CN106896417A - A kind of anti-dropout detection method and device, wearable device based on wearable device - Google Patents

Abstract

The embodiment of the invention discloses a kind of anti-dropout detection method based on wearable device and device, wearable device, the method includes：Gather the translational speed of the wearable device；It is determined that the first frequency of the infrared detection sensor matched with the translational speed；Anti-dropout detection is carried out to the wearable device using the infrared detection sensor of the first frequency.The embodiment of the present invention can intelligently adjust the frequency of infrared detection sensor detection, save the power consumption of wearable device, meanwhile, raising carries out the accuracy of anti-dropout detection to wearable device.

Description

A kind of anti-dropout detection method and device, wearable device based on wearable device

Technical field

The present invention relates to technical field of intelligent equipment, more particularly to a kind of anti-dropout detection method based on wearable device and Device, wearable device.

Background technology

At present, with wearable device (such as intelligent watch, Intelligent bracelet) function become stronger day by day and people are to children The gradually enhancing of awareness of safety, wearable device is increasingly favored in terms of children's safety protection by masses.Such as：User can It is worn in children's wrist with by children's safety positioning intelligent wrist-watch, in order to the whereabouts of monitor in real time children.

Generally, children's safety positioning intelligent wrist-watch is equipped with infrared detection sensor, and infrared detection sensor can be examined Survey whether children's safety positioning intelligent wrist-watch is worn in children's wrist, to prevent children's safety positioning intelligent wrist-watch from surprisingly taking off Fall.However, being found in practice, the frequency of current infrared detection sensor is typically provided to fixation, if infrared detection is sensed The set of frequency of device obtains higher, then the frequency of infrared detection sensor detection will more frequently influence children's safety positioning intelligent hand The power consumption of table, if the set of frequency of infrared detection sensor obtains relatively low, the frequency of infrared detection sensor detection is more long The purpose for preventing children's safety positioning intelligent wrist-watch from surprisingly coming off is not reached then.Therefore, infrared detection biography how is intelligently adjusted The frequency of sensor detection is a technical task urgently to be resolved hurrily.

The content of the invention

The embodiment of the invention discloses a kind of anti-dropout detection method based on wearable device and device, wearable device, can Intelligently to adjust the frequency of infrared detection sensor detection, the power consumption of wearable device is saved, meanwhile, improve to wearable device Carry out the accuracy of anti-dropout detection.

Embodiment of the present invention first aspect discloses a kind of anti-dropout detection method based on wearable device, including：

Gather the translational speed of the wearable device；

It is determined that the first frequency of the infrared detection sensor matched with the translational speed, wherein, the translational speed with The first frequency correlation；

Anti-dropout detection is carried out to the wearable device using the infrared detection sensor of the first frequency.

As a kind of optional implementation method, in embodiment of the present invention first aspect, the collection wearable device Translational speed after, methods described also includes：

Judge whether the translational speed exceedes default threshold speed, if exceeding, perform described determination with it is described The step of first frequency of the infrared detection sensor of translational speed matching.

As a kind of optional implementation method, in embodiment of the present invention first aspect, the translational speed is being judged During more than the threshold speed, methods described also includes：

The skin temperature of the user of the detection wearing wearable device；

Whether the skin temperature that detects of judgement exceedes default skin temperature threshold value, if exceeding, pair is worn with described The skin for wearing equipment contact carries out sweat detection；

If detecting the skin contacted with the wearable device in perspiration state, described determination and the movement is performed The step of first frequency of the infrared detection sensor of speeds match.

As a kind of optional implementation method, in embodiment of the present invention first aspect, the translational speed is being judged During more than the threshold speed, methods described also includes：

The hunting frequency of the wearable device is obtained, and the center of gravity of the acquisition wearable device moves up and down frequency；

Judge whether the hunting frequency exceedes default hunting frequency threshold value, and judge that the center of gravity moves up and down frequency Whether rate moves up and down frequency threshold more than default center of gravity；

If the hunting frequency exceedes the hunting frequency threshold value, and the center of gravity moves up and down frequency more than the center of gravity Frequency threshold is moved up and down, then performs the first frequency of the infrared detection sensor that described determination is matched with the translational speed The step of.

Used as a kind of optional implementation method, in embodiment of the present invention first aspect, the determination and the movement are fast The first frequency for spending the infrared detection sensor of matching includes：

From the different translational speed scope of default multiple, it is determined that the corresponding target movement of the translational speed of collection Velocity interval；Wherein, the multiple different translational speed scope non-overlapping copies, and the multiple different translational speed model Enclose the frequency for each corresponding to different infrared detection sensors, and the translational speed scope and the translational speed scope pair The frequency correlation of the infrared detection sensor answered；

And, determine the frequency of the corresponding infrared detection sensor of the target translational speed scope as with the movement The first frequency of the infrared detection sensor of speeds match.

As a kind of optional implementation method, in embodiment of the present invention first aspect, the translational speed is being judged During not less than the threshold speed, methods described also includes：

The infrared detection sensing that the default frequency of the infrared detection sensor is defined as being matched with the translational speed The first frequency of device.

As a kind of optional implementation method, in embodiment of the present invention first aspect, when detecting the wearable device When coming off, methods described also include it is following in the combination of any one or more：

Export the prompt message for pointing out the wearable device to come off；

The prompt message for pointing out the wearable device to come off is sent to the user terminal bound with the wearable device；

The current positional information of the wearable device is sent to the user terminal bound with the wearable device.

Embodiment of the present invention second aspect discloses a kind of anti-dropout detection means, including：

Collecting unit, the translational speed for gathering wearable device；

Determining unit, the first frequency of the infrared detection sensor for determining to be matched with the translational speed, wherein, institute Translational speed is stated with the first frequency correlation；

First detection unit, prevents the wearable device for the infrared detection sensor using the first frequency Come off detection.

