CN108769850A - Apparatus control method and Related product - Google Patents

Abstract

This application discloses a kind of apparatus control method and Related products, the wearable device is worn on user's head, and the wearable device includes storage and processing circuit, and the sensor and size adjuster being connect with the storage and processing circuit, wherein, this method includes：Obtain sensing data；User Status is determined according to the sensing data；When the User Status is preset state, the size of the wearable device is adjusted, convenient for adjusting the compactness between the wearable device and the ear of user.Wearable device size can be adjusted according to User Status using the embodiment of the present application, the function of wearable device is enriched, promote user experience.

Description

Apparatus control method and Related product

Technical field

This application involves electronic technology field more particularly to a kind of apparatus control methods and Related product.

Background technology

With the maturation of wireless technology, wireless headset connects the scene of the electronic equipments such as mobile phone increasingly by wireless technology It is more.People can be realized by wireless headset the various functions such as listens to music, makes a phone call.However, current wireless earphone function compared with To be single, therefore, user experience is reduced.

Invention content

A kind of apparatus control method of the embodiment of the present application offer and Related product, can enrich the function of wireless headset, carry Rise user experience.

In a first aspect, the embodiment of the present application provides a kind of wearable device, the wearable device is worn on user's head, The wearable device includes storage and processing circuit, and the sensor and size tune being connect with the storage and processing circuit Engagement positions, wherein

The sensor, for obtaining sensing data；

The storage and processing circuit, for determining User Status according to the sensing data；

The size adjuster, for when the User Status is preset state, adjusting the wearable device Size, to change the compactness between the wearable device and the ear of user.

Second aspect, the embodiment of the present application provide a kind of apparatus control method, are applied to wearable device, described wearable Equipment is worn on user's head, the method includes：

Obtain sensing data；

User Status is determined according to the sensing data；

When the User Status is preset state, the size of the wearable device is adjusted, convenient for that can be worn described in adjusting Wear the compactness between equipment and the ear of user.

The third aspect, the embodiment of the present application provide a kind of plant control unit, are applied to wearable device, described wearable Equipment is worn on user's head, and the plant control unit includes acquiring unit, determination unit and adjusts unit, wherein：

The acquiring unit, for obtaining sensing data；

The determination unit, for determining User Status according to the sensing data；

The adjusting unit, for when the User Status is preset state, adjusting the size of the wearable device, Convenient for adjusting the compactness between the wearable device and the ear of user.

Fourth aspect, the embodiment of the present application provide a kind of wearable device, including processor, memory, communication interface with And one or more programs, wherein said one or multiple programs are stored in above-mentioned memory, and are configured by above-mentioned Processor executes, and above procedure includes the instruction for executing the step in the embodiment of the present application second aspect either method.

5th aspect, the embodiment of the present application provide a kind of computer readable storage medium, wherein above computer is readable Computer program of the storage medium storage for electronic data interchange, wherein above computer program makes computer execute such as Step some or all of described in the embodiment of the present application second aspect either method.

6th aspect, the embodiment of the present application provide a kind of computer program product, wherein above computer program product Non-transient computer readable storage medium including storing computer program, above computer program are operable to make calculating Machine executes the step some or all of as described in the embodiment of the present application second aspect either method.The computer program product It can be a software installation packet.

As can be seen that apparatus control method and Related product described in above-mentioned the embodiment of the present application, are applied to wearable Equipment, wearable device are worn on user's head, obtain sensing data, and User Status is determined according to sensing data, with When family state is preset state, the size of wearable device is adjusted, convenient for adjusting between wearable device and the ear of user Compactness enriches the function of wearable device, is promoted and used in this way, wearable device size can be adjusted according to User Status It experiences at family.

Description of the drawings

In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of application for those of ordinary skill in the art without creative efforts, can be with Obtain other attached drawings according to these attached drawings.

Figure 1A is a kind of structural schematic diagram of wearable device disclosed in the embodiment of the present application；

Figure 1B is a kind of flow diagram of apparatus control method disclosed in the embodiment of the present application；

Fig. 2 is the flow diagram of another apparatus control method disclosed in the embodiment of the present application；

Fig. 3 is the structural schematic diagram of another wearable device disclosed in the embodiment of the present application；

Fig. 4 A are a kind of structural schematic diagrams of plant control unit disclosed in the embodiment of the present application；

Fig. 4 B are the structural schematic diagrams of another plant control unit disclosed in the embodiment of the present application；

Specific implementation mode

In order to make those skilled in the art more fully understand application scheme, below in conjunction in the embodiment of the present application Attached drawing, technical solutions in the embodiments of the present application are clearly and completely described, it is clear that described embodiment is only The embodiment of the application part, instead of all the embodiments.Based on the embodiment in the application, ordinary skill people The every other embodiment that member is obtained without making creative work should all belong to the model of the application protection It encloses.

It is described in detail separately below.

Term " first ", " second ", " third " in the description and claims of this application and the attached drawing and " Four " etc. be for distinguishing different objects, rather than for describing particular order.In addition, term " comprising " and " having " and it Any deformation, it is intended that cover and non-exclusive include.Such as it contains the process of series of steps or unit, method, be The step of system, product or equipment are not limited to list or unit, but further include the steps that optionally not listing or list Member, or further include optionally for the intrinsic other steps of these processes, method, product or equipment or unit.

Referenced herein " embodiment " is it is meant that a particular feature, structure, or characteristic described can wrap in conjunction with the embodiments It is contained at least one embodiment of the application.Each position in the description occur the phrase might not each mean it is identical Embodiment, nor the independent or alternative embodiment with other embodiments mutual exclusion.Those skilled in the art explicitly and Implicitly understand, embodiment described herein can be combined with other embodiments.

