CN110308791A - Wearable device application method, device, wearable device and medium - Google Patents
Wearable device application method, device, wearable device and medium Download PDFInfo
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- CN110308791A CN110308791A CN201910584178.8A CN201910584178A CN110308791A CN 110308791 A CN110308791 A CN 110308791A CN 201910584178 A CN201910584178 A CN 201910584178A CN 110308791 A CN110308791 A CN 110308791A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1613—Constructional details or arrangements for portable computers
- G06F1/163—Wearable computers, e.g. on a belt
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1613—Constructional details or arrangements for portable computers
- G06F1/1633—Constructional details or arrangements of portable computers not specific to the type of enclosures covered by groups G06F1/1615 - G06F1/1626
- G06F1/1637—Details related to the display arrangement, including those related to the mounting of the display in the housing
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1613—Constructional details or arrangements for portable computers
- G06F1/1633—Constructional details or arrangements of portable computers not specific to the type of enclosures covered by groups G06F1/1615 - G06F1/1626
- G06F1/1637—Details related to the display arrangement, including those related to the mounting of the display in the housing
- G06F1/1652—Details related to the display arrangement, including those related to the mounting of the display in the housing the display being flexible, e.g. mimicking a sheet of paper, or rollable
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/011—Arrangements for interaction with the human body, e.g. for user immersion in virtual reality
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- Computer Hardware Design (AREA)
- General Engineering & Computer Science (AREA)
- Human Computer Interaction (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- User Interface Of Digital Computer (AREA)
Abstract
The invention discloses a kind of wearable device application method, device, wearable device and medium, the wearable device application method includes: to judge whether the user is in the first preset state in the carry arm operation for detecting user;When the user is in first preset state, controls the wearable device screen and be in unfolded state.The present invention solves the low technical problem of wearable device screen accounting in the prior art.
Description
Technical field
The present invention relates to wearable device technical field more particularly to a kind of wearable device application method, device, can wear
Wear equipment and medium.
Background technique
Wearable device is rapidly developed, because of the beautiful convenient feature of its fashion currently, the function of wearable device
Can be no longer limited to simple functions, most of wearable devices such as viewing time, setting alarm clock includes the function such as viewing, video calling
Can, it is wearable to set due to wearable device screen accounting is low when user is using functions such as viewing or video callings
Standby screen is small, and user is difficult to the content recognition in screen and is difficult to carry out contact action, poor so as to cause user experience,
So when user has the demands such as viewing, video calling, wearable device needs bigger screen to meet the needs of client,
Therefore, because wearable device screen accounting is low, very big inconvenience, shadow are brought when using wearable device to user
The usage experience of user is rung.
Summary of the invention
The main purpose of the present invention is to provide a kind of wearable device application method, device, wearable device and medium,
Aim to solve the problem that the technical problem that wearable device screen accounting is low in the prior art.
To achieve the above object, the embodiment of the present invention provides a kind of wearable device application method, the wearable device
Application method is applied to a kind of wearable device, and a kind of wearable device application method includes:
In the carry arm operation for detecting user, judge whether the user is in the first preset state;
When the user is in first preset state, controls the wearable device screen and be in unfolded state.
Optionally, described in the carry arm for detecting user operation, judge whether the user is in the first preset state
The step of include:
In the carry arm operation for detecting user, the pressure value of preset pressure sensor acquisition is obtained, and judge the pressure
Whether force value is in the pressure limit of the preset expansion wearable device screen, when the pressure value is in the pressure
When in range, determine that the user is in first preset state.
Optionally, the pressure model for judging the pressure value and whether being in the preset expansion wearable device screen
Enclose interior step further include:
The variation tendency of the pressure value within a preset time is analyzed, when the pressure value continues in the preset time
When increasing in the pressure limit, determine that the pressure value is in the pressure limit.
Optionally, described in the carry arm for detecting user operation, judge whether user is in the step of the first preset state
Suddenly further include:
Detect user carry arm operation when, obtain the user start carry arm to the user stop carry arm when described in
The arm shaking amplitude of user, and judge whether the arm shaking amplitude is within the scope of default shaking amplitude;
When the arm shaking amplitude is within the scope of the default shaking amplitude, the wearable device screen is judged
Whether it is in horizontality, when the wearable device screen is when in a horizontal state, determines that the user is in described first
Preset state.
Optionally, it is described when the screen it is when in a horizontal state, determine that the user is in first preset state
The step of include:
When the wearable device screen is when in a horizontal state, described in the camera acquisition by the wearable device
The eyeball information of user;
Judge whether the eyeball information is consistent with default eyeball information, when the eyeball information and the default eyeball are believed
When ceasing consistent, determine that the user is in first preset state.
Optionally, described in the carry arm for detecting user operation, judge whether user is in the step of the first preset state
Suddenly further include:
In the carry arm operation for detecting user, the speed of pre-set velocity sensor acquisition is obtained, and can wear described in judgement
Wear whether device screen is in horizontality;
When the wearable device screen is when in a horizontal state, the corresponding acceleration change trend of the speed is analyzed,
When the variation tendency is consistent with predetermined acceleration variation tendency, determine that the user is in first preset state.
Optionally, user's state in which includes the first preset state and the second preset state, described wearable to set
Standby includes rotating electric machine, changes the state of the wearable device screen by controlling the rotating electric machine, described to work as the use
When family is in first preset state, control the step of wearable device screen is in unfolded state includes: later
When detecting that user is in second preset state or receives closing rotating electric machine instruction, control
The screen is in non-deployed condition.
The present invention also provides a kind of wearable device use device, the wearable device use device is applied to one kind can
Wearable device, the wearable device use device include:
Judgment module, for it is described really detect user carry arm operation when, judge whether the user is in first
Preset state;
Control module controls the wearable device for described when the user is in first preset state
Screen is in unfolded state.
Optionally, the judgment module includes:
First acquisition unit obtains the acquisition of preset pressure sensor for described in the carry arm for detecting user operation
Pressure value;
First judging unit judges whether the pressure value is in the preset expansion wearable device screen for described
In the pressure limit of curtain;
First determination unit, for determining that the user is in institute when the pressure value is in the pressure limit
State the first preset state.
Optionally, the judging unit includes:
Subelement is analyzed, for the variation tendency of the analysis pressure value within a preset time;
First determines subelement, for described when the pressure value persistently increases to the pressure in the preset time
When in range, determine that the pressure value is in the pressure limit.
