CN105898289A - Intelligent wearing equipment and control method of intelligent wearing equipment - Google Patents
Intelligent wearing equipment and control method of intelligent wearing equipment Download PDFInfo
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- CN105898289A CN105898289A CN201610500414.XA CN201610500414A CN105898289A CN 105898289 A CN105898289 A CN 105898289A CN 201610500414 A CN201610500414 A CN 201610500414A CN 105898289 A CN105898289 A CN 105898289A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N13/00—Stereoscopic video systems; Multi-view video systems; Details thereof
- H04N13/30—Image reproducers
- H04N13/332—Displays for viewing with the aid of special glasses or head-mounted displays [HMD]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N13/00—Stereoscopic video systems; Multi-view video systems; Details thereof
- H04N13/30—Image reproducers
- H04N13/324—Colour aspects
Abstract
The invention relates to an intelligent wearing equipment and a control method of the intelligent wearing equipment. The intelligent wearing equipment comprises an information acquisition unit, a signal generation unit and a light emitting unit, wherein the information acquisition unit is used for acquiring environment information; the signal generation unit is used for generating a color signal according to the environment information; and the light emitting unit is used for sending out light according to the color signal. According to the technical scheme disclosed by the invention, the intelligent wearing equipment can be used for sending out different light according to different environment information, so that on one hand, a wearer can know changes of the environment information in time through observing the changes of light emission of the intelligent wearing equipment; and on the other hand, the appreciative characteristic of the intelligent wearing equipment can be improved so that the wearer can more easily catch the attention of other people.
Description
Technical field
It relates to wearable device technical field, particularly relate to a kind of Intelligent worn device and one intelligence
Wearable device control method.
Background technology
Intelligent worn device in correlation technique typically has a function of display information, but the information of display
It is generally from other equipment or is inputted by user, it is impossible to sending the information of correspondence according to environmental information.
Although correlation technique there is also some wearable device can response environment information, such as eyeglass be mixed
The miscellaneous glasses having silver halide, under the irradiation of the light of suitable wavelength, eyeglass can change color, and at it
Original color then can be kept in the case of him.But the essence of this change is a kind of chemical change, also
The most this glasses not Intelligent worn device, and for the eyeglass being made up of fixing material for, its
Can only change between original color and another color in the case of illumination, change the most single.
Summary of the invention
The disclosure provides a kind of Intelligent worn device and a kind of Intelligent worn device control method, to solve phase
Deficiency in the technology of pass.
First aspect according to disclosure embodiment, it is provided that a kind of Intelligent worn device, including:
Information acquisition unit, obtains environmental information;
Signal signal generating unit, generates color signal according to described environmental information;
Luminescence unit, emits beam according to described color signal.
Alternatively, described information acquisition unit includes:
Temperature obtain subelement, obtain environment temperature information, wherein, described signal signal generating unit according to
Described temperature information generates color signal.
Alternatively, described signal signal generating unit includes:
Carrier chrominance signal subelement, when described temperature information is with the first Long-term change trend, becomes according to described first
Gesture generates the first chroma control signal;And/or
Luminance signal subelement, when described temperature information is with the first Long-term change trend, becomes according to described first
Gesture generates the first brightness adjusting signal.
Alternatively, described information acquisition unit includes:
Humidity obtain subelement, obtain environment humidity information, wherein, described signal signal generating unit according to
Described humidity information generates color signal.
Alternatively, described signal signal generating unit includes:
Carrier chrominance signal subelement, when described humidity information is with the second Long-term change trend, becomes according to described second
Gesture generates the second chroma control signal;And/or
Luminance signal subelement, when described humidity information is with the second Long-term change trend, becomes according to described second
Gesture generates the second brightness adjusting signal.
Alternatively, described information acquisition unit includes:
Light obtains subelement, obtains chrominance information and/or the monochrome information of ambient light, wherein, described letter
Number signal generating unit generates color signal according to described chrominance information and/or monochrome information.
Alternatively, described signal signal generating unit includes:
Carrier chrominance signal subelement, when described chrominance information is with three Long-term change trend, becomes according to the described 3rd
Gesture generates tertiary color degree and adjusts signal;And/or
Luminance signal subelement, when described monochrome information is with four Long-term change trend, becomes according to the described 4th
Gesture generates the 3rd brightness adjusting signal.
Alternatively, described information acquisition unit includes:
Pressure obtain subelement, obtain pressure experienced information, wherein, described signal signal generating unit according to
Described pressure information generates color signal.
Alternatively, described signal signal generating unit includes:
Carrier chrominance signal subelement, when described pressure information is with five Long-term change trend, becomes according to the described 5th
Gesture generates the 4th chroma control signal;And/or
Luminance signal subelement, when described pressure information is with five Long-term change trend, becomes according to the described 5th
Gesture generates the 4th brightness adjusting signal.
Alternatively, described information acquisition unit includes:
Position acquisition unit, obtains positional information, and wherein, described signal signal generating unit is according to described position
Information generates color signal.
Alternatively, described signal signal generating unit includes:
Carrier chrominance signal subelement, when described positional information is with six Long-term change trend, becomes according to the described 6th
Gesture generates the 5th chroma control signal;And/or
Luminance signal subelement, when described positional information is with six Long-term change trend, becomes according to the described 6th
Gesture generates the 5th brightness adjusting signal.
Alternatively, described information acquisition unit includes:
Sign acquiring unit, obtain wearer sign information, wherein, described signal signal generating unit according to
Described sign information generates color signal.
Alternatively, described signal signal generating unit includes:
Carrier chrominance signal subelement, when described sign information is with seven Long-term change trend, becomes according to the described 7th
Gesture generates the 6th chroma control signal;And/or
Luminance signal subelement, when described sign information is with seven Long-term change trend, becomes according to the described 7th
Gesture generates the 6th brightness adjusting signal.
Alternatively, above-mentioned Intelligent worn device also includes:
Timing unit, for Dose times, wherein, described signal signal generating unit generated according to the described time
Color signal.
Alternatively, described signal signal generating unit includes:
Carrier chrominance signal subelement, the described time with eight Long-term change trend time, raw according to described 8th trend
Become the 7th chroma control signal;And/or
Luminance signal subelement, the described time with eight Long-term change trend time, raw according to described 8th trend
Become the 7th brightness adjusting signal.
Alternatively, described information acquisition unit includes:
Image Acquisition subelement, obtains the image information of environment;
Described signal signal generating unit includes:
Picture signal subelement, generates picture signal according to described image information;
Described luminescence unit includes:
Display subelement, shows image according to described picture signal.
Alternatively, above-mentioned Intelligent worn device also includes:
Communication unit, receives the idsplay order of target terminal, and wherein, described signal signal generating unit is according to institute
State idsplay order and generate color signal.
Alternatively, described Intelligent worn device includes multiple housing and connects the connection of the plurality of housing
Unit,
At least one housing in the plurality of housing is provided with power subsystem, at least one housing sets
It is equipped with described information acquisition unit, information generating unit and luminescence unit, wherein, described connection unit electricity
It is connected to described power subsystem and each described luminescence unit.
Second aspect according to disclosure embodiment, it is provided that a kind of Intelligent worn device control method, including:
Obtain environmental information;
Color signal is generated according to described environmental information;
Emit beam according to described color signal.
Alternatively, described acquisition environmental information includes:
Obtain the temperature information of environment;
Described according to described environmental information generate color signal include:
Color signal is generated according to described temperature information.
Alternatively, described according to described temperature information generate color signal include:
When described temperature information is with the first Long-term change trend, generates the first colourity according to described first trend and adjust
Entire signal, and/or generate the first brightness adjusting signal according to described first trend.
Alternatively, described acquisition environmental information includes:
Obtain the humidity information of environment;
Described according to described environmental information generate color signal include:
Color signal is generated according to described humidity information.
Alternatively, described according to described humidity information generate color signal include:
When described humidity information is with the second Long-term change trend, generates the second colourity according to described second trend and adjust
Entire signal, and/or generate the second brightness adjusting signal according to described second trend.
Alternatively, described acquisition environmental information includes:
Obtain chrominance information and/or the monochrome information of ambient light;
Described according to described environmental information generate color signal include:
Color signal is generated according to described chrominance information and/or monochrome information.
