiple sensors are configured with electronic equipment.Current city There is the electronic equipment for much possessing step function on face, step is required in terms of meeting user.By electronic equipment Meter step is carried out, the built-in sensors of continuous access electronic equipment are needed, this system for being accomplished by electronic equipment is held It is continuous to stay awake for, therefore the energy consumption of electronic equipment is higher.

Mode in prior art frequently with the one fixed sleep time of setting carrys out reducing energy consumption, i.e., when detecting use Family is interior for a period of time when not moving action, into resting state, but, detect in the dormant state When user moves action, certain step number may be failed to record, as shown in figure 1, dormancy time is longer, leakage Note step number is more, and the accuracy for counting step is lower, if dormancy time is shorter, the energy consumption of electronic equipment is got over It is high.

The content of the invention

In order to solve above-mentioned technical problem, the invention provides a kind of method of energy consumption of control electronics and Device, electronic device energy consumption is high on the premise of solving the problems, such as to ensure meter step accuracy in prior art.

According to one aspect of the present invention, there is provided a kind of method of the energy consumption of control electronics, the method Including：

The historical movement data of user are obtained, historical movement data at least include：Movement time section and with motion Time period corresponding quantity of motion；

According to historical movement data, it is determined that obtaining the characteristics of motion of user, the characteristics of motion is used to represent that user exists Correspondence quantity of motion under different time sections；

According to the characteristics of motion, the dormancy time of the electronic equipment of adjustment correspondence time period.

Wherein, the historical movement data of user are obtained, is specifically included：

Obtaining record has the momental history fortune of movement time section and correspondence in user's top n measurement period Dynamic data；Wherein, N is positive integer.

Wherein, the historical movement data of user are obtained, is specifically included：

Obtain the movement time section and corresponding quantity of motion in user's top n measurement period；

According to movement time and corresponding quantity of motion, quantity of motion distribution situation of the user in different time sections is calculated；

According to quantity of motion distribution situation, the historical movement data of user are obtained.

Wherein, according to historical movement data, the characteristics of motion for obtaining user is determined by below equation：

r_n+1=(1- α) * r_n+α*d_n；0 ＜ n≤N, and n is positive integer；

Wherein, r_n+1The predicted motion amount under different time sections in the current statistic cycle is represented, α represents weight Decay factor, r_nQuantity of motion statistical value before representing in N-n measurement period under different time sections, d_nRepresent Quantity of motion distribution situation in front N-n measurement period.

Wherein, according to the characteristics of motion, the dormancy time of the electronic equipment of adjustment correspondence time period is specifically included：

According to predicted motion amount and the relation of dormancy time, the dormancy time of adjustment correspondence time period；

Wherein, predicted motion amount and dormancy time are in inverse relation.

Wherein, according to historical movement data, it is determined that obtaining the characteristics of motion of user, specifically include：

Corresponding quantity of motion under the same time period in the top n measurement period recorded in acquisition historical data, And meansigma methodss are calculated to it, obtain the first quantity of motion；

When the first quantity of motion is more than the first predetermined threshold value, determine that the time period is motion dense days；

When the first quantity of motion is less than the second predetermined threshold value, the time period is determined for the dilute phase of motion；Wherein, First predetermined threshold value is higher than the second predetermined threshold value；

When the first quantity of motion is between the first predetermined threshold value and the second predetermined threshold value, determine that the time period is The ordinary movement phase.

Wherein, according to the characteristics of motion, the dormancy time of the electronic equipment of adjustment correspondence time period is specifically included：

When the correspondence time period being motion dense days, it is determined that the dormancy time of correspondence time period is the first duration；

When the correspondence time period is to move dilute phase, it is determined that the dormancy time of correspondence time period is the second duration；

When the correspondence time period being the ordinary movement phase, it is determined that the dormancy time of correspondence time period is the 3rd duration；

Wherein, the first duration is less than the 3rd duration, and the 3rd duration is less than the second duration.

Wherein, according to the characteristics of motion, after the dormancy time of the electronic equipment of adjustment correspondence time period, also wrap Include：

After the dormancy time of correspondence time period expires, whether detection user moves action；

If occurring, terminate resting state, start meter stepping journey；

If not occurring, start the corresponding dormancy time of subsequent time period.