Wearable device may include following at least one：Wireless headset, brain wave collector, augmented reality (augmented reality, AR)/virtual reality (virtual reality, VR) equipment, intelligent glasses etc., wherein nothing Line earphone can be realized by following technology and be communicated：Wireless Fidelity (wireless fidelity, Wi-Fi) technology, bluetooth skill Art, visible light communication technology, black light communication technology (infrared communication technology, ultraviolet communications technology) etc..The application In embodiment, by taking wireless headset as an example comprising left and right earplug, left earplug can be used as an individual components, right earplug also may be used Using as an individual components.

Optionally, wireless headset can be clip-on type earphone, or PlayGear Stealth, or wear-type ear Machine, the embodiment of the present application do not limit.

Wireless headset can be accommodated in Earphone box, and Earphone box may include：Two receiving cavities (the first receiving cavity and second Receiving cavity), the size and shape of two receiving cavities is designed to receive a pair of of wireless headset (left earplug and right earplug)；Setting exists One or more earphone outer covering magnetic parts in box, said one or multiple earphone outer covering magnetic parts are used for will be a pair of wireless Earphone magnetic attraction and respectively magnetism are fixed in two receiving cavities.Earphone box can also include ear cap.Wherein, it first receives The size and shape of chamber is designed to that the first wireless headset of reception, the size and shape of the second receiving cavity are designed to receive second wirelessly Earphone.

The battery for the recyclable charging that wireless headset may include earphone outer covering, be arranged in earphone outer covering is (for example, lithium is electric Pond), the loud speakers of multiple hard contacts including actuator unit and direct sound port for connecting battery and charging unit Component, wherein actuator unit includes magnet, voice coil and diaphragm, and actuator unit is used to make a sound from direct sound port, The outer surface in earphone outer covering is arranged in above-mentioned multiple hard contacts.

In one possible implementation, wireless headset can also include Petting Area, which can be located in ear The outer surface of machine shell is provided at least one touch sensor in Petting Area, for detecting touch operation, touch sensor It may include capacitance sensor.When user touches Petting Area, at least one capacitance sensor can detect selfcapacity Variation is to identify touch operation.

In one possible implementation, wireless headset can also include acceleration transducer and three-axis gyroscope, add Velocity sensor and three-axis gyroscope can be arranged in earphone outer covering, acceleration transducer and three-axis gyroscope for identification without The pick-up of line earphone and remove action.

In one possible implementation, wireless headset can also include at least one baroceptor, air pressure sensing Device can be arranged on the surface of earphone outer covering, for the air pressure in detection ear after wireless headset wearing.Air pressure sensing can be passed through Device detects the wearing elasticity of wireless headset.When detect wireless headset wear it is more loose when, wireless headset can to wireless ear The electronic device of machine connection sends prompt message, to prompt user's wireless headset to fall risk.

It describes in detail below to the embodiment of the present application.

A is please referred to Fig.1, Figure 1A is a kind of structural schematic diagram of wearable device disclosed in the embodiment of the present application, wearable Equipment 100 includes storage and processing circuit 110, and the sensor 170 and size being connect with the storage and processing circuit 110 Adjusting apparatus 180, wherein：

Wearable device 100 may include control circuit, which may include storage and processing circuit 110.It should Storing and processing circuit 110 can be with memory, such as hard drive memory, and nonvolatile memory (such as flash memory or is used for Form other electrically programmable read only memories etc. of solid state drive), volatile memory (such as either statically or dynamically deposit at random Access to memory etc.) etc., the embodiment of the present application is not restricted.Processing circuit in storage and processing circuit 110 can be used for controlling The operating of wearable device 100.The processing circuit can microprocessor based on one or more, microcontroller, at digital signal Manage device, baseband processor, power management unit, audio codec chip, application-specific integrated circuit, display-driver Ics Etc. realizing.

Storage and processing circuit 110 can be used for running the software in wearable device 100, such as the Internet browser application journey Sequence, voice over internet protocol (Voice over Internet Protocol, VOIP) call application program, Email Application program, media play-back application, operation system function etc..These softwares can be used for executing some control operations, example Such as, the Image Acquisition based on camera, the ambient light measurement based on ambient light sensor, based on proximity sensor close to sensing Device measures, the information display function that the positioning indicators such as status indicator lamp based on light emitting diode are realized, based on touch The touch event of sensor detects, function associated with information is shown on multiple (such as layering) displays, with execution The associated operation of wireless communication function, operation associated with collecting and generating audio signal, is pressed with collection and treatment button Other functions etc. in the associated control operation of event data and wearable device 100 are pressed, the embodiment of the present application does not limit System.

Size adjuster 180 can be used for adjusting the compactness between wearable device and the ear of user.Wherein, it pastes Right to be used to state the tightness degree that is bonded between wearable device and ear, compactness can be indicated with concrete numerical value. Size adjuster can be following at least one：Air pressure regulator, telescopic device, elastomeric element etc., with air pressure adjustment For device, when reducing the air pressure inside of wearable device, the ruler that wearable device is reduced by ambient pressure can be reached It is very little, when increasing the air pressure inside of wearable device, at this point, air pressure inside is more than ambient pressure, wearable device can be increased Size, sensor 170 is used to detect compactness between wearable device and ear, and sensor may include following at least one Kind：Pressure sensor, baroceptor, ultrasonic sensor, range sensor etc..In practical application, it is with wireless headset Example is illustrated with specified volume, is bonded closer between wireless headset and ear, then sounds that perceived sounds is bigger, wirelessly It is bonded overrelaxation between earphone and ear, then sounds that perceived sounds is smaller.

