CN106713569B - Operation control method of wearable device and wearable device - Google Patents
Operation control method of wearable device and wearable device Download PDFInfo
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- CN106713569B CN106713569B CN201611226128.5A CN201611226128A CN106713569B CN 106713569 B CN106713569 B CN 106713569B CN 201611226128 A CN201611226128 A CN 201611226128A CN 106713569 B CN106713569 B CN 106713569B
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- 230000009471 action Effects 0.000 claims abstract description 260
- 210000000707 wrist Anatomy 0.000 claims abstract description 74
- 210000000988 bone and bone Anatomy 0.000 claims abstract description 28
- 230000005236 sound signal Effects 0.000 claims abstract description 14
- 238000001514 detection method Methods 0.000 claims description 81
- 230000005057 finger movement Effects 0.000 claims description 67
- 230000015654 memory Effects 0.000 claims description 28
- 210000003205 muscle Anatomy 0.000 claims description 12
- 238000012790 confirmation Methods 0.000 claims description 11
- 239000012141 concentrate Substances 0.000 claims description 10
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- 238000004891 communication Methods 0.000 claims description 5
- 239000000284 extract Substances 0.000 claims description 3
- 210000003128 head Anatomy 0.000 description 25
- 238000010586 diagram Methods 0.000 description 16
- 230000001276 controlling effect Effects 0.000 description 15
- 238000010079 rubber tapping Methods 0.000 description 14
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- 238000012544 monitoring process Methods 0.000 description 3
- 210000003454 tympanic membrane Anatomy 0.000 description 3
- 230000005540 biological transmission Effects 0.000 description 2
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72448—User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions
- H04M1/72454—User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions according to context-related or environment-related conditions
-
- G—PHYSICS
- G10—MUSICAL INSTRUMENTS; ACOUSTICS
- G10L—SPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
- G10L15/00—Speech recognition
- G10L15/22—Procedures used during a speech recognition process, e.g. man-machine dialogue
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/19—Arrangements of transmitters, receivers, or complete sets to prevent eavesdropping, to attenuate local noise or to prevent undesired transmission; Mouthpieces or receivers specially adapted therefor
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- Engineering & Computer Science (AREA)
- Human Computer Interaction (AREA)
- Signal Processing (AREA)
- Acoustics & Sound (AREA)
- Audiology, Speech & Language Pathology (AREA)
- Physics & Mathematics (AREA)
- Health & Medical Sciences (AREA)
- Multimedia (AREA)
- Computational Linguistics (AREA)
- Environmental & Geological Engineering (AREA)
- Computer Networks & Wireless Communication (AREA)
- User Interface Of Digital Computer (AREA)
- Telephone Function (AREA)
Abstract
The embodiment of the invention relates to the technical field of wearable equipment, and discloses an operation control method of wearable equipment and the wearable equipment, wherein the method comprises the following steps: detecting whether a current playing mode of the wearable device is a bone conduction mode; the bone conduction mode is used for converting the audio signal into a vibration signal and transmitting the vibration signal through a bone medium; if the current playing mode is the bone conduction mode, detecting voice information returned by the wrist wearing the wearable equipment; identifying a target action instruction matched with the voice information from a preset action instruction set; executing the target action instruction on the wearable device. By implementing the embodiment of the invention, the risk of being overheard during sound playing is reduced, so that the privacy of a user is improved; meanwhile, the wearable equipment can be operated by one hand, and the use experience of the user is improved.
Description
Technical field
The present invention relates to wearable device technical fields, and in particular to the method for controlling operation thereof of a kind of wearable device and can
Wearable device.
Background technique
With the development of wearable device technology, wearable device (such as smartwatch, Intelligent bracelet) be able to achieve phone,
The functions such as short message, mail, photo and music.The play mode of wearable device sound currently on the market is relatively simple, usually
For the outer mode playback of external speaker, it is extremely difficult to the effect of privacy call.In practical applications, in order to prevent from leading to as much as possible
Words are intercepted by people around, and user, which usually requires wearable device is tightly attached to ear as shown in Figure 1, to converse.Due to can
Wearable device is usually worn in wrist, when needing to carry out wearable device receiving talking, call hang-ups or adjustment volume,
Usually need the cooperation of an other hand to complete corresponding operating, cannot be completed completely with singlehanded, to user cause it is operational not
Just, the usage experience sense of user is directly influenced.
Summary of the invention
The embodiment of the invention discloses a kind of method of controlling operation thereof of wearable device and wearable device, for reducing can
Wearable device stolen risk heard when sound plays, and simple and fast operation, which controls, to be realized to wearable device, it mentions
The usage experience sense of high user.
First aspect present invention discloses a kind of method of controlling operation thereof of wearable device, it may include:
Whether the current play mode for detecting wearable device is bone-conduction mode;Wherein, the bone-conduction mode is used for
It converts audio signals into vibration signal and is transmitted by bone medium;
If the current play mode is the bone-conduction mode, the wrist that the wearable device is worn in detection is passed back
Voice messaging;
It is concentrated from preset action command and identifies the target action for matching voice messaging instruction;
The target action instruction is executed to the wearable device.
As an alternative embodiment, described concentrate from preset action command is known in first aspect present invention
The target action that the voice messaging Chu not matched, which instructs, includes:
Extract sound section in the voice messaging;
If sound section of the quantity includes 2 or 2 or more, between identifying between two neighboring described sound section
Every duration;
It is concentrated from the preset action command and identifies matching sound section of the quantity and/or the interval duration
Target action instruction.
As an alternative embodiment, in first aspect present invention, described wearable set is worn in the detection
After the voice messaging that standby wrist is passed back and described identify from preset action command concentration matches the voice messaging
Target action instruction before, the method also includes:
Voice characteristics information is extracted from the voice messaging;
Judge whether the voice characteristics information matches default voice characteristics information;
If it does, executing described concentrate from preset action command identifies the target action for matching the voice messaging
The step of instruction.
As an alternative embodiment, being the bone in the current play mode in first aspect present invention
Before the voice messaging that the wrist that the wearable device is worn in conduction mode and the detection is passed back, the method is also wrapped
It includes:
The arm action of arm where the wrist of the wearable device is worn in detection;
Identify whether the arm action matches default arm action;
If matching the default arm action, the finger of arm is dynamic where the wrist of the wearable device is worn in detection
Make;
Identify whether the finger movement matches default finger movement;
If matching the default finger movement, executes the detection and wear the language that the wrist of the wearable device is passed back
The step of message ceases.
As an alternative embodiment, being concentrated described from preset action command in first aspect present invention
After identifying the target action instruction for matching the voice messaging, and described to the wearable device execution mesh
Before marking action command, the method also includes:
Judge whether the target action instruction is specific action instruction, and the specific action instruction is including shutdown or again
Open the wearable device;
It is instructed if it is the specific action, sends inquiry message to the mobile terminal bound with the wearable device,
The inquiry message allows the wearable device to execute shutdown or restart for asking whether;
The confirmation message for allowing to shut down or restart that the mobile terminal returns is received, is executed described to described wearable
Equipment executes the step of target action instruction.
