CN105045372A

CN105045372A - Method and equipment controlling wearable device

Info

Publication number: CN105045372A
Application number: CN201510054666.XA
Authority: CN
Inventors: 樊奇; 钟翔平; 文博; 陈谦; 秦颖夫; 李文博; 程诚; 张开翔; 王嘉晋
Original assignee: Tencent Technology Shenzhen Co Ltd
Current assignee: Tencent Technology Shenzhen Co Ltd
Priority date: 2015-01-30
Filing date: 2015-01-30
Publication date: 2015-11-11

Abstract

The invention discloses a method and equipment controlling a wearable device, and belongs to the computer field; the method comprises the following steps: obtaining present power-on state of a to be controlled wearable device; detecting electrocardio data of a user so as to obtain a detection result in a time period; controlling the power-on state of the wearable device according the present power-on state of the detection result in the time period of the wearable device. The equipment comprises an obtaining module, a detection module and a control module; the method and equipment can bring conveniences for users.

Description

A kind of method and device controlling wearable device

Technical field

The present invention relates to computer realm, particularly a kind of method and device controlling wearable device.

Background technology

Wearable device to be directly worn on user's portable set with it, and such as, accutron is exactly a kind of wearable device, and accutron can be worn in the wrist of oneself by user.User needs to control wearable device and starts when putting on wearable device, to make wearable device carry out work, need to control wearable device close when removing wearable device, extend continuation of the journey to save electric energy.

Such as, for accutron, accutron comprises the activation button of a physics, when user puts on accutron, can press the activation button of this physics, then accutron enters state of activation, to realize unlocking electronic wrist-watch; When user removes accutron, can press the activation button of this physics, then accutron enters sleep/lock-out state, to realize closing accutron.

Realizing in process of the present invention, inventor finds that prior art at least exists following problem:

User is putting on wearable device or user when removing wearable device, often forgets that controlling wearable device opens or close, and uses wearable device to make troubles to user.

Summary of the invention

Conveniently user, the invention provides a kind of method and the device that control wearable device.Described technical scheme is as follows:

Control a method for wearable device, described method comprises:

Obtain the current open state of wearable device to be controlled;

The electrocardiogram (ECG) data of user is detected, obtains the testing result of a period of time;

According to current open state and the testing result of described a period of time of described wearable device, the open state of described wearable device is controlled.

Control a device for wearable device, described device comprises:

Acquisition module, for obtaining the current open state of wearable device to be controlled;

Detection module, for detecting the electrocardiogram (ECG) data of user, obtains the testing result of a period of time;

Control module, for according to the current open state of described wearable device and the testing result of described a period of time, controls the open state of described wearable device.

In embodiments of the present invention, owing to according to the current open state of wearable device and the testing result of this period of time, can control the open state of wearable device, thus the open state automatically controlling wearable device can be realized, facilitating user.

Accompanying drawing explanation

Fig. 1 is a kind of method flow diagram controlling wearable device that the embodiment of the present invention 1 provides;

Fig. 2-1 is a kind of method flow diagram controlling wearable device that the embodiment of the present invention 2 provides;

Fig. 2-2 is that the one that the embodiment of the present invention 2 provides removes wearable device schematic diagram;

Fig. 3-1 is a kind of method flow diagram controlling wearable device that the embodiment of the present invention 3 provides;

Fig. 3-2 is that the one that the embodiment of the present invention 3 provides puts on wearable device schematic diagram;

Fig. 4 is a kind of apparatus structure schematic diagram controlling wearable device that the embodiment of the present invention 4 provides;

Fig. 5 is a kind of terminal structure schematic diagram that the embodiment of the present invention 5 provides.

Embodiment

For making the object, technical solutions and advantages of the present invention clearly, below in conjunction with accompanying drawing, embodiment of the present invention is described further in detail.

Embodiment 1

See Fig. 1, embodiments provide a kind of method controlling wearable device, comprising:

Step 101: the current open state obtaining wearable device to be controlled.