Alternatively, described generate color signal according to described chrominance information and/or monochrome information and include:
When described chrominance information is with three Long-term change trend, generates tertiary color degree according to described 3rd trend and adjust
Entire signal;And/or
When described monochrome information is with four Long-term change trend, generates the 3rd brightness according to described 4th trend and adjust
Entire signal.
Alternatively, described acquisition environmental information includes:
Obtain pressure experienced information;
Described according to described environmental information generate color signal include:
Color signal is generated according to described pressure information.
Alternatively, described according to described pressure information generate color signal include:
When described pressure information is with five Long-term change trend, generates the 4th colourity according to described 5th trend and adjust
Entire signal, and/or generate the 4th brightness adjusting signal according to described 5th trend.
Alternatively, described acquisition environmental information includes:
Obtain positional information;
Described according to described environmental information generate color signal include:
Color signal is generated according to described positional information.
Alternatively, described according to described positional information generate color signal include:
When described positional information is with six Long-term change trend, generates the 5th colourity according to described 6th trend and adjust
Entire signal, and/or generate the 5th brightness adjusting signal according to described 6th trend.
Alternatively, described acquisition environmental information includes:
Obtain the sign information of wearer;
Described according to described environmental information generate color signal include:
Color signal is generated according to described sign information.
Alternatively, described according to described positional information generate color signal include:
When described sign information is with seven Long-term change trend, generates the 6th colourity according to described 7th trend and adjust
Entire signal, and/or generate the 6th brightness adjusting signal according to described 7th trend.
Alternatively, before emitting beam according to described color signal, described method also includes:
Dose times;
Color signal is generated according to the described time.
Alternatively, described according to the described time generate color signal include:
The described time with eight Long-term change trend time, according to described 8th trend generate the 7th chroma control letter
Number, and/or generate the 7th brightness adjusting signal according to described 8th trend.
Alternatively, described acquisition environmental information includes:
Obtain the image information of environment;
Described according to described environmental information generate color signal include:
Picture signal is generated according to described image information;
Described emitting beam according to described color signal includes:
Image is shown according to described picture signal.
Alternatively, before emitting beam according to described color signal, said method also includes:
Receive the idsplay order of target terminal;
Color signal is generated according to described idsplay order.
Embodiment of the disclosure that the technical scheme of offer can include following beneficial effect:
From above-described embodiment, Intelligent worn device can send different according to different environmental informations
Light.When environmental information changes, the light that Intelligent worn device sends can change, on the one hand therewith
Allow the wearer to the change luminous by viewing Intelligent worn device and learn environmental information in time
Change, on the other hand can improve the sight of Intelligent worn device so that wearer is easier to win him
The eyeball of people.
It should be appreciated that it is only exemplary and explanatory that above general description and details hereinafter describe
, the disclosure can not be limited.
Accompanying drawing explanation
Accompanying drawing herein is merged in description and constitutes the part of this specification, it is shown that meet these public affairs
The embodiment opened, and for explaining the principle of the disclosure together with description.
Fig. 1 is the block diagram according to a kind of Intelligent worn device shown in an exemplary embodiment.
Fig. 2 is the block diagram according to the another kind of Intelligent worn device shown in an exemplary embodiment.
Fig. 3 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Fig. 4 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Fig. 5 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Fig. 6 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Fig. 7 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Fig. 8 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Fig. 9 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Figure 10 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Figure 11 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Figure 12 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Figure 13 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Figure 14 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Figure 15 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Figure 16 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Figure 17 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.
Figure 18 is the structural representation according to a kind of Intelligent worn device shown in an exemplary embodiment.
Figure 19 is the structural representation according to the housing shown in an exemplary embodiment.
Figure 20 is the flow process according to a kind of Intelligent worn device control method shown in an exemplary embodiment
Figure.
Figure 21 is the stream according to the another kind of Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 22 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 23 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 24 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 25 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 26 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 27 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 28 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 29 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 30 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 31 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 32 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 33 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 34 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 35 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 36 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu.
Figure 37 is according to a kind of device for controlling Intelligent worn device shown in an exemplary embodiment
Block diagram.
Detailed description of the invention
Here will illustrate exemplary embodiment in detail, its example represents in the accompanying drawings.Following
When description relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represents same or analogous
Key element.Embodiment described in following exemplary embodiment does not represent the institute consistent with the disclosure
There is embodiment.On the contrary, they only with as appended claims describes in detail, the one of the disclosure
The example of the apparatus and method that a little aspects are consistent.
Fig. 1 is the block diagram according to a kind of Intelligent worn device shown in an exemplary embodiment, the present embodiment
In Intelligent worn device can be intelligent glasses, intelligent watch, Intelligent bracelet, intelligence jewelry etc., its
Middle intelligence jewelry can be necklace, bangle, ring, hair fastener etc. further.Below mainly at intelligence jewelry
For illustrative to technical scheme in the case of bangle.With reference to Fig. 1, this intelligence is worn
The equipment of wearing includes:
Information acquisition unit 11, is configured to obtain environmental information.
Information acquisition unit in the present embodiment can be sensor.The environmental information of such as required acquisition is
Temperature information, then information acquisition unit can be temperature sensor;The such as required environmental information obtained
For pressure information, then information acquisition unit can be pressure transducer;The such as required environment letter obtained
Breath is optical information, then information acquisition unit can be optical sensor.Environmental information according to required acquisition
Difference, different information acquisition unit can be set to obtain environmental information, to this, the disclosure is not done
Limit.
Signal signal generating unit 12, is configured to generate color signal according to described environmental information.
Signal signal generating unit in the present embodiment can be processor, microprocessor, can receive self-confident
The environmental information of breath acquiring unit.In the case of information acquisition unit is sensor, its ring got
Environment information is generally analogue signal, and the signal signal generating unit in the present embodiment can convert analog signals into
Digital signal, and generate color signal according to digital signal, then color signal is transmitted to luminescence unit,
Emit beam with control luminescence unit.
Luminescence unit 13, is configured to emit beam according to described color signal.
Luminescence unit in the present embodiment can include the LED only possessing lighting function and/or possess send out
Light and the display of display image function.In the case of luminescence unit includes LED, LED can
To change the color emitted beam according to color signal, it is also possible to improve according to color signal or reduction sends
The brightness of light and/or contrast, it is also possible to change luminous frequency according to color signal.At luminescence unit
In the case of display, display can show image according to color signal, it is also possible to according to color
The signal change display brightness of image, colourity, contrast and/or frequency.
According to the present embodiment, Intelligent worn device can send different light according to different environmental informations.
Such as in the case of Intelligent worn device is bangle, when environmental information changes, the light that bangle sends
Can change therewith, on the one hand allow the wearer to the change luminous by viewing bangle and obtain in time
Know the change of environmental information, on the other hand can improve the sight of bangle so that wearer is easier to rich
Obtain other people eyeball.
Fig. 2 is the block diagram according to the another kind of Intelligent worn device shown in an exemplary embodiment.With reference to figure
2, on the basis of embodiment illustrated in fig. 1, described information acquisition unit 11 includes:
Temperature obtains subelement 111, is configured to obtain the temperature information of environment, wherein, described signal
Signal generating unit generates color signal according to described temperature information.In the present embodiment, temperature obtains subelement
It can be temperature sensor.
Fig. 3 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
3, on the basis of embodiment illustrated in fig. 2, described signal signal generating unit 12 includes:
Carrier chrominance signal subelement 121, is configured to when described temperature information is with the first Long-term change trend, root
The first chroma control signal is generated according to described first trend;And/or
Luminance signal subelement 122, is configured to when described temperature information is with the first Long-term change trend, root
The first brightness adjusting signal is generated according to described first trend.
In the present embodiment, Intelligent worn device can according to the change of ambient temperature change luminescent chromaticity and/
Or luminosity.
For such as carrier chrominance signal subelement, when temperature information uprises, carrier chrominance signal subelement root
The the first chroma control signal generated according to this trend so that luminescence unit by luminescent chromaticity to warm tones
Change;And when temperature information step-down, the first colourity that carrier chrominance signal subelement generates according to this trend is adjusted
Entire signal, so that luminescent chromaticity is changed by luminescence unit to cool tone.So that user is by observing
The variations in temperature that the psychological hint that the change of color obtains is actual with environment is identical, namely environment temperature
Spending the highest, tone is the reddest, and the psychological hint obtained also is that ambient temperature uprises.
