CN106788538A - The control method and wearable device of a kind of wearable device - Google Patents
The control method and wearable device of a kind of wearable device Download PDFInfo
- Publication number
- CN106788538A CN106788538A CN201611227154.XA CN201611227154A CN106788538A CN 106788538 A CN106788538 A CN 106788538A CN 201611227154 A CN201611227154 A CN 201611227154A CN 106788538 A CN106788538 A CN 106788538A
- Authority
- CN
- China
- Prior art keywords
- wearable device
- water environment
- contact person
- hydraulic pressure
- audio signal
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/38—Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
- H04B1/3827—Portable transceivers
- H04B1/385—Transceivers carried on the body, e.g. in helmets
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01L—MEASURING FORCE, STRESS, TORQUE, WORK, MECHANICAL POWER, MECHANICAL EFFICIENCY, OR FLUID PRESSURE
- G01L9/00—Measuring steady of quasi-steady pressure of fluid or fluent solid material by electric or magnetic pressure-sensitive elements; Transmitting or indicating the displacement of mechanical pressure-sensitive elements, used to measure the steady or quasi-steady pressure of a fluid or fluent solid material, by electric or magnetic means
-
- 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
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/38—Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
- H04B1/3827—Portable transceivers
- H04B1/385—Transceivers carried on the body, e.g. in helmets
- H04B2001/3861—Transceivers carried on the body, e.g. in helmets carried in a hand or on fingers
Landscapes
- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Environmental & Geological Engineering (AREA)
- Human Computer Interaction (AREA)
- Telephone Function (AREA)
- Telephone Set Structure (AREA)
- Details Of Audible-Bandwidth Transducers (AREA)
Abstract
The present embodiments relate to wearable device field, the control method and wearable device of a kind of wearable device are disclosed, the method includes:Detect whether the wearable device enters water environment;If detecting that the wearable device enters water environment, the hydraulic pressure value that the wearable device is subject in the water environment is detected;With the hydraulic pressure value as foundation, the amplitude parameter being directly proportional to the hydraulic pressure value is determined;The amplitude of audio signal to be played is adjusted according to the amplitude parameter under the bone-conduction mode of the wearable device, and the audio signal obtained after amplitude will be adjusted and be converted to vibration signal and transmitted by bone medium.Implement the embodiment of the present invention, the user of the wearable device sound that uppick wearable device is played in water environment can be made.
Description
Technical field
The present invention relates to wearable device field, more particularly to a kind of wearable device control method and wearable device.
Background technology
At present, increasing wearable device is supported to be used under water environment, is used for example, can be detected using intelligent watch
Swimming exercise data of the person in water environment.However, it has been found in practice that, including raising on the wearable device including intelligent watch
Sound device can be subject to influence of hydraulic pressure in water environment and cannot send sound, and this user for allowing for wearable device cannot be in water ring
The sound that uppick wearable device is played in border.
The content of the invention
The embodiment of the invention discloses the control method and wearable device of a kind of wearable device, making for wearable device can be made
User's sound that uppick wearable device is played in water environment.
Embodiment of the present invention first aspect discloses a kind of control method of wearable device, including:
Detect whether the wearable device enters water environment;
If detecting that the wearable device enters water environment, detect what the wearable device was subject in the water environment
Hydraulic pressure value;
With the hydraulic pressure value as foundation, the amplitude parameter being directly proportional to the hydraulic pressure value is determined;
The amplitude of audio signal to be played is adjusted according to the amplitude parameter under the bone-conduction mode of the wearable device,
And will adjust amplitude after obtain audio signal be converted to vibration signal and transmitted by bone medium.
As a kind of optional implementation method, in embodiment of the present invention first aspect, the wearable device is being detected
Into after water environment, and before the hydraulic pressure value that is subject in the water environment of the detection wearable device, the side
Method also includes:
Detect whether the wearable device occurs gesture motion in the water environment;
If there is gesture motion in the water environment in the wearable device, recognize the gesture motion whether with it is default
Match for triggering the gesture motion of hydraulic pressure detection, if matched, perform the described detection wearable device in institute
The step of stating the hydraulic pressure value being subject in water environment.
As a kind of optional implementation method, in embodiment of the present invention first aspect, the wearable device is being detected
Into after water environment, and before the hydraulic pressure value that is subject in the water environment of the detection wearable device, the side
Method also includes:
Detect the designated area of the wearable device in the water environment whether depressed power;
If the designated area of the wearable device depressed power in the water environment, whether the pressing force is recognized
In the range of the default pressing force for triggering hydraulic pressure detection, if it is, perform the described detection wearable device existing
The step of hydraulic pressure value being subject in the water environment.
As a kind of optional implementation method, in embodiment of the present invention first aspect, with the hydraulic pressure value as foundation,
After determining the amplitude parameter being directly proportional to the hydraulic pressure value, and according to institute under the bone-conduction mode of the wearable device
The amplitude that amplitude parameter adjusts audio signal to be played is stated, and the audio signal obtained after amplitude will be adjusted and be converted to vibration signal
And before being transmitted by bone medium, methods described also includes:
Detect whether the wearable device receives contact person's incoming call in the water environment;
If detecting that the wearable device receives contact person's incoming call in the water environment, the connection of the contact person is judged
It is whether the corresponding voice frequency of number is higher than to specify voice frequency, if the corresponding call frequency of the contact number of the contact person
Rate is higher than to specify voice frequency, using the audio signal of contact person incoming call as audio signal to be played;
Or, if detecting that the wearable device receives contact person's incoming call in the water environment, judge the contact
Whether the corresponding contact person's grade of contact number of people is higher than given level frequency, if the contact number correspondence of the contact person
Contact person's grade be higher than given level, the audio signal that the contact person is sent a telegram here is used as audio signal to be played;
Or, if detecting that the wearable device receives contact person's incoming call in the water environment, judge the contact
Whether the corresponding voice frequency of contact number of people is corresponding higher than the contact number of voice frequency and the contact person is specified
Be people's grade higher than given level, if the corresponding voice frequency of the contact number of the contact person be higher than specify voice frequency and
The corresponding contact person's grade of contact number of the contact person is higher than given level, and the audio signal that the contact person is sent a telegram here is made
It is audio signal to be played.
Used as a kind of optional implementation method, in embodiment of the present invention first aspect, methods described also includes:
Detect whether contact person's incoming call terminates;
If contact person's incoming call terminates, whether the wearable device is detected still in the water environment, if not, will
The play mode of the wearable device switches to speaker mode by the bone-conduction mode.
Embodiment of the present invention second aspect discloses a kind of wearable device, including:
Water environment detection unit, for detecting whether the wearable device enters water environment;
Hydraulic pressure detection unit, for the water environment detection unit detect the wearable device enter water environment when,
Detect the hydraulic pressure value that the wearable device is subject in the water environment;
Amplitude determining unit, for, as foundation, determining the amplitude being directly proportional to hydraulic pressure value ginseng with the hydraulic pressure value
Number;
Mode controlling unit, waits to broadcast for being adjusted according to the amplitude parameter under the bone-conduction mode of the wearable device
The amplitude of audio signal is put, and the audio signal obtained after amplitude will be adjusted and be converted to vibration signal and passed by bone medium
Pass.
Used as a kind of optional implementation method, in embodiment of the present invention second aspect, the wearable device also includes:
Motion detection unit, for the water environment detection unit detect the wearable device enter water environment it
Afterwards, detect whether the wearable device occurs gesture motion in the water environment, if the wearable device is in the water ring
There is gesture motion in border, recognize the gesture motion whether with the default gesture motion phase for triggering hydraulic pressure detection
Match somebody with somebody;
The hydraulic pressure detection unit, specifically for detecting that the wearable device enters water in the water environment detection unit
During environment, and the motion detection unit identifies that the gesture motion is moved with default for triggering the gesture of hydraulic pressure detection
When work matches, the hydraulic pressure value that the wearable device is subject in the water environment is detected.
Used as a kind of optional implementation method, in embodiment of the present invention second aspect, the wearable device also includes:
Touch detection unit, for the water environment detection unit detect the wearable device enter water environment it
Afterwards, detect the designated area of the wearable device in the water environment whether depressed power, if the wearable device
Designated area depressed power in the water environment, recognizes whether the pressing force is located at default for triggering hydraulic pressure detection
Pressing force in the range of;
The hydraulic pressure detection unit, specifically for detecting that the wearable device enters water in the water environment detection unit
During environment, and the touch detection unit identifies that the pressing force is located at the default pressing force for triggering hydraulic pressure detection
In the range of when, detect the hydraulic pressure value that the wearable device is subject in the water environment.
Used as a kind of optional implementation method, in embodiment of the present invention second aspect, the wearable device also includes:
Incoming call detection unit, in the amplitude determining unit with the hydraulic pressure value as foundation, determine and the water
After the amplitude parameter that pressure value is directly proportional, and the mode controlling unit under the bone-conduction mode of the wearable device according to
The amplitude parameter adjusts the amplitude of audio signal to be played, and will adjust the audio signal obtained after amplitude and be converted to vibration letter
Number and before being transmitted by bone medium, detect whether the wearable device receives contact person's incoming call in the water environment;
Incoming call judging unit, for detecting that the wearable device is received in the water environment in the incoming call detection unit
When being sent a telegram here to contact person, whether the corresponding voice frequency of contact number of the contact person is judged higher than voice frequency is specified, such as
The corresponding voice frequency of contact number of really described contact person is higher than to specify voice frequency, the audio letter that the contact person is sent a telegram here
Number as audio signal to be played;
Or, the incoming call judging unit, for detecting the wearable device described in the incoming call detection unit
When contact person's incoming call is received in water environment, judge the corresponding contact person's grade of contact number of the contact person whether higher than specified
Grade frequency, if the corresponding contact person's grade of the contact number of the contact person is higher than given level, the contact person is come
The audio signal of electricity is used as audio signal to be played;
Or, the incoming call judging unit, for detecting the wearable device described in the incoming call detection unit
When contact person's incoming call is received in water environment, judge whether the corresponding voice frequency of contact number of the contact person is logical higher than specifying
The corresponding contact person's grade of contact number of voice frequency rate and the contact person is higher than given level, if the contact of the contact person
The corresponding voice frequency of number is higher than that the specified corresponding contact person's grade of the contact number of voice frequency and the contact person is higher than
Given level, using the audio signal of contact person incoming call as audio signal to be played.
As a kind of optional implementation method, in embodiment of the present invention second aspect:
The incoming call detection unit, is additionally operable to detect whether contact person's incoming call terminates;
The water environment detection unit, is additionally operable to detect that contact person's incoming call terminates in the incoming call detection unit
When, detect the wearable device whether still in the water environment;
The mode switch element, is additionally operable to detect the wearable device not described in the water environment detection unit
When in water environment, the play mode of the wearable device is switched into speaker mode by the bone-conduction mode.
Compared with prior art, the embodiment of the present invention possesses following beneficial effect:
In the embodiment of the present invention, after detecting that wearable device enters water environment, wearable device can be detected in water ring
The hydraulic pressure value being subject in border, and determine the amplitude parameter being directly proportional to hydraulic pressure value;It is possible to further in the bone of wearable device
The amplitude of audio signal to be played is adjusted under conduction mode according to above-mentioned amplitude parameter, and the audio letter obtained after amplitude will be adjusted
Number be converted to vibration signal and transmitted by bone medium.On this basis, it is assumed that wearable device is worn on user's arm
Wrist at, and user be in water environment in when can will wear wearable device user's arm a certain finger (such as forefinger) top
Firmly ear root is so that ear's row is into closed sound chamber, so that vibration signal by bone medium can be conducted into ear and cause
Ear-drum produces resonance, such that it is able to the sound that uppick wearable device is played.Additionally, the embodiment of the present invention can be according to detecting
Hydraulic pressure value adjust the amplitude parameter of osteoacusis, allow user different water depth can uppick clearly sound effect, carry
Experience high.
Brief description of the drawings
Technical scheme in order to illustrate more clearly the embodiments of the present invention, below by to be used needed for embodiment
Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for ability
For the those of ordinary skill of domain, on the premise of not paying creative work, can also obtain other attached according to these accompanying drawings
Figure.
Fig. 1 is a kind of schematic flow sheet of the control method of wearable device disclosed in the embodiment of the present invention;
Fig. 2 is the schematic flow sheet of the control method of another wearable device disclosed in the embodiment of the present invention;
Fig. 3 is the schematic flow sheet of the control method of another wearable device disclosed in the embodiment of the present invention;
Fig. 4 is a kind of structural representation of wearable device disclosed in the embodiment of the present invention;
Fig. 5 is the structural representation of another wearable device disclosed in the embodiment of the present invention;
Fig. 6 is the structural representation of another wearable device disclosed in the embodiment of the present invention.
Specific embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.Based on this
Embodiment in invention, the every other reality that those of ordinary skill in the art are obtained under the premise of creative work is not made
Example is applied, the scope of protection of the invention is belonged to.
The embodiment of the invention discloses the control method and wearable device of a kind of wearable device, making for wearable device can be made
User's sound that uppick wearable device is played in water environment.Accompanying drawing is below combined to be described in detail.
Embodiment one
Fig. 1 is referred to, Fig. 1 is a kind of schematic flow sheet of the control method of wearable device disclosed in the embodiment of the present invention.
As shown in figure 1, the control method of the wearable device may comprise steps of:
101st, whether wearable device detection wearable device enters water environment, if it is, performing step 102;If not, terminating
This flow.
In the embodiment of the present invention, wearable device can be including the water-proof function that possesses including intelligent watch, Intelligent bracelet
Wearing product, the embodiment of the present invention is not construed as limiting.Wherein, wearable device can be the wearable device for possessing independent communication ability,
Can also be communicatively coupled to be used as communication equipment by the communication equipment such as the wireless modes such as bluetooth, Wi-Fi and mobile phone, flat board
A kind of wearing product that assistant is present, the embodiment of the present invention is not construed as limiting.
Used as a kind of optional implementation method, wearable device (can be sensed by water environment detection module also known as water environment
Device) come detect wearable device whether enter water environment, if it is, perform step 102;If not, terminating this flow.
102nd, the hydraulic pressure value that wearable device detection wearable device is subject in water environment.
In the embodiment of the present invention, the water that wearable device can be subject to come wearable device using hydraulic pressure sensor in water environment
Pressure value.
103rd, wearable device determines the amplitude parameter being directly proportional to above-mentioned hydraulic pressure value with above-mentioned hydraulic pressure value as foundation.
In the embodiment of the present invention, when above-mentioned hydraulic pressure value is bigger, the amplitude parameter determined is higher;Conversely, above-mentioned hydraulic pressure value
More hour, the amplitude parameter determined is smaller.
104th, wearable device adjusts audio to be played and believes under the bone-conduction mode of wearable device according to above-mentioned amplitude parameter
Number amplitude, and will adjust amplitude after obtain audio signal be converted to vibration signal and transmitted by bone medium.
In the embodiment of the present invention, wearable device bottom (being contacted with wrist skin of soft tissue) can be provided with body conduction
Part (Body Conduction Unit, BCU), wherein, body conducting parts are also referred to as osteoacusis module, bone conduction vibrator
Or osteoacusis loudspeaker;Correspondingly, wearable device can trigger the startup of body conducting parts, to realize the osteoacusis in wearable device
The amplitude of audio signal to be played is adjusted under pattern according to above-mentioned amplitude parameter, and the audio signal obtained after amplitude will be adjusted and passed
It is handed to body conducting parts so that body conducting parts can will adjust the audio signal obtained after amplitude and be converted to vibration signal
And transmitted by bone medium.Wherein, the vibration of vibration signal is a kind of pure physical vibration, will not produce danger to body
Evil.
Used as a kind of optional implementation method, wearable device is joined under the bone-conduction mode of wearable device according to above-mentioned amplitude
Counting the mode of the amplitude of adjustment audio signal to be played can be:
Audio signal to be played can be carried out discrete Fourier change by wearable device under the bone-conduction mode of wearable device
(Discrete Fourier Transform) is changed, and above-mentioned amplitude parameter is inserted into above-mentioned by DFT
Signal in, to generate the first signal;And, wearable device can carry out inverse discrete fourier transform by the first signal
(Reverse Discrete Fourier Transform), to generate the audio signal obtained after adjustment amplitude.
In the control method of the wearable device described by Fig. 1, it is assumed that wearable device is worn on the wrist of user's arm
Place, and a certain finger (such as forefinger) of user's arm for wearing wearable device can be withstood ear when being in water environment by user
Root is so that ear's row is into closed sound chamber, so that vibration signal by bone medium can be conducted into ear and cause ear-drum to produce
Raw resonance, such that it is able to the sound that uppick wearable device is played.Additionally, the control method of the wearable device described by Fig. 1 can
To adjust the amplitude parameter of osteoacusis according to the hydraulic pressure value for detecting, allow user different water depth can uppick clearly
Sound effect, improves experience.
Embodiment two
Fig. 2 is referred to, Fig. 2 is that the flow of the control method of another wearable device disclosed in the embodiment of the present invention is illustrated
Figure.As shown in Fig. 2 the control method of the wearable device may comprise steps of:
201st, whether wearable device detection wearable device enters water environment, if it is, performing step 202;If not, terminating
This flow.
202nd, whether wearable device detection wearable device there is gesture motion in water environment, if it is, performing step
203;If not, terminating this flow.
203rd, wearable device recognizes whether the gesture motion matches with for triggering the gesture motion of hydraulic pressure detection, if
It is to perform step 204~step 206;If not, terminating this flow.
204th, the hydraulic pressure value that wearable device detection wearable device is subject in water environment.
205th, wearable device determines the amplitude parameter being directly proportional to above-mentioned hydraulic pressure value with above-mentioned hydraulic pressure value as foundation.
206th, whether wearable device detection wearable device receives contact person's incoming call in water environment, if it is, performing step
207;If not, terminating this flow.
207th, whether wearable device judges the corresponding voice frequency of the contact number of contact person higher than voice frequency is specified, such as
Fruit is to perform step 208~step 210;If not, terminating this flow.
Used as a kind of optional implementation method, in above-mentioned steps 207, wearable device is judging the contact number pair of contact person
The voice frequency answered is higher than that wearable device can also judge that the current battery charge of wearable device itself is when specifying voice frequency
It is no less than target power threshold, if it is, wearable device just performs step 208~step 210;If not, terminating this flow.Its
In, target power threshold can be obtained in the following manner, i.e.,:
Wearable device can determine the contact number pair of contact person according to the corresponding voice frequency of the contact number of contact person
The power threshold incrementss of the voice frequency matching answered, and wearable device can be by preset initial quantity of electricity threshold value and the electricity
Threshold value incrementss are added up, and using accumulation result as target power threshold.Wherein, the contact number of contact person is corresponding logical
Voice frequency rate and power threshold incrementss direct proportionality.
In the embodiment of the present invention, implementing aforesaid way can be conversed in wearable device with the contact person of frequently conversing
When, neatly increase preset initial quantity of electricity threshold value, judge the current of wearable device itself such that it is able to improve wearable device
Battery electric quantity switches to bone-conduction mode and is led to less than the probability of target power threshold such that it is able to improve control wearable device
The probability of words.Only need faint vibration information because ear-drum produces resonance, thus under bone-conduction mode wearable device only need by
Call audio signal is converted to faint vibration signal and is transmitted by bone medium and is capable of achieving communication effect, such that it is able to
The air time extended between the user and the contact person of frequently conversing of wearable device.
Used as a kind of optional implementation method, above-mentioned steps 207 can replace in the following ways, i.e.,:
Whether wearable device judges the corresponding contact person's grade of the contact number of contact person higher than given level frequency, if
The corresponding contact person's grade of contact number of contact person is higher than given level, performs step 208~step 210;If not, terminating
This flow.
Further, wearable device is higher than given level in the corresponding contact person's grade of contact number for judging contact person
During frequency, whether wearable device can also judge the current battery charge of wearable device itself less than target power threshold, if
It is that wearable device just performs step 208~step 210;If not, terminating this flow.Wherein, target power threshold can pass through
In the following manner is obtained, i.e.,:
Wearable device can determine the contact number of contact person according to the corresponding contact person's grade of the contact number of contact person
The power threshold incrementss of corresponding contact person's ratings match, and wearable device can by preset initial quantity of electricity threshold value with should
Power threshold incrementss are added up, and using accumulation result as target power threshold.Wherein, the contact number correspondence of contact person
Contact person's grade and power threshold incrementss direct proportionality.
In the embodiment of the present invention, implementing aforesaid way can be conversed in wearable device with higher ranked contact person
When, neatly increase preset initial quantity of electricity threshold value, judge the current of wearable device itself such that it is able to improve wearable device
Battery electric quantity switches to bone-conduction mode and is led to less than the probability of target power threshold such that it is able to improve control wearable device
The probability of words.Only need faint vibration information because ear-drum produces resonance, thus under bone-conduction mode wearable device only need by
Call audio signal is converted to faint vibration signal and is transmitted by bone medium and is capable of achieving communication effect, such that it is able to
The air time extended between the user and higher ranked contact person of wearable device.