According to another aspect of the present invention, a kind of device of the energy consumption of control electronics is additionally provided, should Device includes：

Acquisition module, for obtaining the historical movement data of user, historical movement data at least include：Motion Time period and quantity of motion corresponding with movement time section；

First processing module, for according to historical movement data, it is determined that obtaining the characteristics of motion of user, moving Rule user represents user's correspondence quantity of motion under different time sections；

Adjusting module, for according to the characteristics of motion, the dormancy time of the electronic equipment of adjustment correspondence time period.

Wherein, acquisition module is specifically included：

First acquisition unit, for obtain record have movement time section in user's top n measurement period and The momental historical movement data of correspondence；Wherein, N is positive integer.

Wherein, acquisition module is specifically included：

Second acquisition unit, for obtain the movement time section in user's top n measurement period with it is corresponding Quantity of motion；

Computing unit, for according to movement time and corresponding quantity of motion, calculating user in different time sections Quantity of motion distribution situation；

Determining unit, for according to quantity of motion distribution situation, obtaining the historical movement data of user.

Wherein, according to historical movement data, the characteristics of motion for obtaining user is determined by below equation：

r_n+1=(1- α) * r_n+α*d_n；0 ＜ n≤N, and n is positive integer；

Wherein, r_n+1The predicted motion amount under different time sections in the current statistic cycle is represented, α represents weight Decay factor, r_nQuantity of motion statistical value before representing in N-n measurement period under different time sections, d_nRepresent Quantity of motion distribution situation in front N-n measurement period.

Wherein, adjusting module is specifically included：

First adjustment unit, for according to the relation of predicted motion amount and dormancy time, adjustment correspondence time period Dormancy time；

Wherein, predicted motion amount and dormancy time are in inverse relation.

Wherein, first processing module is specifically included：

3rd acquiring unit, for obtaining historical data in record top n measurement period in the same time Corresponding quantity of motion under section, and meansigma methodss are calculated to it, obtain the first quantity of motion；

First processing units, for when the first quantity of motion is more than the first predetermined threshold value, determining that the time period is Motion dense days；

Second processing unit, for when the first quantity of motion is less than the second predetermined threshold value, determining that the time period is The dilute phase of motion；Wherein, the first predetermined threshold value is higher than the second predetermined threshold value；

3rd processing unit, for being between the first predetermined threshold value and the second predetermined threshold value when the first quantity of motion When, determine that the time period is the ordinary movement phase.

Wherein, adjusting module includes：

Second adjustment unit, for when it is motion dense days to correspond to the time period, it is determined that corresponding to stopping for time period The dormancy time is the first duration；

3rd adjustment unit, for when correspondence the time period for motion dilute phase when, it is determined that correspondence the time period stop The dormancy time is the second duration；

4th adjustment unit, for when it is the ordinary movement phase to correspond to the time period, it is determined that corresponding to stopping for time period The dormancy time is the 3rd duration；

Wherein, the first duration is less than the 3rd duration, and the 3rd duration is less than the second duration.

Wherein, the device also includes：

Detection module, for after the dormancy time of correspondence time period expires, whether detection user to move Action；

Starting module, for when detecting user and moving action, terminating resting state, starts meter step Process；

Second processing module, for when detecting user and not moving action, starting subsequent time period pair The dormancy time answered；When the dormancy time for detecting the correspondence time period is not yet due, resting state is kept.

The beneficial effect of embodiments of the invention is：

By the historical movement data for obtaining user, and the motion rule of user are obtained according to the historical movement data Rule, according to the dormancy time of electronic equipment under characteristics of motion dynamic adjustment different time sections, to walk in terms of ensureing Under the premise of accurately, the energy consumption of electronic equipment is reduced.

Description of the drawings

Fig. 1 represents user movement and system dormancy schematic diagram in prior art；

Fig. 2 represents the flow chart of the method for the energy consumption of control electronics in first embodiment of the invention；

Fig. 3 represents momental statistical Butut in user's different time sections；

Fig. 4 represents the flow chart of the method for the energy consumption of control electronics in second embodiment of the invention；

Fig. 5 represents the decay schematic diagram of weight decay factor value；

Fig. 6 represents the flow chart of the method for the energy consumption of control electronics in third embodiment of the invention；

Fig. 7 represents the flow chart of the method for the energy consumption of control electronics in fourth embodiment of the invention；

Fig. 8 represents the module diagram of the device of the energy consumption of control electronics in fifth embodiment of the invention.

