CN105425940A - Method and apparatus for determining wearing state of wristband, and wearable device - Google Patents

Abstract

The present application provides a method and an apparatus for determining a wearing state of a wristband, and a wearable device. The method comprises: determining whether acceleration values of an accelerometer of a wristband in three axial directions are consistent with a preset feature range of the wristband; if the acceleration values in the three axial directions are consistent with the feature range, determining a heart rate value that is detected by a heart rate detector; and determining that the wristband is in a non-worn state according to the heart rate value. According to the technical scheme of the present application, the rate of wrongly determining the wearing state of the wristband can be reduced, and the wearing state of the wristband can be determined more effectively. If the wristband is in the non-worn state, the wristband can be controlled to stop broadcasting identity information periodically, thereby reducing power consumption of the wristband and prolonging the service time of the wristband.

Description

For determining method and device, the wearable device of the wearing state of bracelet

Technical field

The application relates to wearable device technical field, particularly relates to a kind of method and device, wearable device of the wearing state for determining bracelet.

Background technology

Along with the explosive growth of wearable device, bracelet obtains popularizing more and more widely as the form of a kind of wearable device of topmost, maximum, and bracelet, except having pursuit movement, sleep, also more and more participates in more sphere of life.Inventor finds, be put into desktop or other local time when bracelet is taken off by user, prior art still can not judge the wearing state of bracelet effectively, does not then control the mode of operation of bracelet by wearing state.

Summary of the invention

In view of this, the application provides a kind of new technical scheme, by effectively judging the wearing state of bracelet, can control the mode of operation of bracelet according to wearing state further.

For achieving the above object, the application provides technical scheme as follows:

According to the first aspect of the application, propose a kind of method controlling bracelet mode of operation, comprising:

Determine that whether the acceleration transducer of bracelet is consistent with the characteristic range that described bracelet is preset at the accekeration of three axis;

If the accekeration of described three axis is consistent with described characteristic range, determine the heart rate value that heart rate detector detects;

Determine whether described bracelet is in wearing state according to described heart rate value.

According to the second aspect of the application, propose a kind of device controlling bracelet mode of operation, comprising:

First determination module, for determining that whether the acceleration transducer of bracelet is consistent with the characteristic range that described bracelet is preset at the accekeration of three axis;

Second determination module, if determine that the accekeration of described three axis is consistent with described characteristic range for described first determination module, determines the heart rate value that heart rate detector detects;

3rd determination module, the described heart rate value for determining according to described second determination module determines whether described bracelet is in wearing state.

According to the third aspect of the application, propose a kind of wearable device, described wearable device comprises:

Processor; For storing the storer of described processor executable;

Wherein, described processor, for determining that whether the acceleration transducer of bracelet is consistent with the characteristic range that described bracelet is preset at the accekeration of three axis; If the accekeration of described three axis is consistent with described characteristic range, determine the heart rate value that heart rate detector detects; Determine whether described bracelet is in wearing state according to described heart rate value.

From above technical scheme, the mode that the application is combined with heart rate detection at the accekeration of three axis by degree of will speed up sensor, reduce the False Rate of bracelet wearing state, achieve the wearing state more effectively judging bracelet, if bracelet is in non-wearing state, the broadcast identity information of bracelet dwelling period can be controlled, save the electric quantity consumption of bracelet, postpone the service time of bracelet.

Accompanying drawing explanation

Figure 1A shows the schematic flow sheet of the method for the wearing state for determining bracelet according to an exemplary embodiment of the present invention;

Figure 1B shows the schematic diagram of bracelet three axis according to an exemplary embodiment of the present invention;

Fig. 2 shows the schematic flow sheet of the method for the wearing state for determining bracelet according to another exemplary embodiment of the present invention;

Fig. 3 shows the schematic flow sheet of the method for the wearing state for determining bracelet according to an exemplary embodiment more of the present invention;

Fig. 4 shows the structural representation of the wearable device according to an exemplary embodiment of the present invention;

Fig. 5 shows the structural representation of the device of the wearing state for determining bracelet according to an exemplary embodiment of the present invention;

Fig. 6 shows the structural representation of the device of the wearing state for determining bracelet according to another exemplary embodiment of the present invention.