Optionally, the judgment module includes:
Acquisition unit starts to acquire hand when carry arm operation for described in the carry arm for detecting user operation
Arm shaking amplitude;
Second judgment unit judges whether the shaking amplitude is within the scope of default shaking amplitude for described;
Third judging unit, for described when the shaking amplitude is within the scope of the default shaking amplitude, judgement
Whether the wearable device screen is in horizontality;
Second determination unit determines the user for described when the wearable device screen is when in a horizontal state
In first preset state.
Optionally, the determination unit includes:
Subelement is obtained, for described when the wearable device screen is when in a horizontal state, by described wearable
The camera of equipment obtains the eyeball information of the user;
Judgment sub-unit judges whether the eyeball information is consistent with default eyeball information for described;
Second determines subelement, for described when the eyeball information is consistent with the default eyeball information, determines institute
It states user and is in first preset state.
Optionally, the judgment module includes:
Second acquisition unit obtains the acquisition of pre-set velocity sensor for described in the carry arm for detecting user operation
Speed;
4th judging unit judges whether the wearable device screen is in horizontality for described;
It is corresponding to analyze the speed for described when the wearable device screen is when in a horizontal state for analytical unit
Acceleration variation tendency;
Third determination unit determines institute for described when the variation tendency is consistent with predetermined acceleration variation tendency
It states user and is in first preset state.
Optionally, the control module includes:
4th determination unit, for determining that the user is in first preset state;
Unit is unfolded, the screen for the control wearable device is in unfolded state.
Optionally, the device for realizing wearable device application method further include:
Recovery module, for described when detecting that user be in second preset state or receive the closing rotation
When rotating motor instructs, controls the wearable device screen and be in non-deployed condition.
The present invention also provides a kind of wearable device, the wearable device includes: memory, processor and is stored in
It is described wearable to set on the memory and the program of the wearable device application method that can run on the processor
The program of standby application method can be realized when being executed by processor such as the step of above-mentioned wearable device application method.
The present invention also provides a kind of medium, the program for realizing wearable device application method, institute are stored on the medium
It states and realizes when the program of wearable device application method is executed by processor such as the step of above-mentioned dual-channels communication method.
The application is by judging whether the user is in the first preset state when the carry arm for detecting user operates;
It when the user is in first preset state, controls the wearable device screen and is in unfolded state, that is, at this
In application, when detecting that user has carry arm operation, that is, the judgement whether user is in the first preset state is carried out, and by
In the first preset state be the Rule of judgment for being able to carry out wearable device screen and being in unfolded state pre-set,
That is, in this application, the expansion processing for stating wearable device screen can be carried out when meeting certain condition, rather than with
When family is using functions such as viewing or video callings, it is merely able to carry out corresponding function using the small screen of the screen of wearable device
Realization, that is, the technical problem low present application addresses wearable device screen accounting in the prior art.
Detailed description of the invention
The drawings herein are incorporated into the specification and forms part of this specification, and shows and meets implementation of the invention
Example, and be used to explain the principle of the present invention together with specification.
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below
There is attached drawing needed in technical description to be briefly described, it should be apparent that, for those of ordinary skill in the art
Speech, without any creative labor, is also possible to obtain other drawings based on these drawings.
Fig. 1 is a kind of hardware structural diagram of embodiment of wearable device provided in an embodiment of the present invention;
Fig. 2 is a kind of hardware schematic of embodiment of wearable device provided by the embodiments of the present application;
Fig. 3 is a kind of hardware schematic of embodiment of wearable device provided by the embodiments of the present application;
Fig. 4 is a kind of hardware schematic of embodiment of wearable device provided by the embodiments of the present application;
Fig. 5 is a kind of hardware schematic of embodiment of wearable device provided by the embodiments of the present application;
Fig. 6 is the flow diagram of one embodiment of wearable device application method of the present invention.
The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.
Specific embodiment
It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.
In subsequent description, it is only using the suffix for indicating such as " module ", " component " or " unit " of element
Be conducive to explanation of the invention, itself there is no a specific meaning.Therefore, " module ", " component " or " unit " can mix
Ground uses.
The wearable device provided in the embodiment of the present invention includes that Intelligent bracelet, smartwatch and smart phone etc. move
Dynamic wearable device.With the continuous development of Screen Technology, the appearance of the screens form such as flexible screen, Folding screen, smart phone etc.
Mobile wearable device can also be used as wearable device.The wearable device provided in the embodiment of the present invention may include: RF
(Radio Frequency, radio frequency) unit, WiFi module, audio output unit, A/V (audio/video) input unit, sensing
The components such as device, display unit, user input unit, interface unit, memory, processor and power supply.
It will be illustrated by taking wearable device as an example in subsequent descriptions, referring to Fig. 1, its each implementation to realize the present invention
A kind of hardware structural diagram of wearable device of example, which may include: RF (Radio
Frequency, radio frequency) unit 101, WiFi module 102, audio output unit 103, A/V (audio/video) input unit 104,
Sensor 105, display unit 106, user input unit 107, interface unit 108, memory 109, processor 110, Yi Ji electricity
The components such as source 111.It will be understood by those skilled in the art that wearable device structure shown in Fig. 1 is not constituted to wearable
The restriction of equipment, wearable device may include perhaps combining certain components or difference than illustrating more or fewer components
Component layout.