Wearable device 100 can also include input-output circuit 150.Input-output circuit 150 can be used for making to wear It wears equipment 100 and realizes outputting and inputting for data, that is, allow wearable device 100 from outer equipment receiving data and also permission can Wearable device 100 exports data to external equipment from wearable device 100.Input-output circuit 150 may further include Sensor 170.Sensor 170 may include ambient light sensor, the proximity sensor based on light and capacitance, touch sensor (for example, being based on light touch sensor and/or capacitive touch sensors, wherein touch sensor can be touching display screen A part can also be used as a touch sensor arrangement and independently use), acceleration transducer and other sensors etc..

Input-output circuit 150 can also include one or more displays, such as display 130.Display 130 can To include liquid crystal display, organic light emitting diode display, electronic ink display, plasma display, using other aobvious Show combination one or several kinds of in the display of technology.Display 130 may include touch sensor array (that is, display 130 can be touching display screen).Touch sensor can be by transparent touch sensor electrode (such as tin indium oxide (ITO) Electrode) capacitive touch sensors that are formed of array, or can be the touch sensor formed using other touching techniques, example Such as sound wave touch-control, pressure sensible touch, resistive touch, optical touch etc., the embodiment of the present application is not restricted.

Audio component 140 can be used for providing audio input and output function for wearable device 100.Wearable device Audio component 140 in 100 may include loud speaker, microphone, buzzer, tone generator and other for generating and examining Survey the component of sound.

Telecommunication circuit 120 can be used for providing the ability with external device communication for wearable device 100.Telecommunication circuit 120 may include analog- and digital- input-output interface circuit, and based on radiofrequency signal and/or the wireless communication of optical signal electricity Road.Radio communication circuit in telecommunication circuit 120 may include that radio-frequency transceiver circuitry, power amplifier circuit, low noise are put Big device, switch, filter and antenna.For example, the radio communication circuit in telecommunication circuit 120 may include for passing through hair Near-field coupling electromagnetic signal is penetrated and received to support the circuit of near-field communication (Near Field Communication, NFC).Example Such as, telecommunication circuit 120 may include near-field communication aerial and near-field communication transceiver.Telecommunication circuit 120 can also include honeycomb Telephone transceiver and antenna, wireless lan transceiver circuit and antenna etc..

Wearable device 100 can further include battery, power management circuitry and other input-output units 160. Input-output unit 160 may include button, control stick, click wheel, scroll wheel, touch tablet, keypad, keyboard, camera, Light emitting diode and other positioning indicators etc..

User can input a command for the operation of control wearable device 100 by input-output circuit 150, and can To use the output data of input-output circuit 150 status information from wearable device 100 and other defeated is received to realize Go out.

Based on wearable device described in above-mentioned Figure 1A, following function can be used to implement：

The sensor 170, for obtaining sensing data；

The storage and processing circuit 110, for determining User Status according to the sensing data；

The size adjuster 180, for when the User Status is preset state, adjusting the wearable device Size, to change the compactness between the wearable device and the ear of user.

In a possible example, in terms of the size for adjusting the wearable device, the size adjusting dress 180 are set to be specifically used for：

Determine the target compactness between the wearable device and ear；

According to the mapping relations between preset compactness and size adjustment parameter, determine that the target compactness is corresponding Target size adjustment parameter；

The size of the wearable device is adjusted according to the target size adjustment parameter.

In a possible example, the sensor includes array of pressure sensors, described wearable in the determination In terms of target compactness between equipment and ear, the size adjuster 180 is specifically used for：

The contact area between the wearable device and the ear is detected by the array of pressure sensors；

According to the mapping relations between preset area and compactness, the corresponding target patch of the contact area is determined It is right.

In a possible example, it is described determine User Status according to the eeg signal in terms of, the storage It is specifically used for processing circuit 110：

The eeg signal is pre-processed, obtains referring to eeg signal；

It is sampled and quantification treatment with reference to eeg signal to described, obtains discrete eeg signal；

The extreme value for determining the discrete eeg signal, obtains multiple extreme values；

Mean square deviation is calculated according to the multiple extreme value；

The User Status is determined according to the mean square deviation.

In a possible example, after the size that the size adjuster adjusts the wearable device, institute Storage and processing circuit 110 is stated to be specifically used for：

It has fallen off state detecting that the wearable device is in, has controlled the wearable device and enter designated state.

Based on wearable device described in above-mentioned Figure 1A, it can be used for executing a kind of following apparatus control method, specifically It is as follows：

The sensor 170 obtains sensing data；

The storage and processing circuit 110 determines User Status according to the sensing data；

The size adjuster 180 adjusts the ruler of the wearable device when the User Status is preset state It is very little, to change the compactness between the wearable device and the ear of user.

B is please referred to Fig.1, Figure 1B is a kind of flow diagram of apparatus control method disclosed in the embodiment of the present application.Using In wearable device as shown in Figure 1A, which includes the following steps.

101, sensing data is obtained.

In the embodiment of the present application, sensor may include but be not limited only to：Brain wave sensor, motion sensor, muscle Sensor, ultrasonic sensor etc., specifically, brain wave sensor is for acquiring eeg signal, motion sensor, muscle Sensor is used to acquire the exercise data for head, and ultrasonic sensor is for acquiring the action data being used for.Sensor number According to may include but be not limited only to：Brain wave data, muscular movement data, user movement data, action data etc..