Second aspect of the present invention discloses a kind of wearable device, it may include:
Mode checking unit, whether the current play mode for detecting wearable device is bone-conduction mode;Wherein, institute
Bone-conduction mode is stated for converting audio signals into vibration signal and being transmitted by bone medium;
Speech detection unit, for detecting the current play mode of the wearable device when the mode checking unit
When for the bone-conduction mode, the voice messaging that the wrist of the wearable device is passed back is worn in detection;
Instruction-determining unit identifies the target action for matching the voice messaging for concentrating from preset action command
Instruction;
Instruction execution unit is instructed for executing the target action to the wearable device.
As an alternative embodiment, described instruction determination unit specifically includes in second aspect of the present invention:
Sound section extraction unit, for extracting sound section in the voice messaging;
Duration recognition unit, for identifying two neighboring institute when sound section of the quantity includes 2 or 2 or more
State the interval duration between sound section;
Instruction identification unit, for identifying matching sound section of the quantity from the preset action command concentration
And/or the target action instruction of the interval duration.
As an alternative embodiment, in second aspect of the present invention, the wearable device further include:
Feature extraction unit, what the wrist for wearing the wearable device in speech detection unit detection was passed back
After voice messaging and described instruction determination unit is concentrated from preset action command and identifies the matching voice messaging
Before target action instruction, voice characteristics information is extracted from the voice messaging;
First judging unit, for judging whether the voice characteristics information matches default voice characteristics information;
Described instruction determination unit is specifically used for, and wears the hand of the wearable device in speech detection unit detection
After the voice messaging that wrist is passed back and first judging unit determines that the voice characteristics information matches the default voice
When characteristic information, is concentrated from preset action command and identify the target action for matching voice messaging instruction.
As an alternative embodiment, in second aspect of the present invention, the wearable device further include:
First detection unit, for being the bone-conduction mode and the speech detection when the current play mode
Before the voice messaging that the wrist that the wearable device is worn in unit detection is passed back, the hand of the wearable device is worn in detection
The arm action of arm where wrist;
First recognition unit, whether the arm action matches default arm action for identification;
Second detection unit can described in detection wearing if matching the default arm action for the arm action
The finger movement of arm where the wrist of wearable device;
Second recognition unit, whether the finger movement matches default finger movement for identification;
The speech detection unit is specifically used for, when the current play mode is the bone-conduction mode and described
Finger movement matches the default finger movement, and the voice messaging that the wrist of the wearable device is passed back is worn in detection.
As an alternative embodiment, in second aspect of the present invention, the wearable device further include:
Second judgment unit, for being identified described in matching in described instruction determination unit from preset action command concentration
After the target action instruction of voice messaging, and in described instruction execution unit to the wearable device execution target
Before action command, judge whether the target action instruction is specific action instruction, and the specific action instruction includes shutdown
Or restart the wearable device;
Information transmitting unit, for judging whether the target action instruction is specific action instruction, the specific action
Instruction includes shutting down or restarting the wearable device;
Information receiving unit, the confirmation message for allowing to shut down or restart returned for receiving the mobile terminal;
Described instruction execution unit is specifically used for, after the information receiving unit receives the confirmation message, to institute
It states wearable device and executes the target action instruction.
Third aspect present invention discloses a kind of wearable device, it may include:
One or more than one processor, the memory being electrically connected respectively with the processor, osteoacusis vibrate
Module, external speaker, microphone, bone-conduction microphone, communication module, battery and display screen;The memory is used for
Store program instruction;
The processor is by reading the program instruction that the memory is stored to execute following steps: detection is wearable
Whether the current play mode of equipment is bone-conduction mode;Wherein, the bone-conduction mode is for converting audio signals into vibration
Dynamic signal is simultaneously transmitted by bone medium;If the current play mode is the bone-conduction mode, triggers the bone and pass
It leads microphone detection and wears the voice messaging that the wrist of the wearable device is passed back;It is identified from preset action command concentration
Match the target action instruction of the voice messaging;The target action instruction is executed to the wearable device.
Compared with prior art, the embodiment of the present invention has the advantages that
In embodiments of the present invention, when the current play mode of wearable device is bone-conduction mode, detection is worn can
Then the voice messaging that the wrist of wearable device is passed back is concentrated from preset action command and identifies the mesh for matching the voice messaging
Action command is marked, target action instruction finally is executed to wearable device.As can be seen that implementing the embodiment of the present invention, can
Wearable device is transmitted when being in bone-conduction mode by bone medium, not will lead to sound and is leaked, and can reduce wearable device sound
Sound stolen risk heard when playing, to play the purpose of protection privacy of user, while according to wearing the wearable device
The voice messaging that wrist is passed back executes operation control to wearable device, realizes one-handed performance wearable device, improve user's
Usage experience sense.
Detailed description of the invention
It to describe the technical solutions in the embodiments of the present invention more clearly, below will be to needed in the embodiment
Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for ability
For the those of ordinary skill of domain, without creative efforts, it can also be obtained according to these attached drawings other attached
Figure.
Fig. 1 is the application schematic diagram of wearable device disclosed in the prior art;
Fig. 2 a is the flow diagram of the method for controlling operation thereof of wearable device disclosed by the embodiments of the present invention;
Fig. 2 b is the application schematic diagram of wearable device disclosed by the embodiments of the present invention;
Fig. 3 is another flow diagram of the method for controlling operation thereof of wearable device disclosed by the embodiments of the present invention;
Fig. 4 is another flow diagram of the method for controlling operation thereof of wearable device disclosed by the embodiments of the present invention;
Fig. 5 is the structural schematic diagram of wearable device disclosed by the embodiments of the present invention;
Fig. 6 is another structural schematic diagram of wearable device disclosed by the embodiments of the present invention;
Fig. 7 is another structural schematic diagram of wearable device disclosed by the embodiments of the present invention;
Fig. 8 is another structural schematic diagram of wearable device disclosed by the embodiments of the present invention;
Fig. 9 is another structural schematic diagram of wearable device disclosed by the embodiments of the present invention;
Figure 10 is another structural schematic diagram of wearable device disclosed by the embodiments of the present invention.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that the described embodiment is only a part of the embodiment of the present invention, instead of all the embodiments.Based on this
Embodiment in invention, every other reality obtained by those of ordinary skill in the art without making creative efforts
Example is applied, shall fall within the protection scope of the present invention.
The embodiment of the invention discloses a kind of method of controlling operation thereof of wearable device, stolen when for reducing sound broadcasting
The risk heard, to improve user privacy;It realizes one-handed performance wearable device simultaneously, improves the usage experience sense of user.
The embodiment of the present invention also accordingly discloses a kind of wearable device.
