CN106125906B - A kind of Single-hand control method and wearable device of wearable device - Google Patents
A kind of Single-hand control method and wearable device of wearable device Download PDFInfo
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- CN106125906B CN106125906B CN201610422932.4A CN201610422932A CN106125906B CN 106125906 B CN106125906 B CN 106125906B CN 201610422932 A CN201610422932 A CN 201610422932A CN 106125906 B CN106125906 B CN 106125906B
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- wearable device
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/011—Arrangements for interaction with the human body, e.g. for user immersion in virtual reality
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2203/00—Indexing scheme relating to G06F3/00 - G06F3/048
- G06F2203/01—Indexing scheme relating to G06F3/01
- G06F2203/011—Emotion or mood input determined on the basis of sensed human body parameters such as pulse, heart rate or beat, temperature of skin, facial expressions, iris, voice pitch, brain activity patterns
Abstract
The present embodiments relate to wearable device technical fields, disclose the Single-hand control method and wearable device of a kind of wearable device, this method comprises: detecting tilt angle of the screen relative to absolute horizon of the wearable device;Judge whether the tilt angle reaches preset inclination angle threshold value, if reached, translucent element is loaded in the content that the screen is shown, the direction of the translucent element instruction is used to indicate the rotating direction of the screen display content when tilt angle continues to increase.The embodiment of the present invention can have specific perception to Showing Effectiveness On Screen caused by user action, help user to form cognition habit, reduce the generation of maloperation.
Description
Technical field
The present invention relates to wearable device technical fields, and in particular to the Single-hand control method and wearing of a kind of wearable device are set
It is standby.
Background technique
Currently, in wearable devices such as smartwatch, Intelligent bracelets in use, user can pass through the movements such as rotation arm
To realize that the one hand control to wearable device, such as rotation arm can control smartwatch and stirs screen up and down.However in reality
Trampling middle discovery, user is often confused about which type of movement on earth can be only achieved desired Showing Effectiveness On Screen, such as with
When the arm of smartwatch rotates from top to bottom, the content that user is just confused about in screen is that sliding down is shown above,
Still it is following up to move display, so that user is during one hand control it occur frequently that understanding maloperation.
Summary of the invention
The embodiment of the invention discloses a kind of Single-hand control method of wearable device and wearable devices, can be to user action
Caused Showing Effectiveness On Screen has specific perception, helps user to form cognition habit, reduces the generation of maloperation.
First aspect of the embodiment of the present invention discloses a kind of Single-hand control method of wearable device, comprising:
Detect tilt angle of the screen relative to absolute horizon of the wearable device;
Judge whether the tilt angle reaches preset inclination angle threshold value, if reached, in the screen is shown
Translucent direction figure layer is loaded in appearance, direction indicated by the translucent direction figure layer is for indicating that the tilt angle continues
The rotating direction for the content that the screen is shown when increase.
As an alternative embodiment, in first aspect of the embodiment of the present invention, the detection wearable device
Screen relative to the tilt angle of absolute horizon before, the method also includes:
Detect the acceleration value of the wearable device;
Whether the acceleration value for judging the wearable device is more than predetermined acceleration value, if it does, executing the detection
The step of tilt angle of the screen of the wearable device relative to absolute horizon.
As an alternative embodiment, in first aspect of the embodiment of the present invention, judging that the tilt angle reaches
To after preset inclination angle threshold value, and before loading translucent element in the content that the screen is shown, the method
Further include:
The dial plate back side of the wearable device is detected with the presence or absence of shelter, if it does, activation pin is to the shelter
Heart rate data detection;
Judge whether the heart rate data detected is located in the data area of human heart rate, if so, described in executing
The step of loading translucent direction figure layer in the content that the screen is shown.
As an alternative embodiment, in first aspect of the embodiment of the present invention, in the content that the screen is shown
After the upper translucent element of load, the method also includes:
During the lasting increase of the tilt angle, content that the screen is shown is controlled by pre-set velocity towards described
The direction scrolling display of translucent element instruction, and when the tilt angle stops increasing, control what the screen was shown
Content stops scrolling display.