Specific embodiment

The exemplary embodiment of the present invention is more fully described below with reference to accompanying drawings.Although showing in accompanying drawing The exemplary embodiment of the present invention, it being understood, however, that may be realized in various forms the present invention and should not be by Embodiments set forth here is limited.On the contrary, there is provided these embodiments are able to be best understood from this Invention, and can by the scope of the present invention it is complete convey to those skilled in the art.

First embodiment

As shown in Fig. 2 the first embodiment of the present invention provides a kind of method of the energy consumption of control electronics, Specifically include following steps：

Step S201：Obtain the historical movement data of user.

Historical movement data mentioned here at least include：Movement time section and the corresponding motion of movement time section Amount.That is the historical movement data of user refer to quantity of motion of the user under certain time period, and transport Momentum is mutually corresponding with movement time section.

Step S202：According to historical movement data, it is determined that obtaining the characteristics of motion of user.

Because user movement has very strong periodicity and regularity, for example：Someone likes moving in the morning, Someone likes moving at night, and the quantity of motion commuted with the lunch period at noon in the morning and evening of most of working clans Or activity is than larger；And the activity daily for same user or movement time are basically identical, therefore can root According to the historical movement data of the user for getting, the characteristics of motion of the user is calculated or learnt.Here, move Rule so may know that user in what when for representing user's corresponding quantity of motion under different time sections Between section quantity of motion it is big, what time period quantity of motion is little.As shown in figure 3, top curve represents that the user is daily Different motion time period corresponding momental actual count value, lower curve represents the user movement rule of summary Rule, the curve shows the user,, the time periods such as 19 points to 21 points at 9 points at 11 points to 12 points at 13 points Comparison of Gardening Activities it is intensive, can the persistent movement long periods at 20 points or so.

Step S203：According to the characteristics of motion, the dormancy time of the electronic equipment of adjustment correspondence time period.

In order to ensure to count the accuracy of step, needs are short in the time period dormancy time that user frequently moves, to subtract Quantity of motion is failed to record less, improves the accuracy of meter step.Usually, in the time period that user movement intensity is high, will Dormancy time adjusts shorter, in the time period of user movement low intensity, dormancy time is adjusted into longer, to reach To the purpose for saving energy consumption.

Second embodiment

The method that first embodiment above simply describes the energy consumption of control electronics, below the present embodiment will With reference to concrete application scene, the method is further discussed in detail.

Specifically, as shown in figure 4, the method is comprised the following steps：

Step S401：Obtaining record has movement time section and correspondence in user's top n measurement period to move The historical movement data of amount.

Wherein, N is positive integer.It is corresponding that measurement period mentioned here refers to statistical history exercise data Time range, but the duration of concrete measurement period is not limited, such as measurement period can be some minutes, Some hours, one day, one week or one month, specifically can select according to demand.For example, with before 1 minute Quantity of motion predicts the quantity of motion of lower 1 minute, it is also possible to be predicted in units of week, such as nearest several weeks Three quantity of motion predicts the quantity of motion of this Wednesday.

Specifically, step S401 can refer to following steps realization：

Obtain the movement time section and corresponding quantity of motion in user's top n measurement period.

Wherein, N is positive integer.In order to ensure the reliability and regularity of data, N before preferably gathering User movement time period and corresponding quantity of motion in individual measurement period.

According to movement time and corresponding quantity of motion, quantity of motion distribution situation of the user in different time sections is calculated.

Illustrate so that a measurement period was for one day as an example, that is, gather the movement time section of N days before user With corresponding quantity of motion.Daily 24 hours are segmented, each movement time section in N days before obtaining successively Corresponding quantity of motion, is so obtained the quantity of motion distribution situation of daily different time sections.

According to quantity of motion distribution situation, the historical movement data of user are obtained.Mean, can will be corresponding Historical movement data of the quantity of motion distribution situation as user.

Step S402：According to historical movement data, it is determined that obtaining the characteristics of motion of user.

According to quantity of motion distribution situation, it can be realized that the user certain time period quantity of motion, and then To the characteristics of motion of user.