Wherein, the present embodiments relate to intelligence of the wearable device including smartwatch, Intelligent bracelet etc. wear
Equipment is worn, is not specifically limited herein.Below in conjunction with specific embodiment, technical solution of the present invention is introduced in detail.
Embodiment one
Fig. 2 a is please referred to, Fig. 2 a is the process signal of the method for controlling operation thereof of wearable device disclosed by the embodiments of the present invention
Figure;As shown in Figure 2 a, a kind of method of controlling operation thereof of wearable device can include:
201, whether wearable device detection current play mode is bone-conduction mode;Wherein, which is used for
It converts audio signals into vibration signal and is transmitted by bone medium;
In some embodiments provided by the invention, it is built-in with osteoacusis vibration module in wearable device (osteoacusis is raised
Sound device) and an external loudspeaker and two microphones (one of them is solid microphone, also referred to as osteoacusis wheat
Gram wind, will be described subsequent with bone-conduction microphone).In addition, wearable device is also built-in with one and the above processor
(Central Processing Unit, abbreviation CPU), the wearable device further include the storage being electrically connected with the processor
Device, battery, display screen and communication module.Wearable device is usually worn on arm (specific location such as wrist).It is based on
Built-in osteoacusis vibration module, the wearable device can be realized bone-conduction mode, so far, the broadcasting of wearable device sound
Mode will include outer mode playback (being realized by external loudspeaker) and bone-conduction mode (being realized by osteoacusis vibration module).
Wherein, outer mode playback comes out sound by external loudspeaker vibration, and the sound wave of sound enters inner ear by ear-drum.Osteoacusis
Vibration signal is finally reconverted into sound for converting audio signals into vibration signal and being transmitted by bone medium by mode
Frequency signal.As shown in Figure 2 b, wearable device is worn in wrist by user, and osteoacusis vibration module is tightly attached to wrist bone
Or on wrist skin of soft tissue, CPU output audio signal, the audio signal is converted into vibration by osteoacusis vibration module
Signal, vibration signal are transmitted on finger by skin, bone and subcutaneous tissue, while finger puts in ear or presses
Ear base receives the vibration signal transmitted from finger, so that audio signal is directly passed through head to form closed sound chamber
Bone is transmitted to the auditory nerve inside ear, due to having formed closed sound chamber, so ear-drum only needs very small vibratory output,
And ear-drum can be allowed to generate enough vibrations by the vibration signal of finger, so as to achieve the effect that clear sound, and reach
To the purpose of protection privacy of user, the risk intercepted when sound plays by people around is reduced, here it is the works of bone-conduction mode
Make principle.As can be seen that bone-conduction mode is compared with traditional outer mode playback, have speech quality higher, can protect hearing,
The advantages that liberating ear.
If 202, current play mode is bone-conduction mode, the wrist of the wearable device is worn in wearable device detection
The voice messaging passed back;
A microphone is bone-conduction microphone in two microphones of wearable device, and bone-conduction microphone protrusion is set
The body surface for setting the outer surface or wearable device in the wearable band of wearable device, when wearable device is worn
When in wrist, which can be tightly attached at wrist, the voice messaging for facilitating detection wrist to pass back.
203, wearable device is concentrated from preset action command identifies the target action instruction for matching the voice messaging;
It should be noted that user is as shown in Figure 2 b using wearable device when using bone-conduction mode, pass through one
Finger (usually index finger) puts in ear or presses ear base to form closed sound chamber, realizes osteoacusis.At this point, when using
The finger tapping head, the voice transmission that finger can will hit against head are returned, and are then conducted to wearable device by wrist,
Exactly by be tightly attached to the bone-conduction microphone at wrist detect be transmitted back to come voice messaging.In embodiments of the present invention,
It can be according to finger tapping head or the difference and/or the adjacent interval duration for tapping head or face twice of the frequency of face
Difference, some action commands of control wearable device are arranged, such as single when tapping head, connecting incoming call calling is double to strike
Tap the head portion when, hanging up calling calling/current talking etc..It is understood that bone-conduction microphone will when singly tapping head
The voice messaging for detecting similar " spring ", when double-tap head, bone-conduction microphone will detect that the language of similar " spring-spring "
Message breath.
The corresponding action command of voice messaging is associated preservation in advance, and everything instruction is concentrated on one
It rises and forms action command collection.When wearable device detects voice messaging by bone-conduction microphone, according to incidence relation from
Action command concentration identifies that target action instructs.
Based on above-mentioned introduction, In some embodiments provided by the invention, after performing step 202, and executing
Before step 203, also following steps will be executed:
Voice characteristics information is extracted from voice messaging;Judge whether voice characteristics information matches default phonetic feature letter
Breath;If it does, executing the step of concentrating the target action for identifying matching voice messaging to instruct from preset action command.It can
To understand, due to the sound of the finger tapping head sound that perhaps face issues and finger tapping desktop or the sending of other objects
Sound be it is different, in embodiments of the present invention combine wearable device be in bone-conduction mode, finger tapping head or face
The operation in portion is fairly simple and fitting uses artistic conception, and therefore, first whether identification voice messaging is specific in embodiments of the present invention
Voice messaging, that is, the voice messaging that finger tapping head or face obtain, it is specific for only meeting voice messaging
When voice messaging, wearable device just can control, otherwise process terminates.In the specific implementation, first extracting voice from voice messaging
Characteristic information matches voice characteristics information.As other implementation, directlys adopt sound bank and voice messaging is carried out
Identification is matched in identification process using corresponding algorithm, also includes that above-mentioned extraction voice characteristics information is matched.
In some embodiments provided by the invention, step 203 specifically includes: extracting sound section in voice messaging;Such as
When the quantity that sound section of fruit includes 2 or 2 or more, the interval duration between two neighboring sound section is identified;It is moved from preset
The target action instruction made the quantity for identifying sound section of matching in instruction set and/or be spaced duration.Firstly, having in above-mentioned introduction
Body includes three kinds of implementations: first, identify voice messaging in sound section of quantity (such as sound segment number be 1, quite
Head or face are tapped in finger list;Sound segment number is 2, is equivalent to finger double-tap head or face), identify quantity
Matched action command;Second, when the sound segment number of voice messaging is 2 or 2 or more, identification is adjacent between sound section
Interval duration (usually multiple interval durations are almost consistent), identification interval the matched action command of duration;Third is known simultaneously
Not sound section of quantity and the interval matched action command of duration.As can be seen that in the first way, extracting voice messaging
In sound section be in order to control wearable device from the angle of sound frequency, correspondingly, in advance by sound section of number
It measures associated with action command and saves.In second method, the duration occurred from sound frequency controls wearable device,
Correspondingly, in advance will interval duration it is associated with action command and save, for example, connecting incoming call is exhaled when being spaced when a length of 1ms
It cries, when interval when a length of 3ms, hanging up calling calling.In Third Way, occur from sound frequency and sound frequency when grow
Hair control wearable device.