As an alternative embodiment, in first aspect of the embodiment of the present invention, in the content that the screen is shown
The upper translucent direction figure layer of load, comprising:
Read the pre-stored direction figure layer of the wearable device;
Translucent processing is carried out to the pixel data for being directed toward figure layer, obtains translucent direction figure layer;
In the content that the translucent direction map overlay is shown to the screen;
It adjusts direction indicated by the translucent direction figure layer and is directed toward the screen of the wearable device relative to described exhausted
The side minimum to horizontal plane.
Second aspect of the embodiment of the present invention discloses a kind of wearable device, comprising:
First detection unit, for detecting tilt angle of the screen relative to absolute horizon of the wearable device;
Angle judging unit, for judging whether the tilt angle that the first detection unit detects reaches default
Inclination angle threshold value;
Loading unit is when reaching, in the screen is shown for the judging result in the angle judging unit
Translucent direction figure layer is loaded in appearance, direction indicated by the translucent direction figure layer is for indicating that the tilt angle continues
The rotating direction for the content that the screen is shown when increase.
As an alternative embodiment, in second aspect of the embodiment of the present invention, the wearable device further include:
Acceleration detecting unit, for detecting the screen of the wearable device in the first detection unit relative to absolute
Before the tilt angle of horizontal plane, the acceleration value of the wearable device is detected;
Acceleration judging unit, for judging whether the acceleration value of the wearable device is more than predetermined acceleration value, such as
Fruit is more than to start the first detection unit.
As an alternative embodiment, in second aspect of the embodiment of the present invention, the wearable device further include:
Shelter detection unit is when reaching, to detect the wearing for the judging result in the angle judging unit
The dial plate back side of equipment whether there is shelter;
Heart rate detection unit is the activation pin there are when shelter for the testing result in the shelter detection unit
Heart rate data detection to the shelter;
Whether heart rate judging unit, the heart rate data for judging that the heart rate detection unit detects are located at human body
In the data area of heart rate;
The loading unit, when reaching for the judging result in the angle judging unit, and in the heart rate
The judging result of judging unit is that when being, translucent direction figure layer is loaded in the content that the screen is shown, described translucent
It is directed toward the rolling square for the content that direction indicated by figure layer is used to indicate that the screen is shown when the tilt angle persistently increases
To.
As an alternative embodiment, in second aspect of the embodiment of the present invention, the wearable device further include:
Control unit, for after the loading unit loads translucent element in the content that the screen is shown,
During the lasting increase of the tilt angle, content that the screen is shown is controlled by pre-set velocity towards the translucent member
The direction scrolling display of element instruction, and when the tilt angle stops increasing, it controls the content that the screen is shown and stops
Scrolling display.
As an alternative embodiment, the loading unit is in the screen in second aspect of the embodiment of the present invention
The translucent mode for being directed toward figure layer is loaded in the content of curtain display specifically:
Read the pre-stored direction figure layer of the wearable device;
Translucent processing is carried out to the pixel data for being directed toward figure layer, obtains translucent direction figure layer;
In the content that the translucent direction map overlay is shown to the screen;
It adjusts direction indicated by the translucent direction figure layer and is directed toward the screen of the wearable device relative to described exhausted
The side minimum to horizontal plane.
Compared with prior art, the embodiment of the present invention has the advantages that
In the embodiment of the present invention, wearable device is detecting and is judging the screen of wearable device relative to absolute horizon
When tilt angle reaches preset inclination angle threshold value, translucent direction figure layer can be loaded in the content that screen is shown, due to
The screen of wearable device can be relative to the tilt angle of absolute horizon to be caused to generate by user action, and this is translucent
The rotating direction for being directed toward the content that direction indicated by figure layer is used to indicate that screen is shown when the tilt angle persistently increases (belongs to
A kind of Showing Effectiveness On Screen), therefore, the implementation embodiment of the present invention can have Showing Effectiveness On Screen caused by user action clear
Perception, help user formed cognition habit, reduce the generation of maloperation.
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 a kind of flow diagram of the Single-hand control method of wearable device disclosed by the embodiments of the present invention;
Fig. 2 is the flow diagram of the Single-hand control method of another wearable device disclosed by the embodiments of the present invention;
Screen change schematic diagram when Fig. 3 is a kind of singlehanded control of wearable device disclosed by the embodiments of the present invention;
Fig. 4 is a kind of structural schematic diagram of wearable device disclosed by the embodiments of the present invention;
Fig. 5 is the structural schematic diagram of another 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 Single-hand control method of wearable device and wearable devices, can be to user action
Caused Showing Effectiveness On Screen has specific perception, helps user to form cognition habit, reduces the generation of maloperation.It carries out below
It is described in detail in conjunction with attached drawing.