Used as a kind of optional implementation method, above-mentioned steps 207 can replace in the following ways, i.e.,:
Whether wearable device judges the corresponding voice frequency of the contact number of contact person higher than specified voice frequency and contact
The corresponding contact person's grade of contact number of people is higher than given level, if the corresponding voice frequency of the contact number of contact person is high
It is higher than given level in the corresponding contact person's grade of the specified contact number of voice frequency and the contact person, performs step 208
~step 210;If not, if not, terminating this flow.
208th, the audio signal that wearable device sends a telegram here above-mentioned contact person is used as audio signal to be played.
209th, wearable device adjusts the amplitude of audio signal to be played under bone-conduction mode according to above-mentioned amplitude parameter, and
The audio signal obtained after amplitude will be adjusted to be converted to vibration signal and transmitted by bone medium.
210th, whether wearable device detection contact person incoming call terminates, if it is, performing step 211;If not, continuing executing with
Step 208.
211st, whether wearable device detects wearable device still in water environment, if it is, performing step 302;If not, holding
Row step 212.
212nd, the play mode of wearable device is switched to speaker mode by wearable device by above-mentioned bone-conduction mode.
In the control method of the wearable device described by Fig. 2, it is assumed that wearable device is worn on the wrist of user's arm
Place, and a certain finger (such as forefinger) of user's arm for wearing wearable device can be withstood ear when being in water environment by user
Root is so that ear's row is into closed sound chamber, so that vibration signal by bone medium can be conducted into ear and cause ear-drum to produce
Raw resonance, such that it is able to the sound that uppick wearable device is played.Additionally, the control method of the wearable device described by Fig. 2 can
To adjust the amplitude parameter of osteoacusis according to the hydraulic pressure value for detecting, allow user different water depth can uppick clearly
Sound effect, improves experience.
Embodiment three
Fig. 3 is referred to, Fig. 3 is that the flow of the control method of another wearable device disclosed in the embodiment of the present invention is illustrated
Figure.As shown in figure 3, the control method of the wearable device may comprise steps of:
301st, whether wearable device detection wearable device enters water environment, if it is, performing step 302;If not, terminating
This flow.
302nd, wearable device detection wearable device designated area in water environment whether depressed power, if it is, holding
Row step 303;If not, terminating this flow.
303rd, wearable device recognizes whether the pressing force is located in the range of the default pressing force for triggering hydraulic pressure detection,
If it is, performing step 304~step 306;If not, terminating this flow.
304th, the hydraulic pressure value that wearable device detection wearable device is subject in water environment.
305th, wearable device determines the amplitude parameter being directly proportional to above-mentioned hydraulic pressure value with above-mentioned hydraulic pressure value as foundation.
306th, whether wearable device detection wearable device receives contact person's incoming call in water environment, if it is, performing step
307;If not, terminating this flow.
307th, whether wearable device judges the corresponding voice frequency of the contact number of contact person higher than voice frequency is specified, such as
Fruit is to perform step 308~step 310;If not, terminating this flow.
Used as a kind of optional implementation method, in above-mentioned steps 307, wearable device is judging the contact number pair of contact person
The voice frequency answered is higher than that wearable device can also judge that the current battery charge of wearable device itself is when specifying voice frequency
It is no less than target power threshold, if it is, wearable device just performs step 308~step 310;If not, terminating this flow.Its
In, target power threshold can be obtained in the following manner, i.e.,:
Wearable device can determine the contact number pair of contact person according to the corresponding voice frequency of the contact number of contact person
The power threshold incrementss of the voice frequency matching answered, and wearable device can be by preset initial quantity of electricity threshold value and the electricity
Threshold value incrementss are added up, and using accumulation result as target power threshold.Wherein, the contact number of contact person is corresponding logical
Voice frequency rate and power threshold incrementss direct proportionality.
In the embodiment of the present invention, implementing aforesaid way can be conversed in wearable device with the contact person of frequently conversing
When, neatly increase preset initial quantity of electricity threshold value, judge the current of wearable device itself such that it is able to improve wearable device
Battery electric quantity switches to bone-conduction mode and is led to less than the probability of target power threshold such that it is able to improve control wearable device
The probability of words.Only need faint vibration information because ear-drum produces resonance, thus under bone-conduction mode wearable device only need by
Call audio signal is converted to faint vibration signal and is transmitted by bone medium and is capable of achieving communication effect, such that it is able to
The air time extended between the user and the contact person of frequently conversing of wearable device.
Used as a kind of optional implementation method, above-mentioned steps 307 can replace in the following ways, i.e.,:
Whether wearable device judges the corresponding contact person's grade of the contact number of contact person higher than given level frequency, if
The corresponding contact person's grade of contact number of contact person is higher than given level, performs step 308~step 310;If not, terminating
This flow.
Further, wearable device is higher than given level in the corresponding contact person's grade of contact number for judging contact person
During frequency, whether wearable device can also judge the current battery charge of wearable device itself less than target power threshold, if
It is that wearable device just performs step 308~step 310;If not, terminating this flow.Wherein, target power threshold can pass through
In the following manner is obtained, i.e.,:
Wearable device can determine the contact number of contact person according to the corresponding contact person's grade of the contact number of contact person
The power threshold incrementss of corresponding contact person's ratings match, and wearable device can by preset initial quantity of electricity threshold value with should
Power threshold incrementss are added up, and using accumulation result as target power threshold.Wherein, the contact number correspondence of contact person
Contact person's grade and power threshold incrementss direct proportionality.
In the embodiment of the present invention, implementing aforesaid way can be conversed in wearable device with higher ranked contact person
When, neatly increase preset initial quantity of electricity threshold value, judge the current of wearable device itself such that it is able to improve wearable device
Battery electric quantity switches to bone-conduction mode and is led to less than the probability of target power threshold such that it is able to improve control wearable device
The probability of words.Only need faint vibration information because ear-drum produces resonance, thus under bone-conduction mode wearable device only need by
Call audio signal is converted to faint vibration signal and is transmitted by bone medium and is capable of achieving communication effect, such that it is able to
The air time extended between the user and higher ranked contact person of wearable device.
Used as a kind of optional implementation method, above-mentioned steps 307 can replace in the following ways, i.e.,:
Whether wearable device judges the corresponding voice frequency of the contact number of contact person higher than specified voice frequency and contact
The corresponding contact person's grade of contact number of people is higher than given level, if the corresponding voice frequency of the contact number of contact person is high
It is higher than given level in the corresponding contact person's grade of the specified contact number of voice frequency and the contact person, performs step 308
~step 310;If not, if not, terminating this flow.
308th, the audio signal that wearable device sends a telegram here above-mentioned contact person is used as audio signal to be played.
309th, wearable device adjusts the amplitude of audio signal to be played under bone-conduction mode according to above-mentioned amplitude parameter, and
The audio signal obtained after amplitude will be adjusted to be converted to vibration signal and transmitted by bone medium.
310th, whether wearable device detection contact person incoming call terminates, if it is, performing step 311;If not, continuing executing with
Step 308.
311st, whether wearable device detects wearable device still in water environment, if it is, performing step 302;If not, holding
Row step 312.
312nd, the play mode of wearable device is switched to speaker mode by wearable device by above-mentioned bone-conduction mode.
In the control method of the wearable device described by Fig. 3, it is assumed that wearable device is worn on the wrist of user's arm
Place, and a certain finger (such as forefinger) of user's arm for wearing wearable device can be withstood ear when being in water environment by user
Root is so that ear's row is into closed sound chamber, so that vibration signal by bone medium can be conducted into ear and cause ear-drum to produce
Raw resonance, such that it is able to the sound that uppick wearable device is played.Additionally, the control method of the wearable device described by Fig. 3 can
To adjust the amplitude parameter of osteoacusis according to the hydraulic pressure value for detecting, allow user different water depth can uppick clearly
Sound effect, improves experience.
Example IV
Fig. 4 is referred to, Fig. 4 is a kind of structural representation of wearable device disclosed in the embodiment of the present invention.As shown in figure 4,
The wearable device includes:
Water environment detection unit 401, for detecting whether wearable device enters water environment;
Hydraulic pressure detection unit 402, for when water environment detection unit 401 detects that wearable device enters water environment, examining
Survey the hydraulic pressure value that wearable device is subject in water environment;
Amplitude determining unit 403, as foundation, the amplitude being directly proportional to above-mentioned hydraulic pressure value is determined for above-mentioned hydraulic pressure value
Parameter;
Mode controlling unit 404, waits to broadcast for being adjusted according to above-mentioned amplitude parameter under the bone-conduction mode of wearable device
The amplitude of audio signal is put, and the audio signal obtained after amplitude will be adjusted and be converted to vibration signal and passed by bone medium
Pass.
Where it is assumed that the wearable device described by Fig. 4 is worn at the wrist of user's arm, and user is in water environment
The a certain finger (such as forefinger) for wearing user's arm of wearable device can be withstood ear root so that ear's row is into close when middle
Sound chamber is closed, so that vibration signal can be conducted into ear and cause ear-drum to produce by bone medium resonate, such that it is able to receive
Hear the sound that wearable device is played.Additionally, the wearable device described by Fig. 4 can adjust bone according to the hydraulic pressure value for detecting
The amplitude parameter of conduction, allow user different water depth can uppick clearly sound effect, improve experience.
Embodiment five
Fig. 5 is referred to, Fig. 5 is the structural representation of another wearable device disclosed in the embodiment of the present invention.Wherein, Fig. 5
Shown wearable device is that wearable device as shown in Figure 4 optimizes what is obtained.Compared with the wearable device shown in 4, Fig. 5 institutes
The wearable device for showing also includes motion detection unit 405 or touch detection unit 406:
Motion detection unit 405, for detecting that wearable device enters after water environment in water environment detection unit 401,
Whether detection wearable device there is gesture motion in water environment, if wearable device occurs gesture motion in water environment, know
Whether the gesture motion does not match with default for triggering the gesture motion of hydraulic pressure detection;
Touch detection unit 406, for detecting that wearable device enters after water environment in water environment detection unit 401,
Detect wearable device designated area in water environment whether depressed power, if the designated area of wearable device is in water environment
In depressed power, recognize the pressing force whether be located at it is default for trigger hydraulic pressure detection pressing force in the range of;
Correspondingly, hydraulic pressure detection unit 402 in water environment detection unit 401 specifically for detecting that wearable device enters water
During environment, and motion detection unit 405 identifies gesture motion with the default gesture motion phase for triggering hydraulic pressure detection
During matching, the hydraulic pressure value that detection wearable device is subject in water environment;
Or, hydraulic pressure detection unit 402 in water environment detection unit 401 specifically for detecting that wearable device enters water ring
During border, and touch detection unit 406 identifies that pressing force is located in the range of the default pressing force for triggering hydraulic pressure detection
When, the hydraulic pressure value that detection wearable device is subject in water environment.
Used as a kind of optional implementation method, the wearable device shown in Fig. 5 can also include:
Incoming call detection unit 407, in amplitude determining unit 403 with above-mentioned hydraulic pressure value as foundation, determine with it is above-mentioned
After the amplitude parameter that hydraulic pressure value is directly proportional, and mode controlling unit 404 under the bone-conduction mode of wearable device according to upper
The amplitude that amplitude parameter adjusts audio signal to be played is stated, and the audio signal obtained after amplitude will be adjusted and be converted to vibration signal
And before being transmitted by bone medium, whether detection wearable device receives contact person's incoming call in water environment;
Incoming call judging unit 408, for detecting that wearable device receives contact in water environment in incoming call detection unit 407
When people sends a telegram here, whether the corresponding voice frequency of contact number for judging contact person is higher than to specify voice frequency, if contact person
The corresponding voice frequency of contact number is higher than to specify voice frequency, and the audio signal that contact person sends a telegram here is believed as audio to be played
Number;
Used as a kind of optional implementation method, incoming call judging unit 408 is corresponding in the contact number for judging contact person
Voice frequency is higher than when specifying voice frequency, it can be determined that whether the current battery charge of wearable device itself is less than target electricity
Threshold value, if it is, just using the audio signal of contact person's incoming call as audio signal to be played;Wherein, target power threshold can be with
Obtain in the following manner, i.e.,:
Incoming call judging unit 408 can determine the connection of contact person according to the corresponding voice frequency of the contact number of contact person
It is the power threshold incrementss of the corresponding voice frequency matching of number, and wearable device can be by preset initial quantity of electricity threshold value
Added up with the power threshold incrementss, and using accumulation result as target power threshold.Wherein, the contact number of contact person
Corresponding voice frequency and power threshold incrementss direct proportionality.
In the embodiment of the present invention, implementing aforesaid way can be conversed in wearable device with the contact person of frequently conversing
When, neatly increase preset initial quantity of electricity threshold value, judge the current of wearable device itself such that it is able to improve wearable device
Battery electric quantity switches to bone-conduction mode and is led to less than the probability of target power threshold such that it is able to improve control wearable device
The probability of words.Only need faint vibration information because ear-drum produces resonance, thus under bone-conduction mode wearable device only need by
Call audio signal is converted to faint vibration signal and is transmitted by bone medium and is capable of achieving communication effect, such that it is able to
The air time extended between the user and the contact person of frequently conversing of wearable device.
Or, judging unit 408 of sending a telegram here, for detecting that wearable device is received in water environment in incoming call detection unit 407
When being sent a telegram here to contact person, whether the corresponding contact person's grade of contact number of contact person is judged higher than given level frequency, if
The corresponding contact person's grade of contact number of contact person is higher than given level frequency, and the audio signal that contact person is sent a telegram here is used as treating
Playing audio signal;
Used as a kind of optional implementation method, incoming call judging unit 408 is corresponding in the contact number for judging contact person
When contact person's grade is higher than given level, it can be determined that whether the current battery charge of wearable device itself is less than target electricity threshold
Value, if it is, just using the audio signal of contact person's incoming call as audio signal to be played;Wherein, target power threshold can lead to
In the following manner acquisition is crossed, i.e.,:
Incoming call judging unit 408 can determine the connection of contact person according to the corresponding voice frequency of the contact number of contact person
It is the power threshold incrementss of the corresponding voice frequency matching of number, and wearable device can be by preset initial quantity of electricity threshold value
Added up with the power threshold incrementss, and using accumulation result as target power threshold.Wherein, the contact number of contact person
Corresponding voice frequency and power threshold incrementss direct proportionality.
In the embodiment of the present invention, implementing aforesaid way can be conversed in wearable device with the contact person of frequently conversing
When, neatly increase preset initial quantity of electricity threshold value, judge the current of wearable device itself such that it is able to improve wearable device
Battery electric quantity switches to bone-conduction mode and is led to less than the probability of target power threshold such that it is able to improve control wearable device
The probability of words.Only need faint vibration information because ear-drum produces resonance, thus under bone-conduction mode wearable device only need by
Call audio signal is converted to faint vibration signal and is transmitted by bone medium and is capable of achieving communication effect, such that it is able to
The air time extended between the user and the contact person of frequently conversing of wearable device.
Or, judging unit 408 of sending a telegram here, for detecting that wearable device is received in water environment in incoming call detection unit 407
When being sent a telegram here to contact person, judge the corresponding voice frequency of contact number of contact person whether higher than specified voice frequency and contact person
The corresponding contact person's grade of contact number be higher than given level, if the corresponding voice frequency of the contact number of contact person is higher than
It is higher than given level, the audio that contact person is sent a telegram here to specify the corresponding contact person's grade of the contact number of voice frequency and contact person
Signal is used as audio signal to be played.
As a kind of optional implementation method, in the wearable device shown in Fig. 5:
Incoming call detection unit 407, is additionally operable to whether detection contact person's incoming call terminates;
Correspondingly, water environment detection unit 401 is additionally operable to detect that contact person's incoming call terminates in incoming call detection unit 407
When, whether detection wearable device is still in the water environment;
Correspondingly, mode switch element 404 is additionally operable to detect wearable device not in water ring in water environment detection unit 401
When in border, the play mode of wearable device is switched into speaker mode by above-mentioned bone-conduction mode.
Where it is assumed that the wearable device described by Fig. 5 is worn at the wrist of user's arm, and user is in water environment
The a certain finger (such as forefinger) for wearing user's arm of wearable device can be withstood ear root so that ear's row is into close when middle
Sound chamber is closed, so that vibration signal can be conducted into ear and cause ear-drum to produce by bone medium resonate, such that it is able to receive
Hear the sound that wearable device is played.Additionally, the control method of the wearable device described by Fig. 3 can be according to the hydraulic pressure for detecting
Value adjusts the amplitude parameter of osteoacusis, allow user different water depth can uppick clearly sound effect, raising uses
Experience.
Embodiment six
Fig. 6 is referred to, Fig. 6 is the structural representation of another wearable device disclosed in the embodiment of the present invention.Wherein, Fig. 6
Shown wearable device is a kind of wearable device for possessing water-proof function.As shown in fig. 6, the wearable device can include microcontroller
Unit (MCU) 601, communication module 602, battery 603, water environment sensor 604, hydraulic pressure sensor 605, bone conduction vibrator 606,
Loudspeaker 607, action sensor 608, memory module 609 and touch sensor 610;Wherein, communication module 602, battery
603rd, water environment sensor 604, hydraulic pressure sensor 605, bone conduction vibrator 606, loudspeaker 607, action sensor 608, storage
Module 609 and touch sensor 610 are electrically connected with micro-control unit 601 respectively.
Wherein, micro-control unit 601 is used for:
Whether enter water environment using the detection of water environment sensor 604 wearable device;
If detecting that wearable device enters water environment, detect wearable device in water environment using hydraulic pressure sensor 605
The hydraulic pressure value being subject to;
With hydraulic pressure value as foundation, the amplitude parameter being directly proportional to above-mentioned hydraulic pressure value is determined from memory module 609;
The amplitude of audio signal to be played is adjusted according to above-mentioned amplitude parameter under the bone-conduction mode of wearable device, and is led to
Cross bone conduction vibrator 606 will adjust amplitude after obtain audio signal be converted to vibration signal and transmitted by bone medium.
As a kind of optional implementation method, detecting that wearable device enters water environment using water environment sensor 604
Afterwards, before and detecting the hydraulic pressure value that wearable device is subject in water environment using hydraulic pressure sensor 605, micro-control unit
601 are additionally operable to perform following operation:
Whether there is gesture motion in water environment using the detection wearable device of action sensor 608;
If wearable device occurs gesture motion in water environment, whether identification gesture motion is default with memory module 609
For trigger hydraulic pressure detection gesture motion match, if matched, just using hydraulic pressure sensor 605 detect wearable device
The hydraulic pressure value being subject in water environment.
As a kind of optional implementation method, detecting that wearable device enters water environment using water environment sensor 604
Afterwards, before and detecting the hydraulic pressure value that wearable device is subject in water environment using hydraulic pressure sensor 605, micro-control unit
601 are additionally operable to perform following operation:
Using touch sensor 610 detection wearable device designated area in water environment whether depressed power;
If the designated area of wearable device depressed power in the water environment, whether identification pressing force is located at storage
In the range of the default pressing force for triggering hydraulic pressure detection of module 609, if it is, just being worn using the detection of hydraulic pressure sensor 605
Wear the hydraulic pressure value that equipment is subject in water environment.
As a kind of optional implementation method, as foundation, determined from memory module 609 and water with above-mentioned hydraulic pressure value
After the amplitude parameter that pressure value is directly proportional, and adjusted according to above-mentioned amplitude parameter under the bone-conduction mode of wearable device and wait to broadcast
The amplitude of audio signal is put, and the audio signal obtained after bone conduction vibrator 606 will adjust amplitude is converted to vibration signal
And before being transmitted by bone medium, micro-control unit 601 is additionally operable to perform following operation:
Sent a telegram here using whether the detection wearable device of communication module 602 receives contact person in water environment;
If detecting that wearable device receives contact person's incoming call in water environment, judge that the contact number of contact person is corresponding
Voice frequency whether higher than the specified voice frequency in memory module 609, if the corresponding call frequency of the contact number of contact person
Rate is higher than to specify voice frequency, using the audio signal of contact person's incoming call as audio signal to be played;
Or, if detecting that wearable device receives contact person's incoming call in water environment, judge the contact number of contact person
Corresponding contact person's grade whether higher than the given level frequency in memory module 609, if the contact number correspondence of contact person
Contact person's grade be higher than given level, the audio signal that contact person is sent a telegram here is used as audio signal to be played;
Or, if detecting that wearable device receives contact person's incoming call in water environment, judge the contact number of contact person
Whether corresponding voice frequency is higher than the corresponding contact of the contact number of specified voice frequency and contact person in memory module 609
People's grade is higher than the given level in memory module 609, if the corresponding voice frequency of the contact number of contact person is higher than specified
The corresponding contact person's grade of contact number of voice frequency and contact person is higher than given level, the audio signal that contact person is sent a telegram here
As audio signal to be played.