Specifically, it is determined that user movement rule can refer to below equation being calculated：

r_n+1=(1- α) * r_n+α*d_n；0 ＜ n≤N, and n is positive integer；

Wherein, r_n+1The predicted motion amount under different time sections in the current statistic cycle is represented, α represents weight Decay factor, r_nQuantity of motion statistical value before representing in N-n measurement period under different time sections, d_nRepresent Quantity of motion distribution situation in front N-n measurement period.So that a measurement period was for one day as an example, r_n+1Table Show the predicted motion amount under same day different time sections, r_nQuantity of motion system before representing under N-n days different time sections Evaluation, d_nN-n days quantity of motion distribution situations before representing.Wherein, α represents weight decay factor, i.e. distance Nearer one day of the same day, prediction weight is bigger, and data weighting before reduces by day, weight decay factor Concrete value, can refer to decay schematic diagram as shown in Figure 5 and determines, for example, α=0.6 of the previous day on the same day. It is worthy of note that, it is other durations that the value rule of the weight decay factor is also applicable to measurement period Situation.

Step S403：According to predicted motion amount and the relation of dormancy time, the dormancy of adjustment correspondence time period Time.

Wherein, predicted motion amount and dormancy time are in inverse relation, i.e.,

Wherein, s represents the dormancy time in the current statistic cycle under different time sections, works as r_n+1Value it is bigger, Corresponding s values are less, i.e. predicted motion amount is higher, and corresponding dormancy time is shorter, conversely, predicted motion Amount is lower, and corresponding dormancy time is longer.

To sum up, by obtaining the historical movement data of user, and obtain user's according to the historical movement data The characteristics of motion, according to the dormancy time of electronic equipment under characteristics of motion dynamic adjustment different time sections, to protect Under the premise of card meter step is accurate, the energy consumption of electronic equipment is reduced.

3rd embodiment

Above second embodiment describes in further detail control electronics on the basis of first embodiment The specific implementation of the method for energy consumption, below the present embodiment will introduce another implementation of the method.

Specifically, as shown in fig. 6, the method is comprised the following steps：

Step S601：Obtaining record has movement time section and correspondence in user's top n measurement period to move The historical movement data of amount.

Wherein, N is positive integer.It is corresponding that measurement period mentioned here refers to statistical history exercise data Time range, but the duration of concrete measurement period is not limited, such as measurement period can be some minutes, Some hours, one day, one week or one month, specifically can select according to demand.

Step S602：Obtain corresponding under the same time period in the top n measurement period recorded in historical data Quantity of motion, and meansigma methodss are calculated to it, obtain the first quantity of motion.

By taking 7 points to 9 points of every morning as an example, corresponding quantity of motion in N days this time period before statistics, And meansigma methodss are calculated to it, the mean motion amount under this time period is obtained, as the first quantity of motion.It is worth Illustrate, other times section calculates correspondence quantity of motion and can also adopt which.If additionally, statistical accuracy will Ask higher, the duration of timing statisticses can be shortened.

Step S603：When the first quantity of motion is more than the first predetermined threshold value, it is close to move to determine the time period The collection phase.

Here, the first predetermined threshold value refers to longer momental of user's persistent movement time under normal circumstances Threshold values, when the calculated first momental value is more than the first predetermined threshold value, represents user at this section Between in section motion ratio relatively concentrate, determine that the time period is motion dense days.

Step S604：When the first quantity of motion is less than the second predetermined threshold value, it is dilute to move to determine the time period The phase of sending out.

Wherein, the first predetermined threshold value is higher than the second predetermined threshold value.Here, the second predetermined threshold value refers to user Corresponding threshold value when not moving substantially or be movable, when the calculated first momental value is less than second During predetermined threshold value, represent that user does not move substantially within this section of time period, determine the time period for dilute of motion Phase.

Step S605：When the first quantity of motion is between the first predetermined threshold value and the second predetermined threshold value, really The fixed time period is the ordinary movement phase.

I.e. when the first quantity of motion is in an intermediate value, determine that this section of time period is the ordinary movement phase.

Step S606：When the correspondence time period being motion dense days, it is determined that the dormancy time of correspondence time period For the first duration.

Here step S603 is corresponded to, in motion dense days, corresponding dormancy time is the first duration, It is shorter that the time of concrete first duration can be arranged, to avoid failing to record momental situation, so as to improve system Meter precision.

Step S607：When the correspondence time period is to move dilute phase, it is determined that the dormancy time of correspondence time period For the second duration.

Here step S604 is corresponded to, wherein, the first duration is less than the second duration.At this time In dilute phase is moved, the quantity of motion of user is relatively low, it is not necessary to which system long-time is in and wakes up or state of activation, In order to reach the effect of power saving, can be by the relatively longer of the dormancy time setting of this time.