Embodiment one
Referring to Fig. 1, Fig. 1 is a kind of process signal of the Single-hand control method of wearable device disclosed by the embodiments of the present invention
Figure.Wherein, the present embodiments relate to wearable device may include that the wearing that has screen such as smartwatch, Intelligent bracelet is set
Standby, the embodiment of the present invention is not construed as limiting.As shown in Figure 1, the Single-hand control method of the wearable device may comprise steps of.
101, tilt angle of the screen of wearable device detection wearable device relative to absolute horizon.
In the embodiment of the present invention, wearable device can detect the screen of wearable device relative to absolute water by gyroscope
The tilt angle of plane.
102, wearable device judges whether the tilt angle reaches preset inclination angle threshold value, if reached, executes step
103;, whereas if not up to, return step 101.
In the embodiment of the present invention, wearable device can store a preset inclination angle threshold value, for example, preset inclination angle
Threshold value is 5 °, and correspondingly, wearable device may determine that whether the tilt angle reaches 5 °, if reaching 5 °, executes step 103;
Conversely, return step 101.
103, wearable device loads translucent direction figure layer in the content that its screen is shown, wherein the translucent direction
The rotating direction for the content that direction indicated by figure layer is used to indicate that the screen is shown when the tilt angle persistently increases.
It, can be with after wearable device loads translucent element in the content that its screen is shown in the embodiment of the present invention
Execute following operation:
During the lasting increase of the tilt angle, wearable device can control content that its screen is shown by default speed
It spends towards the direction that translucent element indicates and scrolls, and when the tilt angle stops increasing, control what its screen was shown
Content stops scrolling display.Further, when the tilt angle reverts to 0 °, wearable device can control what its screen was shown
Display state of the content recovery to before not rolling.
The method described in Fig. 1, wearable device are detecting and are judging the screen of wearable device relative to abswolute level
When the tilt angle in face reaches preset inclination angle threshold value, translucent direction figure layer can be loaded in the content that screen is shown,
Cause to generate by user action since the screen of wearable device can be relative to the tilt angle of absolute horizon, and should be partly
The rotating direction for the content that direction indicated by transparent direction figure layer is used to indicate that screen is shown when the tilt angle persistently increases
(belonging to a kind of Showing Effectiveness On Screen), therefore, effect can be shown to screen caused by user action by implementing method described in Fig. 1
Fruit has specific perception, helps user to form cognition habit, reduces the generation of maloperation.
Embodiment two
Referring to Fig. 2, the process that Fig. 2 is the Single-hand control method of another wearable device disclosed by the embodiments of the present invention is shown
It is intended to.As shown in Fig. 2, the Single-hand control method of the wearable device may comprise steps of.
201, the acceleration value of wearable device detection wearable device.
In the embodiment of the present invention, wearable device can detect the acceleration value of wearable device by acceleration transducer.
202, wearable device judges whether the acceleration value of wearable device is more than predetermined acceleration value, if it does, executing
Step 203;Conversely, return step 201.
203, tilt angle of the screen of wearable device detection wearable device relative to absolute horizon.
In the embodiment of the present invention, when wearable device judges that the acceleration value of wearable device is more than default in above-mentioned steps 202
When acceleration value, wearable device can consider that user actively triggers the screen of wearable device detection wearable device relative to absolute water
The tilt angle of plane, correspondingly wearable device can respond the active triggering of user, detected and dressed using acceleration transducer
Tilt angle of the screen of equipment relative to absolute horizon, so as to prevent wearable device exceedingly, continually detection wear
Wear power consumption brought by tilt angle of the screen of equipment relative to absolute horizon.
In the embodiment of the present invention, wearable device can detect the screen of wearable device relative to absolute water by gyroscope
The tilt angle of plane.
204, wearable device judges whether the tilt angle reaches preset inclination angle threshold value, if reached, executes step
205;, whereas if not up to, return step 203.
In the embodiment of the present invention, wearable device can store a preset inclination angle threshold value, for example, preset inclination angle
Threshold value is 5 °, and correspondingly, wearable device may determine that whether the tilt angle reaches 5 °, if reaching 5 °, executes step 205;
Conversely, return step 203.
205, the dial plate back side of wearable device detection wearable device whether there is shelter, if it does, executing step
206;Conversely, return step 205.
In the embodiment of the present invention, it can be laid with infrared distance sensor on the dial plate back side of wearable device, and infrared survey
It may include infrared transmitting tube and infrared receiving tube away from sensor.Further, wearable device can drive infrared distance measurement to pass
The infrared transmitting tube of sensor issues infrared light, if can be received by the infrared receiving tube of infrared distance sensor infrared
Transmitting tube issues infrared light, then wearable device can determine that there are shelters for the dial plate back side of wearable device;, whereas if
It has not been able to receive infrared transmitting tube sending infrared light by the infrared receiving tube of infrared distance sensor, then wearable device
It can determine that shelter is not present in the dial plate back side of wearable device.
As an alternative embodiment, wearable device is received by the infrared receiving tube of infrared distance sensor
It, can be further according to infrared ray from being issued to the time △ t being received and red after infrared transmitting tube issues infrared light
The spread speed C of outside line calculates distance value d between infrared distance sensor and shelter, i.e. d=(C* △ t/2), when infrared
When distance value d is less than set distance value (such as 1cm) between distance measuring sensor and shelter, wearable device can determine wearable device
There are shelters at the dial plate back side.
206, wearable device activation pin detects the heart rate data of shelter.
In the embodiment of the present invention, wearable device can open heart rate sensor and detect for the heart rate data of shelter.
In the embodiment of the present invention, heart rate data detection may include: heart rate waveform detecting step, detect the heart rate of living body
Waveform;Heart rate signal forming step, carry out with low magnifying power come amplify the frequency content of the low-frequency band side of heart rate waveform, with height
Magnifying power amplifies the signal enhanced processing of the frequency content of the high frequency band side of heart rate waveform, to form heart rate signal;Waveform loses
True detection step, detection are attached to the wave distortion of heart rate signal in heart rate signal forming step;And heart rate detection step
Suddenly, it is detected wave distortion as heart rate.Obviously, implementing this mode can be improved the accuracy of heart rate detection.
207, whether the heart rate data that wearable device judgement detects is located in the data area of human heart rate, if so,
Execute step 208;Conversely, return step 206.
In the embodiment of the present invention, implement 205~step 207 of above-mentioned steps, wearable device can be worn ensuring it by user
When being worn on hand, subsequent step is just executed, so as to be effectively reduced the power consumption of wearable device.
208, wearable device loads translucent direction figure layer in the content that its screen is shown, wherein the translucent direction
The rotating direction for the content that direction indicated by figure layer is used to indicate that the screen is shown when the tilt angle persistently increases.
As an alternative embodiment, wearable device loads in the content that its screen is shown in above-mentioned steps 208
The translucent mode for being directed toward figure layer is specifically as follows:
Wearable device reads the pre-stored direction figure layer of wearable device, and carries out half to the pixel data of the direction figure layer
Transparent processing obtains translucent direction figure layer, and in the content that translucent direction map overlay to screen is shown, and adjusts
The whole translucent screen for being directed toward the direction wearable device of direction indicated by the figure layer side minimum relative to absolute horizon.It lifts
For example, when the screen of the wearable device side minimum relative to absolute horizon is screen X-axis negative direction, it is semi-transparent to adjust this
It is directed toward X-axis negative direction in direction indicated by bright direction figure layer;When the screen of wearable device it is minimum relative to absolute horizon one
When side is screen X-axis positive direction, adjusts direction indicated by the translucent direction figure layer and be directed toward X-axis positive direction;Work as wearable device
The screen side minimum relative to absolute horizon when being screen Y-axis negative direction, adjust indicated by the translucent direction figure layer
Direction be directed toward Y-axis negative direction;When the screen of the wearable device side minimum relative to absolute horizon is screen Y-axis positive direction
When, it adjusts direction indicated by the translucent direction figure layer and is directed toward Y-axis positive direction.Implement this mode, can be shown in screen
Content on load personalized translucent direction figure layer, so as to realize the finger based on personalized translucent direction figure layer
To.
It, can be with after wearable device loads translucent element in the content that its screen is shown in the embodiment of the present invention
Execute following operation:
During the lasting increase of the tilt angle, wearable device can control content that its screen is shown by default speed
It spends towards the direction that translucent element indicates and scrolls, and when the tilt angle stops increasing, control what its screen was shown
Content stops scrolling display.Further, when the tilt angle reverts to 0 °, wearable device can control what its screen was shown
Display state of the content recovery to before not rolling.
Screen when being a kind of singlehanded control of wearable device disclosed by the embodiments of the present invention also referring to Fig. 3, Fig. 3 becomes
Change schematic diagram.As shown in figure 3, wearable device may determine that when the arm that user wears wearable device rotates from top to bottom
The tilt angle reaches preset inclination angle threshold value, and wearable device may recognize that wearable device is worn by the user, this
When wearable device translucent direction figure layer can be loaded in the content that its screen is shown, this it is translucent be directed toward figure layer form can
To be translucent directional arrow, direction indicated by the translucent directional arrow is somebody's turn to do when the tilt angle persistently increases for indicating
The rotating direction for the content that screen is shown;During the lasting increase of the tilt angle, wearable device can control its screen
The content of display is scrolled towards the direction that translucent directional arrow indicates, and when the tilt angle stops increasing, control
The content that its screen is shown stops scrolling display.
Wherein, implement method described in Fig. 2, there can be specific sense to Showing Effectiveness On Screen caused by user action
Know, helps user to form cognition habit, reduce the generation of maloperation.
Embodiment three
Referring to Fig. 4, Fig. 4 is a kind of structural schematic diagram of wearable device disclosed by the embodiments of the present invention.As shown in figure 4,
The wearable device may include:
First detection unit 401, for detecting tilt angle of the screen relative to absolute horizon of wearable device;
Angle judging unit 402, for judging whether the tilt angle that first detection unit 401 detects reaches preset
Inclination angle threshold value;
Loading unit 403 is when reaching, in the content that screen is shown for the judging result in angle judging unit 402
Upper to load translucent direction figure layer, direction indicated by the translucent direction figure layer is for indicating screen when tilt angle persistently increases
The rotating direction of the content of curtain display.
Example IV
Referring to Fig. 5, Fig. 5 is the structural schematic diagram of another wearable device disclosed by the embodiments of the present invention.Wherein, Fig. 5
Shown in wearable device be that wearable device as shown in Figure 4 optimizes.Compared with wearable device shown in Fig. 4,
Wearable device shown in fig. 5 can also include:
Acceleration detecting unit 404, for detecting the screen of wearable device in first detection unit 401 relative to absolute water
Before the tilt angle of plane, the acceleration value of wearable device is detected;
Acceleration judging unit 405, for judging whether the acceleration value of wearable device is more than predetermined acceleration value, if
It is more than to start first detection unit 401.
As an alternative embodiment, as shown in figure 5, the wearable device can also include:
Shelter detection unit 406 is when reaching for the judging result in angle judging unit 402, and detection wearing is set
The standby dial plate back side whether there is shelter;
Heart rate detection unit 407 is to open there are when shelter for the testing result in shelter detection unit 406
For the heart rate data detection of shelter;
Heart rate judging unit 408, for judging whether the heart rate data that heart rate detection unit 407 detects is located at the human body heart
In the data area of rate;
Correspondingly, loading unit 403 is used for when the judging result of angle judging unit 402 is to reach, and in heart rate
The judging result of judging unit 408 is when being, translucent direction figure layer to be loaded in the content that screen is shown, the translucent direction
The rotating direction for the content that direction indicated by figure layer is used to indicate that the screen is shown when tilt angle persistently increases.
As an alternative embodiment, as shown in figure 5, the wearable device can also include:
Control unit 409, for after loading unit 403 loads translucent element in the content that screen is shown,
During the lasting increase of tilt angle, the content that control screen is shown is rolled by pre-set velocity towards the direction that translucent element indicates
Dynamic display, and when tilt angle stops increasing, the content that control screen is shown stops scrolling display.
In the embodiment of the present invention, loading unit 403 loads the translucent mode for being directed toward figure layer in the content that screen is shown
It can be with are as follows:
Loading unit 403 reads the pre-stored direction figure layer of wearable device, and to the pixel data of the direction figure layer into
The translucent processing of row obtains translucent direction figure layer, and in the content that translucent direction map overlay to screen is shown, and
And adjust this it is translucent be directed toward figure layer indicated by direction be directed toward wearable device screen it is minimum relative to absolute horizon one
Side.Implement this mode, personalized translucent direction figure layer can be loaded, in the content that screen is shown so as to realize
Direction based on personalized translucent direction figure layer.
In the embodiment of the present invention, acceleration detecting unit 404 can be a kind of multi-axial accelerometer in physical aspect, should
Multi-axial accelerometer may include substrate, XY axle construction layer and two Z axis structure sheafs for being located at XY axle construction layer two sides.
XY axle construction layer may include movable mass, center anchor point, elastic construction and multiple detecting electrodes, and multiple detecting electrodes are used
In the acceleration of detection X-direction and Y-direction, movable mass is connected with center anchor point and elastic construction, wherein each Z axis knot
Structure layer includes movable mass, fixed anchor point, elastic construction and two fixed electrodes, and two fixed electrodes are fixed on substrate
On, the elastic construction of Z axis structure sheaf is connected with the fixed anchor point of Z axis structure sheaf and movable mass;The two of each Z axis structure sheaf
The identical and elastic construction about Z axis structure sheaf of the structure of a fixed electrode is symmetrical;The movable mass of each Z axis structure sheaf
Mass center is not on the elastic construction of Z axis structure sheaf;The matter of movable mass on the left of the elastic construction of one of Z axis structure sheaf
Measure identical in quality, the bullet of one of Z axis structure sheaf with the movable mass on the left of the elastic construction of another Z axis structure sheaf
Property structure on the right side of the quality of movable mass and the elastic construction of another Z axis structure sheaf on the right side of movable mass quality
It is identical;Close to center anchor point in fixation electrode and another Z axis structure sheaf in one of Z axis structure sheaf far from center anchor point
Fixation electrode be electrically connected, in one of Z axis structure sheaf close to center anchor point fixation electrode and another Z axis knot
Fixation electrode in structure layer far from center anchor point is electrically connected;When existing along the external acceleration of Z axis, two Z axis structure sheafs
Movable mass do torsional movement rotating around elastic construction connected to it;The movable mass of one of Z axis structure sheaf
Capacitance between a fixed electrode of the Z axis structure sheaf is C1, the movable mass of another Z axis structure sheaf and the Z
Capacitance between the fixed electrode of one of axle construction layer is C2, the movable mass of one of Z axis structure sheaf and the Z axis knot
Another capacitance fixed between electrode of structure layer is C3, the movable mass of another Z axis structure sheaf and the Z axis structure sheaf
Another fix electrode between capacitance be C4, by detection the sum of capacitance C3 and C4 with the sum of capacitance C1's and C2
Difference determines acceleration value of the external acceleration as wearable device of Z axis.
Wherein, implement wearable device described in Fig. 4~Fig. 5, can have to Showing Effectiveness On Screen caused by user action
Specific perception helps user to form cognition habit, reduces the generation of maloperation.
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 Single-hand control method and wearable device of a kind of wearable device disclosed by the embodiments of the present invention have been carried out in detail above
Thin to introduce, used herein a specific example illustrates the principle and implementation of the invention, and above embodiments are said
It is bright to be merely used to help understand method and its core concept of the invention;At the same time, for those skilled in the art, foundation
Thought of the invention, there will be changes in the specific implementation manner and application range, in conclusion the content of the present specification is not
It is interpreted as limitation of the present invention.
Claims (8)
1. a kind of Single-hand control method of wearable device characterized by comprising
Detect tilt angle of the screen relative to absolute horizon of the wearable device;
Judge whether the tilt angle reaches preset inclination angle threshold value, if reached, in the content that the screen is shown
Translucent direction figure layer is loaded, direction indicated by the translucent direction figure layer is for indicating that the tilt angle persistently increases
The rotating direction for the content that Shi Suoshu screen is shown;
Translucent direction figure layer is loaded in the content that the screen is shown, comprising:
Read the pre-stored direction figure layer of the wearable device;
Translucent processing is carried out to the pixel data for being directed toward figure layer, obtains translucent direction figure layer;
In the content that the translucent direction map overlay is shown to the screen;
It adjusts direction indicated by the translucent direction figure layer and is directed toward the screen of the wearable device relative to the absolute water
The minimum side of plane.