It is specifically introduced below with reference to all parts of the Fig. 1 to wearable device:
Radio frequency unit 101 can be used for receiving and sending messages or communication process in, signal sends and receivees, specifically, radio frequency list
Uplink information can be sent to base station by member 101, and after the downlink information that in addition can also be sent base station receives, being sent to can be worn
The processor 110 for wearing equipment is handled, and base station can be to the downlink information that radio frequency unit 101 is sent and be sent out according to radio frequency unit 101
What the uplink information sent generated, it is also possible to actively push away to radio frequency unit 101 after the information update for detecting wearable device
It send, for example, base station can penetrating to wearable device after detecting that geographical location locating for wearable device changes
Frequency unit 101 sends the message informing of geographical location variation, and radio frequency unit 101, can should after receiving the message informing
The processor 110 that message informing is sent to wearable device is handled, and it is logical that the processor 110 of wearable device can control the message
Know on the display panel 1061 for being shown in wearable device;In general, radio frequency unit 101 include but is not limited to antenna, at least one
Amplifier, transceiver, coupler, low-noise amplifier, duplexer etc..In addition, radio frequency unit 101 can also pass through channel radio
Letter communicated with network and other equipment, specifically may include: by wireless communication with the server communication in network system, example
Such as, wearable device can download file resource from server by wireless communication, for example can download and answer from server
With program, after wearable device completes the downloading of a certain application program, if the corresponding file of the application program in server
Resource updates, then the server can be by wireless communication to the message informing of wearable device push resource updates, to remind
User is updated the application program.Any communication standard or agreement can be used in above-mentioned wireless communication, including but not limited to
GSM (Global System of Mobile communication, global system for mobile communications), GPRS (General
Packet Radio Service, general packet radio service), CDMA2000 (Code Division Multiple
Access2000, CDMA 2000), WCDMA (Wideband Code Division Multiple Access, broadband code
Point multiple access), TD-SCDMA (Time Division-Synchronous Code Division Multiple Access, the time-division
S-CDMA-Synchronous Code Division Multiple Access), (Frequency Division Duplexing-Long Term Evolution, frequency division are double by FDD-LTE
Work long term evolution) and TDD-LTE (Time Division Duplexing-Long Term Evolution, time division duplex are long-term
Evolution) etc..
In one embodiment, wearable device 100 can access existing communication network by insertion SIM card.
In another embodiment, wearable device 100 can be come real by the way that esim card (Embedded-SIM) is arranged
Existing communication network is now accessed, by the way of esim card, the inner space of wearable device can be saved, reduce thickness.
It is understood that although Fig. 1 shows radio frequency unit 101, but it is understood that, radio frequency unit 101 its
And it is not belonging to must be configured into for wearable device, it can according to need within the scope of not changing the essence of the invention and save completely
Slightly., wearable device 100 can realize the communication connection with other equipment or communication network separately through wifi module 102,
The embodiment of the present invention is not limited thereto.
WiFi belongs to short range wireless transmission technology, and wearable device can help user to receive and dispatch by WiFi module 102
Email, browsing webpage and access streaming video etc., it provides wireless broadband internet access for user.Although Fig. 1
WiFi module 102 is shown, but it is understood that, and it is not belonging to must be configured into for wearable device, it completely can root
It is omitted within the scope of not changing the essence of the invention according to needs.
Audio output unit 103 can be in call signal reception pattern, call mode, record in wearable device 100
When under the isotypes such as mode, speech recognition mode, broadcast reception mode, by radio frequency unit 101 or WiFi module 102 it is received or
The audio data that person stores in memory 109 is converted into audio signal and exports to be sound.Moreover, audio output unit
103 can also provide audio output relevant to the specific function that wearable device 100 executes (for example, call signal reception sound
Sound, message sink sound etc.).Audio output unit 103 may include loudspeaker, buzzer etc..
A/V input unit 104 is for receiving audio or video signal.A/V input unit 104 may include graphics processor
(Graphics Processing Unit, GPU) 1041 and microphone 1042, graphics processor 1041 is in video acquisition mode
Or the image data of the static images or video obtained in image capture mode by image capture apparatus (such as camera) carries out
Reason.Treated, and picture frame may be displayed on display unit 106.Through graphics processor 1041, treated that picture frame can be deposited
Storage is sent in memory 109 (or other storage mediums) or via radio frequency unit 101 or WiFi module 102.Mike
Wind 1042 can connect in telephone calling model, logging mode, speech recognition mode etc. operational mode via microphone 1042
Quiet down sound (audio data), and can be audio data by such acoustic processing.Audio that treated (voice) data can
To be converted to the format output that can be sent to mobile communication base station via radio frequency unit 101 in the case where telephone calling model.
Microphone 1042 can be implemented various types of noises elimination (or inhibition) algorithms and send and receive sound to eliminate (or inhibition)
The noise generated during frequency signal or interference.
In one embodiment, wearable device 100 includes one or more cameras, by opening camera,
It can be realized the capture to image, realize the functions such as take pictures, record a video, the position of camera, which can according to need, to be configured.
Wearable device 100 further includes at least one sensor 105, for example, optical sensor, motion sensor and other
Sensor.Specifically, optical sensor includes ambient light sensor and proximity sensor, wherein ambient light sensor can be according to ring
The light and shade of border light adjusts the brightness of display panel 1061, proximity sensor can when wearable device 100 is moved in one's ear,
Close display panel 1061 and/or backlight.As a kind of motion sensor, accelerometer sensor can detect in all directions
The size of (generally three axis) acceleration, can detect that size and the direction of gravity, can be used to identify mobile phone posture when static
It (for example pedometer, is struck using (such as horizontal/vertical screen switching, dependent game, magnetometer pose calibrating), Vibration identification correlation function
Hit) etc..
In one embodiment, wearable device 100 further includes proximity sensor, can by using proximity sensor
Wearable device can be realized non-contact manipulation, provide more modes of operation.
In one embodiment, wearable device 100 further includes heart rate sensor, when wearing, by close to using
Person can be realized the detecting of heart rate.
In one embodiment, wearable device 100 can also include that fingerprint sensor can by reading fingerprint
Realize the functions such as safety verification.
Display unit 106 is for showing information input by user or being supplied to the information of user.Display unit 106 can wrap
Display panel 1061 is included, liquid crystal display (Liquid Crystal Display, LCD), Organic Light Emitting Diode can be used
Forms such as (Organic Light-Emitting Diode, OLED) configure display panel 1061.
In one embodiment, display panel 1061 uses flexible display screen, and wearable using flexible display screen sets
For when wearing, screen is able to carry out bending, to more be bonded.Optionally, the flexible display screen can use OLED screen
Body and graphene screen body, in other embodiments, the flexible display screen is also possible to other display materials, the present embodiment
It is not limited thereto.
In one embodiment, the display panel 1061 of wearable device can take rectangle, ring when convenient for wearing
Around.In other embodiments, other modes can also be taken.