In other embodiments provided in an embodiment of the present invention, step 203 is specifically included: language is extracted from voice messaging
Sound characteristic information;Judge whether voice characteristics information matches default voice characteristics information;If it does, extracting in voice messaging
Sound section;If sound section of quantity includes 2 or 2 or more, the interval duration between two neighboring sound section is identified;From
The target action instruction that preset action command concentrates the quantity for identifying sound section of matching and/or is spaced duration.In the implementation
In example, when the voice characteristics information of voice messaging matches default voice characteristics information, just further according to sound section of quantity
And/or interval duration between two neighboring sound section controls wearable device, to avoid user's finger tap non-head and
Maloperation is caused to wearable device when non-face.
204, wearable device executes target action instruction.
In embodiments of the present invention, when the current play mode of wearable device is bone-conduction mode, detection is worn can
Then the voice messaging that the wrist of wearable device is passed back is concentrated from preset action command and identifies the mesh for matching the voice messaging
Action command is marked, target action instruction finally is executed to wearable device.As can be seen that implementing the embodiment of the present invention, can
Wearable device is transmitted when being in bone-conduction mode by bone medium, not will lead to sound and is leaked, and can reduce wearable device sound
Sound stolen risk heard when playing, to play the purpose of protection privacy of user, while according to wearing the wearable device
The voice messaging that wrist is passed back executes operation control to wearable device, realizes one-handed performance wearable device, improve user's
Usage experience sense.
For example, if wearable device detects incoming call, bone-conduction mode will be switched to, step 201~
When the target action instruction got in 204 is incoming call answering calling, performance objective action command is to answer the incoming call.
Again for example, if the current play mode of wearable device is bone-conduction mode, and wearable device is just located
In talking state, the target action instruction got in step 202~204 is kill-call, then performance objective movement refers to
Order will hang up current talking.
Embodiment two
Referring to Fig. 3, another process that Fig. 3 is the method for controlling operation thereof of wearable device disclosed by the embodiments of the present invention is shown
It is intended to;As shown in figure 3, a kind of method of controlling operation thereof of wearable device can include:
301, the arm action of arm where wearable device detection adorns oneself with the wearable device wrist;
It is also built-in in wearable device sensor (including action sensor and muscle sensor), the sensor and processing
Device is electrically connected, wherein arm action may include the horizontal traverse of arm, arm be vertical upwards, arm downward vertically, arm water
Flat traverse to vertical, the horizontal traverse of arm upwards to downward vertically, arm arrives horizontal traverse, arm vertically upwards and arrives vertically upwards
Downward vertically etc..Wearable device detects arm action by the action sensor in sensor.
The functions such as incoming call sound may be implemented and makes a phone call in wearable device.In some embodiments provided by the invention
In, before executing step 301, wearable device determines whether to receive incoming call, or determines whether in call shape
State, or determine whether in playback of songs state;If it is determined that wearable device, which receives incoming call or determination, to be worn
It is on call or determine that wearable device be in playback of songs state to wear equipment, executes to detect and adorns oneself with this and wearable set
Where standby wrist the step of the arm action of arm.
In other embodiments provided by the invention, before executing step 301, wearable device monitors whether to receive
It is reminded to unread message;When monitoring wearable device, which receives unread message, to be reminded, receives being directed to for user's input and do not read to disappear
Breath reminds the reading instruction of indicated unread message;Unread message is reminded to indicated unread message in response to reading instruction
It is converted into voice messaging, and the step of executing the arm action of arm where detection adorns oneself with the wearable device wrist.It can
Wearable device can synchronize the short message in the mobile terminal for realizing binding, when the mobile terminal of binding receives short message, can
Also it will receive unread message prompting on wearable device, be also based on wearable device and check that unread message prompting is corresponding not
Read message.Typically the screen of wearable device is smaller, is not easy to read message, in embodiments of the present invention, can incite somebody to action
The unread message that user's needs are read is converted into voice messaging and plays out, and reduces discomfort caused by the too small reading to user of screen
Sense can allow user's timely learning unread message content by voice while when user is inconvenient to check wearable device.
302, whether wearable device identification arm action matches default arm action;
Preferably, selection arm is vertical upwards in numerous arm actions that step 301 is introduced, and is set in advance as
The default arm action.Wherein, the built-in action sensor of processor triggering detects arm action, then processor identification maneuver
Whether the arm action that sensor detects matches default arm action.
If 303, matching default arm action, arm where the wearable device wrist is worn in wearable device detection
Finger movement;
Wherein, after the arm action detected matches default arm action, finger movement is further detected, wherein place
It manages the built-in muscle sensor of device triggering and detects finger movement.Finger movement include finger stretch, digital flexion etc..Preferably,
Finger movement can refer to that index finger acts in embodiments of the present invention.
It is appreciated that will increase the power consumption of wearable device when action sensor and muscle sensor are opened, due to
When only meeting arm action in embodiments of the present invention and matching default arm action, just further detection finger movement, therefore,
In embodiments of the present invention first close muscle sensor, action sensor be always maintained at it is in the open state, in action sensor
After the arm action detected matches default arm action, muscle sensor is opened to detect finger movement, and detecting hand
Muscle sensor is closed after finger movement, until next time, to play the effect for saving wearable device electricity consumption.
304, whether wearable device identification finger movement matches default finger movement;
Preferably, it selects the finger in finger movement to stretch and is set to default finger movement.
In some embodiments provided by the invention, if before executing step 301, wearable device detects incoming call
Calling, then, in addition to executing step 305, also following steps will be executed after executing the step 304: wearable device judgement should
Whether incoming call is switched on, if the incoming call is not turned on, wearable device connects the incoming call.
Further, it may be since wearable device detects the switch-on keying quilt of incoming call that incoming call, which is switched on,
Operation, switch-on keying may be that the physical button on the virtual key or wearable device shell shown on screen is operated,
To which wearable device gets going code for input, to connect the incoming call.
Further, when incoming call is not turned on, wearable device obtains the contact number of incoming call;When
It identifies that contact number belongs to first kind contact person, connects the incoming call;When identifying that contact number belongs to the second class
Contact person plays password and obtains voice to obtain call password, and monitors the Password Input for obtaining voice input for password
Whether voice, the password that recognition code input voice includes match with preset password;It is exhaled if it does, connecting the incoming call
It cries.In this embodiment, contact person is divided into two classes, respectively first kind contact person and the second class contact person, wherein the first kind
Contact person is directed to ordinary contacts, and the contact number of ordinary contacts is arranged into first kind contact person in advance by user, not
The contact person for being stored with contact number is attributed to first kind contact person;Second class contact person for user it is important/connection of secret
It is people, the contact number of important/private contact is arranged into the second class contact person in advance by user.Determining that the incoming call exhales
It cries after being not turned on, obtains the contact number of the incoming call first, if identifying the contact number of the incoming call
Belong to first kind contact person, then the direct turn on automatically incoming call;If identifying the contact number category of the incoming call
In the second class contact person, wearable device is by playing Password Input voice to obtain call password, password match of only conversing
When preset password, the incoming call can be just connected, to prevent important/call of private contact from being used by the third party other than user
Family is connected, and the incoming call of important/private contact is effectively protected, to play the effect of protection privacy of user.
Further, in order to protect call password not intercepted by stranger, wearable device plays Password Input voice
To obtain password of conversing, while call Password Input column is shown on the display screen, to require user in the password of display screen
Input call password on input field, when wearable device receives the call password that user is directed to Password Input voice input
Afterwards, it identifies whether the call password matches with preset password, in matching, the incoming call is connected, to prevent voice defeated
Enter to converse password when the risk that is intercepted by stranger.
Further, wearable device is in the setting first kind contact person and/or the second class connection for receiving user's input
When being the setting request of people, pops up Password Input frame on the display screen to require user to input verifying password, receive user and exist
After the verifying password inputted on the Password Input frame, judge whether the verifying password matches with preset verifying password, if
Match, into the set interface of first kind contact person and/or the second class contact person, if it does not match, authentication failed, terminates the stream
Journey.As can be seen that wearable device can be prevented when losing by the embodiment, by third party user by resetting
The mode of first kind contact person and/or the second class contact person, to answer the incoming call of important/private contact, to play
Protect the effect of privacy of user.
If 305, matching default finger movement, the play mode of sound is switched to bone from outer mode playback by wearable device
Conduction mode;
306~308;Wherein, step 306~308 are identical as step 202~204 in embodiment one, and details are not described herein.
In embodiments of the present invention, the arm action of arm, identifies the arm where wearable device wrist is worn in detection
Whether movement matches default arm action, if the arm action matches default arm action, further detection is worn wearable
The finger movement of arm, identifies whether the finger movement matches default finger movement, if finger movement where equipment wrist
With default finger movement, the play mode of wearable device sound is switched into bone-conduction mode from outer mode playback, wherein institute is public
The bone-conduction mode opened is for converting audio signals into vibration signal and being transmitted by bone medium.In bone-conduction mode
Under, further the voice messaging that the wrist of wearable device is passed back is worn in detection, is then concentrated and is identified from preset action command
The target action instruction for matching the voice messaging out, finally executes target action instruction to wearable device.As can be seen that real
The embodiment of the present invention is applied, in conjunction with arm action and finger movement, the switching of the play mode of wearable device is carried out, in osteoacusis
It is transmitted when mode by bone medium, not will lead to sound and leak, can reduce stolen when wearable device sound plays hear
Risk, thus the voice messaging for playing the purpose of protection privacy of user, while being passed back according to the wrist for wearing the wearable device,
Operation control is executed to wearable device, one-handed performance wearable device is realized, improves the usage experience sense of user.
Embodiment three
Referring to Fig. 4, another process that Fig. 4 is the method for controlling operation thereof of wearable device disclosed by the embodiments of the present invention is shown
It is intended to;As shown in figure 4, a kind of method of controlling operation thereof of wearable device can include:
401, whether wearable device detection current play mode is bone-conduction mode;
402, the arm action of arm where the wrist of wearable device is worn in wearable device detection;
Arm action may include the horizontal traverse of arm, arm be vertical upwards, arm downward vertically, the horizontal traverse of arm arrives
Upwards vertical, the horizontal traverse of arm to downward vertically, arm arrives horizontal traverse, arm vertically upwards and arrives vertically upwards downward vertically
Etc..Wearable device detects arm action by the action sensor in sensor.
403, whether wearable device identification arm action matches default arm action;
Selection arm is vertical upwards in numerous arm actions that step 402 is introduced, and is set in advance as this and preset
Arm action.Wherein, the built-in action sensor of processor triggering detects arm action, then processor identification maneuver sensor
Whether the arm action detected matches default arm action.
If 404, matching default arm action, arm where the wrist of wearable device is worn in wearable device detection
Finger movement;
405, whether wearable device identification finger movement matches default finger movement;
Wherein, after the arm action detected matches default arm action, finger movement is further detected, wherein place
It manages the built-in muscle sensor of device triggering and detects finger movement.Finger movement include finger stretch, digital flexion etc..Preferably,
Finger movement can refer to that index finger acts in embodiments of the present invention.
If 406, matching default finger movement, the voice that the wrist of wearable device is passed back is worn in wearable device detection
Information;
It should be noted that further detecting arm action when wearable device is under bone-conduction mode and finger being dynamic
Make, in identify user whether just as shown in Figure 2 b as by finger contact head perhaps face with converse, listen song etc. or it is similar
Like that by finger contact head or face shown in Fig. 2 b.
407, wearable device concentrates the target action instruction for identifying matching voice messaging from preset action command;
408, wearable device performance objective action command.
In some embodiments provided by the invention, following steps are also executed before executing step 408: judges that target is dynamic
Whether be specific action instruction, specific action instruction includes shutting down or restarting wearable device if instructing;If it is specific dynamic
It instructs, sends inquiry message to the mobile terminal bound with wearable device, inquiry message allows to wear for asking whether
Equipment is worn to execute shutdown or restart;The confirmation message for allowing to shut down or restart that mobile terminal returns is received, is executed to can
The step of wearable device performance objective action command.As can be seen that instructing for some specific actions, need to obtain mobile terminal
Being further appreciated that of user could complete operation, for example shut down or restart wearable device.Based on the program, can prevent small
Child at will turns off wearable device, and parent is caused not get in touch with;Perhaps stealer or the person of picking up when wearable device is lost
It cannot arbitrarily shut down.
Example IV
Referring to Fig. 5, Fig. 5 is the structural schematic diagram of wearable device disclosed by the embodiments of the present invention;As shown in figure 5, one
Kind wearable device can include:
Mode checking unit 510, whether the current play mode for detecting wearable device is bone-conduction mode;Its
In, bone-conduction mode is for converting audio signals into vibration signal and being transmitted by bone medium;
Speech detection unit 520 detects that the current play mode of wearable device is for working as mode checking unit 510
When bone-conduction mode, the voice messaging that the wrist of wearable device is passed back is worn in detection;
Instruction-determining unit 530, for concentrating the target action for identifying matching voice messaging from preset action command
Instruction;
Instruction execution unit 540, for wearable device performance objective action command.
In embodiments of the present invention, whether the current play mode that mode checking unit 510 detects wearable device is bone
Conduction mode, when mode checking unit 510 determines that the current play mode of wearable device is bone-conduction mode, speech detection
The voice messaging passed back of wrist of wearable device is worn in the detection of unit 520, and then instruction-determining unit 530 is from preset movement
The target action instruction for matching the voice messaging is identified in instruction set, instruction execution unit 540 finally holds wearable device
Row target action instruction.As can be seen that implementing the embodiment of the present invention, pass through bone when wearable device is in bone-conduction mode
Medium transmitting, not will lead to sound and leaks, and can reduce the stolen risk heard when wearable device sound plays, to play
The purpose of privacy of user, while the voice messaging passed back according to the wrist for wearing the wearable device are protected, to wearable device
Operation control is executed, one-handed performance wearable device is realized, improves the usage experience sense of user.
It should be noted that user is as shown in Figure 2 b using wearable device when using bone-conduction mode, pass through one
Finger (usually index finger) puts in ear or presses ear base to form closed sound chamber, realizes osteoacusis.At this point, when using
The finger tapping head, finger can will hit against head or the voice transmission of face is returned, and be then conducted to by wrist wearable
Equipment, that is, by be tightly attached to the bone-conduction microphone at wrist detect be transmitted back to come voice messaging.Of the invention real
It applies in example, it can be according to finger tapping head or the difference and/or the adjacent interval duration for tapping head twice of the frequency of face
Difference, some action commands of control wearable device are arranged, such as single when tapping head, connecting incoming call calling is double to strike
Tap the head portion when, hanging up calling calling/current talking etc..It is understood that bone-conduction microphone will when singly tapping head
The voice messaging for detecting similar " spring ", when double-tap head, bone-conduction microphone will detect that the language of similar " spring-spring "
Message breath.
The corresponding action command of voice messaging is associated preservation in advance, and everything instruction is concentrated on one
It rises and forms action command collection.When speech detection unit 520 detects voice messaging by bone-conduction microphone, instructs and determine list
Member 530 identifies that target action instructs from movement instruction set according to incidence relation.
In some embodiments provided by the invention, mode checking unit 510 is specifically used for, and it is wearable that detection adorns oneself with this
The arm action of arm where equipment wrist, whether identification arm action matches default arm action, if arm action matches
Whether default arm action, the finger movement of arm where the wearable device wrist is worn in detection, identification finger movement match
The play mode of sound is switched to bone from outer mode playback if finger movement matches default finger movement by default finger movement
Conduction mode.
Further, mode checking unit 510 is also used to, arm where adorning oneself with the wearable device wrist in detection
It before arm action, determines whether wearable device receives incoming call, or determines whether wearable device is in call
State, or determine whether wearable device is in playback of songs state;If it is determined that wearable device receives incoming call
It either determines that wearable device is on call or determines that wearable device is in playback of songs state, detection adorns oneself with this
The arm action of arm where wearable device wrist.
In some embodiments provided by the invention, mode checking unit 510 is also used to, and it is wearable to adorn oneself with this in detection
Before the arm action of arm where equipment wrist, whether monitoring wearable device receives unread message prompting;When monitoring can
When wearable device receives unread message prompting, what reception user inputted is directed to unread message indicated by unread message prompting
Read instruction;Indicated unread message is reminded to be converted into voice messaging, and detection unread message in response to reading instruction
The arm action of arm where adorning oneself with the wearable device wrist.
In some embodiments provided by the invention, as shown in fig. 6, above-metioned instruction determination unit 530 specifically includes:
Sound section extraction unit 610, for extracting sound section in voice messaging;
Duration recognition unit 620, for identifying two neighboring sound when sound section of quantity includes 2 or 2 or more
Interval duration between section;
Instruction identification unit 630, for from preset action command concentrate identify matching sound section quantity and/or
It is instructed every the target action of duration.
Firstly, having specifically included three kinds of implementations in above-mentioned introduction: first, identify sound section of number in voice messaging
(such as sound segment number is 1 to amount, is equivalent to finger list and taps head or face;Sound segment number is 2, and it is double to be equivalent to finger
Tap head or face), identify the action command of quantity Matching;Second, it is 2 or 2 in the sound segment number of voice messaging
When a above, the interval duration (usually multiple interval durations are almost consistent) between adjacent sound section is identified, when identification is spaced
Long matched action command;Third, while identifying sound section of quantity and the interval matched action command of duration.It can see
Out, in the first way, sound section extraction unit 610 extracts sound section in voice messaging, is in order to from the angle of sound frequency
Degree sets out and controls wearable device, correspondingly, in advance that sound section of quantity is associated with action command and save.Second
In mode, the duration occurred from sound frequency controls wearable device, correspondingly, in advance will interval duration and action command
It is associated and saves, for example, when interval when a length of 1ms, connecting incoming call calling, when interval when a length of 3ms, hanging up calling calling.
In Third Way, the duration occurred from sound frequency and sound frequency controls wearable device.
Embodiment five
Referring to Fig. 7, Fig. 7 is another structural schematic diagram of wearable device disclosed by the embodiments of the present invention;It is shown in Fig. 7
Wearable device is optimized on the basis of wearable device shown in Fig. 6, wearable device shown in Fig. 7
In, further includes:
Feature extraction unit 710, for detecting the language wearing the wrist of wearable device and passing back in speech detection unit 520
After message breath and instruction-determining unit 530 is concentrated from preset action command and identifies that the target of matching voice messaging is dynamic
Before instructing, voice characteristics information is extracted from voice messaging;
First judging unit 720, for judging whether voice characteristics information matches default voice characteristics information;
Instruction-determining unit 530 is specifically used for, and passes back in the wrist that speech detection unit 520 detects wearing wearable device
Voice messaging after and the first judging unit 720 when determining that voice characteristics information matches default voice characteristics information, from pre-
If action command concentrate identify matching voice messaging target action instruction.
Embodiment six
Referring to Fig. 8, Fig. 8 is another structural schematic diagram of wearable device disclosed by the embodiments of the present invention;It is shown in Fig. 8
Wearable device is optimized on the basis of wearable device shown in Fig. 5, wearable device shown in Fig. 8
In, the wearable device further include:
First detection unit 810 is that bone-conduction mode and voice are examined for the current play mode when wearable device
Before the voice messaging that the wrist that wearable device is worn in the survey detection of unit 520 is passed back, the wrist of wearable device is worn in detection
The arm action of place arm;
First recognition unit 820, whether arm action matches default arm action for identification;
Second detection unit 830, if matching default arm action for arm action, wearable device is worn in detection
The finger movement of arm where wrist;
Second recognition unit 840, whether finger movement matches default finger movement for identification;
Speech detection unit 520 is specifically used for, when the current play mode of wearable device is bone-conduction mode and hand
Finger movement matches default finger movement, and the voice messaging that the wrist of wearable device is passed back is worn in detection.
Embodiment seven
Referring to Fig. 9, Fig. 9 is another structural schematic diagram of wearable device disclosed by the embodiments of the present invention;It is shown in Fig. 9
Wearable device is optimized on the basis of wearable device shown in Fig. 5, wearable device shown in Fig. 9
In, the wearable device further include:
Second judgment unit 910, for identifying matching language from preset action command concentration in instruction-determining unit 530
Message breath target action instruction after, and instruction execution unit 540 to wearable device performance objective action command it
Before, judge whether target action instruction is specific action instruction, and specific action instruction includes shutting down or restarting wearable device;
Information transmitting unit 920, for judging whether target action instruction is specific action instruction, specific action instruction packet
It includes shutdown or restarts wearable device;
Information receiving unit 930, for receiving the confirmation message for allowing to shut down or restart of mobile terminal return;
Instruction execution unit 540 is specifically used for, and after information receiving unit 930 receives confirmation message, sets to wearable
Standby performance objective action command.
As can be seen that instructing for some specific actions, needing to obtain being further appreciated that for mobile terminal user could be complete
At operation, for example shuts down or restart wearable device.Based on the program, it can prevent child from will turning off wearable device,
Parent is caused not get in touch with;Perhaps when wearable device is lost, stealer or the person of picking up cannot arbitrarily shut down.
Embodiment eight
Referring to Fig. 10, Figure 10 is another structural schematic diagram of wearable device disclosed by the embodiments of the present invention;In Figure 10
In, which includes:
One or more than one processor (Central Processing Unit, abbreviation CPU) 1010, respectively with
Memory 1020 that this or more than one processor 1010 are electrically connected, osteoacusis vibration module 1030, external loudspeaking
Device 1040, microphone 1050, communication module 1080, battery 1090, display screen 1100 and bone-conduction microphone 1101;Further
Ground, the wearable device further include: first sensor 1060, second sensor 1070;
Wherein, memory 1020 is stored in memory 1020 by operation for storing program instruction, processor 1010
Program instruction, thereby executing various function application and data processing.Memory 1020 can mainly include storing program area and deposit
Store up data field, wherein storing program area can application program needed for storage program area, at least one function (for example sound is broadcast
Playing function) etc.;Storage data area, which can be stored, uses created data (such as audio data, phone directory etc.) according to terminal
Deng.In addition, memory 1020 may include high-speed random access memory, it can also include nonvolatile memory, such as extremely
A few disk memory, flush memory device or other volatile solid-state parts.Correspondingly, memory 1020 can be with
Including Memory Controller, to provide access of the processor 1010 to memory 1020.
Wherein, processor 1010 executes following steps by the program instruction of reading memory 1020 stored: detection
Whether the current play mode of wearable device is bone-conduction mode;Wherein, bone-conduction mode is for converting audio signals into
Vibration signal is simultaneously transmitted by bone medium;If current play mode is bone-conduction mode, triggering bone-conduction microphone inspection
It surveys and wears the voice messaging that the wrist of wearable device is passed back;It is concentrated from preset action command and identifies matching voice messaging
Target action instruction;To wearable device performance objective action command.
As an alternative embodiment, above-mentioned processor 1010 also executes following steps: extracting in voice messaging
Sound section;If sound section of quantity includes 2 or 2 or more, the interval duration between two neighboring sound section is identified;From
The target action instruction that preset action command concentrates the quantity for identifying sound section of matching and/or is spaced duration.
As an alternative embodiment, above-mentioned processor 1010 also executes following steps: being worn in detection wearable
After the voice messaging that the wrist of equipment is passed back, and the target for identifying matching voice messaging is concentrated from preset action command
Before action command, voice characteristics information is extracted from voice messaging;It is special to judge whether voice characteristics information matches default voice
Reference breath;If it does, executing the step concentrated from preset action command and identify that the target action of matching voice messaging instructs
Suddenly.
As an alternative embodiment, above-mentioned processor 1010 also executes following steps: being in current play mode
Bone-conduction mode, and before the voice messaging passed back of wrist of wearable device is worn in detection, wearable device is worn in detection
Wrist where arm arm action;Whether identification arm action matches default arm action;If it is dynamic to match default arm
Make, the finger movement of arm where the wrist of wearable device is worn in detection;It is dynamic whether identification finger movement matches default finger
Make;If matching default finger movement, the step of detecting the voice messaging that the wrist for wearing wearable device is passed back is executed.
As an alternative embodiment, above-mentioned processor 1010 also executes following steps: referring to from preset movement
It enables after concentrating the target action instruction for identifying matching voice messaging, and to wearable device performance objective action command
Before, judge whether target action instruction is specific action instruction, and specific action instruction includes shutting down or restarting wearable set
It is standby;It is instructed if it is specific action, sends inquiry message to the mobile terminal bound with wearable device, inquiry message is for asking
Whether ask allows wearable device to execute shutdown or restart;Receive the confirmation for allowing to shut down or restart that mobile terminal returns
Information, the step of execution to wearable device performance objective action command.
It is further appreciated that processor 1010 is also used to execute its referred in above method embodiment or Installation practice
Its step, details are not described herein.
It is appreciated that above-mentioned first sensor 1060 can be action sensor, above-mentioned second sensor 1070 can be
Muscle sensor, certainly, first sensor 1060 can also be the combination of gravity sensor and/or gyroscope etc., the second sensing
Device 1070 is also possible to can be realized other sensors of detection finger movement function or multiple realizations detection finger movement function
The combination of the sensor of energy, is not specifically limited herein.
Above-mentioned communication module 1080 can be client identification module (Subscriber Identity Module, abbreviation
SIM) card module, bluetooth module or WiFi (Wireless Fidelity) module.
Those of ordinary skill in the art will appreciate that all or part of the steps in the various methods of above-described embodiment is can
It is completed with instructing relevant hardware by program, which can be stored in a computer readable storage medium, storage
Medium include read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory,
RAM), programmable read only memory (Programmable Read-only Memory, PROM), erasable programmable is read-only deposits
Reservoir (Erasable Programmable Read Only Memory, EPROM), disposable programmable read-only memory (One-
Time Programmable Read-Only Memory, OTPROM), the electronics formula of erasing can make carbon copies read-only memory
(Electrically-Erasable Programmable Read-Only Memory, EEPROM), CD-ROM (Compact
Disc Read-Only Memory, CD-ROM) or other disc memories, magnetic disk storage, magnetic tape storage or can
For carrying or any other computer-readable medium of storing data.
The method of controlling operation thereof to a kind of wearable device disclosed by the embodiments of the present invention and wearable device carry out above
It is discussed in detail, used herein a specific example illustrates the principle and implementation of the invention, above embodiments
Explanation be merely used to help understand method and its core concept of the invention;At the same time, for those skilled in the art,
According to the thought of the present invention, there will be changes in the specific implementation manner and application range, in conclusion in this specification
Appearance should not be construed as limiting the invention.