Step 102: detect the electrocardiogram (ECG) data of user, obtains the testing result of a period of time.

Step 103: according to the current open state of wearable device and the testing result of this period of time, the open state of wearable device is controlled.

Embodiment 2

Embodiments provide a kind of method controlling wearable device, executive agent of the present invention can be wearable device, suppose, in the present embodiment, wearable device is worn on the body of user, when user by wearable device from when taking on one's body, the opening that wearable device can draw oneself up automatically enters sleep/lock-out state from state of activation.See Fig. 2-1, the method comprises:

Step 201: the current open state obtaining wearable device, wherein, the current open state of wearable device is state of activation.

In embodiments of the present invention, suppose that wearable device is first worn on the body of user, then wearable device is removed by user again, due to wearable device be worn on the body of user time, the open state of wearable device is state of activation, so the current open state of the wearable device obtained is state of activation.

Wearable device is that accutron, bracelet or necklace etc. may be worn on human body portable set with it, and as accutron or bracelet can be worn in the wrist of human body, necklace can be worn on the neck of human body.

Step 202: detected by the electrocardiogram (ECG) data of telepathy sensor to user in wearable device, obtain testing result, and store the testing result detecting and obtain.

If wearable device is worn on user's body, because wearable device directly contacts with user's body, so the telepathy sensor in wearable device can detect the electrocardiogram (ECG) data of user, the testing result namely detected is the electrocardiogram (ECG) data of user; If wearable device is removed from user's body, the telepathy sensor in wearable device just can't detect the electrocardiogram (ECG) data of user, so the testing result detected is the electrocardiogram (ECG) data of no user.

In this step, carry out detecting in real time or periodically to the electrocardiogram (ECG) data of user by the telepathy sensor in wearable device, obtain testing result, store the testing result detected.The testing result stored is included in the testing result do not detected in the same time.

Step 203: obtain from the testing result in current nearest a period of time from the testing result stored.

Time span from current nearest a period of time is predetermined time period, and predetermined time period can be 1 minute, 2 minutes or 3 minutes etc.

This step can be: from the testing result stored, obtain the testing result detected recently, the very first time that the testing result that acquisition detects recently is corresponding, calculated for the second time according to predetermined time period and the very first time, namely the very first time and the second time constitute from current nearest a period of time, then according to the very first time and the second time, from the testing result stored, the testing result detected between the very first time and the second time is obtained.

If wearable device is worn on the health of user always, the electrocardiogram (ECG) data comprising user from the testing result in current nearest a period of time then obtained, if the time that wearable device is removed from the health of user exceedes predetermined time period, then the electrocardiogram (ECG) data not comprising user in the testing result in current nearest a period of time obtained.

Wherein, in embodiments of the present invention, wearable device is taken off from health by user, supposes that the time taken reaches predetermined time period, so the electrocardiogram (ECG) data not comprising user in the testing result in current nearest a period of time obtained in this step.

Because wearable device may be put on again from removing with it by user by wearable device very soon sometimes, if the wearable device of user is just removed from health the open state just controlling wearable device and is entered sleep/lock-out state from state of activation, then may make troubles to user, so in the present embodiment, obtain from the testing result in current nearest a period of time, can avoid causing inconvenience to the user when wearable device is just removed from health and puts on again very soon by user.

Step 204: determine the behavior type that user performs wearable device according to the current open state of wearable device and the testing result in this period of time.