User input unit 107 can be used for receiving the number or character information of input, and generate and wearable device
User setting and the related key signals input of function control.Specifically, user input unit 107 may include touch panel 1071
And other input equipments 1072.Touch panel 1071, also referred to as touch screen collect the touch behaviour of user on it or nearby
Make (for example user uses any suitable objects or attachment such as finger, stylus on touch panel 1071 or in touch panel
Operation near 1071), and corresponding attachment device is driven according to preset formula.Touch panel 1071 may include touching
Two parts of detection device and touch controller.Wherein, the touch orientation of touch detecting apparatus detection user, and detect touch behaviour
Make bring signal, transmits a signal to touch controller;Touch controller receives touch information from touch detecting apparatus, and
It is converted into contact coordinate, then gives processor 110, and order that processor 110 is sent can be received and executed.This
Outside, touch panel 1071 can be realized using multiple types such as resistance-type, condenser type, infrared ray and surface acoustic waves.In addition to touching
Panel 1071 is controlled, user input unit 107 can also include other input equipments 1072.Specifically, other input equipments 1072
It can include but is not limited to physical keyboard, function key (such as volume control button, switch key etc.), trace ball, mouse, operation
One of bar etc. is a variety of, specifically herein without limitation.
In one embodiment, one or more buttons have can be set in the side of wearable device 100.Button can be with
The various ways such as short-press, long-pressing, rotation are realized, to realize a variety of operating effects.The quantity of button can be different to be multiple
It can be applied in combination between button, realize a variety of operating functions.
Further, touch panel 1071 can cover display panel 1061, when touch panel 1071 detect on it or
After neighbouring touch operation, processor 110 is sent to determine the type of touch event, is followed by subsequent processing device 110 according to touch thing
The type of part provides corresponding visual output on display panel 1061.Although in Fig. 1, touch panel 1071 and display panel
1061 be the function that outputs and inputs of realizing wearable device as two independent components, but in certain embodiments,
Touch panel 1071 and display panel 1061 can be integrated and be realized the function that outputs and inputs of wearable device, specifically herein
Without limitation.For example, processor 110 can be controlled when receiving the message informing of a certain application program by radio frequency unit 101
The message informing show in a certain predeterminable area of display panel 1061 by system, the predeterminable area and touch panel 1071 certain
One region is corresponding, can be to corresponding to area on display panel 1061 by carrying out touch control operation to a certain region of touch panel 1071
The message informing shown in domain is controlled.
Interface unit 108 be used as at least one external device (ED) connect with wearable device 100 can by interface.Example
Such as, external device (ED) may include wired or wireless headphone port, external power supply (or battery charger) port, You Xianhuo
Wireless data communications port, memory card port, the port for connecting the device with identification module, audio input/output (I/O) end
Mouth, video i/o port, ear port etc..Interface unit 108 can be used for receiving the input from external device (ED) (for example, number
It is believed that breath, electric power etc.) and the input received is transferred to one or more elements in wearable device 100 or can
For transmitting data between wearable device 100 and external device (ED).
In one embodiment, wearable device 100 interface unit 108 using contact structure, by contact with
Corresponding other equipment connection, realizes the functions such as charging, connection.Use contact can be with waterproof.
Memory 109 can be used for storing software program and various data.Memory 109 can mainly include storing program area
The storage data area and, wherein storing program area can (such as the sound of application program needed for storage program area, at least one function
Sound playing function, image player function etc.) etc.;Storage data area can store according to mobile phone use created data (such as
Audio data, phone directory etc.) etc..In addition, memory 109 may include high-speed random access memory, it can also include non-easy
The property lost memory, a for example, at least disk memory, flush memory device or other volatile solid-state parts.
Processor 110 is the control centre of wearable device, utilizes various interfaces and the entire wearable device of connection
Various pieces, by running or execute the software program and/or module that are stored in memory 109, and call and be stored in
Data in memory 109 execute the various functions and processing data of wearable device, to carry out to wearable device whole
Monitoring.Processor 110 may include one or more processing units;Preferably, processor 110 can integrate application processor and modulation
Demodulation processor, wherein the main processing operation system of application processor, user interface and application program etc., modulation /demodulation processing
Device mainly handles wireless communication.It is understood that above-mentioned modem processor can not also be integrated into processor 110.
Wearable device 100 can also include the power supply 111 (such as battery) powered to all parts, it is preferred that power supply
111 can be logically contiguous by power-supply management system and processor 110, thus charged by power-supply management system realization management,
The functions such as electric discharge and power managed.
Although Fig. 1 is not shown, wearable device 100 can also be including bluetooth module etc., and details are not described herein.It is wearable to set
Standby 100, by bluetooth, can connect with other wearable device equipment, realize communication and the interaction of information.
Fig. 2-Fig. 4 is please referred to, is the structure under a kind of a kind of embodiment of wearable device provided in an embodiment of the present invention
Schematic diagram.Wearable device in the embodiment of the present invention, including flexible screen.In wearable device expansion, flexible screen is in
Strip;When wearable device is in wearing state, flexible screen bending is annular in shape.Fig. 2 and Fig. 3 show wearable device
Structural schematic diagram when screen is unfolded, Fig. 4 show structural schematic diagram when wearable device screen-bending.
Based on above-mentioned each embodiment, it can be seen that if the equipment is wrist-watch, bracelet or wearable device
When, the screen of the equipment can not overlay device watchband region, can also be with the watchband region of overlay device.Here, this Shen
It please propose a kind of optional embodiment, in the present embodiment, the equipment for wrist-watch, bracelet or wearable can be set
Standby, the equipment includes screen and interconnecting piece.The screen can be flexible screen, and the interconnecting piece can be watchband.It can
Choosing, the screen of the equipment or the viewing area of screen can be partly or completely covered on the watchband of equipment.Such as Fig. 5
Shown, Fig. 5 is a kind of a kind of hardware schematic of embodiment of wearable device provided by the embodiments of the present application, the equipment
Screen extends to two sides, and part is covered on the watchband of equipment.In other embodiments, the screen of the equipment can also be with
It is all covered on the watchband of the equipment, the embodiment of the present application is not limited thereto.
Based on above-mentioned wearable device hardware configuration and the wearable device, each implementation of the method for the present invention is proposed
Example.
The present invention provides a kind of wearable device application method, and the wearable device application method, which is applied to one kind, to wear
Equipment is worn, in one embodiment of wearable device application method, referring to Fig. 6, the wearable device application method includes:
Step S10, the wearable device judge whether the user is in the in the carry arm operation for detecting user
One preset state;
Step S20 controls the wearable device screen and is in exhibition when the user is in first preset state
Open state.
Specific step is as follows:
Step S10 judges whether the user is in the first preset state in the carry arm operation for detecting user;
It should be noted that wearable device application method is applied to wearable device, wherein wearable device includes intelligence
The equipment such as energy bracelet, bent wrist machine, intelligent glasses, specific such as Fig. 4, shown in Fig. 5, in the present embodiment, are detecting user
Carry arm operation when, judge whether the user is in the first preset state, wherein detect user carry arm operation include it is as follows
Mode: mode one carries out the identification or judgement of carry arm operation by the pressure sensor in wearable device, and mode two is led to
The acceleration transducer crossed in wearable device carries out the identification or judgement of carry arm operation, and mode three passes through wearable device
In position or range sensor carry out carry arm operation identification or judgement.
After the carry arm operation for detecting user, need to judge whether the user is in the first preset state, wherein institute
It states the first preset state and refers to that user is in the state needed using the big screen of accounting rate, it is then desired to carry out to user
In the identification and judgement that need the state using the big screen of accounting rate, user, which is in, to be needed using the big screen of accounting rate
The identification of state and judgment mode namely the judgment mode of the first preset state can be with are as follows: mode one, by judging pressure value
Whether carry out the identification of the first preset state in pre-set pressure range, mode two, by judge acceleration whether default plus
The identification etc. of the first preset state is carried out in velocity interval.
Wherein, described in the carry arm for detecting user operation, judge whether the user is in the first preset state
Step includes:
Step S11 obtains the pressure value of preset pressure sensor acquisition, and sentence in the carry arm operation for detecting user
Whether the pressure value of breaking is in the pressure limit of the preset expansion wearable device screen, when the pressure value is in
When in the pressure limit, determine that the user is in first preset state;
In the present embodiment, the first preset state is carried out by judging whether pressure value is in the pressure limit
Identification, specifically, pressure value can be acquired by the preset pressure sensor of wearable device, it should be noted that when
When user does not lift arm, since the extending direction and the direction wearable device gravity G angle angle of arm are close to 0
(close to being parallel to each other), thus wearable device bottom there's almost no pressure to user's arm, i.e. user's arm is to wearable
The pressure sensor of device bottom hardly applies directed force F.
And when user lifts hand preparation and sees the screen at the top of wearable device, usual user is understood whipping arm and is started with band
Arm carries out 45 ° to 90 ° of turning clockwise or counterclockwise, at this point, the extending direction of user's arm and wearable device gravity G at
Acute angle, wearable device bottom is because gravity G is smaller in the component of vertical user's orientation arm, so user's arm is set to wearable
It is also smaller that standby pressure sensor applies directed force F;When arm is horizontally placed on before body by user, (i.e. user's arm is in first
Preset state), while wearable device is also horizontally placed on before user's body and is also placed on arm, at this point, wearable device is because of gravity G
Effect has a downward active force to arm, because of the interaction of power, wearable device bottom is also applied by user's arm
The opposition F added, the i.e. pressure sensor of wearable device bottom can detect this opposition F, and further
The pressure value of opposition F1 is obtained, user's arm is maximum to the directed force F of wearable device at this time, F=G.
In the present embodiment, pre-set pressure range is pre-set one relevant to wearable device overall weight G
Range of pressure values, such as pre-set pressure range are 0.9G to 1.1G, specifically, in the carry arm operation for detecting user, are obtained
The pressure value of preset pressure sensor acquisition, and judge whether the pressure value is in the preset expansion wearable device screen
In the pressure limit of curtain in such as 0.9G to 1.1G, when the pressure value is in the pressure limit as in 0.9G to 1.1G,
Determine that the user is in first preset state.When the pressure value is not in the pressure limit such as 0.9G to 1.1G
When interior, determine that the user is not in first preset state, for example, determining the use when the pressure value is 0.5G
Family is not in first preset state.
Wherein, the pressure limit for judging the pressure value and whether being in the preset expansion wearable device screen
Interior step further include:
Step S111 analyzes the variation tendency of the pressure value within a preset time, when the pressure value is described default
When persistently increasing in the pressure limit in the time, determine that the pressure value is in the pressure limit;
In the present embodiment, the pressure value that persistently detection pressure sensor acquires, and it is collection period that preset duration, which is arranged,
Analyze variation tendency of the pressure value in a collection period, wherein preset duration and user are from starting to lift arm to user
Arm is in the duration correlation that horizontality is spent, and preset pressure value range is related with wearable device overall weight G, such as
General user lifts arm to horizontality and needs 0.5s, then preset duration can also be 0.5s, pre-set pressure range be 0.9G extremely
1.1G.If pressure value persistently increases to pre-set pressure range (i.e. in a lasting preset duration) in a collection period
It is interior, show that wearable device bottom is increasing by the pressure that user's arm applies and persistently increases to pre-set pressure range
Interior, i.e. lifting with user's arm, the plane where wearable device screen and horizontal plane angle the next small (to work as user
When wearable device is horizontally placed on before body, plane where wearable device screen is substantially parallel with horizontal plane), pressure sensing
The pressure value of device induction is increasing, and when pressure value increases in pre-set pressure range, it is default to can determine that user is in first
State.
Step S20 controls the wearable device screen and is in exhibition when the user is in first preset state
Open state.
Specifically, in the present embodiment, when determining that the user is in the first preset state, described wearable set is controlled
Standby screen is in unfolded state, for example, when determining that the user is in the first preset state, controls described wearable set first
Standby screen both ends unlock, and smooth from bending state is horizontal vertical screen state, and then the screen is rotated by 90 ° automatically, finally at
For horizontal transverse screen state, that is, the wearable device screen is in unfolded state at this time.
Wherein, described when the user is in first preset state, control wearable device screen is in expansion
Include: after the step of state
Step S30 refers to when detecting that user is in second preset state or receives the closing rotating electric machine
When enabling, controls the wearable device screen and be in non-deployed condition.
In the present embodiment, it should be noted that the second preset state refers to other states outside the first preset state,
When detecting that user is in second preset state, controls the wearable device screen and be in non-deployed condition, for example,
If detecting, user puts down arm, at this point, controlling the wearable device screen since pressure value is not in pre-set pressure range
In non-deployed condition, in addition, being additionally provided with rotating electric machine below the wearable device screen, the rotating electric machine is revolved by it
Walk around it is dynamic support the wearable device expansion, when receive close the rotating electric machine instruction when, control described wearable set
Standby screen is in non-deployed condition, and specifically, the wearable device controls the screen in unfolded state from transverse screen shape
State rotates back to horizontal vertical screen state, then controls the screen-bending until the screen both ends are locked.
The application is by judging whether the user is in the first preset state when the carry arm for detecting user operates;
It when the user is in first preset state, controls the wearable device screen and is in unfolded state, that is, at this
In application, when detecting that user has carry arm operation, that is, the judgement whether user is in the first preset state is carried out, and by
In the first preset state be the Rule of judgment for being able to carry out wearable device screen and being in unfolded state pre-set,
That is, in this application, the expansion processing for stating wearable device screen can be carried out when meeting certain condition, rather than with
It is corresponding using the small screen progress of the screen of wearable device due to being merely able to when family is using functions such as viewing or video callings
The realization of function, namely the technical problem low present application addresses wearable device screen accounting in the prior art.
Further, based on first embodiment in the application, another embodiment of wearable device application method is being provided
In, it is described in the carry arm for detecting user operation, judge that the step of whether user is in the first preset state includes:
Step S12 obtains the user and starts carry arm to user stopping lift in the carry arm operation for detecting user
The arm shaking amplitude of user when arm, and judge whether the arm shaking amplitude is within the scope of default shaking amplitude;
In the present embodiment, the initial decision of the first preset state is carried out at by arm shaking amplitude first, specifically,
Since the arm shaking amplitude of user includes shaking the parameters such as angle, shaking distance, therefore, it is possible to by shaking angle, shaking
The parameters such as distance judge the arm shaking amplitude of user, wherein when user does not lift arm, the extending direction of arm
With vertical direction angle angle close to 0 (close to being parallel to each other), seen at the top of wearable device when user lifts arm preparation
Screen when, at this point, the extending direction of arm and vertical direction angle angle be close to 90 degree (approach and be mutually perpendicular to), user
The angle of shaking is close to 90 degree.Thus, in the carry arm operation for detecting user, it can first obtain the user and start carry arm
The shaking angle of user when stopping carry arm to the user, by whether shaking angle close to 90 degree progress arm rollings
Whether dynamic amplitude is in the determination within the scope of default shaking amplitude.Angle is shaken close to after 90 degree determining, carries out shaking distance
Determination, by shaking whether distance close to pre-determined distance carries out whether the arm shaking amplitude is in default shaking amplitude model
Enclose interior determination.
Step S13 judges described wearable when the arm shaking amplitude is within the scope of the default shaking amplitude
Whether device screen is in horizontality, when the wearable device screen is when in a horizontal state, determines that the user is in
First preset state;
In the present embodiment, when the arm shaking amplitude is within the scope of the default shaking amplitude, institute is also carried out
The determination whether wearable device screen is in horizontality is stated, specifically, is obtained by the angular transducer in wearable device
The angle of family arm and horizontal plane is taken, if the extending direction of user's arm and vertical direction angle angle are close to 90 degree
(close to be mutually perpendicular to), user's arm and horizontal direction angle angle are wearable to set close to 0 degree at this point, described at this time
Standby screen is in horizontality, so, the horizontality is related with horizontal direction angle angle to user's arm, such as
User's arm in the angle formed with horizontal direction when within 10 degree, it is believed that the wearable device screen be in it is horizontal
State can determine that user is in the first preset state.
Wherein, when the arm shaking amplitude is within the scope of the default shaking amplitude, judge described wearable set
Whether standby screen is in horizontality, when the wearable device screen is when in a horizontal state, determines that the user is in institute
The step of stating the first preset state include:
Step S131 passes through the camera shooting of the wearable device when the wearable device screen is when in a horizontal state
Head obtains the eyeball information of the user;
After determining that the wearable device screen is in horizontality, obtained by the camera of the wearable device
The eyeball information of the user is taken, the eyeball information includes the information such as iris feature and the pupil size of user, wherein iris
Feature includes the textural characteristics such as interlaced spot, filament, coronal, striped, crypts.
Step S132 judges whether the eyeball information consistent with default eyeball information, when the eyeball information with it is described
When default eyeball information is consistent, determine that the user is in first preset state.
Before the eyeball information for obtaining the user, need by one group of camera typing default eyeball information, specifically
Ground, in order to promote security performance, user is needed in advance by after the modes authenticating identity information such as password, fingerprint, could typing one
The default eyeball information of group judges the eyeball information by judgment module after the eyeball information for obtaining the user
It is whether consistent with default eyeball information, also the eyeball information and default eyeball information are compared, the comparison includes
The texture information of iris compares and pupil size compares etc., can be true when the eyeball information is consistent with default eyeball information
Recognize user identity while confirming that user is in the first preset state.
In the present embodiment, by obtaining the user from carry arm is started to institute when the carry arm for detecting user operates
It states user and stops the arm shaking amplitude of user when carry arm, and judge whether the arm shaking amplitude is in default shaking
In amplitude range;When the arm shaking amplitude is within the scope of the default shaking amplitude, the wearable device is judged
Whether screen is in horizontality, when the wearable device screen is when in a horizontal state, determines that the user is in described
First preset state.Due to being carried out by the screen state of arm shaking amplitude and wearable device screen to the first default shape
The accurate judgement of state, thus, it lays the foundation to control the wearable device screen in unfolded state.
Further, it is based on the application first embodiment, it is described in another embodiment of wearable device application method
In the carry arm operation for detecting user, judge that the step of whether user is in the first preset state includes:
Step S14 obtains the speed of pre-set velocity sensor acquisition, and judge in the carry arm operation for detecting user
Whether the wearable device screen is in horizontality;
In the present embodiment, first by the velocity sensor built in wearable device to the speed of user's carry arm process into
Row acquisition, specifically, is provided with velocity sensor, and be provided with speed acquisition time point, that is, arrives in the wearable device
The instantaneous velocity of an arm motion is acquired up to each time point, it is assumed for example that the carry arm operation of user needs 0.5s, then adopts
Collection time point interval may be configured as 0.01s, namely the instantaneous velocity of an arm motion is acquired at interval of 0.01s, then with when
Between be X-axis parameter, establish relevant rectangular coordinate system by Y-axis parameter of the instantaneous velocity of arm motion, then it is available to lift
The relational graph of the speed of arm motion and time during arm, to obtain the speed of arm motion and time during carry arm
Governing equation.
