CN107783644A - Wearable device and its control method - Google Patents

Abstract

The present invention relates to wearable device technical field, discloses a kind of wearable device and its control method.In the present invention, control method includes：Sensor by being arranged at wearable device judges whether wearable device is in wearing state；If wearable device is in non-wearing state, the communication module closed in wearable device.Embodiment of the present invention additionally provides a kind of wearable device.Embodiment of the present invention manages the electricity consumption situation of the communication module in wearable device automatically compared with prior art, by detecting the use state of wearable device, so as to save electricity automatically, improves Consumer's Experience.

Description

Wearable device and its control method

Technical field

The present invention relates to wearable device technical field, more particularly to a kind of wearable device and its control method.

Background technology

With the development of science and technology, the use of smart machine is gradually popularized, wherein, wearable device turns into new in smart machine Focus.Wearable device is in health control and video-see etc. such as watch (intelligent watch), glasses and the helmet People provide more more options.Wireless communication module, such as bluetooth module, Wireless Fidelity are usually provided with these wearable devices WIFI module etc..Generally, wearable device uses rechargeable battery, and its endurance has influence on Consumer's Experience.These wearable devices Need to open various sensors in it, communication module when in use, be easy to improve Consumer's Experience, however, when wearable device is not busy When putting, for example, user is in sleep state, now, if the communication module of wearable device remains in that communications status, easily make Into unnecessary electric quantity consumption.

In existing, people usually require manual-lock communication module to save electricity.However, this kind of mode easily causes to use Family Experience Degree declines, and when user forgets operation, unnecessary electric quantity consumption be present.

The content of the invention

The purpose of some embodiments of the present invention is to provide a kind of wearable device and its control method, dressed by detecting The use state of equipment and manage the electricity consumption situation of the communication module in wearable device automatically, so as to save electricity automatically, Improve Consumer's Experience.

In order to solve the above technical problems, embodiments of the present invention provide a kind of control method of wearable device, including： Sensor by being arranged at wearable device judges whether the wearable device is in wearing state；If at the wearable device In non-wearing state, the then communication module closed in the wearable device.

Embodiments of the present invention additionally provide a kind of wearable device, including：Detection module, for by being arranged at wearing The sensor of equipment judges whether the wearable device is in wearing state；Control module, for being detected in the detection module When being in non-wearing state to the wearable device, the communication module closed in the wearable device.

Embodiment of the present invention in terms of existing technologies, believe by the state detected by the sensor on wearable device Breath judges whether wearable device is in wearing state, and when wearable device is not in wearing state, closes wearable device automatically In communication module.So as to manage electricity according to the use state of wearable device, reach the automatic purpose for saving electricity, carry High Consumer's Experience.

In addition, the surface region of the wearable device is provided with first sensor；Wherein, the first sensor is used to examine Whether the first predeterminable area for surveying the wearable device is supported；By being arranged at described in the sensor judgement of wearable device Whether wearable device is among wearing state, is specifically included：Judge whether the first sensor detects support force；If The first sensor is not detected by support force, then judges that the wearable device is in non-wearing state.First predeterminable area example Such as wearing when wearable device on can with the region of human contact, because the weight of wearable device itself is default by first The contact support in region, thus, corresponding support force can be detected corresponding to the sensor of the first predeterminable area, and then, Present embodiment judges for the stressing conditions of the first predeterminable area, can be more when the non-stress of the first predeterminable area Judge that wearable device is in non-wearing state exactly, now, wearable device is most likely in unused state, so as to Communication close module etc. accordingly.

In addition, if the first sensor detects support force, then whether the support force detected described in judgement meets First preset range；If meet first preset range, it is determined that the wearable device is in wearing state；Wherein, institute It is the power being equivalent between 1 times to 1.5 times of the wearable device own wt to state the first preset range.Because wearable device is worn The deadweight of body support's wearable device is needed when wearing, so the deadweight of generally wearable device is not too large, and wearable device is dressed When be also less subject to other external force effect, so act on the predeterminable area of wearable device first active force be usually set with wearing The equivalent power of standby own wt, in conjunction with the error of wearable device own wt, therefore by the first preset range be arranged to The power of equivalent between 1 times to 1.5 times of wearable device own wt, it can effectively judge that wearable device is in wearing shape The situation of state, avoid wearable device unnecessarily communication close module etc. in use state.

In addition, the surface region of the wearable device is additionally provided with second sensor；The second sensor is used to detect Whether the second predeterminable area of the wearable device is supported；Worn by being arranged at described in the sensor judgement of wearable device Wear whether equipment is among wearing state, specifically include：Judge whether the second sensor detects support force；If institute State second sensor and be not detected by support force, then judge that the wearable device is in wearing state.Wearable device is in non-wearing shape Under state, it usually needs the second predeterminable area for being different from the first predeterminable area is supported, and therefore, present embodiment passes through to The stressing conditions of two predeterminable areas are analyzed, such as, when the second predeterminable area detects support force, it is possible to determine that wearing is set It is standby be in non-wearing state, so as to relatively accurately judge wearable device whether the situation in dressing.

In addition, if the second sensor detects support force, the support force that the second sensor detects is judged Whether the second predetermined threshold value is less than；If less than second predetermined threshold value, it is determined that the wearable device is in wearing state； Wherein, second predetermined threshold value is the power for the own wt for being equivalent to the wearable device.Detected in the second predeterminable area During support force, by determine whether the support force whether equivalent to wearable device deadweight, so as to whether judge wearable device Non- wearing state is completely in, and then is advantageous to flexibly and accurately communication close module, saves electricity.

In addition, by be arranged at the sensor of wearable device judge the wearable device whether in wearing state it In, specifically include：The body temperature transducer purchased by oneself by the wearable device detects human body temperature information；If it is not detected by human body Temperature information, then judge that the wearable device is in non-wearing state.Because in most cases human body temperature is different from environment Temperature, so by detecting human body temperature information, it can relatively accurately judge the situation whether wearable device is dressed, and then It is easy to neatly manage the electricity consumption of communication module etc..

In addition, if the wearable device is in wearing state, then before the communication module is closed, in addition to：Sentence Whether the wearable device that breaks detects default sleep condition；If detecting the default sleep condition, turn off described Communication module.Because some wearable devices are suitable to the characteristic of wearing, so the situation that wearable device is dressed in sleep is also very common, And typically without open communication module when sleeping, so, present embodiment is also switched off the mould that communicates when being dressed in detecting sleep Block, reach the purpose for saving electricity.

In addition, among judging whether the wearable device detects default sleep condition, specifically include：Worn by described Wear the self-purchased inertial sensor detection toggle frequency of equipment；If the toggle frequency is less than default toggle frequency, inspection is judged Measure the default sleep condition；Wherein, the default toggle frequency be 5 times per hour., can be compared with by detecting toggle frequency Effectively to judge sleep activity, and then communication close module it can reach power saving purpose accordingly.

In addition, before judging whether the wearable device detects default sleep condition, in addition to：Detect the wearing Whether equipment is located at predeterminated position；If located in the predeterminated position, then continue to judge whether the wearable device detects pre- If sleep condition；Wherein described predeterminated position is obtained by following steps：The continuous stay time of the wearable device is obtained to be more than The positional information of preset time；The continuous dwell times of the wearable device are filtered out from the positional information and are more than preset times Positional information as predeterminated position.Such as the time feature of combination sleep and frequency feature etc. can relatively accurately be judged The resting guard that user commonly uses.By being pre-positioned whether the location of wearable device is resting guard that user commonly uses, and Sleep activity detection is carried out in conventional resting guard, so as to avoid unnecessary detection.

Brief description of the drawings

Fig. 1 is the flow chart according to the control method of first embodiment of the invention wearable device；

Fig. 2 is the sub-process figure of the step 102 according to first embodiment of the invention Fig. 1；

Fig. 3 is sub-process the step of whether wearable device is in wearing state is judged according to second embodiment of the invention Figure；

Fig. 4 is sub-process the step of whether wearable device is in wearing state is judged according to third embodiment of the invention Figure；

Fig. 5 is the flow chart according to the control method of four embodiment of the invention wearable device；

Fig. 6 is the structural representation according to fifth embodiment of the invention wearable device.

Embodiment

To make the object, technical solutions and advantages of the present invention clearer, each reality below in conjunction with accompanying drawing to the present invention The mode of applying is explained in detail.However, it will be understood by those skilled in the art that in each embodiment of the present invention, In order that reader more fully understands the application and proposes many ins and outs.But even if without these ins and outs and base Many variations and modification in following embodiment, the application technical scheme claimed can also be realized.

The first embodiment of the present invention is related to a kind of control method of wearable device, applied to such as intelligent watch (watch), the helmet, glasses etc..

As shown in figure 1, the control method comprises the following steps：

Step 102：Sensor by being arranged at wearable device judges whether wearable device is in wearing state.If sentence Break and wearable device and be in non-wearing state, then into step 104, if it is judged that be in wearing state, then return to step 102。

In step 102, following sub-step is specifically included：

Sub-step 2022：Judge whether first sensor detects support force.If first sensor detects support force, Then enter step sub-step 2026, if first sensor is not detected by support force, into sub-step 2024.

In present embodiment, the surface region of wearable device is provided with first sensor, and first sensor is worn for detection Whether the first predeterminable area for wearing equipment is supported.For example, when wearable device is intelligent watch, first sensor can be set In dial plate and watchband inside region, that is, it is arranged at the surface region that can be contacted with human body wrist of intelligent watch.This implementation In mode, first sensor can detect the pressure size suffered by itself.The implementation of first sensor is this area skill Known to art personnel, here is omitted.

Sub-step 2024：Judge that wearable device is in non-wearing state.

Sub-step 2026：Whether the support force for judging to detect meets the first preset range.If meet the first default model Enclose, then into sub-step 2022, if being unsatisfactory for the first preset range, into sub-step sub-step 2024.

In sub-step 2026, the first preset range is to be equivalent between 1 times to 1.5 times of wearable device own wt Power.Generally, when the support force that the first predeterminable area detects, it can be determined that go out wearable device and be in wearing state, at some In the case of, the first predeterminable area may also be acted on by external force, and be not the support force from human body when dressing, sub-step 2026 In in order to exclude the influence of this external force, further set the first preset range, the first preset range sets to be equivalent to wearing The power born is needed in the range of standby deadweight, it is possible to exclude some more slight external force effects, rather than situation during wearing.

Step 104：The communication module closed in wearable device.

In step 104, communication module for example can be bluetooth module or Wireless Fidelity WIFI module.Bluetooth module and nothing Line fidelity WIFI module is the conventional wireless communication module of wearable device, if its holding communications status when idle, can disappear Certain electricity is consumed, therefore, by closing these communication modules, is advantageous to save electricity.

Present embodiment compared with prior art, by be arranged at wearing surface sensor senses wearable device stress Position and judge wearable device whether in wearing in state, so as to the timely communication close when wearable device is not used The unnecessary power consumption module such as module.

Second embodiment of the present invention is related to a kind of control method of wearable device.Second embodiment is implemented with first Mode is roughly the same, is in place of the main distinction：In the first embodiment, the first predeterminable area is detected according to first sensor Stress judge situation that whether wearable device is dressed.And in second embodiment of the invention, examined according to second sensor The stress of the second predeterminable area is surveyed to judge situation that whether wearable device is dressed.

As shown in figure 3, by being arranged at whether the sensor of wearable device judges the wearable device in the control method The step of in wearing state, includes following sub-step：

Sub-step 3022：Judge whether second sensor detects support force.If detecting support force, into sub-step Rapid 3026, if being not detected by support force, into sub-step 3024.

In present embodiment, the surface region of wearable device is provided with second sensor, and second sensor is worn for detection Whether the second predeterminable area for wearing equipment is supported.For example, when wearable device is intelligent watch, second sensor can be set In the exterior lateral area of dial plate and watchband, that is, the surface region that can be contacted with human body wrist for being arranged at intelligent watch is opposite Region.When wearable device is in non-wearing state, its own weight is generally supported by the second predeterminable area, therefore can be sentenced accordingly Whether disconnected wearable device is in wearing state.In present embodiment, second sensor can detect the big of itself pressure Small, the implementation of second sensor is well known to those skilled in the art, and here is omitted.

Sub-step 3024：Judge that wearable device is in wearing state, now return to sub-step 3022.

Sub-step 3026：Judge whether the support force that second sensor detects is less than the second predetermined threshold value.If less than Second predetermined threshold value, then into sub-step 3024, if greater than or equal to the second predetermined threshold value, then into sub-step 3028.

In sub-step 3026, the second predetermined threshold value can be the power for the own wt for being equivalent to wearable device.In some feelings Under condition, the second predeterminable area may be not intended to prop up by the effect of other external force (such as extruding force etc.), this part external force Support the deadweight of wearable device, based on this, present embodiment in order to which excretion is in the influence of this kind of external force of the second predeterminable area, The second predetermined threshold value is further set, the second predetermined threshold value is for example set as the power equivalent with wearable device deadweight, so, when When the stress that the second predeterminable area detects is less than the second predetermined threshold value, the feelings that wearable device is in non-wearing state are excluded Shape, it is believed that wearable device is in wearing state, so as to exclude some exceptions, avoids closing by mistake in wearable device use Close wearable device.

Sub-step 3028：Judge that wearable device is in non-wearing state.According to the judged result of sub-step 3028, closing is worn Wear the communication module of equipment.

Present embodiment detects the stress situation of wearable device, and root by being arranged at the second sensor of wearable device According to detecting what whether force analysis wearable device was dressed, so as to provide more detections for the use state of wearable device Method, it is easy to detect the use state of wearable device exactly.

Third embodiment of the invention is related to a kind of control method of wearable device.3rd embodiment and first, second Embodiment is roughly the same, is in place of the main distinction, in first or second embodiment, by being arranged at wearable device Be used for detect stress sensor detection wearable device the use state whether dressed, in the third embodiment, pass through Whether the body temperature transducer detection wearable device in wearable device is in wearing state.

As shown in figure 4, whether the control method judges wearable device in pendant by being arranged at the sensor of wearable device Among wearing state, including following sub-step：

Sub-step 4022：The body temperature transducer purchased by oneself by wearable device detects human body temperature information.If detect people Temperature information, into sub-step 4024, if being not detected by human body temperature information, into sub-step 4026.

In sub-step 4022, body temperature transducer can be arranged at the position that human body skin can be contacted with wearable device, Consequently facilitating accurately detect human body temperature information.The setting of body temperature transducer in present embodiment familiar to the person skilled in the art Method, here is omitted.

Sub-step 4024：Judge that wearable device is in wearing state, now, return to sub-step 4022.

Sub-step 4026：Judge that wearable device is in non-wearing state.Now, communication module in wearable device is closed.

In present embodiment, because human body temperature is generally different from environment temperature, so passing through body temperature transducer, Ke Yizhun Really judge wearable device whether the state in wearing, and then unlatching and the pass of communication module can be managed exactly Close, avoid the waste of power consumption in wearable device.

Four embodiment of the invention is related to a kind of control method of wearable device.4th embodiment is first, second Or the 3rd make improvement on the basis of embodiment, mainly the improvement is that, in the 4th embodiment, worn when detecting When wearing equipment and being in wearing state, determine whether wearable device detects default sleep condition, and it is pre- in detection If sleep condition when, communication close module.

As shown in figure 5, the control method comprises the following steps：

Step 502：Sensor by being arranged at wearable device judges whether wearable device is in wearing state.If sentence Break and wearable device and be in wearing state, then into step 504, if it is judged that wearable device is in non-wearing state, then enter Enter step 506.

Step 504：Judge whether wearable device detects default sleep condition.If it is judged that detect default sleep Condition, then into step 506, step 502 is entered if default sleep condition is not detected by.

In step 504, default sleep condition can be detected by following sub-step.The inertia purchased by oneself by wearable device passes Sensor detects toggle frequency.If toggle frequency is less than default toggle frequency, judgement detects default sleep condition.For example, Default toggle frequency can be for 5 times per hour, if detecting that toggle frequency per hour, judges to detect default sleeps for 1 time Dormancy condition, into step 506, if detecting that reversal frequency per hour, judges to be not detected by default sleep condition for 7 times, Return to step 502.It should be noted that before the inertial sensor purchased by oneself by wearable device detects toggle frequency, may be used also To detect whether wearable device is located at predeterminated position.If located in predeterminated position, just enter and judge whether wearable device detects The step of default sleep condition.In present embodiment, predeterminated position can be obtained by following steps：It is continuous to obtain wearable device Stay time is more than the positional information of preset time.Wearable device dwell times are filtered out from positional information and are more than preset times Positional information as predeterminated position.For example, preset time can be 8 hours, the bedroom of such as user can be so got The position of position or office location etc..It is then possible to it is big to filter out continuous dwell times from multiple positional informations of acquisition In the positional information of preset times, for example, preset times could be arranged to continuously stop 8 times, so, office can be excluded The positional information at place, retain the positional information where bedroom.Certainly, it is often greater than preset time when only getting one and stopping Position when, can also be using the position as predeterminated position.Present embodiment is not done specifically for the acquisition methods of predeterminated position Limitation.

Step 506：The communication module closed in wearable device.

Present embodiment determines whether user enters the inactive of sleep etc. when wearable device is in wearing State, and when user enters sleep state, the communication module of unnecessary unlatching is closed, so as to reduce unnecessary electricity Consumption.

The step of various methods divide above, be intended merely to describe it is clear, can be merged into when realizing a step or Some steps are split, are decomposed into multiple steps, as long as including identical logical relation, all protection domain in this patent It is interior；To either adding inessential modification in algorithm in flow or introducing inessential design, but its algorithm is not changed Core design with flow is all in the protection domain of the patent.

Fifth embodiment of the invention is related to a kind of wearable device.For example, wearable device for example can be intelligent hand Table (watch), the helmet, glasses etc..

As shown in fig. 6, wearable device 6 includes：

Detection module 60, for judging wearable device 6 whether in wearing shape by being arranged at the sensor of wearable device State.

Control module 61, set for when detection module 60 detects that wearable device 6 is in non-wearing state, closing wearing Communication module in standby.

Wherein, sensor can for example be arranged at the surface region of wearable device, and can detect the surface of wearable device Whether it is supported.And the forced position and stress size of the surface region of the wearable device detected according to sensor, sentence Break and whether wearable device is in non-wearing state.For example, sensor can be arranged at wearable device be used for contact and support In the region of human body, when detection module judges that sensor is not affected by support force, then it can be determined that wearable device is in and do not wear State is worn, if detection judges sensor by the support force for meeting preset range, for example, sensor detects it By the power for being equivalent to wearable device self gravitation, then it can be determined that and be in wearing state for wearable device.It should be appreciated that this hair The bright type for sensor is not particularly limited.

Control module is used for the testing result that non-wearing state is according to the wearable device detected of detection module, closes The communication module closed in wearable device is to save electricity.

Present embodiment, by using wearable device surface sensor detect wearable device itself stress position and Size, can so as to judge whether wearable device is in non-wearing state, and when wearable device is in non-wearing state Electricity is saved with automatic communication close module.

It is seen that present embodiment is the apparatus embodiments corresponding with first embodiment, present embodiment can be with First embodiment is worked in coordination implementation.The relevant technical details mentioned in first embodiment still have in the present embodiment Effect, in order to reduce repetition, is repeated no more here.Correspondingly, the relevant technical details mentioned in present embodiment are also applicable in In first embodiment.

It is noted that each module involved in present embodiment is logic module, and in actual applications, one Individual logic unit can be a part for a physical location or a physical location, can also be with multiple physics lists The combination of member is realized.In addition, in order to protrude the innovative part of the present invention, will not be with solving institute of the present invention in present embodiment The unit that the technical problem relation of proposition is less close introduces, but this is not intended that in present embodiment and other lists are not present Member.

It will be appreciated by those skilled in the art that realize that all or part of step in above-described embodiment method is to pass through Program instructs the hardware of correlation to complete, and the program storage is in the storage medium, including some instructions are causing one Individual equipment (can be single-chip microcomputer, chip etc.) or processor (processor) perform each embodiment methods described of the application All or part of step.And foregoing storage medium includes：USB flash disk, mobile hard disk, read-only storage (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disc or CD etc. are various can store journey The medium of sequence code.

It will be understood by those skilled in the art that the respective embodiments described above are to realize the specific embodiment of the present invention, And in actual applications, can to it, various changes can be made in the form and details, without departing from the spirit and scope of the present invention.

Claims (10)

1. A kind of 1. control method of wearable device, it is characterised in that including：

   Sensor by being arranged at wearable device judges whether the wearable device is in wearing state；

   If the wearable device is in non-wearing state, the communication module closed in the wearable device.
2. 2. the control method of wearable device according to claim 1, it is characterised in that the surface region of the wearable device It is provided with first sensor；Wherein, the first sensor be used for detect the wearable device the first predeterminable area whether by To support；

   The wearable device is being judged whether among wearing state by being arranged at the sensor of wearable device, specific bag Include：

   Judge whether the first sensor detects support force；

   If the first sensor is not detected by support force, judge that the wearable device is in non-wearing state.
3. 3. the control method of wearable device according to claim 2, it is characterised in that also include：

   If the first sensor detects support force, whether the support force detected described in judgement meets the first default model Enclose；

   If meet first preset range, it is determined that the wearable device is in wearing state；Wherein, described first is default Scope is the power being equivalent between 1 times to 1.5 times of the wearable device own wt.
4. 4. the control method of wearable device according to claim 2, it is characterised in that the surface region of the wearable device It is additionally provided with second sensor；Whether the second predeterminable area that the second sensor is used to detect the wearable device is propped up Support；

   The wearable device is being judged whether among wearing state by being arranged at the sensor of wearable device, specific bag Include：

   Judge whether the second sensor detects support force；

   If the second sensor is not detected by support force, judge that the wearable device is in wearing state.
5. 5. the control method of wearable device according to claim 4, it is characterised in that

   If the second sensor detects support force, judge whether the support force that the second sensor detects is less than Second predetermined threshold value；

   If less than second predetermined threshold value, it is determined that the wearable device is in wearing state；Wherein, described second is default Threshold value is the power for the own wt for being equivalent to the wearable device.
6. 6. the control method of wearable device according to claim 1, it is characterised in that by being arranged at wearable device Sensor judges whether the wearable device is among wearing state, specifically includes：

   The body temperature transducer purchased by oneself by the wearable device detects human body temperature information；

   If being not detected by human body temperature information, judge that the wearable device is in non-wearing state.
7. 7. the control method of wearable device according to claim 1, it is characterised in that

   If the wearable device is in wearing state, before the communication module is closed, in addition to：

   Judge whether the wearable device detects default sleep condition；

   If detecting the default sleep condition, the communication module is turned off.
8. 8. the control method of wearable device according to claim 7, it is characterised in that whether judging the wearable device Among detecting default sleep condition, specifically include：

   The inertial sensor purchased by oneself by the wearable device detects toggle frequency；

   If the toggle frequency is less than default toggle frequency, judgement detects the default sleep condition；Wherein, it is described pre- If toggle frequency be 5 times per hour.
9. 9. the control method of the wearable device according to claim 7 or 8, it is characterised in that judging the wearable device Before whether detecting default sleep condition, in addition to：

   Detect whether the wearable device is located at predeterminated position；

   If located in the predeterminated position, then continue to judge whether the wearable device detects default sleep condition；

   Wherein described predeterminated position is obtained by following steps：

   Obtain the positional information that the continuous stay time of the wearable device is more than preset time；

   The positional information conduct that the continuous dwell times of the wearable device are more than preset times is filtered out from the positional information Predeterminated position.
10. A kind of 10. wearable device, it is characterised in that including：

    Detection module, for judging whether the wearable device is in wearing state by being arranged at the sensor of wearable device；

    Control module, for when the detection module detects that the wearable device is in non-wearing state, being worn described in closing Wear the communication module in equipment.