Optionally, the exercise data of above-mentioned user's head may include following at least one：Muscular movement data, nerve fortune Dynamic data, eye motion data, head movement data, respiratory movement data etc.,

Optionally, muscular movement data may include facial expression, specifically, by acquiring muscular movement data, pass through Muscular movement data analysis goes out user's expression, in another example, muscular movement data can also include following at least one：Muscular movement Direction, muscular movement position (for example, eye muscle, lip muscle, throat muscles, ear's muscle etc.), muscular movement amplitude Etc..

Optionally, nervimotion data may include following at least one：Neuron type is (for example, voice class, action class Etc.), neuronal motor liveness (for example, user's brain wave can be acquired, being reflected by brain wave energy), neuronal motor Region (for example, left brain moves, right brain movement etc.).

Optionally, eye motion data can be following at least one：Blink exercise data (monocular movement data, eyes Exercise data), eye movement data (single eye movement data, double eyeball exercise data), blink exercise data concretely：It blinks Eye number, Blink rate (having in mind for example, closing one's eyes and narrowing, Blink rate between the two is different), eye movement data is specific Can be：Movement that eyeball side-to-side movement, eyeball move up and down, eyeball is hovered is (for example, eyeball moves back and forth up and down or eyeball is left The right side moves back and forth etc.), show the whites of one's eyes etc..

Optionally, head movement data may include following at least one：Up and down motion data (for example, nod, bow, Come back, squat down), side-to-side movement data (for example, head left avertence, head right avertence), head rotation data are (for example, head is suitable to the left Hour hands are turn-taked, head is turn-taked to the right clockwise, head is turn-taked clockwise upwards, head is turn-taked downwards clockwise).

Optionally, respiratory movement data may include following at least one：Respiration rate, respiratory rate, amplitude of respiration (example Such as, shallow breathing and deep breathing are different) etc..

102, User Status is determined according to the sensing data.

Wherein, wearable device can analyze sensing data, to obtain User Status.User Status can wrap Include following at least one：Waking state, motion state, sleep state etc., sleep state can be divided into again：It is hypnagogic state, shallow Sleep state, deep sleep etc..

Optionally, the sensing data includes eeg signal, and above-mentioned steps 102 are true according to the sensing data Determine User Status, it may include following steps：

21, the eeg signal is pre-processed, obtains referring to eeg signal；

22, it is sampled and quantification treatment with reference to eeg signal to described, obtains discrete eeg signal；

23, the extreme value for determining the discrete eeg signal, obtains multiple extreme values；

24, mean square deviation is calculated according to the multiple extreme value；

25, the User Status is determined according to the mean square deviation.

Wherein, above-mentioned pretreatment can be following at least one：Signal amplification, filtering (low-pass filtering, high-pass filtering, band Pass filter etc.), Signal separator (for example, the eeg signal of multiple users, isolates the eeg signal of designated user) etc.. Wearable device can obtain referring to eeg signal after pre-processing eeg signal, to believing with reference to brain wave Sampling and quantification treatment number are carried out, discrete eeg signal is obtained, sampling, quantization can reduce data volume and promote analysis Efficiency, can extract multiple extreme points of discrete eeg signal, and extreme point may include maximum and minimum, Ke Yiyi Mean square deviation is calculated according to multiple extreme values, mean square deviation is demonstrated by the fluctuation of User Status to a certain extent, can be in wearable device The mapping relations between mean square deviation and User Status are prestored, and then User Status can be determined according to the mapping relations.

103, when the User Status is preset state, the size of the wearable device is adjusted, described in adjusting Compactness between wearable device and the ear of user.

Wherein, above-mentioned preset state can be that user be voluntarily arranged or system default.For example, if user is in sleep shape State can then reduce the size of wearable device, fall off convenient for wearable device, in another example, user is kept in motion, then may be used To increase the size of wearable device, convenient for increasing the size between wearable device and ear, prevent wearable device from falling off. By taking wireless headset as an example, when user during sleep, if for a long time have on ear, ear can be damaged to a certain extent, into And the size of wireless headset can be reduced, fall off convenient for wireless headset, when user during exercise, due to movement, wireless headset In violent oscillatory motion, at this time, if increasing the size of wireless headset, wireless headset is avoided to fall off.

Optionally, above-mentioned steps 103 adjust the size of the wearable device, it may include following steps：

31, the target compactness between the wearable device and ear is determined；

32, according to the mapping relations between preset compactness and size adjustment parameter, the target compactness pair is determined The target size adjustment parameter answered；

33, the size of the wearable device is adjusted according to the target size adjustment parameter.

Wherein, target size adjustment parameter corresponds to specific size adjustment factor, for changing wearable device and user Ear between compactness.In the specific implementation, wearable device can determine that the target between wearable device and ear is pasted It is right, and according to the mapping relations between preset compactness and size adjustment parameter, determine the corresponding target of target compactness Size adjustment parameter adjusts the size of wearable device according to target size.

Optionally, the wearable device includes array of pressure sensors, and above-mentioned steps 31 determine the wearable device Target compactness between ear, it may include following steps：

A1, the contact area between the wearable device and the ear is detected by the array of pressure sensors；

A2, according to the mapping relations between preset area and compactness, determine the corresponding mesh of the contact area Labeling is right.