Claims (7)
1. a kind of method of controlling operation thereof of wearable device characterized by comprising
Whether the current play mode for detecting wearable device is bone-conduction mode;Wherein, the bone-conduction mode is used for sound
Frequency signal is converted to vibration signal and is transmitted by bone medium;
The arm action of arm where the wrist of the wearable device is worn in detection;
Muscle sensor is closed, action sensor is always maintained in the open state, and it is pre- to identify whether the arm action matches
If arm action;
If matching the default arm action, muscle sensor is opened, detection is worn where the wrist of the wearable device
The finger movement of arm;
It identifies whether the finger movement matches default finger movement, closes muscle sensor after having detected finger movement;
If match the default finger movement and, if the current play mode is the bone-conduction mode, detection is worn
Wear the voice messaging that the wrist of the wearable device is passed back;
It is concentrated from preset action command and identifies the target action for matching voice messaging instruction;
The target action instruction is executed to the wearable device;
It is described from preset action command concentrate identify match the voice messaging target action instruct after, Yi Ji
Before the target action instruction to wearable device execution, the method also includes:
Judge whether the target action instruction is specific action instruction, and the specific action instruction includes shutting down or restarting institute
State wearable device;
It is instructed if it is the specific action, sends inquiry message to the mobile terminal bound with the wearable device, it is described
Inquiry message allows the wearable device to execute shutdown or restart for asking whether;
The confirmation message for allowing to shut down or restart that the mobile terminal returns is received, is executed described to the wearable device
The step of executing target action instruction.
2. the method according to claim 1, wherein described identify matching institute from preset action command concentration
The target action for stating voice messaging, which instructs, includes:
Extract sound section in the voice messaging;
If sound section of the quantity includes 2 or 2 or more, when identifying the interval between two neighboring described sound section
It is long;
The target for identifying and matching sound section of the quantity and/or the interval duration is concentrated from the preset action command
Action command.
3. method according to claim 1 or 2, which is characterized in that wear the hand of the wearable device in the detection
After the voice messaging that wrist is passed back and described concentrate from preset action command identifies the target for matching the voice messaging
Before action command, the method also includes:
Voice characteristics information is extracted from the voice messaging;
Judge whether the voice characteristics information matches default voice characteristics information;
If it does, executing described concentrate from preset action command identifies the target action for matching voice messaging instruction
The step of.
4. a kind of wearable device characterized by comprising
Mode checking unit, whether the current play mode for detecting wearable device is bone-conduction mode;Wherein, the bone
Conduction mode is for converting audio signals into vibration signal and being transmitted by bone medium;
First detection unit, for detecting the current play mode of the wearable device for institute when the mode checking unit
When stating bone-conduction mode, the arm action of arm where the wrist of the wearable device is worn in detection;
First recognition unit, whether the arm action matches default arm action for identification;
Second detection unit, if matching the default arm action for the arm action, detection is worn described wearable
The finger movement of arm where the wrist of equipment;
Second recognition unit, whether the finger movement matches default finger movement for identification;
Wherein, the second recognition unit is first closed, the first recognition unit is always maintained in the open state, examines in the first recognition unit
After the arm action measured matches default arm action, the second recognition unit is opened to detect finger movement, and detecting hand
The second recognition unit is closed after finger movement;
Speech detection unit, for detecting the current play mode of the wearable device for institute when the mode checking unit
When stating bone-conduction mode and when the finger movement matches the default finger movement, the wearable device is worn in detection
The voice messaging passed back of wrist;
Instruction-determining unit, for identifying that the target action for matching the voice messaging refers to from preset action command concentration
It enables;
Instruction execution unit is instructed for executing the target action to the wearable device;
The wearable device further include:
Second judgment unit, for identifying the matching voice from preset action command concentration in described instruction determination unit
After the target action instruction of information, and in described instruction execution unit to the wearable device execution target action
Before instruction, judge whether target action instruction is specific action instruction, the specific action instruction include shutdown or
Restart the wearable device;
Information transmitting unit, for judging whether the target action instruction is specific action instruction, the specific action instruction
It including shutting down or restarting the wearable device, instructs if it is the specific action, is bound to the wearable device
Mobile terminal send inquiry message, the inquiry message for ask whether to allow the wearable device execute shutdown or
Restart;
Information receiving unit, for receiving the confirmation message for allowing to shut down or restart of mobile terminal return;
Described instruction execution unit is specifically used for, after the information receiving unit receives the confirmation message, to it is described can
Wearable device executes the target action instruction.
5. wearable device according to claim 4, which is characterized in that
Described instruction determination unit specifically includes:
Sound section extraction unit, for extracting sound section in the voice messaging;
Duration recognition unit two neighboring described has for identifying when sound section of the quantity includes 2 or 2 or more
Interval duration between sound section;
Instruction identification unit, for from the preset action command concentration identify matching sound section of the quantity and/or
The target action instruction of the interval duration.
6. wearable device according to claim 4 or 5, which is characterized in that the wearable device further include:
Feature extraction unit, for wearing the voice that the wrist of the wearable device is passed back in speech detection unit detection
After information and described instruction determination unit is concentrated from preset action command and identifies the target for matching the voice messaging
Before action command, voice characteristics information is extracted from the voice messaging;
First judging unit, for judging whether the voice characteristics information matches default voice characteristics information;
Described instruction determination unit is specifically used for, and passes in the wrist that the wearable device is worn in speech detection unit detection
After the voice messaging returned and first judging unit determines that the voice characteristics information matches the default phonetic feature
When information, is concentrated from preset action command and identify the target action for matching voice messaging instruction.
7. a kind of wearable device characterized by comprising
One or more than one processor, respectively with the processor be electrically connected memory, osteoacusis vibration module,
External speaker, microphone, bone-conduction microphone, communication module, battery and display screen;The memory is for storing journey
Sequence instruction;
The processor is by reading the program instruction that the memory is stored to execute following steps: detection wearable device
Current play mode whether be bone-conduction mode;Wherein, the bone-conduction mode is for converting audio signals into vibration letter
Number and transmitted by bone medium;The wearable device further include: first sensor, second sensor;First sensor
For action sensor, second sensor is muscle sensor;Second sensor is first closed, first sensor is always maintained to be in and open
State is opened, after the arm action that first sensor detects matches default arm action, opens second sensor to detect hand
Whether finger movement matches default finger movement, and second sensor is closed after having detected finger movement;If described currently broadcast
Mode playback is the bone-conduction mode and the finger movement matches the default finger movement, triggers the bone-conduction microphone
The voice messaging that the wrist of the wearable device is passed back is worn in detection;It is identified described in matching from preset action command concentration
The target action of voice messaging instructs;Judge whether the target action instruction is specific action instruction, and the specific action refers to
Enable includes shutting down or restarting the wearable device;It instructs if it is the specific action, is tied up to the wearable device
Fixed mobile terminal sends inquiry message, the inquiry message for ask whether to allow the wearable device execute shutdown or
Person is restarted;The confirmation message for allowing to shut down or restart that the mobile terminal returns is received, the wearable device is executed
The target action instruction.
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CN111176421B (en) * | 2018-11-09 | 2023-07-07 | 奇酷互联网络科技(深圳)有限公司 | Wearable device, control method, control system and storage device thereof |
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