For such as luminance signal subelement, when temperature information uprises, luminance signal subelement root
The first brightness adjusting signal generated according to this trend, so that luminosity is uprised by luminescence unit;And
When temperature information step-down, the first brightness adjusting signal that luminance signal subelement generates according to this trend,
So that luminescence unit is by luminosity step-down.
It should be noted that generate the correspondence of the first chroma control signal and the first brightness adjusting signal
Adjustment mode can be set as required by user, could be arranged to above-mentioned adjustment mode, it is also possible to
Be set to the mode contrary with above-mentioned adjustment mode, such as when temperature information uprises, luminance signal sub-list
The first brightness adjusting signal that unit generates according to this trend, so that luminescence unit is by luminosity step-down.
It is, of course, also possible to be set to other adjustment modes, such as colourity, it is also possible to by blueness through purple
Color is adjusted to red, or is adjusted to yellow etc. by redness through orange;For brightness, Ke Yiyou
Constant brightness adjustment is the brightness according to mechanical periodicity.
Further, luminescence unit adjusts glow color according to the first chroma control signal, and/or according to the
One brightness adjusting signal adjusts luminosity, anisotropically can change along with the change of temperature.Such as
In the first temperature range, temperature often declines 1 DEG C, and luminosity can decline 10nits, and in the second temperature
In degree interval, temperature often declines 1 DEG C, and luminosity can decline 50nits, and concrete situation of change is permissible
It is configured as required by user.Such as can be arranged on 20 DEG C to 30 DEG C these temperature ranges, temperature
Often rising 1 DEG C, luminosity rises 50nits, and in other temperature ranges, temperature often rises 1 DEG C, sends out
Brightness rises 10nits, thus when temperature is 20 DEG C to 30 DEG C of this temperature range changes, luminance
The change of degree is the most obvious, it is ensured that user is in the temperature range that this summer is the most often in, it is possible to pass through
The change of the brightness observing Intelligent worn device determines the change of temperature intuitively.
According to the present embodiment, user can be by watching the Intelligent worn device colourity and/or brightness worn
Change confirms the situation of change of ambient temperature, and improves the sight of Intelligent worn device.
Fig. 4 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
4, on the basis of embodiment illustrated in fig. 1, described information acquisition unit 11 includes:
Humidity obtains subelement 112, is configured to obtain the humidity information of environment, wherein, described signal
Signal generating unit generates color signal according to described humidity information.In the present embodiment, humidity obtains subelement
Can be humidity sensor, the humidity information wherein obtained can be relative humidity information can also be absolute
Humidity information.
Fig. 5 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
5, on the basis of embodiment illustrated in fig. 4, described signal signal generating unit 12 includes:
Carrier chrominance signal subelement 121, is configured to when described humidity information is with the second Long-term change trend, root
The second chroma control signal is generated according to described second trend;And/or
Luminance signal subelement 122, is configured to when described humidity information is with the second Long-term change trend, root
The second brightness adjusting signal is generated according to described second trend.
In the present embodiment, Intelligent worn device can according to the change of ambient humidity change luminescent chromaticity and/
Or luminosity.
For such as carrier chrominance signal subelement, when humidity information uprises, carrier chrominance signal subelement root
The the second chroma control signal generated according to this trend so that luminescence unit by luminescent chromaticity to cool tone
Change;And when humidity information step-down, the second colourity that carrier chrominance signal subelement generates according to this trend is adjusted
Entire signal, so that luminescent chromaticity is changed by luminescence unit to warm tones.So that user is by observing
The humidity change that the psychological hint that the change of color obtains is actual with environment is identical, namely environment is more
Being dried, tone is the reddest, and the psychological hint obtained also is environment desiccation.
For such as luminance signal subelement, when humidity information uprises, luminance signal subelement root
The second brightness adjusting signal generated according to this trend, so that luminescence unit is by luminosity step-down;And
When humidity information step-down, the second brightness adjusting signal that luminance signal subelement generates according to this trend,
So that luminosity is uprised by luminescence unit.
It should be noted that generate the correspondence of the second chroma control signal and the second brightness adjusting signal
Adjustment mode can be set as required by user, could be arranged to above-mentioned adjustment mode, it is also possible to
Be set to the mode contrary with above-mentioned adjustment mode, such as when humidity information uprises, luminance signal sub-list
The second brightness adjusting signal that unit generates according to this trend, so that luminosity is uprised by luminescence unit.
It is, of course, also possible to be set to other adjustment modes, such as colourity, it is also possible to by blueness through purple
Color is adjusted to red, or is adjusted to yellow etc. by redness through orange;For brightness, Ke Yiyou
Constant brightness adjustment is the brightness according to mechanical periodicity.
Further, luminescence unit adjusts glow color according to the second chroma control signal, and/or according to the
Two brightness adjusting signals adjust luminosity, anisotropically can change along with the change of humidity.Such as
In the first humidity interval, relative humidity often declines 5%, and luminosity can rise 10nits, and
In two humidity intervals, relative humidity often declines 5%, and luminosity can rise 50nits, concrete change
Situation can be configured as required by user.Such as can be arranged on 70% to 40% this humidity province
Between, relative humidity often declines 5%, and luminosity rises 50nits, and in other temperature ranges, the wettest
Degree often declines 5%, and luminosity rises 10nits, thus when relative humidity is in 70% to 40% this humidity
During interval change, the change of luminosity is the most obvious, it is ensured that user is in this humidity province relatively often occurred
In, it is possible to the change of humidity is determined intuitively by observing the change of the brightness of Intelligent worn device.
According to the present embodiment, user can be by watching the Intelligent worn device colourity and/or brightness worn
Change confirms the situation of change of ambient humidity, and improves the sight of Intelligent worn device.
Fig. 6 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
6, on the basis of embodiment illustrated in fig. 1, described information acquisition unit 11 includes:
Light obtains subelement 113, is configured to obtain chrominance information and/or the monochrome information of ambient light,
Wherein, described signal signal generating unit generates color signal according to described chrominance information and/or monochrome information.
In the present embodiment, light obtains subelement can be photoelectric sensor, it is also possible to be image acquisition
Equipment (such as photographic head), both can gather still image and can also gather dynamic image.Such as at light
When line acquisition subelement is configured to the monochrome information only obtaining ambient light, then light obtains subelement can
To be photoelectric sensor, and when light acquisition subelement is configured to obtain chrominance information, then light
Obtaining subelement can be image capture device.
Fig. 7 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
7, on the basis of embodiment illustrated in fig. 6, described signal signal generating unit 12 includes:
Carrier chrominance signal subelement 121, is configured to when described chrominance information is with three Long-term change trend, root
Generate tertiary color degree according to described 3rd trend and adjust signal;And/or
Luminance signal subelement 122, is configured to when described monochrome information is with four Long-term change trend, root
The 3rd brightness adjusting signal is generated according to described 4th trend.
In the present embodiment, Intelligent worn device can change according to the change of ambient light colourity and/or brightness
Become luminescent chromaticity and/or luminosity.
For such as carrier chrominance signal subelement, when chrominance information changes to cool tone, carrier chrominance signal
The tertiary color degree that subelement generates according to this trend adjusts signal, so that luminescence unit is by luminescent chromaticity
Change to cool tone;And when chrominance information changes to warm tones, carrier chrominance signal subelement is according to this trend
The tertiary color degree generated adjusts signal, so that luminescent chromaticity is changed by luminescence unit to warm tones.When
So, the variation tendency of chrominance information is not limited to that, it is also possible to include becoming dark from light color.
Alternatively, luminescence unit can adjust, according to tertiary color degree, colourity and the color that signal keeps emitting beam
Degree information is identical.So that the colourity of Intelligent worn device that user wears keeps with the colourity of ambient light
Identical, improve the sight of Intelligent worn device.
For such as luminance signal subelement, when monochrome information uprises, luminance signal subelement root
The 3rd brightness adjusting signal generated according to this trend, so that luminosity is uprised by luminescence unit;And
When monochrome information step-down, the 3rd brightness adjusting signal that luminance signal subelement generates according to this trend,
So that luminescence unit is by luminosity step-down.So that user is by observing what the change of brightness obtained
The brightness flop that psychological hint is actual with light in environment is identical.