Wherein, after the speed for obtaining the acquisition of pre-set velocity sensor, whether be in wearable device screen
The judgement of horizontality specifically obtains the angle of user's arm and horizontal plane by the angular transducer in wearable device,
If the extending direction of user's arm and vertical direction angle angle are close to 90 degree (close to being mutually perpendicular to), at this point, user hand
Arm and horizontal direction angle angle be close to 0 degree, that is, the wearable device screen is in horizontality, so, institute
It is related with horizontal direction angle angle to user's arm to state horizontality, such as is formed in user's arm with horizontal direction
Angle when within 10 degree, it is believed that the wearable device screen is in horizontality.
Step S15 analyzes the corresponding acceleration of the speed and becomes when the wearable device screen is when in a horizontal state
It is default to determine that the user is in described first when the variation tendency is consistent with predetermined acceleration variation tendency for change trend
State;
In the present embodiment, corresponding to the speed after determining that the wearable device screen is in horizontality
Acceleration change trend analyzed, and judge whether the variation tendency consistent with predetermined acceleration variation tendency, specifically
Ground, when user does not start to lift arm, the speed of user's arm motion is 0 at this time, when user has lifted arm and described
Wearable device screen is when in a horizontal state, and the speed of user's arm motion is also 0 at this time, so, in the mistake of user's carry arm
The movement velocity of Cheng Zhong, arm first increase to maximum speed V from 0, are then reduced to 0 from maximum speed V, so according to user hand
The variation tendency of the movement velocity of arm and accelerate and the relationship of speed it follows that
During the movement velocity of arm first increases to maximum speed V from 0, the acceleration of the movement of user's arm is
Positive (i.e. the direction of acceleration and the direction of speed is identical), user's arm is accelerating at this time, in the movement velocity of arm
During being first reduced to 0 from maximum speed V, the acceleration of the movement of user's arm is negative (the i.e. direction of acceleration and speed
It is contrary), user's arm is doing retarded motion at this time, therefore, during user's carry arm, the acceleration of arm motion
It is first positive, is then negative, wherein when arm motion speed is maximum speed V, the acceleration of arm motion is 0.
Further, according to the relationship of above-mentioned relation equation and velocity and acceleration, to above-mentioned relation equation into
Row derivation can then obtain the relationship of the acceleration and time of the acceleration of arm motion and the relationship of time namely arm motion
Equation, namely namely arm motion acceleration change trend.
In the present embodiment, before analyzing the corresponding acceleration change trend of the speed, it is also necessary to be touched by user
Screen operation one group of predetermined acceleration variation tendency of typing, specifically, in order to promote security performance, user is needed in advance by close
After the modes authenticating identity information such as code, fingerprint, ability one group of predetermined acceleration variation tendency of typing becomes obtaining the acceleration
After change trend, judge whether the acceleration change trend is consistent with predetermined acceleration variation tendency by judgment module,
The acceleration change trend is compared with predetermined acceleration variation tendency, when the acceleration change trend and is preset
When acceleration change trend is consistent, it can confirm that user is in the first preset state.
In the present embodiment, it in the carry arm operation for detecting user, obtains the user and starts carry arm to the user
Stop the speed of user when carry arm, and judge whether the wearable device screen is in horizontality, is worn when described
It is when in a horizontal state to wear device screen, judges whether the corresponding acceleration change trend of the speed changes with predetermined acceleration
Trend is consistent;When the acceleration change trend is consistent with the default predetermined acceleration variation tendency, the user is determined
In first preset state.Due to the determination by the screen state to wearable device screen and to acceleration change
The analysis of trend carries out the accurate judgement to the first preset state, thus, expansion is in control the wearable device screen
State lays the foundation.
The present invention also provides a kind of wearable device use device, the wearable device use device is applied to one kind can
Wearable device, the wearable device use device include:
Judgment module, for it is described really detect user carry arm operation when, judge whether the user is in first
Preset state;
Control module controls the wearable device for described when the user is in first preset state
Screen is in unfolded state.
Optionally, the judgment module includes:
First acquisition unit obtains the acquisition of preset pressure sensor for described in the carry arm for detecting user operation
Pressure value;
First judging unit judges whether the pressure value is in the preset expansion wearable device screen for described
In the pressure limit of curtain;
First determination unit, for determining that the user is in institute when the pressure value is in the pressure limit
State the first preset state.
Optionally, the judging unit includes:
Subelement is analyzed, for the variation tendency of the analysis pressure value within a preset time;
First determines subelement, for described when the pressure value persistently increases to the pressure in the preset time
When in range, determine that the pressure value is in the pressure limit.
Optionally, the judgment module includes:
Acquisition unit starts to acquire hand when carry arm operation for described in the carry arm for detecting user operation
Arm shaking amplitude;
Second judgment unit judges whether the shaking amplitude is within the scope of default shaking amplitude for described;
Third judging unit, for described when the shaking amplitude is within the scope of the default shaking amplitude, judgement
Whether the wearable device screen is in horizontality;
Second determination unit determines the user for described when the wearable device screen is when in a horizontal state
In first preset state.
Optionally, the determination unit includes:
Subelement is obtained, for described when the wearable device screen is when in a horizontal state, by described wearable
The camera of equipment obtains the eyeball information of the user;
Judgment sub-unit judges whether the eyeball information is consistent with default eyeball information for described;
Second determines subelement, for described when the eyeball information is consistent with the default eyeball information, determines institute
It states user and is in first preset state.
Optionally, the judgment module includes:
Second acquisition unit obtains the acquisition of pre-set velocity sensor for described in the carry arm for detecting user operation
Speed;
4th judging unit judges whether the wearable device screen is in horizontality for described;
It is corresponding to analyze the speed for described when the wearable device screen is when in a horizontal state for analytical unit
Acceleration variation tendency;
Third determination unit determines institute for described when the variation tendency is consistent with predetermined acceleration variation tendency
It states user and is in first preset state.
Optionally, the control module includes:
4th determination unit, for determining that the user is in first preset state;
Unit is unfolded, the screen for the control wearable device is in unfolded state.