Judge wearable device current open state and from the testing result in current nearest a period of time; If the current open state of wearable device is state of activation and the electrocardiogram (ECG) data not comprising user from the testing result in current nearest a period of time, the electrocardiogram (ECG) data of user is not then comprised from the testing result in current nearest a period of time, show that wearable device is not at least worn on the body of user within this period of time, again because the current open state of wearable device is state of activation, so can determine that the body of wearable device from oneself is taken by user, the behavior type determined is for removing wearable device; If the current open state of wearable device is sleep/lock-out state and is all the electrocardiogram (ECG) data of user from the testing result in current nearest a period of time, it is all then the electrocardiogram (ECG) data of user from the testing result in current nearest a period of time, show that wearable device has at least been worn on the body of user within this period of time, again because the current open state of wearable device is sleep/lock-out state, so can determine that wearable device is worn on the body of oneself by user, the behavior type determined is for putting on wearable device.

The electrocardiogram (ECG) data not comprising user from the testing result in current nearest a period of time that current open state due to the wearable device obtained in step 201 is state of activation and obtains in step 203, so the behavior type determined is for removing wearable device, then perform step 205.

Step 205: if the behavior type for removing wearable device, then obtain the movable information of wearable device.

The movable information of wearable device comprises the attitudes vibration frequency of wearable device and the acceleration of wearable device.Judging wearable device from the accuracy that the body of user is removed to improve, also obtaining the movable information of wearable device in this step, to verify that wearable device is removed from the body of user further by the movable information of wearable device in subsequent step.

Wearable device comprises acceleration transducer or gravity sensor.So this step, Ke Yiwei:

By the acceleration of the acceleration transducer Real-time Obtaining wearable device of wearable device, by the attitude information of the gravity sensor Real-time Obtaining wearable device of wearable device, calculate the attitudes vibration frequency of wearable device according to the attitude information of the wearable device do not obtained in the same time.Wherein, the attitude information of wearable device can be put for keeping flat, tiltedly or places vertically.

Step 206: judge the exercise data the Model Matching whether movable information of wearable device is corresponding with behavior type.

Before this step of enforcement, pre-set and remove exercise data model corresponding to this behavior type of wearable device, this exercise data model comprises the first acceleration range and the first attitudes vibration frequency range, first acceleration change scope is for being less than or equal to default first acceleration rate threshold, and the first attitudes vibration frequency range is for being less than or equal to default first frequency threshold value.

This step can be: judge whether the attitudes vibration the frequency whether acceleration of wearable device is positioned at the first acceleration range and wearable device is positioned at the first attitudes vibration frequency range, if the attitudes vibration frequency that the acceleration of wearable device is positioned at the first acceleration range and wearable device is positioned at the first attitudes vibration frequency range, then judge the exercise data Model Matching that the movable information of wearable device is corresponding with removing this behavior type of wearable device, otherwise, judge the exercise data unmatched models that the movable information of wearable device is corresponding with removing this behavior type of wearable device.

When wearable device is removed from the body of oneself by user, wearable device may be fixed and be placed on certain position, wearable device can keep a kind of attitude constant, so the acceleration of the wearable device got may be zero, and the attitudes vibration frequency of wearable device also may be zero.Or, wearable device may be placed in user pocket or bag in, wearable device may move along with user and move, direction and the speed of usual user's movement all can not ceaselessly change, so the acceleration of the wearable device got may be zero or very little, and default first acceleration rate threshold may be less than, and the money state change frequency of wearable device also may be zero or very little, and default first frequency threshold value may be less than.So when wearable device movable information whether with this exercise data Model Matching, user can be verified further the body of wearable device from oneself is removed.

Such as, see Fig. 2-2, place vertically on the table when accutron is removed from the wrist of oneself by user, electronic equipment can keep placing attitude vertically on the table.So when judging the exercise data Model Matching that the movable information of wearable device is corresponding with sleep/lock-out state, can determine that the health of wearable device from oneself is removed by user, then perform step 207.

Step 207: if the movable information of wearable device and this exercise data Model Matching, then the open state that acquisition behavior type is corresponding, and the open state obtained is sleep/lock-out state, controls wearable device and enters sleep/lock-out state.

Particularly, if the movable information of wearable device and this exercise data Model Matching, then can verify user further the body of wearable device from oneself is removed, obtaining and removing open state corresponding to this behavior type of wearable device is sleep/lock-out state, controls wearable device and enters sleep/lock-out state from current state of activation.