It should be noted that generate the correspondence of tertiary color degree adjustment signal and the 3rd brightness adjusting signal
Adjustment mode can be set as required by user, could be arranged to above-mentioned adjustment mode, it is also possible to
Be set to the mode contrary with above-mentioned adjustment mode, such as when monochrome information step-down, luminance signal sub-list
The 3rd brightness adjusting signal that unit generates according to this trend, so that luminosity is uprised by luminescence unit.
It is, of course, also possible to be set to other adjustment modes, such as colourity, it is also possible to by blueness through purple
Color is adjusted to red, or is adjusted to yellow etc. by redness through orange;For brightness, Ke Yiyou
Constant brightness adjustment is the brightness according to mechanical periodicity.
Further, luminescence unit adjusts signal according to tertiary color degree and adjusts glow color, and/or according to the
Three brightness adjusting signals adjust luminosity, anisotropically can change with degree of staining or the change of brightness,
Such as in the first brightness section, brightness often declines 10nits, and luminosity can decline 10nits, and
In second brightness section, brightness often declines 10nits, and luminosity can decline 50nits, concrete change
Situation can be configured as required by user.
According to the present embodiment, user can be by watching the Intelligent worn device colourity and/or brightness worn
Change confirms the situation of change of environment chrominance/luminance, and improves the sight of Intelligent worn device.
Fig. 8 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
8, on the basis of embodiment illustrated in fig. 1, described information acquisition unit 11 includes:
Pressure obtains subelement 114, is configured to obtain pressure experienced information, wherein, described signal
Signal generating unit generates color signal according to described pressure information.In the present embodiment, pressure obtains subelement
It can be pressure transducer.
Fig. 9 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
9, on the basis of embodiment illustrated in fig. 8, described signal signal generating unit 12 includes:
Carrier chrominance signal subelement 121, is configured to when described pressure information is with five Long-term change trend, root
The 4th chroma control signal is generated according to described 5th trend;And/or
Luminance signal subelement 122, is configured to when described pressure information is with five Long-term change trend, root
The 4th brightness adjusting signal is generated according to described 5th trend.
In the present embodiment, Intelligent worn device can according to the change of ambient pressure change luminescent chromaticity and/
Or luminosity.
For such as carrier chrominance signal subelement, when pressure information diminishes, carrier chrominance signal subelement root
The 4th chroma control signal generated according to this trend so that luminescence unit by luminescent chromaticity to cool tone
Change;And when pressure information becomes big, the 4th colourity that carrier chrominance signal subelement generates according to this trend is adjusted
Entire signal, so that luminescent chromaticity is changed by luminescence unit to warm tones.
For such as luminance signal subelement, when pressure information diminishes, luminance signal subelement root
The 4th brightness adjusting signal generated according to this trend, so that luminosity is uprised by luminescence unit;And
When pressure information becomes big, the 4th brightness adjusting signal that luminance signal subelement generates according to this trend,
So that luminescence unit is by luminosity step-down.
It should be noted that generate the correspondence of the 4th chroma control signal and the 4th brightness adjusting signal
Adjustment mode can be set as required by user, could be arranged to above-mentioned adjustment mode, it is also possible to
Be set to the mode contrary with above-mentioned adjustment mode, such as when pressure information diminishes, luminance signal sub-list
The 4th brightness adjusting signal that unit generates according to this trend, so that luminosity is uprised by luminescence unit.
It is, of course, also possible to be set to other adjustment modes, such as colourity, it is also possible to by blueness through purple
Color is adjusted to red, or is adjusted to yellow etc. by redness through orange;For brightness, Ke Yiyou
Constant brightness adjustment is the brightness according to mechanical periodicity.
Further, luminescence unit adjusts glow color according to the 4th chroma control signal, and/or according to the
Four brightness adjusting signals adjust luminosity, anisotropically can change along with the change of pressure, such as
In the first pressure range, pressure often declines 10N, and luminosity can decline 10nits, and second
In pressure range, pressure often declines 10N, and luminosity can decline 50nits, concrete situation of change
Can be configured as required by user.
According to the present embodiment, user can be by watching the Intelligent worn device colourity and/or brightness worn
Change confirms the situation of change of ambient pressure, and improves the sight of Intelligent worn device.
Figure 10 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
10, on the basis of embodiment illustrated in fig. 1, described information acquisition unit 11 includes:
Position acquisition unit 115, is configured to obtain positional information, wherein, described signal signal generating unit
Color signal is generated according to described positional information.In the present embodiment, position acquisition unit can be GPS
Assembly, its positional information obtained can be the latitude and longitude coordinates of current time Intelligent worn device, it is possible to
To be the routing information of Intelligent worn device process in certain time period.Main below is to work as at positional information
In the case of the latitude and longitude coordinates of front moment Intelligent worn device illustrative to the present embodiment.
Figure 11 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
11, on the basis of embodiment illustrated in fig. 10, described signal signal generating unit 12 includes:
Carrier chrominance signal subelement 121, is configured to when described positional information is with six Long-term change trend, root
The 5th chroma control signal is generated according to described 6th trend;And/or
Luminance signal subelement 122, is configured to when described positional information is with six Long-term change trend, root
The 5th brightness adjusting signal is generated according to described 6th trend.
In the present embodiment, Intelligent worn device can change illuminant color according to the change of environmental location information
Degree and/or luminosity.6th trend can be the position distance to nearest coastline of current time
Variation tendency.Certainly, the 6th trend is not limited to that, such as, can be that the position of current time is to pre-
The variation tendency of the distance that location is put, it is also possible to be that the relative distance of target is moved with other in current location
Variation tendency.
For such as carrier chrominance signal subelement, in the position of current time to nearest coastline away from
In time diminishing (namely to coastline distance increasingly close to), carrier chrominance signal subelement is raw according to this trend
The 5th chroma control signal become, so that luminescent chromaticity is changed by luminescence unit to cool tone;And
The position of current time to nearest coastline distance become big time (namely to coastline distance increasingly
Far), the 5th chroma control signal that carrier chrominance signal subelement generates according to this trend, so that luminous
Luminescent chromaticity is changed by unit to warm tones.So that user is by observing the psychology that the change of brightness obtains
The position of hint and current time is identical to the distance change in nearest coastline, namely gets over to ocean
Closely, then tone is the most blue, closer to the color of sea water, the hint at heart obtained also is closer to ocean.
For such as luminance signal subelement, in the position of current time to nearest coastline away from
In time diminishing, the 5th brightness adjusting signal that luminance signal subelement generates according to this trend, so that
Luminosity is uprised by luminescence unit;And become big in the position of current time to the distance in nearest coastline
Time, the 5th brightness adjusting signal that luminance signal subelement generates according to this trend, so that luminous single
Unit is by luminosity step-down.
It should be noted that generate the correspondence of the 5th chroma control signal and the 5th brightness adjusting signal
Adjustment mode can be set as required by user, could be arranged to above-mentioned adjustment mode, it is also possible to
Be set to the mode contrary with above-mentioned adjustment mode, such as when distance diminishes, luminance signal subelement root
The 5th brightness adjusting signal generated according to this trend, so that luminescence unit is by luminosity step-down.When
So, it is also possible to be set to other adjustment modes, such as colourity, it is also possible to by blueness through purple
It is adjusted to red, or is adjusted to yellow etc. by redness through orange;For brightness, can be by perseverance
Fixed brightness adjustment is the brightness according to mechanical periodicity.
Further, luminescence unit adjusts glow color according to the 5th chroma control signal, and/or according to the
Five brightness adjusting signals adjust luminosity, anisotropically can change along with the change of distance, such as
In the first distance is interval, the distance of the position of current time to nearest coastline often reduces 10 kilometers,
Luminosity can raise 10nits, and in second distance interval, the position of current time is to nearest
The distance in coastline often reduces 10 kilometers, and luminosity can raise 50nits, and concrete situation of change can
To be configured as required by user.Such as can be arranged on 0 to 100 kilometer of this distance interval,
Distance often declines 10 kilometers, and luminosity rises 50nits, and interval in other distances, and distance often declines
10 kilometers, luminosity rise 10nits, thus in the position of current time to nearest coastline away from
From when 0 to 100 kilometer of interval change of this distance, the change of luminosity is the most obvious, it is ensured that use
Family is in this nearer distance interval, distance coastline, it is possible to by observing the brightness of Intelligent worn device
Change determine the change of position intuitively.