Embodiment

Here will be described exemplary embodiment in detail, its sample table shows in the accompanying drawings.When description below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawing represents same or analogous key element.Embodiment described in following exemplary embodiment does not represent all embodiments consistent with the application.On the contrary, they only with as in appended claims describe in detail, the example of apparatus and method that some aspects of the application are consistent.

Only for describing the object of specific embodiment at term used in this application, and not intended to be limiting the application." one ", " described " and " being somebody's turn to do " of the singulative used in the application and appended claims is also intended to comprise most form, unless context clearly represents other implications.It is also understood that term "and/or" used herein refer to and comprise one or more project of listing be associated any or all may combine.

Term first, second, third, etc. may be adopted although should be appreciated that to describe various information in the application, these information should not be limited to these terms.These terms are only used for the information of same type to be distinguished from each other out.Such as, when not departing from the application's scope, the first information also can be called as the second information, and similarly, the second information also can be called as the first information.Depend on linguistic context, word as used in this " if " can be construed as into " ... time " or " when ... time " or " in response to determining ".

The mode that the application is combined with heart rate detection at the accekeration of three axis by degree of will speed up sensor, reduce the False Rate of bracelet wearing state, achieve the wearing state more effectively judging bracelet, if bracelet is in non-wearing state, the broadcast identity information of bracelet dwelling period can be controlled, save the electric quantity consumption of bracelet, postpone the service time of bracelet.

For being further described the application, provide the following example:

Figure 1A shows the schematic flow sheet of the method for the wearing state for determining bracelet according to an exemplary embodiment of the present invention, and Figure 1B shows the schematic diagram of bracelet three axis according to an exemplary embodiment of the present invention; As shown in Figure 1A, comprise the steps:

Step 101, determines that whether the acceleration transducer of bracelet is consistent with the characteristic range that bracelet is preset at the accekeration of three axis;

As an exemplary scenario, as shown in Figure 1B, when bracelet 10 be in horizontal positioned on the table time, three axis can comprise: X axis (first axially), Y-axis (second axially), Z-axis direction (the 3rd axially), wherein, X axis is perpendicular to desktop upwards, and Y-axis and Z-axis direction are all parallel to desktop, further, Y-axis is vertical with Z-axis direction.In one embodiment, the characteristic range that bracelet is preset can be different according to the type difference of bracelet, for the bracelet of each type, equal corresponding one group of different laying state characteristic of correspondence scope, laying state is such as the horizontal positioned shown in Figure 1B, or bracelet is against the heeling condition of the correspondences such as books, for the bracelet of each model, the characteristic range of the accekeration of three axis corresponding when can add up the different laying state residing for it, such as, when bracelet is in horizontal positioned state, the absolute value characteristic of correspondence scope of the accekeration of X axis is [a1, b1] between, the absolute value characteristic of correspondence scope of the accekeration of Y-axis is [a2, b2] between, the absolute value characteristic of correspondence scope of the accekeration of Z-axis direction is [a3, b3] between, wherein, a1, b1, a2, b2, a3, b3 is positive number, it will be understood by those skilled in the art that, above-mentioned a1, b1, a2, b2, a3, the concrete numerical value of b3 can be determined by the model of the laying state of bracelet and bracelet, the concrete data of the application to characteristic range do not limit.In one embodiment, when in bracelet horizontal positioned to desktop, the absolute value characteristic of correspondence scope of the accekeration of Y-axis can be roughly the same with the absolute value characteristic of correspondence scope of the accekeration of Z-axis direction.

Step 102, if the accekeration of three axis is consistent with characteristic range, determines the heart rate value that heart rate detector detects;

Such as, if the absolute value of the accekeration of the X axis that the acceleration transducer of bracelet collects is at [a1, b1] between, the absolute value of the accekeration of Y-axis and Z-axis direction is at [a2, b2] between, then can determine that the accekeration of three axis is consistent with characteristic range, now can detect heart rate value by the mode of opening heart rate monitor.In one embodiment, heart rate detector can be heart rate sensor, also can be photoelectric sensor, can also be the senser element that infrared sensor etc. can detect user's pulse.

Whether step 103, be in wearing state according to heart rate value determination bracelet.

In one embodiment, if heart rate detector detects the heart rate value being essentially 0, then heart rate value is set to sky, if heart rate detector detect substantially be not 0 heart rate value, then heart rate value is arranged non-NULL (also can be referred to as " for empty "); When bracelet detects that heart rate value is empty, can determine that bracelet is in non-wearing state, if heart rate value is not empty, can determine that bracelet is in wearing state.

Seen from the above description, the mode that the embodiment of the present invention is combined with heart rate detection at the accekeration of three axis by degree of will speed up sensor, reduce the False Rate of bracelet wearing state, achieve the wearing state more effectively judging bracelet, if bracelet is in non-wearing state, the broadcast identity information of bracelet dwelling period can be controlled, save the electric quantity consumption of bracelet, postpone the service time of bracelet.

Fig. 2 shows the schematic flow sheet of the method for the wearing state for determining bracelet according to another exemplary embodiment of the present invention; The present embodiment identifies under bracelet is in non-wearing state by above-mentioned Figure 1A illustrated embodiment, enters park mode and adjusts to normal operating conditions from park mode and carry out exemplary illustration, as shown in Figure 2, comprise the steps: how to control bracelet

Step 201, under non-wearing state, controls to be in park mode at bracelet.

Step 202, determines that bracelet needs the functional module of closing in the hibernation mode.

In one embodiment, need the functional module of closing can comprise the basic function of bracelet when normal operating conditions, such as, the functional modules such as meter step, sleep monitor, GPS location.In one embodiment, user can by determining the functional module that bracelet needs are in the hibernation mode closed on the mobile phone bound mutually with bracelet, such as, in the user interface of the application program of the mobile phone bound mutually with bracelet, function choosing-item the need of the functional module of closing at park mode can be provided for user, after user determines the functional module needing to close, the function choosing-item of the functional module of closing at park mode is sent to bracelet by mobile phone, bracelet record needs the functional module of closing in the hibernation mode, to close the functional module needing to close when park mode being detected.

Step 203, closes the functional module and heart rate detector that need to close.

Such as, if user closes pedometer module, sleep tracking module, GPS location be provided with park mode in this option under, now can close above-mentioned functions module, thus make above-mentioned functions module stop consumes power.In addition, owing to detecting that bracelet is in non-wearing state by above-mentioned Figure 1A illustrated embodiment, in order to reduce the electric quantity consumption of bracelet, heart rate detector can also be closed.

Step 204, in the hibernation mode, determines whether acceleration transducer changes at the accekeration of three axis.

Step 205, if acceleration transducer changes at the accekeration of three axis, determine that whether the accekeration after changing is consistent with the template characteristic that bracelet is preset, if change after accekeration and characteristic range inconsistent, perform step 206, if the accekeration after change is consistent with characteristic range, determine that bracelet is still in non-wearing state.

Step 206, if accekeration and characteristic range after change are inconsistent, determines that bracelet is in wearing state, startup heart rate detector.

In step 204 to step 206; in one embodiment; when bracelet place user on the table pick up bracelet need to wear time; acceleration transducer has obvious conversion at the accekeration of three axis; and user is when causing bracelet generation minute movement owing to encountering bracelet because of carelessness, the change of accekeration usually can be less and the duration that is change is shorter.Therefore the application is in order to avoid the erroneous judgement to bracelet wearing state, can by determining that the accekeration after changing is whether consistent with the template characteristic that bracelet is preset, and then avoids being identified as user needing to wear bracelet because movement that bracelet is small leading to errors.Double check can be carried out to wearing state by heart rate monitor, avoid the erroneous judgement to wearing state.

Step 207, under wearing state, controls bracelet breaking dormancy pattern and controls to need the functional module of closing to enter normal operating conditions.

After bracelet enters normal operating conditions, can realize such as counting the functions such as step, sleep monitor, GPS location normally.

In an exemplary scenario, such as, when bracelet is as the mark of a swiping card equipment and bus card-reading equipment, when gate inhibition waits equipment interactive, bracelet is needed periodically to broadcast identity information, thus allow the bus card-reading equipment of surrounding, access control equipments etc. can perception, and realize the operations such as follow-up identification, because bracelet periodically broadcasts identity information, when bracelet is in non-wearing state, if bracelet is periodic broadcast identity information still, then greatly can improve the electric quantity consumption of bracelet, pass through the present embodiment, bracelet can be controlled when bracelet is in non-wearing state and enter park mode, and close the functional module needing to close in the hibernation mode, thus the transmission of bracelet relevant information can be stopped, thus reduce the electric quantity consumption of bracelet most possibly, realize the more efficient power management of bracelet.

Fig. 3 shows the schematic flow sheet of the method for the wearing state for determining bracelet according to an exemplary embodiment more of the present invention; The present embodiment, how to determine that the acceleration transducer of bracelet carries out exemplary illustration the accekeration of three axis is whether consistent with the characteristic range that bracelet is preset, as shown in Figure 3, comprises the steps:

Step 301, determine the acceleration transducer of bracelet first axially, second axially and the first accekeration of the 3rd axis, the second accekeration degree, the 3rd accekeration size.

Step 302, the first term of reference in the characteristic range preset the first accekeration and bracelet compares.

Step 303, if the first accekeration is in the first term of reference, the second term of reference in the characteristic range preset the second accekeration and bracelet compares.

Step 304, if the second accekeration is in the second term of reference, the 3rd term of reference in the characteristic range preset the 3rd accekeration and bracelet compares.

Step 305, if the 3rd accekeration is in the 3rd term of reference, determines that the acceleration transducer of bracelet is consistent with the characteristic range that bracelet is preset at the accekeration of three axis.

In one embodiment, the accekeration of the first axis is x, the accekeration of the second axis is y, the accekeration of the 3rd circumference is z, in order to determine x, y, z whether in characteristic range, the accekeration of three axis can be compared with each self-corresponding term of reference one by one, if having the accekeration of any one axis not in the term of reference of correspondence, then determine that accekeration is not within the scope of characteristic of correspondence, bracelet is not in as wearing state yet.

Such as, first determine that whether the accekeration x of the first axis is at [a1, b1] between, if x is at [a1, b1] between, determine that whether the accekeration y of the second axis is at [a2, b2] between, if y is at [a2, b2] between, determine that whether the y of the 3rd axis is at [a3, b3] between, if y is at [a3, b3] between, then can determine that the acceleration transducer of bracelet is consistent with the characteristic range that bracelet is preset at the accekeration of three axis, otherwise, if any one accekeration above-mentioned is not in the term of reference of correspondence, then can determine that the characteristic range that the acceleration transducer of bracelet is preset at accekeration and the bracelet of three axis is inconsistent, in this case, can determine that bracelet is still in wearing state.

In one embodiment, the concrete size of the first term of reference, the second term of reference and the 3rd term of reference can be determined by the size of the accekeration of the bracelet of statistical test different model when non-wearing state, because bracelet characteristic of correspondence scope under different laying states of same model is different, therefore the concrete size of the application to characteristic range does not limit.