Control wearable device enters sleep/lock-out state operation from current state of activation, Ke Yiwei:

Processor to wearable device sends sleep/lock instruction, controls wearable device and enter sleep/lock-out state from current state of activation after the processor of wearable device receives this instruction.

In embodiments of the present invention, obtain current open state and the testing result of wearable device within nearest a period of time of wearable device, according to current open state and the testing result of wearable device within nearest a period of time of wearable device, determine whether user removes the body of wearable device from oneself, if, the open state controlling wearable device enters sleep/lock-out state from current state of activation, thus facilitates user.

Embodiment 3

Embodiments provide a kind of method controlling wearable device, executive agent of the present invention can be wearable device, suppose, in the present embodiment, first wearable device is not worn on the body of user, when wearable device is worn on one's body by user, the opening that wearable device can draw oneself up automatically enters state of activation from sleep/lock-out state.See Fig. 3-1, the method comprises:

Step 301: the current open state obtaining wearable device, wherein, the current open state of wearable device is sleep/lock-out state.

In embodiments of the present invention, suppose that wearable device is not first worn on the body of user, then wearable device is worn on the body of oneself by user again, because when wearable device is not worn on the body of user, the open state of wearable device is sleep/lock-out state, so the current open state of the wearable device obtained is sleep/lock-out state.

Step 302: detected by the electrocardiogram (ECG) data of telepathy sensor to user in wearable device, obtain testing result, and store the testing result detecting and obtain.

Step 303: obtain from the testing result in current nearest a period of time from the testing result stored.

If the time that user puts on wearable device exceedes predetermined time period, the electrocardiogram (ECG) data comprising user from the testing result in current nearest a period of time then obtained, if wearable device is never worn on the health of user, then the electrocardiogram (ECG) data not comprising user in the testing result in current nearest a period of time obtained.

Wherein, in embodiments of the present invention, wearable device is worn on the health of oneself by user, supposes that the time of putting on wearable device reaches predetermined time period, so what obtain in this step is all the electrocardiogram (ECG) data of user from the testing result in current nearest a period of time.

Because wearable device is taken another place from a place by user sometimes, when wearable device is held in user on hand, wearable device may detect the electrocardiogram (ECG) data of user, if the open state controlling wearable device in this case enters state of activation from sleep/lock-out state, then may make troubles to user, so in the present embodiment, obtain from the testing result in current nearest a period of time, if from the electrocardiogram (ECG) data that the testing result in current nearest a period of time is all user, then show that user puts on wearable device, can avoid wearable device just having been picked up user in this case causing inconvenience to the user of putting down again very soon.

Step 304: determine the behavior type that user performs wearable device according to the current open state of wearable device and the testing result in this period of time.

Current open state due to the wearable device obtained in step 301 is sleep/lock-out state and what obtain in step 303 is all the electrocardiogram (ECG) data of user from the testing result in current nearest a period of time, so the behavior type determined is for putting on wearable device, then perform step 305.

Step 305: if the behavior type for putting on wearable device, then obtain the movable information of wearable device.

The movable information of wearable device comprises the attitudes vibration frequency of wearable device and the acceleration of wearable device.Judging that wearable device has been worn over the accuracy on the body of user to improve, also obtaining the movable information of wearable device in this step, to verify that wearable device has been worn on the body of user further by the movable information of wearable device in subsequent step.

By the acceleration of the acceleration transducer Real-time Obtaining wearable device of wearable device, by the attitude information of the gravity sensor Real-time Obtaining wearable device of wearable device, calculate the attitudes vibration frequency of wearable device according to the attitude information of the wearable device do not obtained in the same time.Wherein, wearable device attitude information can for putting down, sideling or endways etc.

Step 306: judge the exercise data the Model Matching whether movable information of wearable device is corresponding with behavior type.

Before this step of enforcement, pre-set and put on exercise data model corresponding to this behavior type of wearable device, this exercise data model comprises the second acceleration range and the second attitudes vibration frequency range, second acceleration change scope is for being more than or equal to default second acceleration rate threshold, and the second attitudes vibration frequency range is for being more than or equal to default second frequency threshold value.Wherein, the second acceleration rate threshold is greater than the first acceleration rate threshold, and second frequency threshold value is greater than first frequency threshold value.

This step can be: judge whether the attitudes vibration the frequency whether acceleration of wearable device is positioned at the second acceleration range and wearable device is positioned at the second attitudes vibration frequency range, if the attitudes vibration frequency that the acceleration of wearable device is positioned at the second acceleration range and wearable device is positioned at the second attitudes vibration frequency range, then judge the exercise data Model Matching that the movable information of wearable device is corresponding with putting on this behavior type of wearable device, otherwise, judge the exercise data unmatched models that the movable information of wearable device is corresponding with putting on this behavior type of wearable device.

When on the body that wearable device to be worn over oneself by user, the attitude of wearable device constantly can change along with the movement of user and wearable device can do irregular motion along with user, so the acceleration of the wearable device got is non-vanishing and larger, and default second acceleration rate threshold may be greater than, and the attitudes vibration frequency of wearable device is also non-vanishing and comparatively large, and default second frequency threshold value may be greater than.Such as, for accutron or bracelet, after accutron or bracelet are worn over the wrist of user by user, user swing constantly oneself wrist or do things with hand, accutron or bracelet are moved brokenly along with the wrist of user is done.

Such as, see Fig. 3-2, when in the wrist that oneself to be worn by accutron by user, attitude and the motion of accutron all constantly can change along with the Wrist-sport of user.So when judging the exercise data Model Matching that the movable information of wearable device is corresponding with state of activation, can determine that wearable device has been worn on the body of oneself by user, then perform step 307.

Step 307: if the movable information of wearable device and this exercise data Model Matching, then the open state that acquisition behavior type is corresponding, and the open state obtained is state of activation, controls wearable device and enters state of activation.

Particularly, if the movable information of wearable device and this exercise data Model Matching, then can verify user is further worn on the body of oneself by wearable device, obtaining and putting on open state corresponding to this behavior type of wearable device is state of activation, controls wearable device and enters state of activation from current sleep/lock-out state.

Control wearable device enters state of activation operation from current sleep/lock-out state, Ke Yiwei:

Activation instruction can be sent to the processor of wearable device, control wearable device after the processor of wearable device receives this activation instruction and enter state of activation from current sleep/lock-out state.

In embodiments of the present invention, obtain current open state and the testing result of wearable device within nearest a period of time of wearable device, according to current open state and the testing result of wearable device within nearest a period of time of wearable device, determine that whether wearable device is worn on the body of oneself by user, if, the open state controlling wearable device enters state of activation from current sleep/lock-out state, thus facilitates user.

Embodiment 4

See Fig. 4, embodiments provide a kind of device controlling wearable device, put and draw together:

Acquisition module 401, for obtaining the current open state of wearable device to be controlled;

Detection module 402, for detecting the electrocardiogram (ECG) data of user, obtains the testing result of a period of time;

Control module 403, for according to the current open state of described wearable device and the testing result of described a period of time, controls the open state of described wearable device.

Optionally, described detection module 402 comprises:

Detecting unit, for being detected by the electrocardiogram (ECG) data of telepathy sensor to user in described wearable device and stored the testing result detected;

First acquiring unit, for obtaining in the testing result from described storage from the testing result in current nearest a period of time.

Optionally, described control module 403 comprises:

Determining unit, for determining according to the current open state of described wearable device and the testing result of described a period of time the behavior type that described user performs described wearable device;

Second acquisition unit, for obtaining open state corresponding to described behavior type;

Control module, enters open state corresponding to described behavior type for controlling described wearable device.