Used as a kind of optional implementation method, micro-control unit 601 is additionally operable to perform following operation:
Whether terminated using the detection contact person's incoming call of communication module 609;
If contact person's incoming call terminates, whether wearable device is detected still in water environment, such as using water environment sensor 604
It is really no, the play mode of wearable device is switched into speaker mode by above-mentioned bone-conduction mode.
Where it is assumed that the wearable device described by Fig. 6 is worn at the wrist of user's arm, and user is in water environment
The a certain finger (such as forefinger) for wearing user's arm of wearable device can be withstood ear root so that ear's row is into close when middle
Sound chamber is closed, so that vibration signal can be conducted into ear and cause ear-drum to produce by bone medium resonate, such that it is able to receive
Hear the sound that wearable device is played.Additionally, the control method of the wearable device described by Fig. 3 can be according to the hydraulic pressure for detecting
Value adjusts the amplitude parameter of osteoacusis, allow user different water depth can uppick clearly sound effect, raising uses
Experience.
One of ordinary skill in the art will appreciate that all or part of step in the various methods of above-described embodiment is can
Completed with instructing the hardware of correlation by program, the program can be stored in a computer-readable recording medium, storage
Medium include read-only storage (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 storage (One-
Time Programmable Read-Only Memory, OTPROM), the electronics formula of erasing can make carbon copies read-only storage
(Electrically-Erasable Programmable Read-Only Memory, EEPROM), read-only optical disc (Compact
Disc Read-Only Memory, CD-ROM) or other disk storages, magnetic disk storage, magnetic tape storage or can
For carrying or computer-readable any other medium of data storage.
The control method and wearable device to a kind of wearable device disclosed in the embodiment of the present invention have carried out detailed Jie above
Continue, specific case used herein is set forth to principle of the invention and implementation method, the explanation of above example is only
It is to be used to help understand the method for the present invention and its core concept;Simultaneously for those of ordinary skill in the art, according to this hair
Bright thought, be will change in specific embodiments and applications, and in sum, this specification content should not be managed
It is limitation of the present invention to solve.
Claims (10)
1. a kind of control method of wearable device, it is characterised in that including:
Detect whether the wearable device enters water environment;
If detecting that the wearable device enters water environment, the hydraulic pressure that the wearable device is subject in the water environment is detected
Value;
With the hydraulic pressure value as foundation, the amplitude parameter being directly proportional to the hydraulic pressure value is determined;
The amplitude of audio signal to be played is adjusted according to the amplitude parameter under the bone-conduction mode of the wearable device, and will
The audio signal obtained after adjustment amplitude is converted to vibration signal and is transmitted by bone medium.
2. control method according to claim 1, it is characterised in that detect the wearable device enter water environment it
Afterwards, and before the hydraulic pressure value that is subject in the water environment of the detection wearable device, methods described also includes:
Detect whether the wearable device occurs gesture motion in the water environment;
If there is gesture motion in the water environment in the wearable device, recognize the gesture motion whether with default use
Match in the gesture motion of triggering hydraulic pressure detection, if matched, perform the described detection wearable device in the water
The step of hydraulic pressure value being subject in environment.
3. control method according to claim 1, it is characterised in that detect the wearable device enter water environment it
Afterwards, and before the hydraulic pressure value that is subject in the water environment of the detection wearable device, methods described also includes:
Detect the designated area of the wearable device in the water environment whether depressed power;
If the designated area of the wearable device depressed power in the water environment, recognize whether the pressing force is located at
In the range of the default pressing force for triggering hydraulic pressure detection, if it is, performing the described detection wearable device described
The step of hydraulic pressure value being subject in water environment.
4. the control method according to any one of claims 1 to 3, it is characterised in that with the hydraulic pressure value as foundation, really
After making the amplitude parameter being directly proportional to the hydraulic pressure value, and according to described under the bone-conduction mode of the wearable device
Amplitude parameter adjusts the amplitude of audio signal to be played, and will adjust the audio signal obtained after amplitude and be converted to vibration signal simultaneously
Before being transmitted by bone medium, methods described also includes:
Detect whether the wearable device receives contact person's incoming call in the water environment;
If detecting that the wearable device receives contact person's incoming call in the water environment, the contact number of the contact person is judged
Whether the corresponding voice frequency of code is higher than to specify voice frequency, if the corresponding voice frequency of the contact number of the contact person is high
In specified voice frequency, using the audio signal of contact person incoming call as audio signal to be played;
Or, if detecting that the wearable device receives contact person's incoming call in the water environment, judge the contact person's
Whether the corresponding contact person's grade of contact number is higher than given level frequency, if the contact number of the contact person is corresponding
It is that people's grade is higher than given level, using the audio signal of contact person incoming call as audio signal to be played;
Or, if detecting that the wearable device receives contact person's incoming call in the water environment, judge the contact person's
Whether the corresponding voice frequency of contact number is higher than the corresponding contact person of the specified contact number of voice frequency and the contact person
Grade is higher than given level, if the corresponding voice frequency of the contact number of the contact person is higher than to specify voice frequency and described
The corresponding contact person's grade of contact number of contact person is higher than given level, and the audio signal that the contact person is sent a telegram here is used as treating
Playing audio signal.
5. control method according to claim 4, it is characterised in that methods described also includes:
Detect whether contact person's incoming call terminates;
If contact person's incoming call terminates, whether the wearable device is detected still in the water environment, if not, will be described
The play mode of wearable device switches to speaker mode by the bone-conduction mode.
6. a kind of wearable device, it is characterised in that including:
Water environment detection unit, for detecting whether the wearable device enters water environment;
Hydraulic pressure detection unit, for when the water environment detection unit detects that the wearable device enters water environment, detecting
The hydraulic pressure value that the wearable device is subject in the water environment;
Amplitude determining unit, as foundation, the amplitude parameter being directly proportional to the hydraulic pressure value is determined for the hydraulic pressure value;
Mode controlling unit, for adjusting sound to be played according to the amplitude parameter under the bone-conduction mode of the wearable device
The amplitude of frequency signal, and will adjust amplitude after obtain audio signal be converted to vibration signal and transmitted by bone medium.
7. wearable device according to claim 6, it is characterised in that also include:
Motion detection unit, for detecting that the wearable device enters after water environment in the water environment detection unit, inspection
Survey whether the wearable device occurs gesture motion in the water environment, if the wearable device is sent out in the water environment
Raw gesture motion, recognizes whether the gesture motion matches with default for triggering the gesture motion of hydraulic pressure detection;
The hydraulic pressure detection unit, specifically for detecting that the wearable device enters water environment in the water environment detection unit
When, and the motion detection unit identify the gesture motion with it is default for trigger hydraulic pressure detection gesture motion phase
During matching, the hydraulic pressure value that the wearable device is subject in the water environment is detected.
8. wearable device according to claim 7, it is characterised in that also include:
Touch detection unit, for detecting that the wearable device enters after water environment in the water environment detection unit, inspection
Survey the designated area of the wearable device in the water environment whether depressed power, if the specified area of the wearable device
Domain depressed power in the water environment, recognizes whether the pressing force is located at the default pressing for triggering hydraulic pressure detection
In the range of power;
The hydraulic pressure detection unit, specifically for detecting that the wearable device enters water environment in the water environment detection unit
When, and the touch detection unit identify the pressing force be located at it is default for trigger hydraulic pressure detection pressing force scope
When interior, the hydraulic pressure value that the wearable device is subject in the water environment is detected.
9. the wearable device according to any one of claim 6~8, it is characterised in that also include:
Incoming call detection unit, in the amplitude determining unit with the hydraulic pressure value as foundation, determine and the hydraulic pressure value
After the amplitude parameter being directly proportional, and the mode controlling unit under the bone-conduction mode of the wearable device according to described
Amplitude parameter adjusts the amplitude of audio signal to be played, and will adjust the audio signal obtained after amplitude and be converted to vibration signal simultaneously
Before being transmitted by bone medium, detect whether the wearable device receives contact person's incoming call in the water environment;
Incoming call judging unit, for detecting that the wearable device receives connection in the water environment in the incoming call detection unit
When being that people sends a telegram here, whether the corresponding voice frequency of contact number of the contact person is judged higher than voice frequency is specified, if institute
The corresponding voice frequency of contact number for stating contact person is higher than to specify voice frequency, and the audio signal that the contact person is sent a telegram here is made
It is audio signal to be played;
Or, the incoming call judging unit, for detecting the wearable device in the water ring in the incoming call detection unit
When contact person's incoming call is received in border, judge the corresponding contact person's grade of contact number of the contact person whether higher than given level
Frequency, if the corresponding contact person's grade of the contact number of the contact person is higher than given level, the contact person is sent a telegram here
Audio signal is used as audio signal to be played;
Or, the incoming call judging unit, for detecting the wearable device in the water ring in the incoming call detection unit
When contact person's incoming call is received in border, judge the corresponding voice frequency of contact number of the contact person whether higher than specified call frequency
The corresponding contact person's grade of contact number of rate and the contact person is higher than given level, if the contact number of the contact person
Corresponding voice frequency is higher than to specify the corresponding contact person's grade of the contact number of voice frequency and the contact person higher than specified
Grade, using the audio signal of contact person incoming call as audio signal to be played.
10. wearable device according to claim 9, it is characterised in that:
The incoming call detection unit, is additionally operable to detect whether contact person's incoming call terminates;
The water environment detection unit, is additionally operable at the end of the incoming call detection unit detects that the contact person sends a telegram here, inspection
The wearable device is surveyed whether still in the water environment;
The mode switch element, is additionally operable to detect the wearable device not in the water ring in the water environment detection unit
When in border, the play mode of the wearable device is switched into speaker mode by the bone-conduction mode.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201611227154.XA CN106788538B (en) | 2016-12-27 | 2016-12-27 | A kind of control method and wearable device of wearable device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201611227154.XA CN106788538B (en) | 2016-12-27 | 2016-12-27 | A kind of control method and wearable device of wearable device |
Publications (2)
Publication Number | Publication Date |
---|---|
CN106788538A true CN106788538A (en) | 2017-05-31 |
CN106788538B CN106788538B (en) | 2018-12-18 |
Family
ID=58922117
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201611227154.XA Active CN106788538B (en) | 2016-12-27 | 2016-12-27 | A kind of control method and wearable device of wearable device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106788538B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112461437A (en) * | 2020-11-24 | 2021-03-09 | 深圳市锐尔觅移动通信有限公司 | Air pressure detection circuit, method, equipment and storage medium |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6070379A (en) * | 1983-09-27 | 1985-04-22 | Nec Corp | Sonar apparatus |
US20120213034A1 (en) * | 2011-02-18 | 2012-08-23 | Mir Imran | Apparatus, system and method for underwater signaling of audio messages to a diver |
CN204887406U (en) * | 2015-07-22 | 2015-12-16 | 张尚国 | Osteoacusis type intelligence earphone |
US20160161748A1 (en) * | 2012-01-04 | 2016-06-09 | Google Inc. | Wearable computing device |
-
2016
- 2016-12-27 CN CN201611227154.XA patent/CN106788538B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6070379A (en) * | 1983-09-27 | 1985-04-22 | Nec Corp | Sonar apparatus |
US20120213034A1 (en) * | 2011-02-18 | 2012-08-23 | Mir Imran | Apparatus, system and method for underwater signaling of audio messages to a diver |
US20160161748A1 (en) * | 2012-01-04 | 2016-06-09 | Google Inc. | Wearable computing device |
CN204887406U (en) * | 2015-07-22 | 2015-12-16 | 张尚国 | Osteoacusis type intelligence earphone |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112461437A (en) * | 2020-11-24 | 2021-03-09 | 深圳市锐尔觅移动通信有限公司 | Air pressure detection circuit, method, equipment and storage medium |
Also Published As
Publication number | Publication date |
---|---|
CN106788538B (en) | 2018-12-18 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105554616B (en) | A kind of headset control method and earphone | |
CN106686494A (en) | Voice input control method of wearable equipment and the wearable equipment | |
KR101969252B1 (en) | Method, apparatus and system of controlling intelligent device based on earphone | |
CN106648245B (en) | Control command generation method and information input device | |
CN106791122A (en) | The call control method and wearable device of a kind of wearable device | |
CN106847275A (en) | A kind of method and wearable device for controlling wearable device | |
CN106850963A (en) | The call control method and wearable device of a kind of wearable device | |
CN111131952A (en) | Control method of earphone assembly, earphone assembly and computer readable storage medium | |
CN103886236A (en) | Acoustic control screen unlocking method and mobile terminal | |
CN108108006A (en) | The long-range control method and system of a kind of microphone | |
CN103945048A (en) | Call adjusting method and device | |
JP2017147652A (en) | Information processing apparatus | |
CN108052195A (en) | The control method and terminal device of a kind of microphone apparatus | |
CN104168369A (en) | Adjusting method and apparatus of terminal scene mode | |
CN106788538A (en) | The control method and wearable device of a kind of wearable device | |
CN112334977A (en) | Voice recognition method, wearable device and system | |
CN108153474A (en) | A kind of signal processing method and user terminal | |
CN106803849B (en) | A kind of call control method and wearable device based on wearable device | |
CN106817454A (en) | A kind of changing method and wearable device of sound transfer mode | |
CN110830864A (en) | Wireless earphone and control method thereof | |
CN102647509A (en) | Method and device for realizing function switching through detecting mobile phone overturn by utilizing infrared sensor | |
CN111147973A (en) | Control method of earphone assembly, earphone assembly and computer readable storage medium | |
CN106788540A (en) | The play mode method for handover control and wearable device of a kind of wearable device | |
CN106843469A (en) | A kind of method for controlling wearable device to give the correct time and wearable device | |
CN106713642B (en) | Contact person-based wearable device control method and wearable device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |