CN108958447A - Wake up time alignment interval calculation method and device - Google Patents

Abstract

The embodiment of the present invention provides a kind of wake-up time alignment interval calculation method and device, data acquisition is carried out by sensor, then data acquisition results are handled according to default processing rule, predict that user to the use demand state of terminal, finally calculates the wake-up time alignment interval to match with use demand state.According to " objective law ", when user has different demands state to terminal, equipment state locating for terminal is typically different.And the data of sensor acquisition can characterize the objective status that terminal is presently in, so can be with Accurate Prediction user to the use demand state of the terminal according to " objective fact " and " objective law ", the wake-up time alignment interval obtained according to use demand state computation also complies with the objective use demand of user, therefore according to the calculated wake-up time alignment interval of scheme institute provided in this embodiment, the wake request of each APP also can be timely responded relatively simultaneously in the power consumption for reducing terminal, guarantee user experience.

Description

Wake up time alignment interval calculation method and device

Technical field

The present invention relates to field of terminal technology more particularly to a kind of wake-up time alignment interval calculation method and devices.

Background technique

Relative to traditional function terminal, for intelligent terminal more by the welcome of users, this chief reason is exactly that intelligence is whole The form for passing through APP (Application, application program) is held to provide for user more multi-functional, and relative to conventional terminal The status that can only be determined by manufacturer of function, intelligent terminal provides more more options in this regard for user, and user can root According to the unique exclusive terminal of demands of individuals " customization " function of oneself, and whenever and wherever possible, indiscriminately ad. as one wishes to oneself terminal Function is adjusted, changes.

In recent years, APP was in almost eruptive growth, while bringing higher user experience for user, also allowed end The power consumption index abruptly increase at end.This is mainly due to most APP during running background, timely takes to provide a user Business, the wake-up for oneself not timing carry out networking message detection, data exchange etc., these wakeup process necessarily will increase terminal Power consumption rate, however the bottleneck of cell manufacturing techniques but restricts the further promotion of battery capacity.So in order to promote terminal Cruising ability, the request for avoiding terminal device from answering APP is continually waken up under dormant state, " waking up alignment mechanism " it is general Thought is come into being.The core essence for waking up alignment mechanism is exactly that the application wake request at multiple and different time points is concentrated on one Time point is waken up, and this way can largely reduce terminal device and be waken up number, is reduced power consumption of terminal, is mentioned Rise terminal cruising ability.

But waking up the wake-up time alignment interval in alignment mechanism is not that the longer the better, because waking up alignment mechanism Need to undertake the risk for reducing user experience while reducing terminal power consumption amount: wake-up time alignment interval is longer, means naturally Better power saving effect, but this also implies that the longer time cannot respond each APP networking detection, data exchange etc. and ask simultaneously It asks.If user needs using terminal during this period, these APP then cannot timely be serviced as user provides.So setting is closed The wake-up time alignment interval of suitable length has become base band in wake-up alignment mechanism and solves the problems, such as.

Disclosed on March 30th, 2016, it is logical that a kind of basis is proposed in the Chinese patent of Publication No. 105451311A The dormancy period of module is believed to synchronize the method that setting processing module wakes up time alignment.The agreement as corresponding to heterogeneous networks In define the sleep time of the terminal communication module being resident in the network, so the program can pass through the detection current institute of terminal The network used is to be arranged wake-up time alignment.In addition, disclosed on December 17th, 2014, Publication No. 104219747A Chinese patent in propose it is a kind of according to information about power adjust equipment wake up time alignment method, the program is in battery capacity Gao Shihui, which reduces, wakes up time alignment interval, otherwise when electricity is lower, then it will increase and wake up time alignment interval.

The scheme at time alignment interval is waken up in two kind settings of the above-mentioned patent document proposed in, relative to completely not For terminal wake request does any processing way, power consumption of terminal can be effectively reduced, but the two schemes all have ignorance The drawbacks of user experience, so, it needs to propose that a kind of new wake-up time alignment is positioned apart from scheme now, it is existing to solve There is the problem of reducing user experience in technology while reducing power consumption of terminal.

Summary of the invention

Wake-up time alignment interval calculation method and device provided in an embodiment of the present invention, main technical problems to be solved It is: proposes that a kind of new wake-up time alignment is positioned apart from scheme, guarantee user experience while reducing power consumption of terminal.

In order to solve the above technical problems, the embodiment of the present invention provides a kind of wake-up time alignment interval calculation method, comprising:

It controls the sensor that at least one can monitor terminal unit status and data acquisition is carried out to the terminal；

The data acquisition results of the sensor are handled according to default processing rule, and are predicted based on processing result Use demand state of the user to the terminal；

The wake-up time alignment interval to match with the use demand state is calculated.

The embodiment of the present invention also provides a kind of wake-up time alignment interval calculation device, comprising:

Data acquisition module carries out the terminal for controlling the sensor that at least one can monitor terminal unit status Data acquisition；

State prediction module, for being handled according to default processing rule the data acquisition results of the sensor, And based on processing result prediction user to the use demand state of the terminal；

Interval calculation module, for the wake-up time alignment interval to match with the use demand state to be calculated.

The embodiment of the present invention also provides a kind of computer storage medium, is stored with computer in the computer storage medium Executable instruction, the computer executable instructions are used to execute wake-up time alignment interval calculation side any one of above-mentioned Method.

The beneficial effects of the present invention are:

Wake-up time alignment interval calculation method and device, the computer storage medium provided according to embodiments of the present invention, It wakes up time alignment interval calculation device and terminal is carried out by controlling the sensor that at least one can monitor terminal unit status Then data acquisition is handled the data acquisition results of sensor according to default processing rule, and pre- based on processing result User is surveyed to the use demand state of terminal, is finally calculated between the wake-up time alignment to match with use demand state Every.When having different demands state to terminal due to user, equipment state locating for terminal is usually different, this is a kind of " visitor See rule ".And data acquisition is carried out to terminal by sensor, it will be able to recognize the state that terminal is presently in, so It is accurate " objective fact " according to the equipment state that data acquisition results obtain, and then according to this " objective thing of equipment state It is real " and equipment state and use demand state between existing " objective law " can use with Accurate Prediction user to the terminal Need state.Time alignment interval is waken up finally, calculating in conjunction with user the use demand state of the terminal, guarantee calculates To wake-up time alignment interval can either reduce the power consumption of terminal to a certain extent, while also can timely respond relatively each The wake request of APP guarantees user experience.

Detailed description of the invention

Fig. 1 is a kind of flow chart for the wake-up time alignment interval calculation method that the embodiment of the present invention one provides；

Fig. 2 is a kind of flow chart provided by Embodiment 2 of the present invention for waking up time alignment interval calculation method；

Fig. 3 is a kind of flow chart of determining use demand state provided by Embodiment 2 of the present invention；

Fig. 4 is a kind of structural schematic diagram for the wake-up time alignment interval calculation device that the embodiment of the present invention three provides；

Fig. 5 is a kind of structural schematic diagram for the wake-up time alignment interval calculation device that the embodiment of the present invention four provides；

Fig. 6 is a kind of hardware structural diagram for the mobile terminal that the embodiment of the present invention five provides.

Specific embodiment

The embodiment of the present invention is described in further detail below by specific embodiment combination attached drawing.

Embodiment one:

In order to solve in the prior art determine terminal wake up time alignment interval when, only focus on reduction power consumption of terminal, Problem to cause user experience low, the present embodiment provides a kind of wake-up time alignment interval calculation methods, referring to Figure 1:

S102, it wakes up time alignment interval calculation device and controls at least one and can monitor the sensor pair of terminal unit status Terminal carries out data acquisition.

Signified sensor can be the sensor that terminal itself carries in the present embodiment, be also possible to setting and terminal with Outer sensor.By taking terminal is smart phone as an example, sensor can be deployed in smart phone, one as smart phone Point, it also can be set on other accessories of smart phone, be such as arranged in protecting sleeve for intelligent mobile phone.In the present embodiment, into The sensor of row data acquisition belongs to terminal itself, should be existing most terminal and is all configured with sensor and mentions for user For service, so, if directly monitoring the SOT state of termination using these sensors, it can largely reduce the negative of user Load.

It is understood that a part no matter sensor is terminal is also independently of terminal setting, should all have Monitor the ability of terminal unit status.SOT state of termination mentioned here, including motion state of terminal, terminal local environment state etc. It is at least one of several.The sensor that motion state of terminal can be monitored includes acceleration transducer, direction sensor, gyro Instrument sensor, gravity sensor, linear acceleration sensors, rotating vector sensor and the compass in Magnetic Sensor, position Set sensor etc..And the sensor that can monitor terminal local environment then includes light sensing sensor, pressure sensor, temperature Magnetic sensors etc. in sensor, proximity sensor and magnetometric sensor.

Theoretically, wake-up time alignment interval calculation device can control sensor and carry out data acquisition at any time, And these sensors can be worked at the same time or be worked respectively.But in order to reduce power consumption of terminal, wake up between time alignment The working time of sensor should be controlled as far as possible every computing device, in the present embodiment, wake up time alignment interval calculation device It can allow these sensor timing acquiring data, only when acquisition time reaches, sensor can just start to work, otherwise, this A little sensors can all enter dormant state to reduce terminal energy consumption.In another example of the present embodiment, terminal every A period of time have a wake-up period, it is interim in the wake-up, terminal can the request to each APP carry out response processing, equally, And need to calculate wake-up time alignment interval next time during wake-up, therefore wake up time alignment interval calculation device Sensor can be controlled during terminal is in wake-up states carries out data acquisition.

S104, wake up time alignment interval calculation device according to the regular data acquisition results to sensor of default processing into Row processing, and based on processing result prediction user to the use demand state of terminal.

In general, the state of terminal is different when user has use demand and user temporarily not to have demand to terminal terminal 's.Be illustrated so that user does not temporarily need using terminal as an example first: when user does not need using terminal, terminal may Be installed in the pocket or packet of user, at this point, terminal is in the lower environment of brightness, and with other foreign object (usually mouths Bag wall, containment wall or mounted in pocket and packet in other objects) the distance between it is closer.In other scene, work as user When not needing using terminal, terminal can be undisturbedly placed on one side, and terminal is in a longer period of time without any movement Or movement tendency, while terminal may be also distant with a distance from user's body surface.In addition, when user carries the portable of oneself Terminal does not need using terminal temporarily, so terminal may be presented regular with user's at this time in running yet Movement.

If user has the needs of using terminal immediately, terminal should be at least in closer distance with user, together When with user's fixed movement of some comparisons before using terminal, hold the hand of terminal as user can lift, terminal lifted To suitable position, while it also will do it and the display screen of terminal be inclined to the movement such as angle vertical with user's sight.From So, closer with user distance when user has use demand to it for terminal, this point can be by infrared, warm The data acquisition results of the sensors such as degree are embodied.The movement of simultaneous user, terminal also have it is some relatively Fixed motion change, these movements can pass through acceleration transducer, direction sensor, gyro sensor, gravity sensitive The data acquisition results of device etc. embody.

So direct by data acquisition results accessed by sensor although waking up time alignment interval calculation device Characterization is the equipment state of terminal, but can embody user to a certain extent to the terminal because of the equipment state of terminal Use demand state, therefore, in the present embodiment waking up time alignment interval calculation device can be according to default processing rule to biography The data acquisition results of sensor are handled, and predict user to the use demand state of terminal based on processing result.

In a kind of example of the present embodiment, wake-up time alignment interval calculation device is previously stored with need state and reflects Firing table includes mapping relations of the data acquisition results with user to terminal use demand state in Demand mapping relation table. After getting the data acquisition results of sensor, waking up time alignment interval calculation device can directly be closed according to the demand It is that mapping table inquires use demand state corresponding with Current data acquisition result.It should be understood that being needed for each Acquisition state is sought, there can be multiple data acquisition results to be corresponding to it.So in the present embodiment, making with user to terminal With need state it is corresponding be should be numberical range.Sensor acquisition is obtained when waking up time alignment interval calculation device After data, first determine which numberical range is these data belong within, after determining numberical range, Ke Yizhi Connect determining use demand state corresponding with the numberical range as use demand shape corresponding with sensor data acquisition result State.

For example, user includes tri- kinds of A, B, C to the use demand state of terminal in an example of the present embodiment, For these three user's use demands states, the following institute of need state mapping table of time alignment interval calculation device storage is waken up Show:

Table 1

So being 15 when waking up time alignment interval calculation device to get the data acquisition results of sensor S1, and pass The collection result of sensor S2 be 50, then by analysis, the collection result of discovery sensor S1 fall into (10,17] this range, and The data acquisition results of sensor S2 fall into [47,60) this numberical range, therefore, it is determined with sensor collection result phase Corresponding use demand state is B.

S106, wake-up time alignment interval calculation device are calculated when being aligned with the wake-up that use demand state matches Between be spaced.

After the data acquisition results according to sensor determine corresponding use demand state, time alignment interval is waken up Computing device can obtain waking up time alignment interval according to the use demand state determined.Specifically, in the present embodiment In a kind of example, wakes up time alignment interval calculation device and wake up pair corresponding with each use demand state is also stored It is divided into 30s between neat time interval, such as wake-up time alignment corresponding with use demand state A, it is corresponding with use demand state B Wake-up time alignment between be divided into 60s, be divided into 300s between wake-up time alignment corresponding with use demand state C.So at this It, can be direct after wake-up time alignment interval calculation device determines use demand state of the user to terminal in example By inquiry use demand state and wake up time alignment interval between mapping relations so that it is determined that out the wake-up of terminal be aligned Time interval is how many.

In another example of the present embodiment, wakes up time alignment interval calculation device and called out in advance without directly storage The direct mapping relations waken up between time alignment interval and use demand state, but default adjustment rule is stored, default It include the mapping relations between use demand state and adjustable strategies in adjustment rule.Adjustable strategies are for indicate how to base Plinth time interval is adjusted to obtain a kind of strategy at current awake time alignment interval.So when determining using need After seeking state, the available adjustable strategies to match with use demand state of time alignment interval calculation device are waken up.So Afterwards, basal latency interval is adjusted according to the adjustable strategies.

Basal latency interval can be provided with by programmer according to engineering experience, can also be customized by the user Input setting.It is understood that for this basal latency interval, it is otherwise, whole in each setting except non-user is reset When end wakes up time alignment interval, will not all it change.That is, basal latency interval is all before each adjustment The same.

Other than the basal latency interval of setting regular length, what basal latency interval was also possible to change at any time, example Such as, in the present embodiment, the length at basal latency interval and the wake-up time alignment interval length before terminal have relationship, namely Current basal latency interval is to wake up the setting of time alignment interval according to preceding terminal to obtain.It is assumed that when current basis Between interval be that last terminal wakes up the 1/2 of time alignment interval, the wake-up time alignment of last terminal is spaced to be 180s, then being divided into 90s between basal latency based on when current setting wakes up time alignment interval.It should be understood that it The wake-up time alignment interval of preceding wake-up time alignment interval not necessarily terminal last time, it is also possible to institute's front n times Wake up the wake-up time alignment interval etc. of the mean value either front n-th at time alignment interval.

In a kind of example of the present embodiment, basal latency interval is that the terminal before combining wakes up time alignment interval And the customized determining completion of user.The mode at this determining basal latency interval, on the one hand can guarantee each user Personalization, maintenance user is to the control ability of oneself terminal；It is avoided that subjectivity brought by the customized setting of user again simultaneously It influences, guarantees that the basal latency interval being provided is objective and reliable as far as possible, can help to wake up time alignment interval calculation dress It sets to be calculated and can either utmostly reduce power consumption, and can utmostly safeguard the wake-up time alignment interval of user experience.

Wake-up time alignment interval calculation method provided in this embodiment, by speculating user to the use demand shape of terminal State, to go out current wake-up time alignment interval according to use demand state computation, when avoiding existing setting wake-up alignment Between ignore user's use demands completely in the scheme that is spaced and cause the wake request of each APP is long-term ignored cannot ring in time It answers, leads to the problem of timely service cannot be provided for user, reduce user experience.This determining terminal wake-up pair in the present embodiment The mode of neat time interval, can not only reduce power consumption of terminal, but also terminal can make in user while reducing power consumption It is completed with waking up before, the processing request of each APP is responded, to guarantee user experience.

On the other hand, speculate that user is by that can monitor terminal device shape to the use demand state of terminal in the present embodiment The sensor of state carries out data acquisition, and the terminal devices shape such as the motion state according to locating for terminal, ambient condition for terminal State predicts, so, the use demand state predicted is more accurate objective, and then improve based on the use demand shape Accuracy, the validity at the wake-up time alignment interval that state is determined.

Embodiment two:

On the basis of example 1, the present embodiment continues that wake-up time alignment interval calculation method is introduced, and asks Referring to fig. 2:

S202, during terminal wakes up, wake up time alignment interval calculation device and control at least one and can monitor terminal and set The sensor of standby state carries out data acquisition to terminal.

In the present embodiment, wake up time alignment interval calculation device control sensor can be counted during terminal wakes up According to acquisition.Specifically, when terminal needs are waken up from dormant state, bottom alarm (alarm) can transmit a touching to system It signals, when system receives wake-up signal, then terminal device is waken up.It, can basis after terminal device wakes up Alarm starting institute the APP in need acted, respectively carry out respectively needed for completion movement.Such as it wakes up and is joined Net detection message, the APP for exchanging data allow them to carry out networking message detection, data exchange etc..Certainly, in addition to allowing wake-up to ask The APP asked is completed other than corresponding movement, and each sensor can also be controlled during wake-up by waking up time alignment interval calculation device Data acquisition, and get the data acquisition results of each sensor.

S204, time alignment interval calculation device equipment state mapping table according to the pre-stored data and data acquisition knot are waken up Fruit determines the equipment state of terminal.

In the present embodiment, the not instead of need state mapping table for waking up the storage of time alignment interval calculation device, sets Standby state mapping map, what equipment state mapping table directly characterized is the equipment state of terminal between sensor data acquisition results Mapping relations.The equipment state of terminal includes but is not limited to " stationary state ", " motion state for following user " etc..It can manage Solution, " stationary state " is divided into " the terminal stationary state under user job ", " terminal under user's sleep state again Stationary state ", " user goes out and the terminal stationary state of non-carried terminal " etc..Likewise, " motion state for following user " It can be further subdivided into " motion state held by user ", " motion state of pocket is placed in by user " etc. again.Wake-up pair It, can be according to the data acquisition results of each sensor after neat time interval computing device obtains the data acquisition results of sensor Determine the current state of terminal.

S206, wake-up time alignment interval calculation device determine user to the use demand shape of terminal based on equipment state State.

In the present embodiment, user wakes up time alignment interval calculation dress to the use demand state of terminal in order to obtain It sets to combine and be determined according to sensor collection result and user's use habit.Determining use out shown in Figure 3 needs Seek the flow chart of state:

S302, time alignment interval calculation device record user is waken up in each period to the use habit of terminal.

Waking up time alignment interval calculation device will record service condition of the user in each period to terminal, then root The use habit that study of summarizing obtains user to terminal is recorded according to these, and storage record is carried out to the use habit, just In subsequent use.Determine user currently or close since use habit is mainly to aid in wake-up time alignment interval calculation device Whether the phase has use demand to terminal, it will be appreciated therefore that, wake up the use feelings of time alignment interval calculation device record Should include user in condition operates terminal in which period.

It is beyond all doubt, since use habit of the user to terminal is not unalterable, so, when waking up alignment Between interval calculation device can record that user is newest using operational circumstances in real time, and either most according to past all record The service condition of nearly a period of time learns to obtain the use habit of user.In the present embodiment, it is contemplated that long-term record user couple All service conditions of terminal need to occupy a large amount of memory space, so, in order to save storage resource, wake up between time alignment Timing or sporadically the service condition recorded earliest can be cleared up every computing device, then according only to nearest one section when Between service condition carry out use habit study.

S304, wake-up time alignment interval calculation device determine the current time.

In order to determine that user is current or in the recent period to the use demand of terminal, so, wake up time alignment interval calculation dress The time it should be understood that current is set, to determine in the use habit of user well, whether this current a period of time has using use The demand at family.

S306, wake up time alignment interval calculation device bonding apparatus state, user each period use habit with And current time determines user to the use demand state of terminal.

User can substantially be speculated according to use habit and current use demand by waking up time alignment interval calculation device Currently to the use demand of terminal.Further, waking up time alignment interval calculation device can be according to the collection result of sensor The equipment state for obtaining terminal, more accurately predicts use demand state in rough estimation result.

S208, wake-up time alignment interval calculation device are calculated when being aligned with the wake-up that use demand state matches Between be spaced.

After determining user to the use demand state of terminal, waking up time alignment interval calculation device can be determined The adjustable strategies to match with the use demand state, when then according to the adjustable strategies to waking up alignment based on terminal before Between the determined basal latency interval in interval be adjusted, to obtain current wake-up time alignment interval.

In a kind of example of the present embodiment, user to the wake-up time alignment of terminal be divided into " instant need state ", " in short term without use demand state " and " for a long time without use demand state ", different use demand states correspond to different Adjustable strategies.Either which kind of use demand state, corresponding wake-up time alignment interval is at basal latency interval On the basis of be adjusted, for example, in the present embodiment, waking up time alignment interval is increase to basal latency interval Adjustment is added to obtain, it is to be understood that adjustment amplitude corresponding to " for a long time without use demand state " should be greater than " short-term nothing The adjustment amplitude of use demand state ".

Whether the wake-up time alignment interval that S210, wake-up time alignment interval calculation device judgement are determined, which exceeds this, makes With the corresponding reasonable value range of need state.

In the present embodiment, wake up time alignment interval calculation device is that each use demand state is provided with pair in advance The reasonable value range answered, the wake-up time alignment obtained after being adjusted according to adjustable strategies between basal latency interval Every later, wakes up time alignment interval calculation device and also judge whether calculated result falls in reasonable value range, if sentenced Otherwise disconnected result executes S212 to be directly to terminate process.

S212, wake-up time alignment interval calculation device are intervally adjusted to time alignment is waken up within the scope of reasonable value.

If judging result be it is no, waking up time alignment interval calculation device can be by current wake-up time alignment Interval is adjusted so that wake-up time alignment interval adjusted is fallen within the scope of reasonable value.For example, waking up time alignment Interval calculation device determines that user is currently " for a long time without use demand state " to the use demand of terminal, and is adjusted according to corresponding Whole strategy obtains being divided into 180s between wake-up time alignment.And before it is " for a long time without use demand state " reasonable value of setting Range is to be less than or equal to 150s greater than 90s, it is seen that has exceeded reasonable value model according to the calculated result that adjustable strategies are calculated It encloses, at this moment, 150s can be directly selected as wake-up time alignment interval by waking up time alignment interval calculation device.

It is subsequent to be directly aligned according to the wake-up in the case of wake-up time alignment is spaced within the scope of reasonable value The wakeup time of terminal next time is arranged in time interval, and for needing the case where adjusting, then it is aligned according to wake-up adjusted The wakeup time of terminal next time is arranged in time interval.

Wake-up time alignment interval calculation method provided in this embodiment carries out data acquisition to terminal by sensor, Then the equipment state of terminal is obtained according to data acquisition results and equipment state mapping table, in conjunction with terminal unit status, used Family determines that user is current or in the recent period to the use demand state of terminal to the use habit of terminal and current time, and root Basal latency interval is adjusted according to use demand state corresponding adjustable strategies, obtain with currently used need state to The wake-up time alignment interval matched.When determining use demand state in the present embodiment, user's past is had also combined to terminal Use habit, it is ensured that the objectivity and accuracy of use demand state, thus guarantee determined according to use demand state Wake-up time alignment blank character share the use habit at family, to promote user experience.Meanwhile because wake-up pair is calculated After neat time interval, waking up time alignment interval calculation device can also further judge whether the calculated result has exceeded rationally Numberical range avoids multiple adjustment if so, the calculated result can be adjusted by waking up time alignment interval calculation device Time alignment interval inaccuracy, and the problem that user's actual need deviation is too big are waken up later.

Embodiment three:

The present embodiment provides a kind of wake-up time alignment interval calculation devices, as shown in figure 4, the wake-up time alignment interval Computing device 40 includes data acquisition module 402, state prediction module 404 and interval calculation module 406.

Data acquisition module 402 is used to control at least one the sensor that can monitor terminal unit status and counts to terminal According to acquisition.Signified sensor can be the sensor that terminal itself carries in the present embodiment, be also possible to setting and terminal with Outer sensor.By taking terminal is smart phone as an example, sensor can be deployed in smart phone, one as smart phone Point, it also can be set on other accessories of smart phone, be such as arranged in protecting sleeve for intelligent mobile phone.In the present embodiment, number The sensor of the carry out data acquisition controlled according to acquisition module 402 belongs to terminal itself, should be existing most whole End is all configured with sensor and provides service for user, so, it, can if directly monitoring the SOT state of termination using these sensors Largely reduce the burden of user.

It is understood that a part no matter sensor is terminal is also independently of terminal setting, should all have Monitor the ability of terminal unit status.SOT state of termination mentioned here, including motion state of terminal, terminal local environment state etc. It is at least one of several.The sensor that motion state of terminal can be monitored includes acceleration transducer, direction sensor, gyro Instrument sensor, gravity sensor, linear acceleration sensors, rotating vector sensor and the compass in Magnetic Sensor, position Set sensor etc..And the sensor that can monitor terminal local environment then includes light sensing sensor, pressure sensor, temperature Magnetic sensors etc. in sensor, proximity sensor and magnetometric sensor.

Theoretically, data acquisition module 402 can control sensor and carry out data acquisition at any time, and these are passed Sensor can be worked at the same time or be worked respectively.But in order to reduce power consumption of terminal, data acquisition module 402 should be controlled as far as possible The working time of sensor processed, in the present embodiment, data acquisition module 402 can allow these sensor timing acquiring data, Only when acquisition time reaches, sensor can just start to work, and otherwise, these sensors can all enter dormant state to reduce Terminal energy consumption.In another example of the present embodiment, terminal has a wake-up period at regular intervals, calls out at this Wake up when it is interim, terminal can the request to each APP carry out response processing, equally, and need to calculate next time during wake-up Wake-up time alignment interval, therefore data acquisition module 402 can be controlled during terminal is in wake-up states sensor into The acquisition of row data.

State prediction module 404 is used to handle the data acquisition results of sensor according to default processing rule, and Based on processing result prediction user to the use demand state of terminal.

In general, the state of terminal is different when user has use demand and user temporarily not to have demand to terminal terminal 's.Be illustrated so that user does not temporarily need using terminal as an example first: when user does not need using terminal, terminal may Be installed in the pocket or packet of user, at this point, terminal is in the lower environment of brightness, and with other foreign object (usually mouths Bag wall, containment wall or mounted in pocket and packet in other objects) the distance between it is closer.In other scene, work as user When not needing using terminal, terminal can be undisturbedly placed on one side, and terminal is in a longer period of time without any movement Or movement tendency, while terminal may be also distant with a distance from user's body surface.In addition, when user carries the portable of oneself Terminal does not need using terminal temporarily, so terminal may be presented regular with user's at this time in running yet Movement.

If user has the needs of using terminal immediately, terminal should be at least in closer distance with user, together When with user's fixed movement of some comparisons before using terminal, hold the hand of terminal as user can lift, terminal lifted To suitable position, while it also will do it and the display screen of terminal be inclined to the movement such as angle vertical with user's sight.From So, closer with user distance when user has use demand to it for terminal, this point can be by infrared, warm The data acquisition results of the sensors such as degree are embodied.The movement of simultaneous user, terminal also have it is some relatively Fixed motion change, these movements can pass through acceleration transducer, direction sensor, gyro sensor, gravity sensitive The data acquisition results of device etc. embody.

So although data acquisition module 402 is by what data acquisition results accessed by sensor directly characterized The equipment state of terminal, but because the equipment state of terminal can embody user to the use demand of the terminal to a certain extent State, therefore, state prediction module 404 can be according to default processing rule to the data acquisition results of sensor in the present embodiment It is handled, and user is predicted to the use demand state of terminal based on processing result.

In a kind of example of the present embodiment, state prediction module 404 is previously stored with need state mapping table, is needing Seek the mapping relations in mapping table including data acquisition results with user to terminal use demand state.It is passed when getting After the data acquisition results of sensor, state prediction module 404 directly can inquire and work as according to the demand relation mapping table The corresponding use demand state of preceding data acquisition results.It should be understood that can have more for each demand acquisition state A data acquisition results are corresponding to it.So in the present embodiment, it is corresponding with use demand state of the user to terminal to be It should be numberical range.After state prediction module 404 obtains the data of sensor acquisition, first determine that these data are to belong to Within which numberical range, after determining numberical range, use corresponding with the numberical range can be directly determined Need state is use demand state corresponding with sensor data acquisition result.

For example, user includes tri- kinds of A, B, C to the use demand state of terminal in an example of the present embodiment, For these three user's use demands states, the need state mapping table that state prediction module 404 stores is as shown in table 1.So It is 15 when data acquisition module 402 gets the data acquisition results of sensor S1, and the collection result of sensor S2 is 50, then State prediction module 404 by analysis, the collection result of discovery sensor S1 fall into (10,17] this range, and sensor S2 Data acquisition results fall into [47,60) this numberical range, so, state prediction module 404 can be determined and be adopted with sensor Integrate the corresponding use demand state of result as B.

Interval calculation module 406 is for being calculated the wake-up time alignment interval to match with use demand state.

After state prediction module 404 determines corresponding use demand state according to the data acquisition results of sensor, Interval calculation module 406 can obtain waking up time alignment interval according to the use demand state determined.Specifically, in this reality It applies in a kind of example of example, interval calculation module 406 stores wake-up corresponding with each use demand state when being aligned Between be spaced, such as be divided into 30s between wake-up time alignment corresponding with use demand state A, it is corresponding with use demand state B to call out It is divided into 60s between awake time alignment, is divided into 300s between wake-up time alignment corresponding with use demand state C.So in the example In the middle, after state prediction module 404 determines use demand state of the user to terminal, interval calculation module 406 can be straight The mapping relations between inquiry use demand state and wake-up time alignment interval were connected so that it is determined that the wake-up pair of terminal out Neat time interval is how many.

In another example of the present embodiment, interval calculation module 406 is in advance without when directly storage wakes up alignment Between be spaced direct mapping relations between use demand state, but default adjustment rule is stored, in default adjustment rule In include mapping relations between use demand state and adjustable strategies.Adjustable strategies are for indicate how between basal latency Every being adjusted to obtaining a kind of strategy at current awake time alignment interval.So when state prediction module 404 is determined After use demand state, the available adjustable strategies to match with use demand state of interval calculation module 406.Then, Basal latency interval is adjusted according to the adjustable strategies.

Basal latency interval can be provided with by programmer according to engineering experience, can also be customized by the user Input setting.It is understood that for this basal latency interval, it is otherwise, whole in each setting except non-user is reset When end wakes up time alignment interval, will not all it change.That is, basal latency interval is all before each adjustment The same.

Other than the basal latency interval of setting regular length, what basal latency interval was also possible to change at any time, example Such as, in the present embodiment, the length at basal latency interval and the wake-up time alignment interval length before terminal have relationship, namely Current basal latency interval is to wake up the setting of time alignment interval according to preceding terminal to obtain.It is assumed that when current basis Between interval be that last terminal wakes up the 1/2 of time alignment interval, the wake-up time alignment of last terminal is spaced to be 180s, then being divided into 90s between basal latency based on when current setting wakes up time alignment interval.It should be understood that it The wake-up time alignment interval of preceding wake-up time alignment interval not necessarily terminal last time, it is also possible to institute's front n times Wake up the wake-up time alignment interval etc. of the mean value either front n-th at time alignment interval.

In a kind of example of the present embodiment, basal latency interval is that the terminal before combining wakes up time alignment interval And the customized determining completion of user.The mode at this determining basal latency interval, on the one hand can guarantee each user Personalization, maintenance user is to the control ability of oneself terminal；It is avoided that subjectivity brought by the customized setting of user again simultaneously It influences, guarantees that the basal latency interval being provided is objective and reliable as far as possible, interval calculation module 406 can be helped to be calculated Power consumption can either be utmostly reduced, and can utmostly safeguard the wake-up time alignment interval of user experience.

Wake-up time alignment interval calculation device provided in this embodiment, by speculating user to the use demand shape of terminal State, to go out current wake-up time alignment interval according to use demand state computation, when avoiding existing setting wake-up alignment Between ignore user's use demands completely in the scheme that is spaced and cause the wake request of each APP is long-term ignored cannot ring in time It answers, leads to the problem of timely service cannot be provided for user, reduce user experience.This determining terminal wake-up pair in the present embodiment The mode of neat time interval, can not only reduce power consumption of terminal, but also terminal can make in user while reducing power consumption It is completed with waking up before, the processing request of each APP is responded, to guarantee user experience.

On the other hand, speculate that user is by that can monitor terminal device shape to the use demand state of terminal in the present embodiment The sensor of state carries out data acquisition, and the terminal devices shape such as the motion state according to locating for terminal, ambient condition for terminal State predicts, so, the use demand state predicted is more accurate objective, and then improve based on the use demand shape Accuracy, the validity at the wake-up time alignment interval that state is determined.

Example IV:

The present embodiment continues to provide a kind of wake-up time alignment interval calculation device, specifically, it is shown in Figure 5 go out Wake up time alignment interval calculation device 40: it includes data acquisition module 402, state prediction module 404 and interval calculation Module 406 and habit logging modle 408, interval adjustment module 410.

In the present embodiment, data acquisition module 402 can control sensor during terminal wakes up and carry out data acquisition.Tool Body, when terminal needs are waken up from dormant state, bottom alarm (alarm) can transmit a trigger signal to system, when When system receives wake-up signal, then terminal device is waken up.After terminal device wakes up, institute can be started according to alarm The APP in need acted, the movement completed needed for carrying out respectively respectively.Such as wake up carry out networking detect message, The APP of exchange data allows them to carry out networking message detection, data exchange etc..Certainly, in addition to allowing the APP for having wake request to complete Other than corresponding movement, data acquisition module 402 can also control each sensor data acquisition during wake-up, and get The data acquisition results of each sensor.

In the present embodiment, the not instead of need state mapping table that time alignment interval calculation device 40 stores is waken up, Equipment state mapping table, what equipment state mapping table directly characterized be terminal equipment state with sensor data acquisition results it Between mapping relations.The equipment state of terminal includes but is not limited to " stationary state ", " motion state for following user " etc..It can be with Understand, " stationary state " is divided into " the terminal stationary state under user job ", " end under user's sleep state again End stationary state ", " user goes out and the terminal stationary state of non-carried terminal " etc..Likewise, " following the movement shape of user State " can be further subdivided into " motion state held by user ", " motion state of pocket is placed in by user " etc. again.Data After acquisition module 402 obtains the data acquisition results of sensor, state prediction module 404 can be according to the data of each sensor Collection result determines the current state of terminal.

In the present embodiment, user can combine root to the use demand state of terminal, state prediction module 404 in order to obtain It is determined according to user's use habit that sensor collection result is recorded with habit logging modle 408.It is accustomed to 408 meeting of logging modle User is recorded during user's routine use terminal in each period to the service condition of terminal, then according to these notes The use habit that study of summarizing obtains user to terminal is recorded, and storage record is carried out to the use habit, is made convenient for subsequent With.Determine that user is current or makes in the recent period to whether terminal has since use habit is mainly to aid in state prediction module 404 With demand, it will be appreciated therefore that, it should include user at which in the service condition that habit logging modle 408 records A period operates terminal.

It is beyond all doubt, since use habit of the user to terminal is not unalterable, so, habit record mould Block 408 can record that user is newest using operational circumstances in real time, and when according to past all either nearest one section of record Between service condition learn to obtain the use habit of user.In the present embodiment, it is contemplated that institute of the long-term record user to terminal There is service condition to need to occupy a large amount of memory space, so, in order to save storage resource, habit logging modle 408 can determine When or sporadically the service condition recorded earliest is cleared up, then according only to nearest a period of time service condition carry out The study of use habit.

In order to determine that user is current or in the recent period to the use demand of terminal, so, state prediction module 404 it should be understood that The current time, to determine in the use habit of user well, whether this current a period of time has the demand using user.

State prediction module 404 can substantially speculate user currently to terminal according to use habit and current use demand Use demand.Further, state prediction module 404 can obtain the equipment state of terminal according to the collection result of sensor, Use demand state is more accurately predicted in rough estimation result.

After state prediction module 404 determines user to the use demand state of terminal, interval calculation module 406 can be with It determines the adjustable strategies to match with the use demand state, is then waken up according to the adjustable strategies to based on terminal before The basal latency interval that time alignment interval is determined is adjusted, to obtain current wake-up time alignment interval.

In a kind of example of the present embodiment, user to the wake-up time alignment of terminal be divided into " instant need state ", " in short term without use demand state " and " for a long time without use demand state ", different use demand states correspond to different Adjustable strategies.Either which kind of use demand state, corresponding wake-up time alignment interval is at basal latency interval On the basis of be adjusted, for example, in the present embodiment, waking up time alignment interval is increase to basal latency interval Adjustment is added to obtain, it is to be understood that adjustment amplitude corresponding to " for a long time without use demand state " should be greater than " short-term nothing The adjustment amplitude of use demand state ".

In the present embodiment, adjustment module 410 in interval is provided in advance for each use demand state corresponding reasonable Numberical range, the wake-up pair obtained after interval calculation module 406 is adjusted basal latency interval according to adjustable strategies After neat time interval, interval adjustment module 410 also judges whether calculated result falls in reasonable value range.If judgement knot Fruit be it is no, then be spaced adjustment module 410 can be by being adjusted current wake-up time alignment interval so that adjusted Time alignment interval is waken up to fall within the scope of reasonable value.For example, state prediction module 404 determines user currently to terminal Use demand is " for a long time without use demand state ", and is obtained being divided into 180s between wake-up time alignment according to corresponding adjustable strategies. And be spaced adjustment module 410 before be " for a long time without use demand state " setting reasonable value range be greater than 90s less than etc. In 150s, it is seen that reasonable value range is had exceeded according to the calculated result that adjustable strategies are calculated, at this moment, interval adjustment module 410 can directly select 150s as wake-up time alignment interval.

It is subsequent to be directly aligned according to the wake-up in the case of wake-up time alignment is spaced within the scope of reasonable value The wakeup time of terminal next time is arranged in time interval, and for needing the case where adjusting, then it is aligned according to wake-up adjusted The wakeup time of terminal next time is arranged in time interval.

Wake-up time alignment interval calculation device provided in this embodiment carries out data acquisition to terminal by sensor, Then the equipment state of terminal is obtained according to data acquisition results and equipment state mapping table, in conjunction with terminal unit status, used Family determines that user is current or in the recent period to the use demand state of terminal to the use habit of terminal and current time, and root Basal latency interval is adjusted according to use demand state corresponding adjustable strategies, obtain with currently used need state to The wake-up time alignment interval matched.When determining use demand state in the present embodiment, user's past is had also combined to terminal Use habit, it is ensured that the objectivity and accuracy of use demand state, thus guarantee determined according to use demand state Wake-up time alignment blank character share the use habit at family, to promote user experience.Meanwhile because wake-up pair is calculated After neat time interval, waking up time alignment interval calculation device can also further judge whether the calculated result has exceeded rationally Numberical range avoids multiple adjustment if so, the calculated result can be adjusted by waking up time alignment interval calculation device Time alignment interval inaccuracy, and the problem that user's actual need deviation is too big are waken up later.

Embodiment five:

The wake-up time alignment interval calculation device that the embodiment of the present invention three proposed in foregoing embodiments provides can To be deployed in such as mobile phone, tablet computer, laptop, palm PC, personal digital assistant (Personal Digital Assistant, PDA), portable media player (Portable Media Player, PMP), navigation device, wearable set On the mobile terminals such as standby, Intelligent bracelet, pedometer, the shifting of time alignment interval calculation device is waken up to deployment below with reference to Fig. 6 The hardware configuration of dynamic terminal is introduced:

Mobile terminal 600 includes the components such as sensor 610, processor 620, memory 630 and power supply 640.

Mobile terminal 600 further includes at least one sensor 610, such as optical sensor, motion sensor and other biographies Sensor.Specifically, optical sensor includes ambient light sensor and proximity sensor, wherein ambient light sensor can be according to environment The light and shade of light adjusts the brightness of display panel, and proximity sensor can close display when mobile terminal 600 is moved in one's ear Panel and/or backlight.As a kind of motion sensor, accelerometer sensor can detect in all directions (generally three axis) and add The size of speed can detect that size and the direction of gravity when static, can be used to identify application (such as the horizontal/vertical screen of mobile phone posture Switching, dependent game, magnetometer pose calibrating), Vibration identification correlation function (such as pedometer, tap) etc.；Also as mobile phone Configurable fingerprint sensor, pressure sensor, iris sensor, molecule sensor, gyroscope, barometer, hygrometer, temperature The other sensors such as meter, infrared sensor, details are not described herein.In the present embodiment, these sensors 610 are mainly used for pair The equipment state of mobile terminal 600 is detected, and determines ambient condition (such as brightness, temperature locating for the mobile terminal 600 Deng), the motion state speed, acceleration etc. of translation (rotation).

Processor 620 is the control centre of mobile terminal, utilizes each of various interfaces and the entire mobile terminal of connection A part by running or execute the software program and/or module that are stored in memory 630, and calls and is stored in storage Data in device 630 execute the various functions and processing data of mobile terminal, to carry out integral monitoring to mobile terminal.Place Managing device 620 may include one or more processing units；Preferably, processor 620 can integrate application processor and modulatedemodulate is mediated Manage device, wherein the main processing operation system of application processor, user interface and application program etc., modem processor is main Processing wireless communication.It is understood that above-mentioned modem processor can not also be integrated into processor 620.This implementation In example, processor 620 can be analyzed according to the collected data of sensor 610 determines user currently to mobile terminal 600 Use demand state, and determined and suitable wakeup time interval according to use demand state.

Memory 630 can be used for storing software program and various data.Memory 630 can mainly include storing program area The storage data area and, wherein storing program area can (such as the sound of application program needed for storage program area, at least one function Sound playing function, image player function etc.) etc.；Storage data area can store according to mobile phone use created data (such as Audio data, phone directory etc.) etc..In addition, memory 630 may include high-speed random access memory, it can also include non-easy The property lost memory, a for example, at least disk memory, flush memory device or other volatile solid-state parts.

Mobile terminal 600 can also include the power supply 640 (such as battery) powered to all parts, the one of the present embodiment In kind example, power supply 640 can be logically contiguous by power-supply management system and processor 620, to pass through power management system System realizes the functions such as management charging, electric discharge and power managed.

The function of waking up the data acquisition module in time alignment interval calculation device in foregoing embodiments can be by Processor 620 controls each sensor 610 on mobile terminal 600 and realizes；The function of being accustomed to logging modle can be by processor 620 realize jointly with memory 630, control memory 630 by processor 620 and record to the use habit of user.In addition to It records other than user's use habit, memory 63 can also storage demand state mapping map, equipment state mapping table and use need Ask state with the mapping relations etc. between adjustable strategies.And the function of state prediction module, interval calculation module, interval adjustment module It can be realized by processor 620.

When mobile terminal 600 wakes up, processor 620 controls sensor 610 and carries out data acquisition, then processor 620 are handled the data acquisition results of sensor 610 according to default processing rule, and based on processing result predict to obtain with The use demand state that data acquisition results match.Specifically, processor 620 extracts need state from memory 630 Mapping table is determined then in conjunction with data acquisition results in need state mapping table with the mapping relations between use demand state Current use demand state；Alternatively, processor 620 extracts equipment state mapping table from memory 630, according to equipment shape State mapping table determines the equipment state that the data acquisition results of sensor 610 are characterized, then according to the equipment state, when current Between and the user's use habit that is stored of the memory 630 use demand state that predicts user to the mobile terminal.It obtains After use demand state, processor 620 carries out basal latency according to the adjustable strategies to match with the use demand state Adjustment obtains waking up time alignment interval.Finally, mobile terminal 600 is arranged according to the wake-up time alignment interval in processor 610 The time waken up next time.

Mobile terminal provided in this embodiment carries out data acquisition for terminal by sensor, and according to mobile terminal The mobile terminal devices such as locating motion state, ambient condition state predicts, so, the use demand state predicted It is more accurate objective, so improve the wake-up time alignment interval determined based on the use demand state accuracy, Validity.Further, current wake-up time alignment interval is gone out according to use demand state computation, existing setting is avoided and calls out Ignore user's use demands in the scheme at awake time alignment interval completely and cause the wake request of each APP long-term not ignored To timely responding to, lead to the problem of timely service cannot be provided for user, reduce user experience.

Obviously, those skilled in the art should be understood that each module of the embodiments of the present invention or each step can be used General computing device realizes that they can be concentrated on a single computing device, or be distributed in multiple computing device institutes On the network of composition, optionally, they can be realized with the program code that computing device can perform, it is thus possible to by them It is stored in computer storage medium (ROM/RAM, magnetic disk, CD) and is performed by computing device, and in some cases, it can With the steps shown or described are performed in an order that is different from the one herein, or they are fabricated to each integrated circuit dies Block, or single integrated circuit module is maked multiple modules or steps in them to realize.So the present invention does not limit It is combined in any specific hardware and software.

The above content is combining specific embodiment to be further described to made by the embodiment of the present invention, cannot recognize Fixed specific implementation of the invention is only limited to these instructions.For those of ordinary skill in the art to which the present invention belongs, Without departing from the inventive concept of the premise, a number of simple deductions or replacements can also be made, all shall be regarded as belonging to the present invention Protection scope.

Claims (10)

1. a kind of wake-up time alignment interval calculation method, comprising:

It controls the sensor that at least one can monitor terminal unit status and data acquisition is carried out to the terminal；

The data acquisition results of the sensor are handled according to default processing rule, and user is predicted based on processing result To the use demand state of the terminal；

The wake-up time alignment interval to match with the use demand state is calculated.

2. waking up time alignment interval calculation method as described in claim 1, which is characterized in that controlling at least one can monitor The sensor of terminal unit status carries out data acquisition to the terminal

During the terminal is in wake-up states, the sensor is controlled to the terminal local environment and/or the terminal Locating motion state carries out data acquisition；

Or,

The sensor timing is controlled to adopt the progress of motion state locating for the terminal local environment and/or terminal data Collection.

3. waking up time alignment interval calculation method as claimed in claim 1 or 2, which is characterized in that advised according to default processing Then the data acquisition results of the sensor are handled, and the use of the terminal is needed based on processing result prediction user The state is asked to include:

Need state mapping table according to the pre-stored data determines use demand state corresponding with the data acquisition results, described Need state mapping table includes data acquisition results and user to the mapping relations between the use demand state of the terminal.

4. waking up time alignment interval calculation method as claimed in claim 1 or 2, which is characterized in that further include: record user In each period to the use habit of the terminal；

The data acquisition results of the sensor are handled according to default processing rule, user couple is predicted based on processing result The use demand state of the terminal includes:

Equipment state mapping table according to the pre-stored data and the data acquisition results determine the equipment state of the terminal, described It include data acquisition results in equipment state mapping table with the mapping relations between the equipment state of the terminal；

Use habit and current time in conjunction with the equipment state, the user in each period determine user to the end The use demand state at end.

5. as claimed in claim 1 or 2 wake up time alignment interval calculation method, which is characterized in that the determination with it is described The wake-up time alignment interval that use demand state matches includes:

The adjustable strategies to match with the use demand state are determined according to default adjustment rule；

The wake-up time alignment interval is adjusted to basal latency interval according to the adjustable strategies.

6. as claimed in claim 5 wake up time alignment interval calculation method, which is characterized in that it is described be calculated with it is described It further include being set according to any one in following methods before the wake-up time alignment interval that use demand state matches Set basal latency interval:

According to the input of user, the basal latency interval is set；

According to the terminal Wakeup interval time before, the basal latency interval is set；

The basal latency interval is set with the terminal Wakeup interval time before in conjunction with the input of user.

7. waking up time alignment interval calculation method as claimed in claim 5, which is characterized in that further include: setting is each described The reasonable value range at time alignment interval is waken up under use demand state；

Basal latency interval is adjusted after the wake-up time alignment interval according to the adjustable strategies further include:

Determining that adjusted obtained wake-up time alignment interval is more than the corresponding reasonable value of the use demand state After range, the wake-up time alignment is intervally adjusted within the scope of the reasonable value.

8. a kind of wake-up time alignment interval calculation device characterized by comprising

Data acquisition module carries out data to the terminal for controlling the sensor that at least one can monitor terminal unit status Acquisition；

State prediction module, for being handled according to default processing rule the data acquisition results of the sensor, and base In processing result prediction user to the use demand state of the terminal；

Interval calculation module, for the wake-up time alignment interval to match with the use demand state to be calculated.

9. waking up time alignment interval calculation device as claimed in claim 8, which is characterized in that the data acquisition module is used During the terminal is in wake-up states, controlling the sensor to the terminal local environment and/or terminal institute Locate motion state and carries out data acquisition；Or, for controlling the sensor timing to the terminal local environment and/or the end Locating motion state is held to carry out data acquisition.

10. waking up time alignment interval calculation device as claimed in claim 8 or 9, which is characterized in that the status predication mould Block determines use demand state corresponding with the data acquisition results, institute for need state mapping table according to the pre-stored data Stating need state mapping table includes data acquisition results and user to the mapping relations between the use demand state of the terminal.