According to the present embodiment, user can be by watching the Intelligent worn device colourity and/or brightness worn
Change confirms the situation of change of environment position, and improves the sight of Intelligent worn device.
Figure 12 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
12, on the basis of embodiment illustrated in fig. 1, described information acquisition unit 11 includes:
Sign acquiring unit 116, is configured to obtain the sign information of wearer, wherein, described signal
Signal generating unit generates color signal according to described sign information.In the present embodiment, sign acquiring unit can
To obtain the sign information such as the heart rate of wearer, blood oxygen, blood pressure, deep sleep's time.
Figure 13 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
13, on the basis of embodiment illustrated in fig. 12, described signal signal generating unit 12 includes:
Carrier chrominance signal subelement 121, is configured to when described sign information is with seven Long-term change trend, root
The 6th chroma control signal is generated according to described 7th trend;And/or
Luminance signal subelement 122, is configured to when described sign information is with seven Long-term change trend, root
The 6th brightness adjusting signal is generated according to described 7th trend.
In the present embodiment, Intelligent worn device can according to the change of sign information change luminescent chromaticity and/
Or luminosity.
For such as carrier chrominance signal subelement, when blood pressure step-down, carrier chrominance signal subelement is according to being somebody's turn to do
The 6th chroma control signal that trend generates, so that luminescent chromaticity is changed by luminescence unit to cool tone;
And when blood pressure uprises, the 6th chroma control signal that carrier chrominance signal subelement generates according to this trend, can
So that luminescent chromaticity is changed by luminescence unit to warm tones.So that user is by observing the change of brightness
The psychological hint obtained and blood pressure are identical, namely tone is the reddest, then the highest to blood pressure,
To psychological hint be also blood pressure raise.
For such as luminance signal subelement, uprise constantly at blood pressure, luminance signal subelement according to
The 6th brightness adjusting signal that this trend generates, so that luminosity is uprised by luminescence unit;And
Blood pressure step-down constantly, the 6th degree of adjustment signal that luminance signal subelement generates according to this trend, can make
Obtain luminescence unit by luminosity step-down.
It should be noted that generate the correspondence of the 6th chroma control signal and the 6th brightness adjusting signal
Adjustment mode can be set as required by user, could be arranged to above-mentioned adjustment mode, it is also possible to
Be set to the mode contrary with above-mentioned adjustment mode, such as when blood pressure step-down, luminance signal subelement root
The 6th brightness adjusting signal generated according to this trend, so that luminosity is uprised by luminescence unit.When
So, it is also possible to be set to other adjustment modes, such as colourity, it is also possible to by blueness through purple
It is adjusted to red, or is adjusted to yellow etc. by redness through orange;For brightness, can be by perseverance
Fixed brightness adjustment is the brightness according to mechanical periodicity.
Further, luminescence unit adjusts glow color according to the 6th chroma control signal, and/or according to the
Six brightness adjusting signals adjust luminosity, anisotropically can change along with the change of sign information,
Such as in the first blood pressure interval, blood pressure often raises 10mmHg, and luminosity can raise 10nits,
And in the second blood pressure interval, blood pressure often raises 10mmHg, luminosity can raise 50nits, tool
The situation of change of body can be configured as required by user.Such as can be arranged on 70 to
This blood pressure of 160mmHg is interval, and blood pressure often raises 10mmHg, and luminosity rises 50nits, and
Other blood pressures are interval, and blood pressure often raises 10mmHg, and luminosity rises 10nits, thus when blood pressure exists
In human normal blood pressure range during change, the change of luminosity is the most obvious, it is ensured that the blood pressure of user exists
In the range of this during change, it is possible to determine blood intuitively by observing the change of the brightness of Intelligent worn device
The change of pressure.Above-described embodiment is except going for this sign information of blood pressure, it is also possible to be applicable to it
His sign information.
According to the present embodiment, user can be by watching the Intelligent worn device colourity and/or brightness worn
Change confirms the situation of change of sign information, and improves the sight of Intelligent worn device.
Figure 14 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
14, on the basis of embodiment illustrated in fig. 1, above-mentioned Intelligent worn device also includes:
Timing unit 14, is configured to Dose times, and wherein, described signal signal generating unit is according to time described
Between generate color signal.In the present embodiment, timing unit can be timer.
Figure 15 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
15, on the basis of embodiment illustrated in fig. 14, described signal signal generating unit 12 includes:
Carrier chrominance signal subelement 121, be configured to the described time with eight Long-term change trend time, according to institute
The 8th trend of stating generates the 7th chroma control signal;And/or
Luminance signal subelement 122, be configured to the described time with eight Long-term change trend time, according to institute
The 8th trend of stating generates the 7th brightness adjusting signal.
In the present embodiment, Intelligent worn device can change luminescent chromaticity according to the change of time and/or send out
Brightness.8th trend can be the current time duration to predetermined instant.
For such as carrier chrominance signal subelement, when the duration of current time to predetermined instant diminishes (also
I.e. arrive predetermined instant more and more nearer), the 7th chroma control that carrier chrominance signal subelement generates according to this trend
Signal, so that luminescent chromaticity is changed by luminescence unit to warm tones;And at current time to pre-timing
When the duration carved becomes big (namely more and more remote to predetermined instant), carrier chrominance signal subelement is according to this trend
The 7th chroma control signal generated, so that luminescent chromaticity is changed by luminescence unit to cool tone.From
And make the duration of user's psychological hint of obtaining of change with current time to predetermined instant by observing brightness
Change is identical, namely tone is the reddest, the hint at heart obtained be exactly the time more and more urgent.
For such as luminance signal subelement, when the duration of current time to predetermined instant diminishes,
The 7th brightness adjusting signal that luminance signal subelement generates according to this trend, so that luminescence unit will
Luminosity uprises;And when the duration of current time to predetermined instant becomes big, luminance signal subelement root
The 7th brightness adjusting signal generated according to this trend, so that luminescence unit is by luminosity step-down.
It should be noted that generate the correspondence of the 7th chroma control signal and the 7th brightness adjusting signal
Adjustment mode can be set as required by user, could be arranged to above-mentioned adjustment mode, it is also possible to
It is set to the mode contrary with above-mentioned adjustment mode, the such as duration at current time to predetermined instant diminish
Time, the 7th brightness adjusting signal that luminance signal subelement generates according to this trend, so that luminous single
Unit is by luminosity step-down.It is, of course, also possible to be set to other adjustment modes, such as colourity,
Can also be adjusted to red by blueness through purple, or be adjusted to yellow etc. by redness through orange;For
For brightness, can be the brightness according to mechanical periodicity by constant brightness adjustment.
Further, luminescence unit adjusts glow color according to the 7th chroma control signal, and/or according to the
Seven brightness adjusting signals adjust luminosity, anisotropically can change along with the change of duration, such as
In the first duration interval, the duration of current time to predetermined instant often reduces 10 minutes, and luminosity can
To raise 10nits, and in second distance interval, the duration of current time to predetermined instant often reduces 10
Minute, luminosity can raise 50nits, and concrete situation of change can be carried out as required by user
Arrange.Such as can be arranged on 0 to 30 minute this duration of kilometer interval, duration often reduces 10 minutes,
Luminosity rises 50nits, and interval at other durations, and duration often reduces 10 minutes, on luminosity
Rise 10nits, thus when the interval change that current time to predetermined instant is nearer, the change of luminosity
The most obvious, it is ensured that user is in this most urgent duration interval, it is possible to dress by observing intelligence
The change of the brightness of equipment determines the change of duration intuitively.
According to the present embodiment, user can be by watching the Intelligent worn device colourity and/or brightness worn
The situation of change of change acknowledging time, and improve the sight of Intelligent worn device.
Figure 16 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
16, on the basis of embodiment illustrated in fig. 1, described information acquisition unit 11 includes:
Image Acquisition subelement 113, is configured to obtain the image information of environment.
In the present embodiment, Image Acquisition subelement can include image collection assembly, can gather static state
Image can also gather dynamic image.