Optionally, the device for realizing wearable device application method further include:
Recovery module, for described when detecting that user be in second preset state or receive the closing rotation
When rotating motor instructs, controls the wearable device screen and be in non-deployed condition.
Wearable device application method device of the present invention and the above-mentioned basic phase of each embodiment of wearable device application method
Together, details are not described herein.
The present invention also provides a kind of wearable device, the wearable device includes: memory, processor and is stored in
It is described wearable to set on the memory and the program of the wearable device application method that can run on the processor
The program of standby application method can be realized when being executed by processor such as the step of above-mentioned wearable device application method.
The present invention also provides a kind of medium, the program for realizing wearable device application method, institute are stored on the medium
It states and realizes when the program of wearable device application method is executed by processor such as the step of above-mentioned dual-channels communication method.
The expansion content of the specific embodiment of wearable device and medium (i.e. computer media) of the present invention and it is above-mentioned can
Each embodiment of wearable device application method is essentially identical, and this will not be repeated here.
It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row
His property includes, so that the process, method, article or the device that include a series of elements not only include those elements, and
And further include other elements that are not explicitly listed, or further include for this process, method, article or device institute it is intrinsic
Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including being somebody's turn to do
There is also other identical elements in the process, method of element, article or device.
The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.
Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side
Method can be realized by means of software and necessary general hardware platform, naturally it is also possible to by hardware, but in many cases
The former is more preferably embodiment.Based on this understanding, technical solution of the present invention substantially in other words does the prior art
The part contributed out can be embodied in the form of software products, which is stored in a storage medium
In (such as ROM/RAM, magnetic disk, CD), including some instructions are used so that wearable device (it can be mobile phone, computer,
Server, air conditioner or network equipment etc.) execute method described in each embodiment of the present invention.
The embodiment of the present invention is described with above attached drawing, but the invention is not limited to above-mentioned specific
Embodiment, the above mentioned embodiment is only schematical, rather than restrictive, those skilled in the art
Under the inspiration of the present invention, without breaking away from the scope protected by the purposes and claims of the present invention, it can also make very much
Form, all of these belong to the protection of the present invention.
Claims (10)
1. a kind of wearable device application method, which is characterized in that the wearable device application method includes:
In the carry arm operation for detecting user, judge whether the user is in the first preset state;
When the user is in first preset state, controls the wearable device screen and be in unfolded state.
2. a kind of wearable device application method as described in claim 1, which is characterized in that described in the carry arm for detecting user
When operation, judge that the step of whether user is in the first preset state includes:
In the carry arm operation for detecting user, the pressure value of preset pressure sensor acquisition is obtained, and judge the pressure value
Whether in the preset pressure limit that the wearable device screen is unfolded, when the pressure value is in the pressure limit
When interior, determine that the user is in first preset state.
3. a kind of wearable device application method as claimed in claim 2, which is characterized in that described whether to judge the pressure value
Step in pressure limit in the preset expansion wearable device screen further include:
The variation tendency of the pressure value within a preset time is analyzed, when the pressure value persistently increases in the preset time
When in the pressure limit, determine that the pressure value is in the pressure limit.
4. a kind of wearable device application method as described in claim 1, which is characterized in that described in the carry arm for detecting user
When operation, the step of whether user is in the first preset state judged further include:
In the carry arm operation for detecting user, obtains the user and start user when carry arm stops carry arm to the user
Arm shaking amplitude, and judge whether the arm shaking amplitude is within the scope of default shaking amplitude;
When the arm shaking amplitude is within the scope of the default shaking amplitude, whether the wearable device screen is judged
In horizontality, when the wearable device screen is when in a horizontal state, it is default to determine that the user is in described first
State.
5. a kind of wearable device application method as claimed in claim 4, which is characterized in that described to work as the wearable device screen
Curtain is when in a horizontal state, determines that the step of user is in first preset state includes:
When the wearable device screen is when in a horizontal state, the camera for passing through the wearable device obtains the user
Eyeball information;
Judge whether the eyeball information is consistent with default eyeball information, when the eyeball information and the default eyeball information one
When cause, determine that the user is in first preset state.
6. a kind of wearable device application method as described in claim 1, which is characterized in that described in the carry arm for detecting user
When operation, the step of whether user is in the first preset state judged further include:
In the carry arm operation for detecting user, the speed of pre-set velocity sensor acquisition is obtained, and judge described wearable set
Whether standby screen is in horizontality;
When the wearable device screen is when in a horizontal state, the corresponding acceleration change trend of the speed is analyzed, institute is worked as
State variation tendency it is consistent with predetermined acceleration variation tendency when, determine that the user is in first preset state.
7. a kind of wearable device application method as described in claim 1, which is characterized in that user's state in which packet
The first preset state and the second preset state are included, the wearable device includes rotating electric machine, by controlling the rotating electric machine
Change the state of the wearable device screen, it is described when the user is in first preset state, it controls wearable
Device screen was in after the step of unfolded state
When detecting that user is in second preset state or receives closing rotating electric machine instruction, described in control
Wearable device screen is in non-deployed condition.
8. a kind of wearable device use device, which is characterized in that the wearable device use device, which is applied to one kind, to wear
Equipment is worn, the wearable device use device includes:
Judgment module judges whether the user is in the first default shape for described in the carry arm for detecting user operation
State;
Control module controls the wearable device screen for described when the user is in first preset state
In unfolded state.
9. a kind of wearable device, which is characterized in that the wearable device includes: memory, processor and is stored in
The program for realizing the wearable device application method on reservoir,
The memory is used to store the program for realizing wearable device application method;
The processor is for executing the program for realizing the wearable device application method, to realize as in claim 1 to 7
The step of any one wearable device application method.
10. a kind of medium, which is characterized in that the program for realizing wearable device application method is stored on the medium, it is described
It is executed by processor for realizing the program of wearable device application method to realize as described in any one of claims 1 to 7
The step of executing wearable device application method.
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CN106933425A (en) * | 2017-04-26 | 2017-07-07 | 广东小天才科技有限公司 | Method and device for preventing mistaken touch |
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CN113029404A (en) * | 2021-03-10 | 2021-06-25 | 电子科技大学 | Preparation method of dual-channel flexible polymorphic stress sensor based on graphene |
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