Used as a kind of optional implementation method, in embodiment of the present invention second aspect, described device also includes：

First judging unit, for after the translational speed of collecting unit collection wearable device, judging the shifting Whether dynamic speed exceedes default threshold speed；

The determining unit, specifically for when the judged result of first judging unit be more than when, it is determined that with it is described The first frequency of the infrared detection sensor of translational speed matching.

Used as a kind of optional implementation method, in embodiment of the present invention second aspect, described device also includes：

Second detection unit, for judging that the translational speed exceedes the threshold speed in first judging unit When, the skin temperature of the user of the detection wearing wearable device；

Whether the second judging unit, the skin temperature for judging to detect exceedes default skin temperature threshold value；

Second detection unit, be additionally operable to when the judged result of second judging unit be more than when, pair with it is described The skin of wearable device contact carries out sweat detection；

The determining unit, specifically for detecting the skin contacted with the wearable device when second detection unit During in perspiration state, it is determined that the first frequency of the infrared detection sensor matched with the translational speed.

Used as a kind of optional implementation method, in embodiment of the present invention second aspect, described device also includes：

Acquiring unit, for first judging unit judge the translational speed exceed the threshold speed when, The hunting frequency of the wearable device is obtained, and the center of gravity of the acquisition wearable device moves up and down frequency；

3rd judging unit, for judging whether the hunting frequency exceedes default hunting frequency threshold value, and judges The center of gravity moves up and down whether frequency moves up and down frequency threshold more than default center of gravity；

The determining unit, specifically for being more than and the described 3rd sentence when the judged result of first judging unit The judged result of disconnected unit be more than when, it is determined that the first frequency of the infrared detection sensor matched with the translational speed.

Used as a kind of optional implementation method, in embodiment of the present invention second aspect, the determining unit determines and institute The mode for stating the first frequency of the infrared detection sensor of translational speed matching is specially：

From the different translational speed scope of default multiple, it is determined that the corresponding target movement of the translational speed of collection Velocity interval；Wherein, the multiple different translational speed scope non-overlapping copies, and the multiple different translational speed model Enclose the frequency for each corresponding to different infrared detection sensors, and the translational speed scope and the translational speed scope pair The frequency correlation of the infrared detection sensor answered；；

And, determine the frequency of the corresponding infrared detection sensor of the target translational speed scope as with the movement The first frequency of the infrared detection sensor of speeds match.

Used as a kind of optional implementation method, in embodiment of the present invention second aspect, the determining unit is additionally operable to work as When first judging unit judges the translational speed not less than the threshold speed, by the infrared detection sensor Default frequency is defined as the first frequency of the infrared detection sensor matched with the translational speed.

Used as a kind of optional implementation method, in embodiment of the present invention second aspect, described device also includes：

Output unit and/or transmitting element, wherein,

The output unit, for when first detection unit detects the wearable device and comes off, exporting to be used for The prompt message for pointing out the wearable device to come off；

The transmitting element, for when first detection unit detects the wearable device and comes off, to it is described The user terminal of wearable device binding sends the prompt message for pointing out the wearable device to come off；And/or, for by described in The current positional information of wearable device is sent to the user terminal bound with the wearable device.

The embodiment of the present invention third aspect discloses a kind of wearable device, including institute disclosed in embodiment of the present invention second aspect State anti-dropout detection means.

Compared with prior art, the embodiment of the present invention possesses following beneficial effect：

In the embodiment of the present invention, can be with the translational speed of Real-time Collection wearable device, it is determined that matching with the translational speed The first frequency of infrared detection sensor, wherein, the translational speed and the first frequency correlation, and using this first The infrared detection sensor of frequency carries out anti-dropout detection to the wearable device.It can be seen that, implement the embodiment of the present invention, being capable of basis The translational speed of wearable device determines the frequency of infrared detection sensor, specifically, when the translational speed of wearable device is slower When, the frequency of infrared detection sensor is just relatively low according to determined by the translational speed, when the translational speed of wearable device is very fast When, the frequency of infrared detection sensor is just higher according to determined by the translational speed, in this manner it is possible to intelligently adjust infrared The frequency of detection sensor detection, and wearable device is carried out with a fixed frequency without excessively frequent or long Anti-dropout is detected, so that the power consumption of wearable device is saved, meanwhile, raising carries out the accurate of anti-dropout detection to wearable device Property.

Brief description of the drawings

Technical scheme in order to illustrate more clearly the embodiments of the present invention, below by to be used needed for embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for ability For the those of ordinary skill of domain, on the premise of not paying creative work, can also obtain other attached according to these accompanying drawings Figure.

Fig. 1 is a kind of schematic flow sheet of the anti-dropout detection method based on wearable device disclosed in the embodiment of the present invention；

Fig. 2 is that the flow of another anti-dropout detection method based on wearable device disclosed in the embodiment of the present invention is illustrated Figure；

Fig. 3 is that the flow of another anti-dropout detection method based on wearable device disclosed in the embodiment of the present invention is illustrated Figure；

Fig. 4 is a kind of structural representation of anti-dropout detection means disclosed in the embodiment of the present invention；

Fig. 5 is the structural representation of another anti-dropout detection means disclosed in the embodiment of the present invention；

Fig. 6 is the structural representation of another anti-dropout detection means disclosed in the embodiment of the present invention；

Fig. 7 is a kind of structural representation of wearable device disclosed in the embodiment of the present invention.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.Based on this Embodiment in invention, the every other reality that those of ordinary skill in the art are obtained under the premise of creative work is not made Example is applied, the scope of protection of the invention is belonged to.