Wherein, wearable device may include that array of pressure sensors, array of pressure sensors can be distributed in wearable set The standby position that may be contacted with the ear of user, if in the specific implementation, detecting and ear contacts, pressure value is more than 0, if not Detect not to be then 0 with ear contacts, in this way, connecing between wearable device and ear can be detected by force sensor array Contacting surface is accumulated, and the mapping relations between preset area and compactness can be prestored in wearable device, in turn, can be according to Mapping relations between preset area and compactness determine the corresponding target compactness of contact area.

Optionally, the wearable device includes pressure sensor, and above-mentioned steps 31 determine the wearable device and ear Target compactness between piece, it may include following steps：

Target pressure value between B1, the detection wearable device and the ear；

B2, according to the mapping relations between preset pressure value and compactness, determine the corresponding institute of the target pressure value State target compactness.

Wherein it is possible to which at least one pressure sensor is arranged at the position of wearable device and ear contacts, this at least one A pressure sensor can detect the target pressure value between wearable device and ear, and target pressure value can be at least one The pressure value of any pressure sensor in pressure sensor, alternatively, all pressure sensors at least one pressure sensor Average pressure value, alternatively, the maximum pressure value that at least one pressure sensor detects, alternatively, at least one pressure sensor Minimum pressure values detected etc..The mapping relations between pressure value and compactness can be prestored in wearable device, In turn, the corresponding target compactness of target pressure value can be determined according to the mapping relations.

Pressure value	Compactness
		A~b	K1
B~c	K2
		C~d	K3

Wherein, a<b<c<D, K1, K2, K3 are the number more than 0.

Optionally, the wearable device includes baroceptor, and above-mentioned steps 31 determine the wearable device and ear Target compactness between piece, it may include following steps：

Target air pressure value between C1, the detection wearable device and the ear；

C2, according to the mapping relations between preset atmospheric pressure value and compactness, determine the corresponding institute of the target air pressure value State target compactness.

Wherein, wearable device includes baroceptor, is detected between wearable device and ear by baroceptor Target air pressure value.The mapping relations between atmospheric pressure value and compactness, in turn, Ke Yiyi can be prestored in wearable device The corresponding target compactness of target air pressure value is determined according to the mapping relations.

Optionally, the wearable device includes the first component and second component；The wearable device includes ultrasonic wave Sensor, above-mentioned steps 31 determine the target compactness between the wearable device and ear, it may include following steps：

D1, target range between the first component and the second component is determined；

D2, according to the mapping relations between preset distance and compactness, determine the corresponding mesh of the target range Labeling is right.

Wherein, wearable device may include the first component and second component, for example, wireless headset, it may include two earplugs, Ultrasonic sensor can be arranged in each earplug, for example, a transmitter is arranged in left earplug, a receiver is arranged in right earplug, into And the target range between the first component and second component is measured by two earplugs.Can be prestored in wearable device away from From the mapping relations between compactness, in turn, the corresponding target compactness of target range can be determined according to the mapping relations.

Optionally, if above-mentioned steps 103 are the compactness increased between wearable device and the ear of user, in above-mentioned step After rapid 103, it can also include the following steps：

E1, according to the mapping relations between preset compactness and the volume of the wearable device, determine the target Corresponding first volume of compactness.

E2, the control wearable device are with the first volume exports audio signal.

Wherein, the mapping relations between compactness and the volume of wearable device can be prestored in wearable device, In turn, corresponding first volume of target compactness is determined according to the mapping relations.Under target compactness, wearable device can be with Wearable device is controlled with the first volume exports audio signal.

Optionally, mapping relations collection is prestored in the wearable device, the mapping relations collection includes multiple mappings Relationship, mapping relations of each mapping relations between preset compactness and the volume of the wearable device；

Between above-mentioned steps 103 and E1, it can also include the following steps：

F1, target environment parameter is obtained；

F2, according to the correspondence between preset environmental parameter and mapping relations, determine the target environment parameter pair The target mapping relations answered；

Above-mentioned steps E1 is determined according to the mapping relations between preset compactness and the volume of the wearable device Corresponding first volume of the target compactness, can implement as follows：

Corresponding first volume of the target compactness is determined according to the target mapping relations.

Wherein, mapping relations collection can be prestored in wearable device, mapping relations collection may include multiple mapping relations, often Mapping relations of one mapping relations between preset compactness and the volume of wearable device.The sensing of above-mentioned wearable device Device can be environmental sensor, and environmental sensor can be following at least one：Alignment sensor, humidity sensor, temperature pass Sensor, external sound detection sensor etc..Target environment parameter can be obtained by environmental sensor, environmental parameter may include Following at least one：Position, humidity, temperature, environmental volume etc..It can prestore environmental parameter in wearable device and reflect The correspondence between relationship is penetrated, the corresponding target mapping relations of target environment parameter can be determined according to the correspondence.Into And corresponding first volume of target compactness can be determined according to the target mapping relations.There is provided as follows a kind of environmental parameter with Mapping table between mapping relations, it is specific as follows：

Environmental parameter	Mapping relations
		Environmental parameter 1	Mapping relations 1
Environmental parameter 2	Mapping relations 2
		…	…
Environmental parameter n	Mapping relations n

In this way, under different environmental parameters, different mapping relations can be taken, if for example, external environment is noisy, this When mapping relations and quiet environment under mapping relations it is different, the embodiment of the present application can carry in different environments For corresponding mapping relations, in this way, obtaining the volume suitable with environment.

Optionally, after above-mentioned steps E2, can also include the following steps：

The object variations amount of G1, the monitoring target compactness；

G2, the object variations amount absolute value be more than predetermined threshold value when, according to preset variable quantity and volume adjustment Mapping relations between parameter determine the corresponding target volume adjustment parameter of the object variations amount；

G3, the second volume is determined according to first volume and the target volume adjustment parameter；

G4, the control wearable device are worked with second volume.