Described signal signal generating unit 12 includes:
Picture signal subelement 123, is configured to generate picture signal according to described image information.
In the present embodiment, signal signal generating unit can include display driver circuit, can believe according to image
Breath generates and drives signal, to control to show that in subelement, pixel and sub-pix are turned on and off, so that
Display subelement display image.
Described luminescence unit 13 includes:
Display subelement 131, is configured to show image according to described picture signal.
In this example it is shown that subelement can be curve screens, Intelligent worn device can be covered in
Whole outer surfaces, it is also possible to only cover the subregion of Intelligent worn device, it is also possible to be arranged on intelligence
In wearable device.
Wherein, display image shown by subelement can be identical with image information in environment and/or close
Image so that display image Intelligent worn device seem to have incorporated environment, improve intelligence
The sight of wearable device.
Figure 17 is the block diagram according to another Intelligent worn device shown in an exemplary embodiment.With reference to figure
17, on the basis of embodiment illustrated in fig. 1, above-mentioned Intelligent worn device also includes:
Communication unit 15, is configured to receive the idsplay order of target terminal, and wherein, described signal generates
Unit generates color signal according to described idsplay order.
In the present embodiment, communication unit can be (such as WiFi, red by wiredly and/or wirelessly mode
Outward, bluetooth etc.) communicate with target terminal, be possible not only to receive the idsplay order of target terminal, also
Can be to target terminal transmission information (such as electricity is relatively low).
According to the present embodiment, Intelligent worn device can lower the colourity of light of haircuting in the control of target terminal
And/or brightness.Thus realize the Artificial Control to Intelligent worn device, improve Intelligent worn device luminous
Controllability, it is simple to meet the real-time needs of user.
Figure 18 is the structural representation according to a kind of Intelligent worn device shown in an exemplary embodiment.Figure
19 is the structural representation according to the housing shown in an exemplary embodiment.Reference Figure 18 and Figure 19,
On the basis of embodiment illustrated in fig. 1, described Intelligent worn device includes multiple housing 16 and connects described
The connection unit 17 of multiple housings 16,
At least one housing in the plurality of housing is provided with power subsystem (not shown), extremely
A few housing is provided with described information acquisition unit 11, information generating unit 12 and luminescence unit 13,
Wherein, described connection unit is electrically connected to described power subsystem and each described luminescence unit 13.
Embodiment shown in Figure 18 mainly with Intelligent worn device as bangle in the case of the present invention is carried out
Exemplary illustration, technical scheme can also be applied to other Intelligent worn device.Bangle removes
Can include n housing as shown in figure 18, n is the integer more than 1, it is also possible to include n-1 shell
Body and a buckle, wherein, power subsystem and information acquisition unit, information generating unit can be all
It is arranged on card to smash, only luminescence unit is set in each housing, by connecting unit, color signal is transmitted
To each luminescence unit, to improve the luminescence unit occupancy to housing, thus improve effectively sending out of housing
Light area, it is ensured that the aesthetic property of each housing.It is of course also possible to be respectively provided with power supply in each housing
Unit, information acquisition unit, information generating unit, to ensure in the case of connecting unit open circuit, often
Assembly in individual housing remains to work alone.
As shown in figure 19, it is respectively arranged with information acquisition unit 11, information generating unit in each housing
12 and luminescence unit 13, wherein luminescence unit 13 can be LED, and information acquisition unit 11 is permissible
Be arranged on the inner surface of housing 16, with the more accurate environmental information that must obtain, information generating unit 12 then with
Information acquisition unit 11 and luminescence unit 13 electrically connect.
Corresponding with the embodiment of aforesaid Intelligent worn device, the disclosure additionally provides Intelligent worn device
The embodiment of control method.
Figure 20 is the flow process according to a kind of Intelligent worn device control method shown in an exemplary embodiment
Figure, as shown in figure 20, Intelligent worn device control method may be used for arbitrary enforcement in Fig. 1 to Figure 19
In Intelligent worn device shown in example, the method comprises the following steps.
In step sl, environmental information is obtained.
In step s 2, color signal is generated according to described environmental information.
In step s3, emit beam according to described color signal.
Figure 21 is the stream according to the another kind of Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 21, on the basis of embodiment illustrated in fig. 20, described acquisition environmental information includes:
In step slo, the temperature information of environment is obtained.
Described according to described environmental information generate color signal include:
In step S20, generate color signal according to described temperature information.
Figure 22 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 22, on the basis of embodiment illustrated in fig. 21, described according to described temperature information
Generation color signal includes:
In step s 201, when described temperature information is with the first Long-term change trend, become according to described first
Gesture generates the first chroma control signal, and/or generates the first brightness adjusting signal according to described first trend.
Figure 23 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 23, on the basis of embodiment illustrated in fig. 20, described acquisition environmental information includes:
In step s 11, the humidity information of environment is obtained.
Described according to described environmental information generate color signal include:
In the step s 21, color signal is generated according to described humidity information.
Figure 24 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 24, on the basis of embodiment illustrated in fig. 23, described according to described humidity information
Generation color signal includes:
In step S211, when described humidity information is with the second Long-term change trend, become according to described second
Gesture generates the second chroma control signal, and/or generates the second brightness adjusting signal according to described second trend.
Figure 25 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 25, on the basis of embodiment illustrated in fig. 20, described acquisition environmental information includes:
In step s 12, chrominance information and/or the monochrome information of ambient light are obtained;
Described according to described environmental information generate color signal include:
In step S22, generate color signal according to described chrominance information and/or monochrome information.
Figure 26 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 26, on the basis of embodiment illustrated in fig. 25, described according to described chrominance information
And/or monochrome information generates color signal and includes:
In step S221, when described chrominance information is with three Long-term change trend, become according to the described 3rd
Gesture generates tertiary color degree and adjusts signal;And/or
In step S222, when described monochrome information is with four Long-term change trend, become according to the described 4th
Gesture generates the 3rd brightness adjusting signal.
Figure 27 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 27, on the basis of embodiment illustrated in fig. 20, described acquisition environmental information includes:
In step s 13, pressure experienced information is obtained;
Described according to described environmental information generate color signal include:
In step S23, generate color signal according to described pressure information.
Figure 28 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 28, on the basis of embodiment illustrated in fig. 27, described according to described pressure information
Generation color signal includes:
In step S231, when described pressure information is with five Long-term change trend, become according to the described 5th
Gesture generates the 4th chroma control signal, and/or generates the 4th brightness adjusting signal according to described 5th trend.
Figure 29 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 29, on the basis of embodiment illustrated in fig. 20, described acquisition environmental information includes:
In step S14, obtain positional information;
Described according to described environmental information generate color signal include:
In step s 24, color signal is generated according to described positional information.
Figure 30 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 30, on the basis of embodiment illustrated in fig. 29, described according to described positional information
Generation color signal includes:
In step S241, when described positional information is with six Long-term change trend, become according to the described 6th
Gesture generates the 5th chroma control signal, and/or generates the 5th brightness adjusting signal according to described 6th trend.
Figure 31 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 31, on the basis of embodiment illustrated in fig. 20, described acquisition environmental information includes:
In step S15, obtain the sign information of wearer;
Described according to described environmental information generate color signal include:
In step S15, generate color signal according to described sign information.
Figure 32 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 32, on the basis of Figure 31 illustrated embodiment, described according to described positional information
Generation color signal includes:
In step S251, when described sign information is with seven Long-term change trend, become according to the described 7th
Gesture generates the 6th chroma control signal, and/or generates the 6th brightness adjusting signal according to described 7th trend.
Figure 33 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 33, on the basis of embodiment illustrated in fig. 20, is sending out according to described color signal
Before going out light, described method also includes:
In step s 40, Dose times;
In step S41, generate color signal according to the described time.
Figure 34 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 34, on the basis of Figure 33 illustrated embodiment, described generates according to the described time
Color signal includes:
In step S41, the described time with eight Long-term change trend time, according to described 8th trend generate
7th chroma control signal, and/or generate the 7th brightness adjusting signal according to described 8th trend.
Figure 35 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 35, on the basis of embodiment illustrated in fig. 20, described acquisition environmental information includes:
In step s 16, the image information of environment is obtained;
Described according to described environmental information generate color signal include:
In step S26, generate picture signal according to described image information;
Described emitting beam according to described color signal includes:
In step S31, show image according to described picture signal.