It should be noted that the term " comprising " and " having " of the embodiment of the present invention and their any deformation, it is intended that Be cover it is non-exclusive include, for example, containing process, method, system, product or the equipment of series of steps or unit not Be necessarily limited to those steps or the unit clearly listed, but may include not list clearly or for these processes, side Method, product or other intrinsic steps of equipment or unit.

The embodiment of the invention discloses a kind of anti-dropout detection method based on wearable device and device, wearable device, can Intelligently to adjust the frequency of infrared detection sensor detection, the power consumption of wearable device is saved, meanwhile, improve to wearable device Carry out the accuracy of anti-dropout detection.Accompanying drawing is below combined to be described in detail.

Embodiment one

Fig. 1 is referred to, Fig. 1 is a kind of stream of the anti-dropout detection method based on wearable device disclosed in the embodiment of the present invention Journey schematic diagram.As shown in figure 1, the anti-dropout detection method that should be based on wearable device may comprise steps of：

101st, wearable device gathers the translational speed of the wearable device.

In the embodiment of the present invention, wearable device directly can be worn on user, or is incorporated into the clothes of user Or a kind of portable electric appts of accessory.Wearable device is not only a kind of hardware device, more can by software support with And data interaction, high in the clouds interact to realize powerful intelligent function, such as：Computing function, positioning function, warning function, while Mobile phone and each Terminal Type can also be connected.Wearable device can include but is not limited to wrist be support watch classes (such as hand The products such as table, wrist), with the shoes classes (wearable product on such as footwear, socks or other legs) that pin is support, be with head All kinds of non-master miscarriages such as the Glass classes (such as glasses, the helmet, headband etc.) and intelligent clothing of support, school bag, crutch, accessories Product form.

In the embodiment of the present invention, when user dresses wearable device walking, it is however generally that, the speed of user's movement is different, The probability that the wearable device comes off is just different.Generally, the speed of user's movement is faster, and the probability that the wearable device comes off is got over Greatly.By taking children as an example, children like active, of uncertain whereabouts, when and it is fast when and it is slow, if the speed of children's movement accelerates suddenly, Now it is accomplished by accelerating to carry out the wearable device frequency of anti-dropout detection, this is accomplished by the wearable device Real-time Collection wearing The translational speed of equipment.

Specifically, wearable device can use the mobile speed of the built-in acceleration transducer Real-time Collection wearable device Degree, or, wearable device can use the translational speed of the external acceleration transducer Real-time Collection wearable device.

102nd, wearable device determines the first frequency of the infrared detection sensor matched with the translational speed.

In the embodiment of the present invention, wearable device is built-in with infrared detection sensor, and the infrared detection sensor can be utilized IR has detected whether shelter, it is generally the case that if having detected shelter, shows that the wearable device is worn on With user, if conversely, be not detected by shelter, showing that the wearable device is not worn on user.

In the embodiment of the present invention, after the translational speed for collecting the current wearable device, the wearing sets wearable device The first frequency of the standby infrared detection sensor for needing to be matched with the translational speed according to translational speed determination.Wherein, the shifting Dynamic speed and the first frequency correlation, namely when the translational speed of wearable device is slower, according to the translational speed The frequency of identified infrared detection sensor is just relatively low, when the translational speed of wearable device is very fast, according to the translational speed The frequency of identified infrared detection sensor is just higher.

Optionally, wearable device determines that the mode of the first frequency of the infrared detection sensor matched with the translational speed has Body can be：

From the different translational speed scope of default multiple, it is determined that the corresponding target movement speed of the translational speed of collection Degree scope；Wherein, the plurality of different translational speed scope non-overlapping copies, and the plurality of different translational speed scope is each The frequency of the different infrared detection sensor of correspondence, and the plurality of different translational speed scope infrared detection different from this The frequency of sensor is proportionate；

And, determine the frequency of the corresponding infrared detection sensor of target translational speed scope as with the translational speed The first frequency of the infrared detection sensor of matching.

In the optional implementation method, it is possible to achieve default multiple different translational speed scopes, such as：(0,0.5), [0.5,1), [1,1.5), [1.5,2), [2 ,+∞), these different translational speed scope non-overlapping copies, the plurality of different shifting Dynamic velocity interval each corresponds to the frequency of different infrared detection sensors, such as：Translational speed scope (0,0.5) is corresponding red The frequency of outer detection sensor is 6s/ time, and translational speed scope [0.5,1) frequency of corresponding infrared detection sensor is 5s/ Secondary, translational speed scope [1,1.5) frequency of corresponding infrared detection sensor is 4s/ times, translational speed scope [1.5,2) it is right The frequency of the infrared detection sensor answered be 2s/ times, translational speed scope [2 ,+∞) corresponding infrared detection sensor frequency For 1s/ times, wherein, the frequency of the plurality of different translational speed scope infrared detection sensor different from this is proportionate and is Refer to that translational speed scope is bigger, correspondingly, the frequency of infrared detection sensor is also bigger, for example, translational speed scope [0.5,1) more than translational speed scope (0,0.5), correspondingly, translational speed scope [0.5,1) corresponding infrared detection sensor Frequency to be more than frequency 6s/ times of the corresponding infrared detection sensor of translational speed scope (0,0.5) for 5s/ time.

It should be noted that in the optional implementation method, the different translational speed scope of the default multiple is wrapped The translational speed for including can be arbitrary translational speed, namely wearable device can be from the plurality of different translational speed scope Find the translational speed scope belonging to any one translational speed that the wearable device is collected.