2. Single-hand control method according to claim 1, feature exist, the screen of the detection wearable device is opposite
Before the tilt angle of absolute horizon, the method also includes:
Detect the acceleration value of the wearable device;
Whether the acceleration value for judging the wearable device is more than predetermined acceleration value, if it does, executing described in the detection
The step of tilt angle of the screen of wearable device relative to absolute horizon.
3. Single-hand control method according to claim 1 or 2, feature exist, judging that the tilt angle reaches default
Inclination angle threshold value after, and before loading translucent element in the content that the screen is shown, the method also includes:
The dial plate back side of the wearable device is detected with the presence or absence of shelter, if it does, the heart of the activation pin to the shelter
Rate Data Detection;
Judge whether the heart rate data that detects is located in the data area of human heart rate, if so, execute it is described
The step of translucent direction figure layer is loaded in the content that the screen is shown.
4. Single-hand control method according to claim 3, feature exist, loaded in the content that the screen is shown semi-transparent
After bright element, the method also includes:
During the lasting increase of the tilt angle, content that the screen is shown is controlled by pre-set velocity towards described semi-transparent
The direction scrolling display of bright element instruction, and when the tilt angle stops increasing, control the content that the screen is shown
Stop scrolling display.
5. a kind of wearable device characterized by comprising
First detection unit, for detecting tilt angle of the screen relative to absolute horizon of the wearable device;
Angle judging unit inclines for judging whether the tilt angle that the first detection unit detects reaches preset
Oblique angle threshold value;
Loading unit is when reaching, in the content that the screen is shown for the judging result in the angle judging unit
Translucent direction figure layer is loaded, direction indicated by the translucent direction figure layer is for indicating that the tilt angle persistently increases
The rotating direction for the content that Shi Suoshu screen is shown;
The loading unit loads the translucent mode for being directed toward figure layer in the content that the screen is shown specifically:
Read the pre-stored direction figure layer of the wearable device;
Translucent processing is carried out to the pixel data for being directed toward figure layer, obtains translucent direction figure layer;
In the content that the translucent direction map overlay is shown to the screen;
It adjusts direction indicated by the translucent direction figure layer and is directed toward the screen of the wearable device relative to the absolute water
The minimum side of plane.
6. wearable device according to claim 5, feature exist, further includes:
Acceleration detecting unit, for detecting the screen of the wearable device in the first detection unit relative to abswolute level
Before the tilt angle in face, the acceleration value of the wearable device is detected;
Acceleration judging unit, for judging whether the acceleration value of the wearable device is more than predetermined acceleration value, if super
It crosses, starts the first detection unit.
7. wearable device according to claim 5 or 6, feature exist, further includes:
Shelter detection unit is when reaching, to detect the wearable device for the judging result in the angle judging unit
The dial plate back side whether there is shelter;
Heart rate detection unit is there are when shelter for the testing result in the shelter detection unit, and activation pin is to institute
State the heart rate data detection of shelter;
Whether heart rate judging unit, the heart rate data for judging that the heart rate detection unit detects are located at human heart rate
Data area in;
The loading unit, when reaching for the judging result in the angle judging unit, and in heart rate judgement
The judging result of unit is that when being, translucent direction figure layer, the translucent direction are loaded in the content that the screen is shown
The rotating direction for the content that direction indicated by figure layer is used to indicate that the screen is shown when the tilt angle persistently increases.
8. wearable device according to claim 7, feature exist, further includes:
Control unit, for after the loading unit loads translucent element in the content that the screen is shown, in institute
During the lasting increase for stating tilt angle, controls the content that the screen is shown and refer to by pre-set velocity towards the translucent element
The direction scrolling display shown, and when the tilt angle stops increasing, it controls the content that the screen is shown and stops rolling
Display.
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CN104035559A (en) * | 2014-06-04 | 2014-09-10 | 小米科技有限责任公司 | Method and device for controlling mobile terminal |
CN105320393A (en) * | 2014-06-13 | 2016-02-10 | 中国移动通信集团公司 | Method and device for scaling displayed content |
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CN104035559A (en) * | 2014-06-04 | 2014-09-10 | 小米科技有限责任公司 | Method and device for controlling mobile terminal |
CN105320393A (en) * | 2014-06-13 | 2016-02-10 | 中国移动通信集团公司 | Method and device for scaling displayed content |
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