Figure 36 is the stream according to another the Intelligent worn device control method shown in an exemplary embodiment
Cheng Tu, as shown in figure 36, on the basis of embodiment illustrated in fig. 20, is sending out according to described color signal
Before going out light, the method also includes:
In step s 50, the idsplay order of target terminal is received;
In step s 51, color signal is generated according to described idsplay order.
About the method in above-described embodiment, the concrete mode that wherein each step performs to operate is having
Close in the embodiment of Intelligent worn device and be described in detail, explanation will be not set forth in detail herein.
For device embodiment, owing to it corresponds essentially to embodiment of the method, so relevant part ginseng
See that the part of embodiment of the method illustrates.Intelligent worn device embodiment described above is only shown
Meaning property, the wherein said unit that illustrates as separating component can be or may not be and physically divide
Opening, the parts shown as unit can be or may not be physical location, i.e. may be located at one
Individual place, or can also be distributed on multiple NE.Can select wherein according to the actual needs
Some or all of module realize the purpose of disclosure scheme.Those of ordinary skill in the art are not paying
In the case of going out creative work, i.e. it is appreciated that and implements.
Figure 37 is according to a kind of device for controlling Intelligent worn device shown in an exemplary embodiment
The block diagram of 3700.Such as, device 3700 can be mobile phone, computer, digital broadcast terminal,
Messaging devices, game console, tablet device, armarium, body-building equipment, individual digital helps
Reason etc..
With reference to Figure 37, device 3700 can include following one or more unit: processing unit 3702,
Memorizer 3704, power subsystem 3706, multimedia unit 3708, audio unit 3710, input/output
(I/O) interface 3712, sensor unit 3714, and communication unit 3716.
Processing unit 3702 generally controls the integrated operation of device 3700, such as with display, call,
The operation that data communication, camera operation and record operation are associated.Processing unit 3702 can include one
Or multiple processor 3720 performs instruction, to complete all or part of step of above-mentioned method.Additionally,
Processing unit 3702 can include one or more module, it is simple to processing unit 3702 and other unit it
Between mutual.Such as, processing unit 3702 can include multi-media module, to facilitate multimedia unit
Mutual between 3708 and processing unit 3702.
Memorizer 3704 is configured to store various types of data to support the operation at device 3700.
The example of these data includes any application program for operation on device 3700 or the instruction of method,
Contact data, telephone book data, message, picture, video etc..Memorizer 3704 can be by any class
The volatibility of type or non-volatile memory device or combinations thereof realize, such as static random access memory
Device (SRAM), Electrically Erasable Read Only Memory (EEPROM), erasable programmable is only
Reading memorizer (EPROM), programmable read only memory (PROM), read only memory (ROM),
Magnetic memory, flash memory, disk or CD.
The various unit that power subsystem 3706 is device 3700 provide electric power.Power subsystem 3706 can wrap
Include power-supply management system, one or more power supplys, and other generate with for device 3700, manage and distribute
The unit that electric power is associated.
One output interface of offer that multimedia unit 3708 is included between described device 3700 and user
Screen.In certain embodiments, screen can include liquid crystal display (LCD) and touch panel (TP).
If screen includes that touch panel, screen may be implemented as touch screen, to receive the input from user
Signal.Touch panel includes that one or more touch sensor touches with sensing, slides and on touch panel
Gesture.Described touch sensor can not only sense touch or the border of sliding action, but also detects
The persistent period relevant to described touch or slide and pressure.In certain embodiments, multimedia list
Unit 3708 includes a front-facing camera and/or post-positioned pick-up head.When device 3700 is in operator scheme,
During such as screening-mode or video mode, when front-facing camera and/or post-positioned pick-up head can receive outside many
Media data.Each front-facing camera and post-positioned pick-up head can be a fixing optical lens system or
There is focal length and optical zoom ability.
Audio unit 3710 is configured to output and/or input audio signal.Such as, audio unit 3710
Including a mike (MIC), when device 3700 is in operator scheme, such as call model, record mould
When formula and speech recognition mode, mike is configured to receive external audio signal.The audio frequency letter received
Number can be further stored at memorizer 3704 or send via communication unit 3716.Implement at some
In example, audio unit 3710 also includes a speaker, is used for exporting audio signal.
I/O interface 3712 be between processing unit 3702 and peripheral interface module provide interface, above-mentioned outside
Enclosing interface module can be keyboard, puts striking wheel, button etc..These buttons may include but be not limited to: homepage
Button, volume button, start button and locking press button.
Sensor unit 3714 includes one or more sensor, for providing each side for device 3700
The state estimation in face.Such as, what sensor unit 3714 can detect device 3700 beats opening/closing shape
State, the relative localization of unit, the most described unit is display and the keypad of device 3700, sensor
Unit 3714 can also detect device 3700 or the position change of 3,700 1 unit of device, user and dress
Put the presence or absence of 3700 contacts, device 3700 orientation or acceleration/deceleration and the temperature of device 3700
Degree change.Sensor unit 3714 can include proximity transducer, is configured to do not having any thing
The existence of object near detection during reason contact.Sensor unit 3714 can also include optical sensor, as
CMOS or ccd image sensor, for using in imaging applications.In certain embodiments, should
Sensor unit 3714 can also include acceleration transducer, gyro sensor, Magnetic Sensor, pressure
Sensor or temperature sensor.
Communication unit 3716 is configured to facilitate wired or wireless mode between device 3700 and other equipment
Communication.Device 3700 can access wireless network based on communication standard, such as WiFi, 2G or 3G,
Or combinations thereof.In one exemplary embodiment, communication unit 3716 receives via broadcast channel
From broadcast singal or the broadcast related information of external broadcasting management system.In one exemplary embodiment,
Described communication unit 3716 also includes near-field communication (NFC) module, to promote junction service.Such as,
Can be based on RF identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology,
Ultra broadband (UWB) technology, bluetooth (BT) technology and other technologies realize.
In the exemplary embodiment, device 3700 can be by one or more application specific integrated circuits
(ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), can compile
Journey logical device (PLD), field programmable gate array (FPGA), controller, microcontroller, letter
Number signal generating unit or other electronic components realize, and are used for performing said method.
In the exemplary embodiment, a kind of non-transitory computer-readable storage including instruction is additionally provided
Medium, such as, include the memorizer 3704 of instruction, and above-mentioned instruction can be by the processor 3720 of device 3700
Perform to complete said method.Such as, described non-transitory computer-readable recording medium can be ROM,
Random access memory (RAM), CD-ROM, tape, floppy disk and optical data storage devices etc..
Those skilled in the art, after considering description and putting into practice disclosure disclosed herein, will readily occur to this
Other embodiment disclosed.The application is intended to any modification, purposes or the adaptability of the disclosure
Change, these modification, purposes or adaptations are followed the general principle of the disclosure and include these public affairs
Open undocumented common knowledge in the art or conventional techniques means.Description and embodiments only by
Being considered as exemplary, the true scope of the disclosure and spirit are pointed out by claim below.
It should be appreciated that the disclosure be not limited to described above and illustrated in the accompanying drawings accurately
Structure, and various modifications and changes can carried out without departing from the scope.The scope of the present disclosure is only by institute
Attached claim limits.
Claims (35)
1. an Intelligent worn device, it is characterised in that including:
Information acquisition unit, obtains environmental information;
Signal signal generating unit, generates color signal according to described environmental information;
Luminescence unit, emits beam according to described color signal.
Intelligent worn device the most according to claim 1, it is characterised in that described acquisition of information list
Unit includes:
Temperature obtain subelement, obtain environment temperature information, wherein, described signal signal generating unit according to
Described temperature information generates color signal.
Intelligent worn device the most according to claim 2, it is characterised in that described signal generates single
Unit includes:
Carrier chrominance signal subelement, when described temperature information is with the first Long-term change trend, becomes according to described first
Gesture generates the first chroma control signal;And/or
Luminance signal subelement, when described temperature information is with the first Long-term change trend, becomes according to described first
Gesture generates the first brightness adjusting signal.
Intelligent worn device the most according to claim 1, it is characterised in that described acquisition of information list
Unit includes:
Humidity obtain subelement, obtain environment humidity information, wherein, described signal signal generating unit according to
Described humidity information generates color signal.
Intelligent worn device the most according to claim 4, it is characterised in that described signal generates single
Unit includes:
Carrier chrominance signal subelement, when described humidity information is with the second Long-term change trend, becomes according to described second
Gesture generates the second chroma control signal;And/or
Luminance signal subelement, when described humidity information is with the second Long-term change trend, becomes according to described second
Gesture generates the second brightness adjusting signal.
Intelligent worn device the most according to claim 1, it is characterised in that described acquisition of information list
Unit includes:
Light obtains subelement, obtains chrominance information and/or the monochrome information of ambient light, wherein, described letter
Number signal generating unit generates color signal according to described chrominance information and/or monochrome information.
Intelligent worn device the most according to claim 6, it is characterised in that described signal generates single
Unit includes:
Carrier chrominance signal subelement, when described chrominance information is with three Long-term change trend, becomes according to the described 3rd
Gesture generates tertiary color degree and adjusts signal;And/or
Luminance signal subelement, when described monochrome information is with four Long-term change trend, becomes according to the described 4th
Gesture generates the 3rd brightness adjusting signal.
Intelligent worn device the most according to claim 1, it is characterised in that described acquisition of information list
Unit includes:
Pressure obtain subelement, obtain pressure experienced information, wherein, described signal signal generating unit according to
Described pressure information generates color signal.
Intelligent worn device the most according to claim 8, it is characterised in that described signal generates single
Unit includes:
Carrier chrominance signal subelement, when described pressure information is with five Long-term change trend, becomes according to the described 5th
Gesture generates the 4th chroma control signal;And/or
Luminance signal subelement, when described pressure information is with five Long-term change trend, becomes according to the described 5th
Gesture generates the 4th brightness adjusting signal.
Intelligent worn device the most according to claim 1, it is characterised in that described acquisition of information
Unit includes:
Position acquisition unit, obtains positional information, and wherein, described signal signal generating unit is according to described position
Information generates color signal.
11. Intelligent worn device according to claim 10, it is characterised in that described signal generates
Unit includes:
Carrier chrominance signal subelement, when described positional information is with six Long-term change trend, becomes according to the described 6th
Gesture generates the 5th chroma control signal;And/or
Luminance signal subelement, when described positional information is with six Long-term change trend, becomes according to the described 6th
Gesture generates the 5th brightness adjusting signal.
12. Intelligent worn device according to claim 1, it is characterised in that described acquisition of information
Unit includes:
Sign acquiring unit, obtain wearer sign information, wherein, described signal signal generating unit according to
Described sign information generates color signal.
13. Intelligent worn device according to claim 12, it is characterised in that described signal generates
Unit includes:
Carrier chrominance signal subelement, when described sign information is with seven Long-term change trend, becomes according to the described 7th
Gesture generates the 6th chroma control signal;And/or
Luminance signal subelement, when described sign information is with seven Long-term change trend, becomes according to the described 7th
Gesture generates the 6th brightness adjusting signal.
14. Intelligent worn device according to claim 1, it is characterised in that also include:
Timing unit, for Dose times, wherein, described signal signal generating unit generated according to the described time
Color signal.
15. Intelligent worn device according to claim 14, it is characterised in that described signal generates
Unit includes:
Carrier chrominance signal subelement, the described time with eight Long-term change trend time, raw according to described 8th trend
Become the 7th chroma control signal;And/or
Luminance signal subelement, the described time with eight Long-term change trend time, raw according to described 8th trend
Become the 7th brightness adjusting signal.
16. Intelligent worn device according to claim 1, it is characterised in that described acquisition of information
Unit includes:
Image Acquisition subelement, obtains the image information of environment;
Described signal signal generating unit includes:
Picture signal subelement, generates picture signal according to described image information;
Described luminescence unit includes:
Display subelement, shows image according to described picture signal.
17. Intelligent worn device according to claim 1, it is characterised in that also include:
Communication unit, receives the idsplay order of target terminal, and wherein, described signal signal generating unit is according to institute
State idsplay order and generate color signal.
18. Intelligent worn device according to claim 1, it is characterised in that described intelligence is dressed
Equipment includes multiple housing and connects the connection unit of the plurality of housing,
At least one housing in the plurality of housing is provided with power subsystem, at least one housing sets
It is equipped with described information acquisition unit, information generating unit and luminescence unit, wherein, described connection unit electricity
It is connected to described power subsystem and each described luminescence unit.
19. 1 kinds of Intelligent worn device control methods, it is characterised in that including:
Obtain environmental information;
Color signal is generated according to described environmental information;
Emit beam according to described color signal.
20. methods according to claim 19, it is characterised in that described acquisition environmental information includes:
Obtain the temperature information of environment;
Described according to described environmental information generate color signal include:
Color signal is generated according to described temperature information.
21. methods according to claim 20, it is characterised in that described according to described temperature information
Generation color signal includes:
When described temperature information is with the first Long-term change trend, generates the first colourity according to described first trend and adjust
Entire signal, and/or generate the first brightness adjusting signal according to described first trend.
22. methods according to claim 19, it is characterised in that described acquisition environmental information includes:
Obtain the humidity information of environment;
Described according to described environmental information generate color signal include:
Color signal is generated according to described humidity information.
23. methods according to claim 22, it is characterised in that described according to described humidity information
Generation color signal includes:
When described humidity information is with the second Long-term change trend, generates the second colourity according to described second trend and adjust
Entire signal, and/or generate the second brightness adjusting signal according to described second trend.
24. methods according to claim 19, it is characterised in that described acquisition environmental information includes:
Obtain chrominance information and/or the monochrome information of ambient light;
Described according to described environmental information generate color signal include:
Color signal is generated according to described chrominance information and/or monochrome information.
25. methods according to claim 24, it is characterised in that described according to described chrominance information
And/or monochrome information generates color signal and includes:
When described chrominance information is with three Long-term change trend, generates tertiary color degree according to described 3rd trend and adjust
Entire signal;And/or
When described monochrome information is with four Long-term change trend, generates the 3rd brightness according to described 4th trend and adjust
Entire signal.
26. methods according to claim 19, it is characterised in that described acquisition environmental information includes:
Obtain pressure experienced information;
Described according to described environmental information generate color signal include:
Color signal is generated according to described pressure information.
27. method according to claim 26, it is characterised in that described according to described pressure information
Generation color signal includes:
When described pressure information is with five Long-term change trend, generates the 4th colourity according to described 5th trend and adjust
Entire signal, and/or generate the 4th brightness adjusting signal according to described 5th trend.
28. methods according to claim 19, it is characterised in that described acquisition environmental information includes:
Obtain positional information;
Described according to described environmental information generate color signal include:
Color signal is generated according to described positional information.
29. methods according to claim 28, it is characterised in that described according to described positional information
Generation color signal includes:
When described positional information is with six Long-term change trend, generates the 5th colourity according to described 6th trend and adjust
Entire signal, and/or generate the 5th brightness adjusting signal according to described 6th trend.
30. methods according to claim 19, it is characterised in that described acquisition environmental information includes:
Obtain the sign information of wearer;
Described according to described environmental information generate color signal include:
Color signal is generated according to described sign information.
31. methods according to claim 30, it is characterised in that described according to described positional information
Generation color signal includes:
When described sign information is with seven Long-term change trend, generates the 6th colourity according to described 7th trend and adjust
Entire signal, and/or generate the 6th brightness adjusting signal according to described 7th trend.
32. methods according to claim 19, it is characterised in that sending out according to described color signal
Before going out light, described method also includes:
Dose times;
Color signal is generated according to the described time.
33. methods according to claim 32, it is characterised in that described generate according to the described time
Color signal includes:
The described time with eight Long-term change trend time, according to described 8th trend generate the 7th chroma control letter
Number, and/or generate the 7th brightness adjusting signal according to described 8th trend.
34. methods according to claim 19, it is characterised in that described acquisition environmental information includes:
Obtain the image information of environment;
Described according to described environmental information generate color signal include:
Picture signal is generated according to described image information;
Described emitting beam according to described color signal includes:
Image is shown according to described picture signal.
35. methods according to claim 19, it is characterised in that sending out according to described color signal
Before going out light, also include:
Receive the idsplay order of target terminal;
Color signal is generated according to described idsplay order.
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