In one embodiment, the different translational speed scope of the default multiple is more than the shifting of default threshold speed Dynamic velocity interval, such as：The default threshold speed is 1m/s, the then mobile speed that the plurality of different translational speed scope includes Degree is greater than 1m/s, and is less than or equal to the translational speed of 1m/s not in the translational speed scope that the default multiple is different In.If the translational speed of the current wearable device that wearable device is collected is less than or equal to 1m/s, wearable device needs logical Cross other modes to determine the first frequency of infrared detection sensor matched with the translational speed, specifically refer to follow-up reality The description in example is applied, is not being repeated herein.

Optionally, wearable device determines that the mode of the first frequency of the infrared detection sensor matched with the translational speed has Body can be：

From the corresponding relation of default translational speed and the frequency of infrared detection sensor, the translational speed that will be gathered The frequency of corresponding infrared detection sensor is defined as the first frequency of the infrared detection sensor matched with the translational speed.

In the optional implementation method, each translational speed can correspond to a frequency for infrared detection sensor.Can To obtain the corresponding relation of the translational speed and the frequency of infrared detection sensor by presetting test of many times.Wherein, the shifting Dynamic speed can exist with the corresponding relation of the frequency of infrared detection sensor in the form of a mapping table, such as：Move The mapping table of the frequency of dynamic speed-infrared detection sensor, or, it is also possible to exist in the form of a computing formula, Such as：The computing formula of the frequency of translational speed and infrared detection sensor, you can with by the computing formula and collection Translational speed calculates the frequency of corresponding infrared detection sensor.

Optionally, wearable device determines that the mode of the first frequency of the infrared detection sensor matched with the translational speed has Body can be：

Wearable device sends the infrared detection sensing for carrying translational speed to the user terminal bound with the wearable device Device frequency acquisition is asked；

Receive the frequency that user terminal obtains the infrared detection sensor that request sends for infrared detection sensor frequency；

The frequency of the infrared detection sensor that will be received is defined as the infrared detection sensor matched with the translational speed First frequency.

In the optional implementation method, can be by other equipment (user terminal such as bound with the wearable device) Send the infrared detection sensor that infrared detection sensor frequency obtains the mode of request to determine to be matched with the translational speed First frequency.

103rd, wearable device carries out anti-dropout detection using the infrared detection sensor of the first frequency to the wearable device.

Used as a kind of optional implementation method, after step 103, when detecting the wearable device and coming off, this is based on The anti-dropout detection method of wearable device can also include it is following in the combination of any one or more：

Export the prompt message for pointing out the wearable device to come off；

The prompt message for pointing out the wearable device to come off is sent to the user terminal bound with the wearable device；

The current positional information of the wearable device is sent to the user terminal bound with the wearable device.

In the optional implementation method, when detecting the wearable device and coming off, wearable device can be exported to user For the prompt message for pointing out wearable device to come off, such as：Vibrations, jingle bell, vibrations+jingle bell, short message prompt, are so easy to use Family finds that the wearable device comes off in time, prevents from losing.Optionally, wearable device can be to the user bound with the wearable device Terminal sends the prompt message for pointing out the wearable device to come off, such as short message.Optionally, wearable device will can be dressed The current positional information of equipment is sent to the user terminal bound with wearable device, so in order to the use belonging to the user terminal Positional information when family can in time know that the wearable device comes off, finds the wearable device in time.Optionally, when detecting this When wearable device comes off, can be combined for above-mentioned 3 kinds of modes by wearable device.

In the method described by Fig. 1, can be with the translational speed of Real-time Collection wearable device, it is determined that being matched with the translational speed Infrared detection sensor first frequency, and infrared detection sensor using the first frequency prevented the wearable device Come off detection.It can be seen that, implement the embodiment of the present invention, infrared detection sensor can be determined according to the translational speed of wearable device Frequency, specifically, when the translational speed of wearable device is slower, the infrared detection sensor according to determined by the translational speed Frequency just it is relatively low, when the translational speed of wearable device is very fast, the infrared detection sensor according to determined by the translational speed Frequency it is just higher, in this manner it is possible to the intelligently frequency of adjustment infrared detection sensor detection, and without excessively frequently or Long is detected with a fixed frequency, so that the power consumption of wearable device is saved, meanwhile, raising is carried out to wearable device The accuracy of anti-dropout detection.

Embodiment two

Fig. 2 is referred to, Fig. 2 is another anti-dropout detection method based on wearable device disclosed in the embodiment of the present invention Schematic flow sheet.As shown in Fig. 2 the anti-dropout detection method that should be based on wearable device may comprise steps of：

201st, wearable device gathers the translational speed of the wearable device.

202nd, wearable device judges whether the translational speed exceedes default threshold speed, if exceeding, execution step 203~ 204, if not less than execution step 207.

In the embodiment of the present invention, a threshold speed can be set in wearable device in advance, the threshold speed can set It is set to the normal speed being consistent with the age of user, such as 1m/s.Under normal circumstances, user can be walked with normal speed.If Wearable device judges that the translational speed exceedes default threshold speed, shows that active user may be with a speed faster Walking, such as：Run, in general, the speed of user's walking is faster, and the wearable device more easily comes off.

203rd, the skin temperature of the user of the wearable device is dressed in wearable device detection.

In the embodiment of the present invention, it is assumed that user is sitting on a vehicle for quick walking, and wearable device can also may judge The translational speed for going out wearable device exceedes default threshold speed, however, in this case, the probability that wearable device comes off can be very Small, if accelerating the frequency of infrared detection sensor, frequently detection, can cause that the electric quantity consumption of wearable device is very fast.

In the embodiment of the present invention, generally, when user normally walks, the skin temperature of user stabilization, usually one Individual steady state value, and when user accelerates suddenly speed motion, the skin of user has certain warming phenomenon and produces, and can pass through Skin temperature come determine user whether really accelerate speed walking.

Therefore in above-mentioned steps 202, when wearable device judges that the translational speed exceedes default threshold speed, further Ground, wearable device can detect the skin temperature of the user of the wearable device.