Wherein, wearable device can be by the object variations amount of Sensor monitoring target compactness, object variations amount The variable quantity of compactness, in practical application, by taking wireless headset as an example, earphone is worn long, alternatively, user is moving, it is easy to allow Compactness is lower, conversely, user stoppers earphone, then can increase compactness, and above-mentioned object variations amount can be realized by sensor, For example, sensor includes pressure sensor, it can be changed by pressure value and determine object variations amount.Above-mentioned predetermined threshold value can be by User is voluntarily arranged or system default.Above-mentioned volume adjustment parameter can be "+" volume (increasing volume), alternatively, "-" volume (reduce volume) can pre-set the mapping relations between advance variable quantity and volume adjustment parameter in wearable device, When the absolute value of object variations amount is more than predetermined threshold value, the corresponding target volume of object variations amount is determined according to the mapping relations Adjustment parameter.It is being determined that target volume adjustment parameter can determine the second sound according to the first volume and target volume adjustment parameter Amount, for example, the second volume=first volume+target volume adjustment parameter, if target compactness increases, the second volume is less than the One volume, if target compactness reduces, the second volume is more than the first volume.

Optionally, after above-mentioned steps 103, can also include the following steps：

It has fallen off state detecting that the wearable device is in, has controlled the wearable device and enter designated state.

Wherein, above-mentioned designated state can be following at least one：Dormant state, closed state, mute state or lock Screen state etc..

As can be seen that apparatus control method described in above-mentioned the embodiment of the present application, is applied to wearable device, it is wearable Equipment is worn on user's head, obtains sensing data, determines User Status according to sensing data, is default in User Status When state, the size of wearable device is adjusted, convenient for adjusting the compactness between wearable device and the ear of user, in this way, Wearable device size can be adjusted according to User Status, enrich the function of wearable device, promote user experience.

Referring to Fig. 2, Fig. 2 is a kind of flow diagram of apparatus control method disclosed in the embodiment of the present application.It is applied to Wearable device as shown in Figure 1A, the apparatus control method include the following steps.

201, sensing data is obtained.

202, User Status is determined according to the sensing data.

203, when the User Status is preset state, the size of the wearable device is adjusted, described in adjusting Compactness between wearable device and the ear of user.

204, it has fallen off state detecting that the wearable device is in, has controlled the wearable device and enter and specify shape State.

As can be seen that apparatus control method described in above-mentioned the embodiment of the present application, is applied to wearable device, it is wearable Equipment is worn on user's head, obtains sensing data, determines User Status according to sensing data, is default in User Status When state, the size of wearable device is adjusted, convenient for adjusting the compactness between wearable device and the ear of user, is being detected It is in the state that fallen off to wearable device, control wearable device enters designated state, in this way, can be according to User Status tune Wearable device size is saved, the function of wearable device is enriched, promotes user experience.

Referring to Fig. 3, Fig. 3 is the structural schematic diagram of another wearable device disclosed in the embodiment of the present application, as schemed institute Show, which includes that processor, memory, communication interface and one or more programs, the wearable device are worn It wears in user's head, wherein said one or multiple programs are stored in above-mentioned memory, and are configured by above-mentioned processing Device executes, and above procedure includes the instruction for executing following steps：

Obtain sensing data；

User Status is determined according to the sensing data；

When the User Status is preset state, the size of the wearable device is adjusted, convenient for that can be worn described in adjusting Wear the compactness between equipment and the ear of user.

As can be seen that wearable device described in above-mentioned the embodiment of the present application, wearable device are worn on user's head, Sensing data is obtained, User Status is determined according to sensing data, when User Status is preset state, adjusts wearable set Standby size, convenient for adjusting the compactness between wearable device and the ear of user, in this way, can be adjusted according to User Status Wearable device size enriches the function of wearable device, promotes user experience.

In a possible example, in terms of the size for adjusting the wearable device, above procedure includes using In the instruction for executing following steps：

Determine the target compactness between the wearable device and ear；

According to the mapping relations between preset compactness and size adjustment parameter, determine that the target compactness is corresponding Target size adjustment parameter；

The size of the wearable device is adjusted according to the target size adjustment parameter.

In a possible embodiment, the wearable device includes array of pressure sensors, can described in the determination In terms of target compactness between wearable device and ear, above procedure includes the instruction for executing following steps：

The contact area between the wearable device and the ear is detected by the array of pressure sensors；

According to the mapping relations between preset area and compactness, the corresponding target patch of the contact area is determined It is right.

In a possible example, the sensing data includes eeg signal, described according to the sensor In terms of data determine User Status, above procedure includes the instruction for executing following steps：

The eeg signal is pre-processed, obtains referring to eeg signal；

It is sampled and quantification treatment with reference to eeg signal to described, obtains discrete eeg signal；

The extreme value for determining the discrete eeg signal, obtains multiple extreme values；

Mean square deviation is calculated according to the multiple extreme value；

The User Status is determined according to the mean square deviation.

In a possible example, after the size for adjusting the wearable device, above procedure further includes Instruction for executing following steps：

It has fallen off state detecting that the wearable device is in, has controlled the wearable device and enter designated state.

It is above-mentioned that mainly the scheme of the embodiment of the present application is described from the angle of method side implementation procedure.It is appreciated that , for wearable device in order to realize above-mentioned function, it comprises execute the corresponding hardware configuration of each function and/or software mould Block.Those skilled in the art should be readily appreciated that, in conjunction with each exemplary unit of embodiment description presented herein And algorithm steps, the application can be realized with the combining form of hardware or hardware and computer software.Some function actually with Hardware or computer software drive the mode of hardware to execute, and depend on the specific application and design constraint item of technical solution Part.Professional technician specifically can realize described function to each using distinct methods, but this reality Now it is not considered that exceeding scope of the present application.

The embodiment of the present application can carry out wearable device according to the above method example division of functional unit, for example, Each function can be corresponded to and divide each functional unit, it is single that two or more functions can also be integrated in a processing In member.The form that hardware had both may be used in above-mentioned integrated unit is realized, can also be realized in the form of SFU software functional unit. It should be noted that be schematical, only a kind of division of logic function to the division of unit in the embodiment of the present application, it is practical There may be another division manner when realization.

Fig. 4 A are please referred to, Fig. 4 A are a kind of structural schematic diagrams of plant control unit disclosed in the embodiment of the present application, application In wearable device, the wearable device is worn on user's head, and the plant control unit includes acquiring unit 401, really Order member 402 and adjusting unit 403, wherein：

The acquiring unit 401, for obtaining sensing data；

The determination unit 402, for determining User Status according to the sensing data；

The adjusting unit 403, for when the User Status is preset state, adjusting the ruler of the wearable device It is very little, convenient for adjusting the compactness between the wearable device and the ear of user.

As can be seen that plant control unit described in above-mentioned the embodiment of the present application, is applied to wearable device, it is wearable Equipment is worn on user's head, obtains sensing data, determines User Status according to sensing data, is default in User Status When state, the size of wearable device is adjusted, convenient for adjusting the compactness between wearable device and the ear of user, in this way, Wearable device size can be adjusted according to User Status, enrich the function of wearable device, promote user experience.

In a possible example, in terms of the size for adjusting the wearable device, the adjusting unit 403 It is specifically used for：

Determine the target compactness between the wearable device and ear；

According to the mapping relations between preset compactness and size adjustment parameter, determine that the target compactness is corresponding Target size adjustment parameter；

The size of the wearable device is adjusted according to the target size adjustment parameter.

In a possible example, the wearable device includes array of pressure sensors, can described in the determination In terms of target compactness between wearable device and ear, the adjusting unit 403 is specifically used for：

The contact area between the wearable device and the ear is detected by the array of pressure sensors；

According to the mapping relations between preset area and compactness, the corresponding target patch of the contact area is determined It is right.

In a possible example, the sensing data includes eeg signal, described according to the sensor In terms of data determine User Status, the determination unit 402 is specifically used for：

The eeg signal is pre-processed, obtains referring to eeg signal；

It is sampled and quantification treatment with reference to eeg signal to described, obtains discrete eeg signal；

The extreme value for determining the discrete eeg signal, obtains multiple extreme values；

Mean square deviation is calculated according to the multiple extreme value；

The User Status is determined according to the mean square deviation.

Optionally, such as Fig. 4 B, Fig. 4 B are the another modification structures of plant control unit described in Fig. 4 A, with Fig. 4 A phases Compare, can also include：Control unit 404, it is specific as follows：

Described control unit 404, after adjusting the size of the wearable device in the adjusting unit 403, It detects that the wearable device is in the state that fallen off, controls the wearable device and enter designated state.

The embodiment of the present application also provides a kind of computer storage media, wherein computer storage media storage is for electricity The computer program that subdata exchanges, the computer program make computer execute any as described in above method embodiment Some or all of method step, above computer include wearable device.

The embodiment of the present application also provides a kind of computer program product, and above computer program product includes storing calculating The non-transient computer readable storage medium of machine program, above computer program are operable to that computer is made to execute such as above-mentioned side Some or all of either method described in method embodiment step.The computer program product can be a software installation Packet, above computer includes wearable device.

It should be noted that for each method embodiment above-mentioned, for simple description, therefore it is all expressed as a series of Combination of actions, but those skilled in the art should understand that, the application is not limited by the described action sequence because According to the application, certain steps can be performed in other orders or simultaneously.Secondly, those skilled in the art should also know It knows, embodiment described in this description belongs to preferred embodiment, involved action and module not necessarily the application It is necessary.

In the above-described embodiments, it all emphasizes particularly on different fields to the description of each embodiment, there is no the portion being described in detail in some embodiment Point, it may refer to the associated description of other embodiment.

In several embodiments provided herein, it should be understood that disclosed device, it can be by another way It realizes.For example, the apparatus embodiments described above are merely exemplary, for example, said units division, it is only a kind of Division of logic function, formula that in actual implementation, there may be another division manner, such as multiple units or component can combine or can To be integrated into another system, or some features can be ignored or not executed.Another point, shown or discussed is mutual Coupling, direct-coupling or communication connection can be by some interfaces, the INDIRECT COUPLING or communication connection of device or unit, Can be electrical or other forms.

The above-mentioned unit illustrated as separating component may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, you can be located at a place, or may be distributed over multiple In network element.Some or all of unit therein can be selected according to the actual needs to realize the mesh of this embodiment scheme 's.

In addition, each functional unit in each embodiment of the application can be integrated in a processing unit, it can also It is that each unit physically exists alone, it can also be during two or more units be integrated in one unit.Above-mentioned integrated list The form that hardware had both may be used in member is realized, can also be realized in the form of SFU software functional unit.

If above-mentioned integrated unit is realized in the form of SFU software functional unit and sells or use as independent product When, it can be stored in a computer-readable access to memory.Based on this understanding, the technical solution of the application substantially or Person says that all or part of the part that contributes to existing technology or the technical solution can body in the form of software products Reveal and, which is stored in a memory, including some instructions are used so that a computer equipment (can be personal computer, server or network equipment etc.) executes all or part of each embodiment above method of the application Step.And memory above-mentioned includes：USB flash disk, read-only memory (ROM, Read-Only Memory), random access memory The various media that can store program code such as (RAM, Random Access Memory), mobile hard disk, magnetic disc or CD.

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 It is completed with instructing relevant hardware by program, which can be stored in a computer-readable memory, memory May include：Flash disk, read-only memory (English：Read-Only Memory, referred to as：ROM), random access device (English： Random Access Memory, referred to as：RAM), disk or CD etc..

The embodiment of the present application is described in detail above, specific case used herein to the principle of the application and Embodiment is expounded, the description of the example is only used to help understand the method for the present application and its core ideas； Meanwhile for those of ordinary skill in the art, according to the thought of the application, can in specific implementation and application range There is change place, to sum up above-mentioned, the contents of this specification should not be construed as limiting the present application.

Claims (13)

1. a kind of wearable device, which is characterized in that the wearable device is worn on user's head, the wearable device packet Storage and processing circuit is included, and the sensor and size adjuster being connect with the storage and processing circuit, wherein

The sensor, for obtaining sensing data；

The storage and processing circuit, for determining User Status according to the sensing data；

The size adjuster, for when the User Status is preset state, adjusting the size of the wearable device, To change the compactness between the wearable device and the ear of user.

2. wearable device according to claim 1, which is characterized in that in the size for adjusting the wearable device Aspect, the size adjuster are specifically used for：

Determine the target compactness between the wearable device and ear；

According to the mapping relations between preset compactness and size adjustment parameter, the corresponding target of the target compactness is determined Size adjustment parameter；

The size of the wearable device is adjusted according to the target size adjustment parameter.

3. wearable device according to claim 2, which is characterized in that the sensor includes array of pressure sensors, In terms of target compactness between the determination wearable device and ear, the size adjuster is specifically used for：

The contact area between the wearable device and the ear is detected by the array of pressure sensors；

According to the mapping relations between preset area and compactness, the corresponding target fitting of the contact area is determined Degree.

4. wearable device according to claim 1, which is characterized in that the sensing data includes eeg signal, It is described determine User Status according to the eeg signal in terms of, the storage and processing circuit is specifically used for：

The eeg signal is pre-processed, obtains referring to eeg signal；

It is sampled and quantification treatment with reference to eeg signal to described, obtains discrete eeg signal；

The extreme value for determining the discrete eeg signal, obtains multiple extreme values；

Mean square deviation is calculated according to the multiple extreme value；

The User Status is determined according to the mean square deviation.

5. according to claim 1-4 any one of them wearable devices, which is characterized in that adjusted in the size adjuster After the size of the wearable device, the storage and processing circuit is specifically used for：

It has fallen off state detecting that the wearable device is in, has controlled the wearable device and enter designated state.

6. a kind of apparatus control method, which is characterized in that be applied to wearable device, the wearable device, which is worn on, uses account Portion, the method includes：

Obtain sensing data；

User Status is determined according to the sensing data；

When the User Status is preset state, the size of the wearable device is adjusted, convenient for adjusting described wearable set The standby compactness between the ear of user.

7. according to the method described in claim 6, it is characterized in that, the size for adjusting the wearable device, including：

Determine the target compactness between the wearable device and ear；

According to the mapping relations between preset compactness and size adjustment parameter, the corresponding target of the target compactness is determined Size adjustment parameter；

The size of the wearable device is adjusted according to the target size adjustment parameter.

8. the method according to the description of claim 7 is characterized in that the wearable device includes array of pressure sensors, institute The target compactness determined between the wearable device and ear is stated, including：

The contact area between the wearable device and the ear is detected by the array of pressure sensors；

According to the mapping relations between preset area and compactness, the corresponding target fitting of the contact area is determined Degree.

9. according to the method described in claim 6, it is characterized in that, the sensing data includes eeg signal, it is described according to User Status is determined according to the sensing data, including：

The eeg signal is pre-processed, obtains referring to eeg signal；

It is sampled and quantification treatment with reference to eeg signal to described, obtains discrete eeg signal；

The extreme value for determining the discrete eeg signal, obtains multiple extreme values；

Mean square deviation is calculated according to the multiple extreme value；

The User Status is determined according to the mean square deviation.

10. according to claim 6-9 any one of them methods, which is characterized in that in the adjusting wearable device After size, the method further includes：

It has fallen off state detecting that the wearable device is in, has controlled the wearable device and enter designated state.

11. a kind of plant control unit, which is characterized in that be applied to wearable device, the wearable device is worn on user Head, the plant control unit include acquiring unit, determination unit and adjust unit, wherein：

The acquiring unit, for obtaining sensing data；

The determination unit, for determining User Status according to the sensing data；

The adjusting unit, for when the User Status is preset state, adjusting the size of the wearable device, being convenient for Adjust the compactness between the wearable device and the ear of user.

12. a kind of wearable device, which is characterized in that including processor, memory, communication interface, and one or more journeys Sequence, one or more of programs are stored in the memory, and are configured to be executed by the processor, described program Include for executing the instruction such as the step in claim 6-10 any one of them methods.

13. a kind of computer readable storage medium, which is characterized in that computer program of the storage for electronic data interchange, In, the computer program makes computer execute such as claim 6-10 any one of them methods.