Optionally, described determining unit comprises:

First determines subelement, if the current open state for described wearable device is state of activation and the testing result of described a period of time is the electrocardiogram (ECG) data described user not detected within described a period of time, then determine that behavior type that described user performs described wearable device is for removing described wearable device;

Second determines subelement, if the current open state for described wearable device is sleep/lock-out state and the testing result of described a period of time is all the electrocardiogram (ECG) data of described user, then determine that behavior type that described user performs described wearable device is for putting on described wearable device.

Further, described device also comprises:

Matching module, for the exercise data model that the movable information and described behavior type that obtain described wearable device are corresponding, if the exercise data Model Matching that the movable information of described wearable device is corresponding with described behavior type, then perform the operation of open state corresponding to the described behavior type of described acquisition.

Embodiment 5

Please refer to Fig. 5, it illustrates the terminal structure schematic diagram involved by the embodiment of the present invention, this terminal can be above-mentioned wearable device, for implementing the method for the placard information of the display video provided in above-described embodiment.Specifically:

Terminal 900 can comprise RF (RadioFrequency, radio frequency) circuit 110, the storer 120 including one or more computer-readable recording mediums, input block 130, display unit 140, sensor 150, voicefrequency circuit 160, WiFi (wirelessfidelity, Wireless Fidelity) module 170, include the parts such as processor 180 and power supply 190 that more than or processes core.It will be understood by those skilled in the art that the restriction of the not structure paired terminal of the terminal structure shown in Fig. 5, the parts more more or less than diagram can be comprised, or combine some parts, or different parts are arranged.Wherein:

RF circuit 110 can be used for receiving and sending messages or in communication process, the reception of signal and transmission, especially, after being received by the downlink information of base station, transfer to more than one or one processor 180 to process; In addition, base station is sent to by relating to up data.Usually, RF circuit 110 includes but not limited to antenna, at least one amplifier, tuner, one or more oscillator, subscriber identity module (SIM) card, transceiver, coupling mechanism, LNA (LowNoiseAmplifier, low noise amplifier), diplexer etc.In addition, RF circuit 110 can also by radio communication and network and other devices communicatings.Described radio communication can use arbitrary communication standard or agreement, include but not limited to GSM (GlobalSystemofMobilecommunication, global system for mobile communications), GPRS (GeneralPacketRadioService, general packet radio service), CDMA (CodeDivisionMultipleAccess, CDMA), WCDMA (WidebandCodeDivisionMultipleAccess, Wideband Code Division Multiple Access (WCDMA)), LTE (LongTermEvolution, Long Term Evolution), Email, SMS (ShortMessagingService, Short Message Service) etc.

Storer 120 can be used for storing software program and module, and processor 180 is stored in software program and the module of storer 120 by running, thus performs the application of various function and data processing.Storer 120 mainly can comprise storage program district and store data field, and wherein, storage program district can store operating system, application program (such as sound-playing function, image player function etc.) etc. needed at least one function; Store data field and can store the data (such as voice data, phone directory etc.) etc. created according to the use of terminal 900.In addition, storer 120 can comprise high-speed random access memory, can also comprise nonvolatile memory, such as at least one disk memory, flush memory device or other volatile solid-state parts.Correspondingly, storer 120 can also comprise Memory Controller, to provide the access of processor 180 and input block 130 pairs of storeies 120.

Input block 130 can be used for the numeral or the character information that receive input, and produces and to arrange with user and function controls relevant keyboard, mouse, control lever, optics or trace ball signal and inputs.Particularly, input block 130 can comprise Touch sensitive surface 131 and other input equipments 132.Touch sensitive surface 131, also referred to as touch display screen or Trackpad, user can be collected or neighbouring touch operation (such as user uses any applicable object or the operations of annex on Touch sensitive surface 131 or near Touch sensitive surface 131 such as finger, stylus) thereon, and drive corresponding coupling arrangement according to the formula preset.Optionally, Touch sensitive surface 131 can comprise touch detecting apparatus and touch controller two parts.Wherein, touch detecting apparatus detects the touch orientation of user, and detects the signal that touch operation brings, and sends signal to touch controller; Touch controller receives touch information from touch detecting apparatus, and converts it to contact coordinate, then gives processor 180, and the order that energy receiving processor 180 is sent also is performed.In addition, the polytypes such as resistance-type, condenser type, infrared ray and surface acoustic wave can be adopted to realize Touch sensitive surface 131.Except Touch sensitive surface 131, input block 130 can also comprise other input equipments 132.Particularly, other input equipments 132 can include but not limited to one or more in physical keyboard, function key (such as volume control button, switch key etc.), trace ball, mouse, control lever etc.

Display unit 140 can be used for the various graphical user interface showing information or the information being supplied to user and the terminal 900 inputted by user, and these graphical user interface can be made up of figure, text, icon, video and its combination in any.Display unit 140 can comprise display panel 141, optionally, the form such as LCD (LiquidCrystalDisplay, liquid crystal display), OLED (OrganicLight-EmittingDiode, Organic Light Emitting Diode) can be adopted to configure display panel 141.Further, Touch sensitive surface 131 can cover display panel 141, when Touch sensitive surface 131 detects thereon or after neighbouring touch operation, send processor 180 to determine the type of touch event, on display panel 141, provide corresponding vision to export with preprocessor 180 according to the type of touch event.Although in Figure 5, Touch sensitive surface 131 and display panel 141 be as two independently parts realize input and input function, in certain embodiments, can by Touch sensitive surface 131 and display panel 141 integrated and realize input and output function.

Terminal 900 also can comprise at least one sensor 150, such as optical sensor, motion sensor and other sensors.Particularly, optical sensor can comprise ambient light sensor and proximity transducer, and wherein, ambient light sensor the light and shade of environmentally light can regulate the brightness of display panel 141, proximity transducer when terminal 900 moves in one's ear, can cut out display panel 141 and/or backlight.As the one of motion sensor, Gravity accelerometer can detect the size of all directions (are generally three axles) acceleration, size and the direction of gravity can be detected time static, can be used for identifying the application (such as horizontal/vertical screen switching, dependent game, magnetometer pose calibrating) of mobile phone attitude, Vibration identification correlation function (such as passometer, knock) etc.; As for terminal 900 also other sensors such as configurable gyroscope, barometer, hygrometer, thermometer, infrared ray sensor, do not repeat them here.

Voicefrequency circuit 160, loudspeaker 161, microphone 162 can provide the audio interface between user and terminal 900.Voicefrequency circuit 160 can by receive voice data conversion after electric signal, be transferred to loudspeaker 161, by loudspeaker 161 be converted to voice signal export; On the other hand, the voice signal of collection is converted to electric signal by microphone 162, voice data is converted to after being received by voicefrequency circuit 160, after again voice data output processor 180 being processed, through RF circuit 110 to send to such as another terminal, or export voice data to storer 120 to process further.Voicefrequency circuit 160 also may comprise earphone jack, to provide the communication of peripheral hardware earphone and terminal 900.

WiFi belongs to short range wireless transmission technology, and terminal 900 can help user to send and receive e-mail by WiFi module 170, browse webpage and access streaming video etc., and its broadband internet wireless for user provides is accessed.Although Fig. 5 shows WiFi module 170, be understandable that, it does not belong to must forming of terminal 900, can omit in the scope of essence not changing invention as required completely.

Processor 180 is control centers of terminal 900, utilize the various piece of various interface and the whole mobile phone of connection, software program in storer 120 and/or module is stored in by running or performing, and call the data be stored in storer 120, perform various function and the process data of terminal 900, thus integral monitoring is carried out to mobile phone.Optionally, processor 180 can comprise one or more process core; Preferably, processor 180 accessible site application processor and modem processor, wherein, application processor mainly processes operating system, user interface and application program etc., and modem processor mainly processes radio communication.Be understandable that, above-mentioned modem processor also can not be integrated in processor 180.