204th, wearable device judges whether the skin temperature for detecting exceedes default skin temperature threshold value, if exceeding, Step 205 is performed, if not less than terminating this flow.

205th, the skin that wearable device pair is contacted with the wearable device carries out sweat detection.

In the embodiment of the present invention, in general, after the skin temperature of user is raised, in order to radiate as early as possible, skin would generally Radiated by modes such as perspirations.Therefore, in order to further strengthen determining, in step 204, wearable device is judged to detect Skin temperature when exceeding default skin temperature threshold value, what wearable device further pair can also be contacted with the wearable device Skin carries out sweat detection.

If the 206, detecting the skin contacted with the wearable device in perspiration state, wearable device determines and the translational speed The first frequency of the infrared detection sensor of matching, and perform step 208.

In the embodiment of the present invention, wearable device exceedes default threshold speed judging the translational speed, and judges Go out the skin temperature for detecting and exceed default skin temperature threshold value, and detect the skin contacted with the wearable device and be in During perspiration state, wearable device can determine user it is current with one faster speed in walking, therefore wearable device can be true The first frequency of the fixed infrared detection sensor matched with the translational speed.

Specifically, wearable device determines that the mode of the first frequency of the infrared detection sensor matched with the translational speed has Body can include：

From the different translational speed scope of default multiple, it is determined that the corresponding target movement speed of the translational speed of collection Degree scope；Wherein, the plurality of different translational speed scope non-overlapping copies, and the plurality of different translational speed scope is each The frequency of the different infrared detection sensor of correspondence, and the plurality of different translational speed scope infrared detection different from this The frequency of sensor is proportionate；

And, determine the frequency of the corresponding infrared detection sensor of target translational speed scope as with the translational speed The first frequency of the infrared detection sensor of matching.

It should be noted that the translational speed included by the different translational speed scope of the default multiple is more than pre- If threshold speed translational speed.Such as：The default threshold speed is 1m/s, then the plurality of different translational speed scope Including translational speed be greater than 1m/s, namely the translational speed of the threshold value that only outpaces can just inquire the translational speed Affiliated translational speed scope.

As an example it is assumed that the threshold speed be 1m/s, then default translational speed may range from (1,1.5), [1.5, 2), [2 ,+∞).

207th, wearable device by the default frequency of the infrared detection sensor be defined as being matched with the translational speed it is infrared The first frequency of detection sensor.

It is different not in the default multiple for the translational speed less than or equal to threshold speed in the embodiment of the present invention In translational speed scope.If the translational speed of the current wearable device that wearable device is collected is less than or equal to threshold speed, Then wearable device can pass the infrared detection that the default frequency of the infrared detection sensor is defined as being matched with the translational speed The first frequency of sensor.The default frequency can pre-set according to the normal speed of travel of user.Work as translational speed When smaller, wearable device can carry out anti-dropout detection with the infrared detection sensor of default frequency to wearable device, so, red The frequency moderate of outer detection sensor detection, neither excessively power consumption also can guarantee that infrared detection sensor is carried out to wearable device The accuracy of anti-dropout detection.

208th, wearable device carries out anti-dropout detection using the infrared detection sensor of the first frequency to the wearable device.

As a kind of optional implementation method, when wearable device detects the skin contacted with wearable device in perspiration state When, wearable device can also detect the heart rate value of user, and judge whether the heart rate value of user exceedes default heart rate threshold, if Exceed, then wearable device determines the first frequency of the infrared detection sensor matched with the translational speed.

Wherein, implementing the method described by Fig. 2 can intelligently adjust infrared detection according to the translational speed of wearable device The frequency of sensor detection, and detected with a fixed frequency without excessively frequent or long, so as to save wearing The power consumption of equipment, meanwhile, raising carries out the accuracy of anti-dropout detection to wearable device.

Embodiment three

Fig. 3 is referred to, Fig. 3 is another anti-dropout detection method based on wearable device disclosed in the embodiment of the present invention Schematic flow sheet.As shown in figure 3, the anti-dropout detection method that should be based on wearable device may comprise steps of：

301st, wearable device gathers the translational speed of the wearable device.

302nd, wearable device judges whether the translational speed exceedes default threshold speed, if exceeding, performs step 303, If it is not, performing step 306.

303rd, wearable device obtains the hunting frequency of the wearable device, and obtains the center of gravity of the wearable device and move up and down Frequency.

In the embodiment of the present invention, user when walking, can be along with the swing (such as arms swing) of body and center of gravity Move up and down, equally, the wearable device also can occur to swing with the movement of user and center of gravity is moved up and down.

Specifically, wearable device can obtain the hunting frequency of wearable device by built-in sensor, and obtain The center of gravity of the wearable device moves up and down frequency.

304th, wearable device judges that whether the hunting frequency exceedes default hunting frequency threshold value, and judge in the center of gravity Whether lower travel frequency moves up and down frequency threshold more than default center of gravity.

In the embodiment of the present invention, the hunting frequency threshold value could be arranged to the swing of wearable device when user normally walks Frequency, the center of gravity move up and down frequency threshold could be arranged to wearable device when user normally walks center of gravity move up and down frequency Rate.

If the 305th, the hunting frequency exceed the hunting frequency threshold value, and the center of gravity move up and down frequency more than the center of gravity it is upper and lower Travel frequency threshold value, wearable device determines the first frequency of the infrared detection sensor matched with the translational speed, and performs step Rapid 307.

In the embodiment of the present invention, if wearable device judges that the translational speed exceedes default threshold speed, and sentence Break and the hunting frequency more than default hunting frequency threshold value, and judge that the center of gravity moves up and down frequency more than default heavy Descend travel frequency threshold value in the heart, then wearable device can determine user currently be strictly with one faster translational speed be expert at Walk, in order to more accurately carry out anti-dropout detection to wearable device, the wearable device needs to redefine infrared detection sensing The frequency of device.

Specifically, wearable device determines that the mode of the first frequency of the infrared detection sensor matched with the translational speed has Body can include：

From the different translational speed scope of default multiple, it is determined that the corresponding target movement speed of the translational speed of collection Degree scope；Wherein, the plurality of different translational speed scope non-overlapping copies, and the plurality of different translational speed scope is each The frequency of the different infrared detection sensor of correspondence, and the plurality of different translational speed scope infrared detection different from this The frequency of sensor is proportionate；

And, determine the frequency of the corresponding infrared detection sensor of target translational speed scope as with the translational speed The first frequency of the infrared detection sensor of matching.

It should be noted that the translational speed included by the different translational speed scope of the default multiple is more than pre- If threshold speed translational speed.Such as：The default threshold speed is 1m/s, then the plurality of different translational speed scope Including translational speed be greater than 1m/s, namely the translational speed of the threshold value that only outpaces can just inquire the translational speed Affiliated translational speed scope.

As an example it is assumed that the threshold speed be 1m/s, then default translational speed may range from (1,1.5), [1.5, 2), [2 ,+∞).

306th, wearable device by the default frequency of the infrared detection sensor be defined as being matched with the translational speed it is infrared The first frequency of detection sensor.

It is different not in the default multiple for the translational speed less than or equal to threshold speed in the embodiment of the present invention In translational speed scope.If the translational speed of the current wearable device that wearable device is collected is less than or equal to threshold speed, Then wearable device can pass the infrared detection that the default frequency of the infrared detection sensor is defined as being matched with the translational speed The first frequency of sensor.The default frequency can pre-set according to the normal speed of travel of user.Work as translational speed When smaller, wearable device can carry out anti-dropout detection with the infrared detection sensor of default frequency to wearable device, so, red The frequency moderate of outer detection sensor detection, neither excessively power consumption also can guarantee that infrared detection sensor is carried out to wearable device The accuracy of anti-dropout detection.

307th, wearable device carries out anti-dropout detection using the infrared detection sensor of the first frequency to the wearable device.

Wherein, the method described by implementing Fig. 3 can intelligently adjust infrared detection according to the translational speed of wearable device The frequency of sensor detection, and detected with a fixed frequency without excessively frequent or long, so as to save wearing The power consumption of equipment, meanwhile, raising carries out the accuracy of anti-dropout detection to wearable device.

Example IV

Fig. 4 is referred to, Fig. 4 is a kind of structural representation of anti-dropout detection means disclosed in the embodiment of the present invention.Wherein, Anti-dropout detection means shown in Fig. 4 can be used for performing the part or all of step of Fig. 1~Fig. 3, specifically refer to Fig. 1~figure 3 associated description, will not be repeated here.As shown in figure 4, the anti-dropout detection means can include：

Collecting unit 401, the translational speed for gathering wearable device；

Determining unit 402, the first frequency of the infrared detection sensor for determining to be matched with the translational speed, its In, the translational speed and the first frequency correlation；

Specifically, the determining unit 402 determines the first frequency of the infrared detection sensor matched with the translational speed The mode of rate is specially：

From the different translational speed scope of default multiple, it is determined that the corresponding target movement of the translational speed of collection Velocity interval；Wherein, the multiple different translational speed scope non-overlapping copies, and the multiple different translational speed model Enclose the frequency for each corresponding to different infrared detection sensors, and the translational speed scope and the translational speed scope pair The frequency correlation of the infrared detection sensor answered；

And, determine the frequency of the corresponding infrared detection sensor of the target translational speed scope as with the movement The first frequency of the infrared detection sensor of speeds match.

First detection unit 403, enters for the infrared detection sensor using the first frequency to the wearable device Row anti-dropout is detected.

Embodiment five

Fig. 5 is referred to, Fig. 5 is the structural representation of another anti-dropout detection means disclosed in the embodiment of the present invention.Its In, the anti-dropout detection means shown in Fig. 5 can be used for performing the part or all of step of Fig. 1~Fig. 2, specifically refer to Fig. 1 The associated description of~Fig. 2, will not be repeated here.Wherein, the anti-dropout detection means shown in Fig. 5 is due to the anticreep shown in Fig. 4 The detection means that falls optimizes what is obtained.Compared with the anti-dropout detection means shown in Fig. 4, the anti-dropout detection dress shown in Fig. 5 Putting to include：

First judging unit 404, for after the translational speed of the collection wearable device of the collecting unit 401, judging Whether the translational speed exceedes default threshold speed；

The determining unit 402, specifically for when the judged result of first judging unit 404 be more than when, it is determined that The first frequency of the infrared detection sensor matched with the translational speed.

Optionally, the anti-dropout detection means shown in Fig. 5 can also include：

Second detection unit 405, for judging that the translational speed exceedes the speed in first judging unit 404 During degree threshold value, the skin temperature of the user of the detection wearing wearable device；

Whether the second judging unit 406, the skin temperature for judging to detect exceedes default skin temperature threshold Value；

Second detection unit 405, be additionally operable to when the judged result of second judging unit 406 be more than when, it is right The skin contacted with the wearable device carries out sweat detection；

It is described to determine 402 yuan of list, specifically for being contacted with the wearable device when second detection unit 405 is detected Skin be in perspiration state when, it is determined that the first frequency of the infrared detection sensor matched with the translational speed.

Optionally, the determining unit 402, is additionally operable to judge the translational speed when first judging unit 404 During not less than the threshold speed, the default frequency of the infrared detection sensor is defined as what is matched with the translational speed The first frequency of infrared detection sensor.

Optionally, the anti-dropout detection means shown in Fig. 5 can also include：Output unit 407 and/or transmitting element 408, Wherein,

The output unit 407, it is defeated for when first detection unit 403 detects the wearable device and comes off Go out the prompt message for pointing out the wearable device to come off；

The transmitting element 408, for when first detection unit 403 detects the wearable device and comes off, to The user terminal bound with the wearable device sends the prompt message for pointing out the wearable device to come off；And/or, it is used for The current positional information of the wearable device is sent to the user terminal bound with the wearable device.

Embodiment six

Fig. 6 is referred to, Fig. 6 is the structural representation of another anti-dropout detection means disclosed in the embodiment of the present invention.Its In, the anti-dropout detection means shown in Fig. 6 can be used for performing the part or all of step of Fig. 1 or Fig. 3, specifically refer to Fig. 1 Or the associated description of Fig. 3, will not be repeated here.Wherein, the anti-dropout detection means shown in Fig. 6 is by the anticreep shown in Fig. 4 The detection means that falls optimizes what is obtained.Compared with the anti-dropout detection means shown in Fig. 4, the anti-dropout detection dress shown in Fig. 6 Putting to include：

First judging unit 404, for after the translational speed that the collecting unit 401 gathers the wearable device, Judge whether the translational speed exceedes default threshold speed；

The determining unit 402, specifically for when the judged result of first judging unit 404 be more than when, it is determined that The first frequency of the infrared detection sensor matched with the translational speed.

Acquiring unit 409, for judging that the translational speed exceedes the speed threshold in first judging unit 404 During value, the hunting frequency of the wearable device is obtained, and the center of gravity of the acquisition wearable device moves up and down frequency；

3rd judging unit 410, for judging that whether the hunting frequency exceedes default hunting frequency threshold value, and sentence The center of gravity of breaking moves up and down whether frequency moves up and down frequency threshold more than default center of gravity；

The determining unit 402, specifically for being more than and described when the judged result of first judging unit 404 The judged result of the 3rd judging unit 410 be more than when, it is determined that the of the infrared detection sensor matched with the translational speed One frequency.

Optionally, the determining unit 402, is additionally operable to judge the translational speed when first judging unit 404 During not less than the threshold speed, the default frequency of the infrared detection sensor is defined as what is matched with the translational speed The first frequency of infrared detection sensor.

Optionally, the anti-dropout detection means shown in Fig. 6 can also include：Output unit 407 and/or transmitting element 408, Wherein,

The output unit 407, it is defeated for when first detection unit 403 detects the wearable device and comes off Go out the prompt message for pointing out the wearable device to come off；

The transmitting element 408, for when first detection unit 403 detects the wearable device and comes off, to The user terminal bound with the wearable device sends the prompt message for pointing out the wearable device to come off；And/or, it is used for The current positional information of the wearable device is sent to the user terminal bound with the wearable device.

In the anti-dropout detection means described by Fig. 4~Fig. 6, can intelligently be adjusted according to the translational speed of wearable device The frequency of whole infrared detection sensor detection, and detected with a fixed frequency without excessively frequent or long, from And the power consumption of wearable device is saved, meanwhile, raising carries out the accuracy of anti-dropout detection to wearable device.

Embodiment seven

Fig. 7 is referred to, Fig. 7 is a kind of structural representation of wearable device disclosed in the embodiment of the present invention.Wherein, Fig. 7 institutes The wearable device for showing includes any one the anti-dropout detection means described by Fig. 4~Fig. 6.Implement the wearable device shown in Fig. 7, Can according to the translational speed of wearable device intelligently adjust infrared detection sensor detection frequency, and without excessively frequently or Person is long to be detected with a fixed frequency, so that the power consumption of wearable device is saved, meanwhile, raising is entered to wearable device The accuracy of row anti-dropout detection.

One of ordinary skill in the art will appreciate that all or part of step in the various methods of above-described embodiment is can Completed with instructing the hardware of correlation by program, the program can be stored in a computer-readable recording medium, storage Medium include read-only storage (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), programmable read only memory (Programmable Read-only Memory, PROM), erasable programmable is read-only deposits Reservoir (Erasable Programmable Read Only Memory, EPROM), disposable programmable read-only storage (One- Time Programmable Read-Only Memory, OTPROM), the electronics formula of erasing can make carbon copies read-only storage (Electrically-Erasable Programmable Read-Only Memory, EEPROM), read-only optical disc (Compact Disc Read-Only Memory, CD-ROM) or other disk storages, magnetic disk storage, magnetic tape storage or can For carrying or computer-readable any other medium of data storage.

A kind of anti-dropout detection method and device, wearing based on wearable device disclosed in the embodiment of the present invention are set above Standby to be described in detail, specific case used herein is set forth to principle of the invention and implementation method, the above The explanation of embodiment is only intended to help and understands the method for the present invention and its core concept；Simultaneously for the general skill of this area Art personnel, according to thought of the invention, will change in specific embodiments and applications, in sum, this Description should not be construed as limiting the invention.

Claims (15)

1. a kind of anti-dropout detection method based on wearable device, it is characterised in that including：

Gather the translational speed of the wearable device；

It is determined that the first frequency of the infrared detection sensor matched with the translational speed, wherein, the translational speed with it is described First frequency correlation；

Anti-dropout detection is carried out to the wearable device using the infrared detection sensor of the first frequency.

2. method according to claim 1, it is characterised in that after the translational speed of the collection wearable device, Methods described also includes：

Judge whether the translational speed exceedes default threshold speed, if exceeding, perform described determination and the movement The step of first frequency of the infrared detection sensor of speeds match.

3. method according to claim 2, it is characterised in that judging that the translational speed exceedes the threshold speed When, methods described also includes：

The skin temperature of the user of the detection wearing wearable device；

Whether the skin temperature that detects of judgement exceedes default skin temperature threshold value, if exceeding, pair is set with the wearing The skin of standby contact carries out sweat detection；

If detecting the skin contacted with the wearable device in perspiration state, described determination and the translational speed is performed The step of first frequency of the infrared detection sensor of matching.

4. method according to claim 2, it is characterised in that judging that the translational speed exceedes the threshold speed When, methods described also includes：

The hunting frequency of the wearable device is obtained, and the center of gravity of the acquisition wearable device moves up and down frequency；

Judge that whether the hunting frequency exceedes default hunting frequency threshold value, and judge that the center of gravity moves up and down frequency and is It is no to move up and down frequency threshold more than default center of gravity；

If the hunting frequency exceed the hunting frequency threshold value, and the center of gravity move up and down frequency more than the center of gravity it is upper and lower Travel frequency threshold value, then perform the step of the first frequency of the infrared detection sensor that described determination is matched with the translational speed Suddenly.

5. the method according to any one of Claims 1 to 4, it is characterised in that the determination is matched with the translational speed The first frequency of infrared detection sensor include：

From the different translational speed scope of default multiple, it is determined that the corresponding target translational speed of the translational speed of collection Scope；Wherein, the multiple different translational speed scope non-overlapping copies, and the multiple different translational speed scope is each From the frequency of the different infrared detection sensor of correspondence, and the translational speed scope is corresponding with the translational speed scope The frequency correlation of infrared detection sensor；

And, determine the frequency of the corresponding infrared detection sensor of the target translational speed scope as with the translational speed The first frequency of the infrared detection sensor of matching.

6. method according to claim 2, it is characterised in that judging the translational speed not less than the speed threshold During value, methods described also includes：

The infrared detection sensor that the default frequency of the infrared detection sensor is defined as being matched with the translational speed First frequency.

7. the method according to any one of Claims 1 to 4, it is characterised in that when detecting the wearable device and coming off, Methods described also include it is following in the combination of any one or more：

Export the prompt message for pointing out the wearable device to come off；

The prompt message for pointing out the wearable device to come off is sent to the user terminal bound with the wearable device；

The current positional information of the wearable device is sent to the user terminal bound with the wearable device.

8. a kind of anti-dropout detection means, it is characterised in that including：

Collecting unit, the translational speed for gathering wearable device；

Determining unit, the first frequency of the infrared detection sensor for determining to be matched with the translational speed, wherein, the shifting Dynamic speed and the first frequency correlation；

First detection unit, anti-dropout is carried out for the infrared detection sensor using the first frequency to the wearable device Detection.

9. device according to claim 8, it is characterised in that described device also includes：

First judging unit, for after the translational speed of collecting unit collection wearable device, judging the mobile speed Whether degree exceedes default threshold speed；

The determining unit, specifically for when the judged result of first judging unit be more than when, it is determined that with the movement The first frequency of the infrared detection sensor of speeds match.

10. device according to claim 9, it is characterised in that described device also includes：

Second detection unit, for first judging unit judge the translational speed exceed the threshold speed when, The skin temperature of the user of the detection wearing wearable device；

Whether the second judging unit, the skin temperature for judging to detect exceedes default skin temperature threshold value；

Second detection unit, be additionally operable to when the judged result of second judging unit be more than when, pair with the wearing The skin of equipment contact carries out sweat detection；

The determining unit, specifically for showing when second detection unit detects the skin contacted with the wearable device During sweat state, it is determined that the first frequency of the infrared detection sensor matched with the translational speed.

11. devices according to claim 9, it is characterised in that described device also includes：

Acquiring unit, for when first judging unit judges that the translational speed exceedes the threshold speed, obtaining The hunting frequency of the wearable device, and the center of gravity of the acquisition wearable device moves up and down frequency；

3rd judging unit, for judging whether the hunting frequency exceedes default hunting frequency threshold value, and judges described Center of gravity moves up and down whether frequency moves up and down frequency threshold more than default center of gravity；

The determining unit, specifically for being more than and the described 3rd judge single when the judged result of first judging unit Unit judged result be more than when, it is determined that the first frequency of the infrared detection sensor matched with the translational speed.

12. device according to any one of claim 8~11, it is characterised in that the determining unit determines and the shifting The mode of the first frequency of the infrared detection sensor of dynamic speeds match is specially：

From the different translational speed scope of default multiple, it is determined that the corresponding target translational speed of the translational speed of collection Scope；Wherein, the multiple different translational speed scope non-overlapping copies, and the multiple different translational speed scope is each From the frequency of the different infrared detection sensor of correspondence, and the translational speed scope is corresponding with the translational speed scope The frequency correlation of infrared detection sensor；

And, determine the frequency of the corresponding infrared detection sensor of the target translational speed scope as with the translational speed The first frequency of the infrared detection sensor of matching.

13. devices according to claim 9, it is characterised in that the determining unit, are additionally operable to judge single when described first When unit judges the translational speed not less than the threshold speed, the default frequency of the infrared detection sensor is defined as The first frequency of the infrared detection sensor matched with the translational speed.

14. device according to any one of claim 8~11, it is characterised in that described device also include output unit and/ Or transmitting element, wherein,

The output unit, for when first detection unit detects the wearable device and comes off, exporting for pointing out The prompt message that the wearable device comes off；

The transmitting element, for when first detection unit detects the wearable device and comes off, to the wearing The user terminal of apparatus bound sends the prompt message for pointing out the wearable device to come off；And/or, for by the wearing The current positional information of equipment is sent to the user terminal bound with the wearable device.

15. a kind of wearable devices, it is characterised in that including the anti-dropout described in claim 8~claim 14 any one Detection means.