Because acceleration transducer is the device that bracelet has been arranged, the present embodiment is by slightly judging the wearing state of accekeration characteristic of correspondence scope to bracelet of acceleration transducer three axis, thus first can determine whether bracelet is kept in motion or stationary state, bracelet be in roughly stationary state when, detect heart rate by heart rate detector again, thus improve the accuracy to the identification of bracelet wearing state.

Corresponding to the method for the above-mentioned wearing state for determining bracelet, the application also proposed the schematic configuration diagram of the wearable device of the exemplary embodiment according to the application shown in Fig. 4.Please refer to Fig. 4, at hardware view, this wearable device comprises processor, internal bus, network interface, internal memory and nonvolatile memory, certainly also may comprise the hardware required for other business.Processor reads corresponding computer program and then runs in internal memory from nonvolatile memory, and logic level is formed the device of the wearing state for determining bracelet.Certainly, except software realization mode, the application does not get rid of other implementations, mode of such as logical device or software and hardware combining etc., that is the executive agent of following treatment scheme is not limited to each logical block, also can be hardware or logical device.

Fig. 5 is the structural representation of the device of the wearing state for determining bracelet according to an exemplary embodiment of the present invention; As shown in Figure 5, this device being used for the wearing state determining bracelet can comprise: the first determination module 51, second determination module 52, the 3rd determination module 53.Wherein:

First determination module 51, for determining that whether the acceleration transducer of bracelet is consistent with the characteristic range that bracelet is preset at the accekeration of three axis;

Second determination module 52, if determine that the accekeration of three axis is consistent with characteristic range for the first determination module 51, determines the heart rate value that heart rate detector detects;

Whether the 3rd determination module 53, be in wearing state for the heart rate value determination bracelet determined according to the second determination module 52.

Fig. 6 shows the structural representation of the device of the wearing state for determining bracelet according to another exemplary embodiment of the present invention, and as shown in Figure 6, on above-mentioned basis embodiment illustrated in fig. 5, the 3rd determination module 53 can comprise:

First determining unit 531, if be empty for heart rate value, determines that bracelet is in non-wearing state;

Second determining unit 532, if be not empty for heart rate value, determines that bracelet is in wearing state.

In one embodiment, for determining that the device of the wearing state of bracelet also can comprise:

Control module 54, under the non-wearing state determined at the 3rd determination module 53, controls to be in park mode at bracelet;

4th determination module 55, for determining that bracelet needs the functional module of closing under control module 54 controls the park mode residing for bracelet;

Closing module 56, the functional module that the needs determined for closing the 4th determination module 55 are closed and heart rate detector.

In one embodiment, for determining that the device of the wearing state of bracelet also can comprise:

5th determination module 57, under the park mode that controls residing for bracelet in control module 54, determines whether acceleration transducer changes at the accekeration of three axis;

6th determination module 58, if determine that acceleration transducer changes at the accekeration of three axis for the 5th determination module 57, determines that whether the accekeration after changing is consistent with the template characteristic that bracelet is preset;

7th determination module 59, if determine that accekeration and characteristic range after changing are inconsistent for the 6th determination module 58, determines that bracelet is in wearing state, startup heart rate detector heart rate.

In one embodiment, control module 54 is also used under the 7th determination module 59 determines that bracelet is in wearing state, controls bracelet breaking dormancy pattern and controls to need the functional module of closing to enter normal operating conditions.

In one embodiment, three axis can comprise the first axis, the second axial and the 3rd axis, and the first determination module 51 can comprise:

3rd determining unit 511, for determine the acceleration transducer of bracelet first axially, second axially and the first accekeration of the 3rd axis, the second accekeration degree, the 3rd accekeration size;

First comparing unit 512, compares for the first term of reference in the characteristic range that the first accekeration of the 3rd determining unit 511 being determined and bracelet are preset;

Second comparing unit 513, if the result compared for the first comparing unit 512 represents that the first accekeration is in the first term of reference, the second term of reference in the characteristic range preset the second accekeration and bracelet compares;

3rd comparing unit 514, if the result compared for the second comparing unit 513 represents that the second accekeration is in the second term of reference, the 3rd term of reference in the characteristic range preset the 3rd accekeration and bracelet compares;

4th determining unit 515, if the result compared for the 3rd comparing unit 514 represents that the 3rd accekeration is in the 3rd term of reference, determines that the acceleration transducer of bracelet is consistent with the characteristic range that bracelet is preset at the accekeration of three axis.

About the device in above-described embodiment, wherein the concrete mode of modules executable operations has been described in detail in about the embodiment of the method, will not elaborate explanation herein.

Known by above-described embodiment, the present invention has following Advantageous Effects:

(1) by the method that distribution characteristics and the heart rate detection of the accekeration of three axis of acceleration transducer combine, more effectively can judge that bracelet is in wearing state or non-wearing state, thus reduction is judged to the wearing state of bracelet by accident;

(2) when detecting that bracelet is in non-wearing state, bracelet can be controlled and enter park mode, and then reduce the electric quantity consumption of bracelet, extend the service time that bracelet once charges;

(3) if detect that bracelet is adjusted to wearing state by non-wearing state, can park mode be closed, control bracelet and broadcast its identity information, thus enable bracelet realize the interaction function with Smart Home.

Those skilled in the art, at consideration instructions and after putting into practice invention disclosed herein, will easily expect other embodiment of the application.The application is intended to contain any modification of the application, purposes or adaptations, and these modification, purposes or adaptations are followed the general principle of the application and comprised the undocumented common practise in the art of the application or conventional techniques means.Instructions and embodiment are only regarded as exemplary, and true scope and the spirit of the application are pointed out by claim below.

Also it should be noted that, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, commodity or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, commodity or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, commodity or the equipment comprising described key element and also there is other identical element.

The foregoing is only the preferred embodiment of the application, not in order to limit the application, within all spirit in the application and principle, any amendment made, equivalent replacements, improvement etc., all should be included within scope that the application protects.

Claims (13)

1. for determining a method for the wearing state of bracelet, it is characterized in that, described method comprises:

Determine that whether the acceleration transducer of bracelet is consistent with the characteristic range that described bracelet is preset at the accekeration of three axis;

If the accekeration of described three axis is consistent with described characteristic range, determine the heart rate value that heart rate detector detects;

Determine whether described bracelet is in wearing state according to described heart rate value.

2. method according to claim 1, is characterized in that, describedly determines whether described bracelet is in wearing state, comprising according to described heart rate value:

If described heart rate value is empty, determine that described bracelet is in non-wearing state;

If described heart rate value is not empty, determine that described bracelet is in wearing state.

3. method according to claim 1, is characterized in that, described method also comprises:

Under described non-wearing state, control to be in park mode at described bracelet;

Determine that described bracelet needs the functional module of closing under described park mode;

Close the functional module of described needs closedown and described heart rate detector.

4. method according to claim 3, is characterized in that, described method also comprises:

Under described park mode, determine whether described acceleration transducer changes at the accekeration of three axis;

If described acceleration transducer changes at the accekeration of three axis, determine that whether the accekeration after changing is consistent with the template characteristic that described bracelet is preset;

If change after accekeration and described characteristic range inconsistent, determine that described bracelet is in wearing state, start described heart rate detector heart rate.

5. method according to claim 4, is characterized in that, described method also comprises:

Under described wearing state, control described bracelet remove described park mode and control described need close functional module enter normal operating conditions.

6. according to the arbitrary described method of claim 1-5, it is characterized in that, described three axis comprise first axially, second axially and the 3rd axially, describedly determine that whether the acceleration transducer of bracelet is consistent with the characteristic range that described bracelet is preset at the accekeration of three axis, comprising:

Determine the acceleration transducer of bracelet described first axially, second axially and the first accekeration of the 3rd axis, the second accekeration degree, the 3rd accekeration size;

The first term of reference in the characteristic range preset described first accekeration and described bracelet compares;

If described first accekeration is in described first term of reference, the second term of reference in the characteristic range preset described second accekeration and described bracelet compares;

If described second accekeration is in described second term of reference, the 3rd term of reference in the characteristic range preset described 3rd accekeration and described bracelet compares;

If described 3rd accekeration is in described 3rd term of reference, determine that the acceleration transducer of described bracelet is consistent with the characteristic range that described bracelet is preset at the accekeration of three axis.

7. for determining a device for the wearing state of bracelet, it is characterized in that, described device comprises:

First determination module, for determining that whether the acceleration transducer of bracelet is consistent with the characteristic range that described bracelet is preset at the accekeration of three axis;

Second determination module, if determine that the accekeration of described three axis is consistent with described characteristic range for described first determination module, determines the heart rate value that heart rate detector detects;

3rd determination module, the described heart rate value for determining according to described second determination module determines whether described bracelet is in wearing state.

8. device according to claim 7, is characterized in that, described 3rd determination module comprises:

First determining unit, if be empty for described heart rate value, determines that described bracelet is in non-wearing state;

Second determining unit, if be not empty for described heart rate value, determines that described bracelet is in wearing state.

9. device according to claim 7, is characterized in that, described device also comprises:

Control module, under non-wearing state described in determining at described 3rd determination module, controls to be in park mode at described bracelet;

4th determination module, for determining that described bracelet needs the functional module of closing under described control module controls the described park mode residing for described bracelet;

Closing module, the functional module that the described needs determined for closing described 4th determination module are closed and described heart rate detector.

10. device according to claim 9, is characterized in that, described device also comprises:

5th determination module, for control the described park mode residing for described bracelet in described control module under, determines whether described acceleration transducer changes at the accekeration of three axis;

6th determination module, if changed at the accekeration of three axis for described 5th determination module determination acceleration transducer, determines that whether the accekeration after changing is consistent with the template characteristic that described bracelet is preset;

7th determination module, if for described 6th determination module determine the accekeration after described change and described characteristic range inconsistent, determine that described bracelet is in wearing state, start described heart rate detector heart rate.

11. devices according to claim 10, is characterized in that,

Described control module, also under determining that described bracelet is in described wearing state at described 7th determination module, controls described bracelet and removes described park mode and control the described functional module of closing that needs and enter normal operating conditions.

12., according to the arbitrary described device of claim 7-11, is characterized in that, described three axis comprise the first axis, the second axial and the 3rd axis, and described first determination module comprises:

3rd determining unit, for determine the acceleration transducer of bracelet described first axially, second axially and the first accekeration of the 3rd axis, the second accekeration degree, the 3rd accekeration size;

First comparing unit, compares for the first term of reference in the characteristic range that described first accekeration described 3rd determining unit determined and described bracelet are preset;

Second comparing unit, if the result compared for described first comparing unit represents that the first accekeration is in described first term of reference, the second term of reference in the characteristic range preset described second accekeration and described bracelet compares;

3rd comparing unit, if the result compared for described second comparing unit represents that the second accekeration is in described second term of reference, the 3rd term of reference in the characteristic range preset described 3rd accekeration and described bracelet compares;

4th determining unit, if the result compared for described 3rd comparing unit represents that the 3rd accekeration is in described 3rd term of reference, determine that the acceleration transducer of described bracelet is consistent with the characteristic range that described bracelet is preset at the accekeration of three axis.

13. 1 kinds of wearable devices, is characterized in that, described equipment comprises:

Processor; For storing the storer of described processor executable;

Wherein, described processor, for determining that whether the acceleration transducer of bracelet is consistent with the characteristic range that described bracelet is preset at the accekeration of three axis; If the accekeration of described three axis is consistent with described characteristic range, determine the heart rate value that heart rate detector detects; Determine whether described bracelet is in wearing state according to described heart rate value.