Step S608：When the correspondence time period being the ordinary movement phase, it is determined that the dormancy time of correspondence time period For the 3rd duration.

Here step S605 is corresponded to, wherein, the first duration is less than the 3rd duration, and the 3rd duration is less than the Two durations, i.e. the quantity of motion in this time is in intermediate value, corresponding dormancy time is also at intermediate value, To weigh the relation between statistical accuracy and electronic device energy consumption.

To sum up, by obtaining the historical movement data of user, and obtain user's according to the historical movement data The characteristics of motion, according to the dormancy time of electronic equipment under characteristics of motion dynamic adjustment different time sections, to protect Under the premise of card meter step is accurate, the energy consumption of electronic equipment is reduced.

Fourth embodiment

When first embodiment above to 3rd embodiment describes respectively how dynamic adjustment electronic equipment dormancy Between method, the method is made additional remarks below in conjunction with Fig. 7.

Specifically, according to the characteristics of motion, adjustment is corresponded to after the dormancy time of the electronic equipment of time period, Also include：

Step S701：After the dormancy time of correspondence time period expires, it is dynamic whether detection user moves Make.In above-mentioned detection process, embedded in mobile phone Inertial Measurement Unit (IMU, Inertial can be passed through Measurement unit) detect whether mobile phone is resting state.When mobile phone is static, IMU each sensor Reading keep constant, during User Activity, the sensor reading of mobile phone has fluctuation.

Step S702：If occurring, terminate resting state, start meter stepping journey.

Step S703：If not occurring, start the corresponding dormancy time of subsequent time period.

5th embodiment

The method that first embodiment above to fourth embodiment describes the energy consumption of control electronics, below will The device of the energy consumption of corresponding control electronics is described further with reference to accompanying drawing.

Specifically, as shown in figure 8, the device includes：

Acquisition module 81, for obtaining the historical movement data of user, historical movement data at least include： Movement time section and quantity of motion corresponding with movement time section；

First processing module 82, for according to historical movement data, it is determined that the characteristics of motion of user is obtained, Characteristics of motion user represents user's correspondence quantity of motion under different time sections；

Adjusting module 83, for according to the characteristics of motion, during the dormancy of the electronic equipment of adjustment correspondence time period Between.

Wherein, acquisition module is specifically included：

First acquisition unit, for obtain record have movement time section in user's top n measurement period and The momental historical movement data of correspondence；Wherein, N is positive integer.

Wherein, acquisition module is specifically included：

Second acquisition unit, for obtain the movement time section in user's top n measurement period with it is corresponding Quantity of motion；

Computing unit, for according to movement time and corresponding quantity of motion, calculating user in different time sections Quantity of motion distribution situation；

Determining unit, for according to quantity of motion distribution situation, obtaining the historical movement data of user.

Wherein, according to historical movement data, the characteristics of motion for obtaining user is determined by below equation：

r_n+1=(1- α) * r_n+α*d_n；0 ＜ n≤N, and n is positive integer；

Wherein, r_n+1The predicted motion amount under different time sections in the current statistic cycle is represented, α represents weight Decay factor, r_nQuantity of motion statistical value before representing in N-n measurement period under different time sections, d_nRepresent Quantity of motion distribution situation in front N-n measurement period.

Wherein, adjusting module is specifically included：

First adjustment unit, for according to the relation of predicted motion amount and dormancy time, adjustment correspondence time period Dormancy time；

Wherein, predicted motion amount and dormancy time are in inverse relation.

Wherein, first processing module is specifically included：

3rd acquiring unit, for obtaining historical data in record top n measurement period in the same time Corresponding quantity of motion under section, and meansigma methodss are calculated to it, obtain the first quantity of motion；

First processing units, for when the first quantity of motion is more than the first predetermined threshold value, determining that the time period is Motion dense days；

Second processing unit, for when the first quantity of motion is less than the second predetermined threshold value, determining that the time period is The dilute phase of motion；Wherein, the first predetermined threshold value is higher than the second predetermined threshold value；

3rd processing unit, for being between the first predetermined threshold value and the second predetermined threshold value when the first quantity of motion When, determine that the time period is the ordinary movement phase.

Wherein, adjusting module includes：

Second adjustment unit, for when it is motion dense days to correspond to the time period, it is determined that corresponding to stopping for time period The dormancy time is the first duration；

3rd adjustment unit, for when correspondence the time period for motion dilute phase when, it is determined that correspondence the time period stop The dormancy time is the second duration；

4th adjustment unit, for when it is the ordinary movement phase to correspond to the time period, it is determined that corresponding to stopping for time period The dormancy time is the 3rd duration；

Wherein, the first duration is less than the 3rd duration, and the 3rd duration is less than the second duration.

Wherein, the device also includes：

Detection module, for after the dormancy time of correspondence time period expires, whether detection user to move Action；

Starting module, for when detecting user and moving action, terminating resting state, starts meter step Process；

Second processing module, for when detecting user and not moving action, starting subsequent time period pair The dormancy time answered；When the dormancy time for detecting the correspondence time period is not yet due, resting state is kept.

It should be noted that the device is device corresponding with the method for the energy consumption of above-mentioned control electronics, All implementations can reach identical suitable for the embodiment of the device, also in said method embodiment Technique effect.

Above-described is the preferred embodiment of the present invention, it should be pointed out that for the ordinary people of the art For member, some improvements and modifications can also be made under the premise of without departing from principle of the present invention, these Improvements and modifications are also within the scope of the present invention.

Claims (16)

1. a kind of method of the energy consumption of control electronics, it is characterised in that methods described includes：

The historical movement data of user are obtained, the historical movement data at least include：Movement time section and with The corresponding quantity of motion of the movement time section；

According to the historical movement data, it is determined that obtaining the characteristics of motion of the user, the characteristics of motion is used Family represents user correspondence quantity of motion under different time sections；

According to the characteristics of motion, the dormancy time of the electronic equipment of adjustment correspondence time period.

2. the method for the energy consumption of control electronics according to claim 1, it is characterised in that institute The historical movement data for obtaining user are stated, is specifically included：

Acquisition record has the movement time section in user's top n measurement period and corresponds to momental going through History exercise data；Wherein, N is positive integer.

3. the method for the energy consumption of control electronics according to claim 2, it is characterised in that institute The historical movement data for obtaining user are stated, is specifically included：

Obtain the movement time section and corresponding quantity of motion in user's top n measurement period；

According to the movement time and corresponding quantity of motion, quantity of motion of the user in different time sections is calculated Distribution situation；

According to the quantity of motion distribution situation, the historical movement data of the user are obtained.

4. the method for the energy consumption of control electronics according to claim 3, it is characterised in that root According to the historical movement data, the characteristics of motion for obtaining the user is determined by below equation：

r_n+1=(1- α) * r_n+α*d_n；0 ＜ n≤N, and n is positive integer；

Wherein, r_n+1The predicted motion amount under different time sections in the current statistic cycle is represented, α represents weight Decay factor, r_nQuantity of motion statistical value before representing in N-n measurement period under different time sections, d_nRepresent Quantity of motion distribution situation in front N-n measurement period.

5. the method for the energy consumption of control electronics according to claim 4, it is characterised in that root According to the characteristics of motion, the dormancy time of the electronic equipment of adjustment correspondence time period, specifically include：

According to predicted motion amount and the relation of dormancy time, the dormancy time of adjustment correspondence time period；

Wherein, the predicted motion amount and dormancy time are in inverse relation.

6. the method for the energy consumption of control electronics according to claim 2, it is characterised in that institute State according to the historical movement data, it is determined that obtaining the characteristics of motion of the user, specifically include：

Obtain corresponding motion under the same time period in the top n measurement period recorded in the historical data Amount, and meansigma methodss are calculated to it, obtain the first quantity of motion；

When first quantity of motion is more than the first predetermined threshold value, determine that the time period is motion dense days；

When first quantity of motion is less than the second predetermined threshold value, the time period is determined for the dilute phase of motion；Its In, first predetermined threshold value is higher than second predetermined threshold value；

When first quantity of motion is between first predetermined threshold value and second predetermined threshold value, really The fixed time period is the ordinary movement phase.

7. the method for the energy consumption of control electronics according to claim 6, it is characterised in that institute State according to the characteristics of motion, the dormancy time of the electronic equipment of adjustment correspondence time period, specifically include：

When the correspondence time period being motion dense days, when the dormancy time for determining the correspondence time period is first It is long；

When the correspondence time period is to move dilute phase, when the dormancy time for determining the correspondence time period is second It is long；

When the correspondence time period being the ordinary movement phase, when the dormancy time for determining the correspondence time period is the 3rd It is long；

Wherein, first duration is less than the 3rd duration, and the 3rd duration is less than second duration.

8. the method for the energy consumption of the control electronics according to any one of claim 1 to 7, it is special Levy and be, according to the characteristics of motion, after the dormancy time of the electronic equipment of adjustment correspondence time period, Also include：

After the dormancy time of correspondence time period expires, detect whether the user moves action；

If occurring, terminate resting state, start meter stepping journey；

If not occurring, start the corresponding dormancy time of subsequent time period.

9. a kind of device of the energy consumption of control electronics, it is characterised in that described device includes：

Acquisition module, for obtaining the historical movement data of user, the historical movement data at least include： Movement time section and quantity of motion corresponding with the movement time section；

First processing module, for according to the historical movement data, it is determined that obtaining the motion rule of the user Rule, the characteristics of motion user represents user correspondence quantity of motion under different time sections；

Adjusting module, for according to the characteristics of motion, adjustment to correspond to stopping for the electronic equipment of time period The dormancy time.

10. the device of the energy consumption of control electronics according to claim 9, it is characterised in that institute State acquisition module to specifically include：

First acquisition unit, for obtaining the movement time having in user's top n measurement period is recorded Section and the momental historical movement data of correspondence；Wherein, N is positive integer.

The device of the energy consumption of 11. control electronics according to claim 10, it is characterised in that The acquisition module is specifically included：

Second acquisition unit, for obtain the movement time section in user's top n measurement period with it is right The quantity of motion answered；

Computing unit, for according to the movement time and corresponding quantity of motion, calculating the user in difference The quantity of motion distribution situation of time period；

Determining unit, for according to the quantity of motion distribution situation, obtaining the historical movement data of the user.

The device of the energy consumption of 12. control electronics according to claim 11, it is characterised in that According to the historical movement data, the characteristics of motion for obtaining the user is determined by below equation：

r_n+1=(1- α) * r_n+α*d_n；0 ＜ n≤N, and n is positive integer；

Wherein, r_n+1The predicted motion amount under different time sections in the current statistic cycle is represented, α represents weight Decay factor, r_nQuantity of motion statistical value before representing in N-n measurement period under different time sections, d_nRepresent Quantity of motion distribution situation in front N-n measurement period.

The device of the energy consumption of 13. control electronics according to claim 12, it is characterised in that The adjusting module is specifically included：

First adjustment unit, for according to the relation of predicted motion amount and dormancy time, adjustment correspondence time period Dormancy time；

Wherein, the predicted motion amount and dormancy time are in inverse relation.

The device of the energy consumption of 14. control electronics according to claim 9, it is characterised in that institute State first processing module to specifically include：

3rd acquiring unit, for obtaining the historical data in record top n measurement period in it is same Corresponding quantity of motion under time period, and meansigma methodss are calculated to it, obtain the first quantity of motion；

First processing units, for when first quantity of motion is more than the first predetermined threshold value, determining the time Section is motion dense days；

Second processing unit, for when first quantity of motion is less than the second predetermined threshold value, determining the time Section is the dilute phase of motion；Wherein, first predetermined threshold value is higher than second predetermined threshold value；

3rd processing unit, for being in first predetermined threshold value and described second when first quantity of motion When between predetermined threshold value, determine that the time period is the ordinary movement phase.

The device of the energy consumption of 15. control electronics according to claim 14, it is characterised in that The adjusting module includes：

Second adjustment unit, for when the correspondence time period being motion dense days, determining the correspondence time period Dormancy time be the first duration；

3rd adjustment unit, for when the correspondence time period is to move dilute phase, determining the correspondence time period Dormancy time be the second duration；

4th adjustment unit, for when the correspondence time period being the ordinary movement phase, determining the correspondence time period Dormancy time be the 3rd duration；

Wherein, first duration is less than the 3rd duration, and the 3rd duration is less than second duration.

The device of the energy consumption of 16. control electronics according to any one of claim 8 to 15, its It is characterised by, described device also includes：

Detection module, for after the dormancy time of correspondence time period expires, detecting whether the user occurs Athletic performance；

Starting module, for when detecting the user and moving action, terminating resting state, starts Meter stepping journey；

Second processing module, for when detecting the user and not moving action, starting future time The corresponding dormancy time of section.