Terminal 900 also comprises the power supply 190 (such as battery) of powering to all parts, preferably, power supply can be connected with processor 180 logic by power-supply management system, thus realizes the functions such as management charging, electric discharge and power managed by power-supply management system.Power supply 190 can also comprise one or more direct current or AC power, recharging system, power failure detection circuit, power supply changeover device or the random component such as inverter, power supply status indicator.

Although not shown, terminal 900 can also comprise camera, bluetooth module etc., does not repeat them here.Specifically in the present embodiment, the display unit of terminal 900 is touch-screen displays, terminal 900 also includes storer, and one or more than one program, one of them or more than one program are stored in storer, and are configured to be performed by more than one or one processor state more than one or one routine package containing the instruction for carrying out following operation:

Obtain the current open state of wearable device to be controlled;

Optionally, the described electrocardiogram (ECG) data to user detects, and obtains the testing result of a period of time, comprising:

Detect by the electrocardiogram (ECG) data of telepathy sensor to user in described wearable device and store the testing result detected;

Obtain from the testing result in current nearest a period of time from the testing result of described storage.

Optionally, the described current open state according to described wearable device and the testing result of described a period of time, control the open state of described wearable device, comprising:

The behavior type that described user performs described wearable device is determined according to the current open state of described wearable device and the testing result of described a period of time;

Obtain the open state that described behavior type is corresponding;

Control described wearable device and enter open state corresponding to described behavior type.

Optionally, the described current open state according to described wearable device and the testing result of described a period of time are determined to comprise the behavior type that described user performs described wearable device:

If the current open state of described wearable device is state of activation and the testing result of described a period of time is the electrocardiogram (ECG) data described user not detected within described a period of time, then determine that behavior type that described user performs described wearable device is for removing described wearable device;

If the current open state of described wearable device is sleep/lock-out state and the testing result of described a period of time is all the electrocardiogram (ECG) data of described user, then determine that behavior type that described user performs described wearable device is for putting on described wearable device.

Further, before the open state that the described behavior type of described acquisition is corresponding, also comprise:

Obtain the movable information of described wearable device and exercise data model corresponding to described behavior type, if the exercise data Model Matching that the movable information of described wearable device is corresponding with described behavior type, then perform the operation of open state corresponding to the described behavior type of described acquisition.

One of ordinary skill in the art will appreciate that all or part of step realizing above-described embodiment can have been come by hardware, the hardware that also can carry out instruction relevant by program completes, described program can be stored in a kind of computer-readable recording medium, the above-mentioned storage medium mentioned can be ROM (read-only memory), disk or CD etc.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. control a method for wearable device, it is characterized in that, described method comprises:

Obtain the current open state of wearable device to be controlled;

2. the method for claim 1, is characterized in that, the described electrocardiogram (ECG) data to user detects, and obtains the testing result of a period of time, comprising:

3. the method for claim 1, is characterized in that, the described current open state according to described wearable device and the testing result of described a period of time, control the open state of described wearable device, comprising:

Obtain the open state that described behavior type is corresponding;

4. method as claimed in claim 3, it is characterized in that, the described current open state according to described wearable device and the testing result of described a period of time are determined to comprise the behavior type that described user performs described wearable device:

5. method as claimed in claim 3, is characterized in that, before the open state that the described behavior type of described acquisition is corresponding, also comprise:

6. control a device for wearable device, it is characterized in that, described device comprises:

7. device as claimed in claim 6, it is characterized in that, described detection module comprises:

8. device as claimed in claim 6, it is characterized in that, described control module comprises:

9. device as claimed in claim 8, it is characterized in that, described determining unit comprises:

10. device as claimed in claim 8, it is characterized in that, described device also comprises: