CN104869382A - Information processing method and wearable device - Google Patents

Abstract

An information processing method disclosed by the present invention is applied to a wearable device, the wearable device comprises a liquid crystal display unit and a polarization unit, and the method comprises the steps of obtaining the environmental brightness value of an environment in which the wearable device is located; when the environmental brightness value is a first brightness value and the first brightness value is not in a preset brightness value range, adjusting the light transmittance of the liquid crystal display unit, and adjusting the first brightness value into a second brightness value, wherein the second brightness value is in the preset brightness value range; when the wearable device is in a 3D image playing environment, obtaining the 3D images by the polarization unit.

Description

A kind of information processing method and Wearable

Technical field

The present invention relates to technical field of information processing, particularly relate to a kind of information processing method and Wearable.

Background technology

Due to the portability of Wearable, conveniently complete specific function quickly, user can dress the Wearable with specific function usually.Such as: sunglasses, 3D glasses, farsighted glasses, near-sighted glasses etc.Different Wearable has different functions, and such as: sunglasses can block dazzling sunlight, 3D glasses can help user to watch stereo-picture, and near-sighted glasses can help the user of glasses myopia to see object at a distance clearly.

But present inventor is in the process realizing invention technical scheme in the embodiment of the present application, find that above-mentioned technology at least exists following technical problem:

Because a Wearable can only complete a function, the function that user must complete as required, dress the Wearable of specific function, when the function that user has needed changes, the Wearable of having dressed must be taken off, then dress the Wearable that can complete New function.Such as: when user needs to block dazzling sunlight, user's wear dark glasses, when user does not need to block dazzling sunlight, and when needing to see stereo-picture, user must remove sunglasses, then puts on 3D glasses, very inconvenient.

Therefore, the technical problem that prior art exists is: can not provide a kind of Wearable with several functions.

Summary of the invention

The embodiment of the present application is by providing a kind of information processing method and Wearable, solve in prior art and a kind of technical problem with the Wearable of several functions can not be provided, achieve and a kind of Wearable with several functions is provided, user can use a Wearable to complete several functions, improves Consumer's Experience.

First aspect, the embodiment of the present application provides a kind of information processing method, and be applied in a Wearable, described Wearable comprises liquid crystal display and polarization unit, and described method comprises:

Obtain the environment bright angle value of described Wearable place environment;

When described environment bright angle value be the first brightness value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value;

When described Wearable is at 3D rendering exhibition environment, obtain 3D rendering by described polarization unit.

Optionally, after the environment bright angle value of described acquisition described Wearable place environment, described method also comprises:

Obtain the environmental data transmission value of described Wearable place environment;

When described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display.

Optionally, described when described Wearable is at 3D rendering exhibition environment, obtain 3D rendering by described polarization unit, be specially:

When described Wearable is at 3D rendering exhibition environment, first polarization module of described polarization unit receives the first polarised light of the first projector transmitting, second polarization module of described polarization unit receives second polarised light orthogonal with described first polarised light of the second projector transmitting, and then obtains described 3D rendering.

Optionally, described when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display, specifically comprise:

When described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched;

When described synchronizing signal is left eye signal, first LCD MODULE of described liquid crystal display is opened and is received described left eye signal, when described synchronizing signal is right eye signal, second LCD MODULE of described liquid crystal display is opened and is received described right eye signal, and then obtains described 3D rendering.

Optionally, described when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display, specifically comprise:

Whether the switch detected in described Wearable is in opening;

When described switch is in opening, and when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain described 3D rendering by described liquid crystal display.

Second aspect, the embodiment of the present application provides a kind of Wearable, and described Wearable comprises liquid crystal display and polarization unit, and described Wearable also comprises:

First obtains unit, for obtaining the environment bright angle value of described Wearable place environment;

First adjustment unit, for be the first brightness value when described environment bright angle value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value;

Second obtains unit, for when described Wearable is at 3D rendering exhibition environment, obtains 3D rendering by described polarization unit.

Optionally, described Wearable also comprises:

3rd obtains unit, for obtaining the environmental data transmission value of described Wearable place environment;

4th obtains unit, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, by described liquid crystal display acquisition 3D rendering.

Optionally, the described 3rd obtains unit, specifically for:

When described Wearable is at 3D rendering exhibition environment, first polarization module of described polarization unit receives the first polarised light of the first projector transmitting, second polarization module of described polarization unit receives second polarised light orthogonal with described first polarised light of the second projector transmitting, and then obtains described 3D rendering.

Optionally, the described 4th obtains unit, specifically comprises:

First receiving element, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched;

Second receiving element, for when described synchronizing signal is left eye signal, first LCD MODULE of described liquid crystal display is opened and is received described left eye signal, when described synchronizing signal is right eye signal, second LCD MODULE of described liquid crystal display is opened and is received described right eye signal, and then obtains described 3D rendering.

Optionally, the described 4th obtains unit, specifically comprises:

Whether the first detecting unit, be in opening for the switch detected in described Wearable;

5th obtains unit, for being in opening when described switch, and when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain described 3D rendering by described liquid crystal display.

The third aspect, the embodiment of the present application provides a kind of Wearable, comprising:

Photo-sensitive cell, for obtaining the environment bright angle value of described Wearable place environment;

Liquid crystal display, described liquid crystal display is connected with described photo-sensitive cell, for be the first brightness value when described environment bright angle value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value;

Polarization unit, for when described Wearable is at 3D rendering exhibition environment, obtains 3D rendering by described polarization unit.

Optionally, described Wearable also comprises:

Data transmission unit, for obtaining the environmental data transmission value of described Wearable place environment;

Processor, described processor is connected with described data transmission unit, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display.

Optionally, described polarization unit specifically for:

When described Wearable is at 3D rendering exhibition environment, first polarization module of described polarization unit receives the first polarised light of the first projector transmitting, second polarization module of described polarization unit receives second polarised light orthogonal with described first polarised light of the second projector transmitting, and then obtains described 3D rendering.

Optionally, described Wearable also comprises:

Synchronous receiving element, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched;

Described processor connects with described liquid crystal display and described synchronous receiving element, when described synchronizing signal is left eye signal, first LCD MODULE of described liquid crystal display is opened and is received described left eye signal, when described synchronizing signal is right eye signal, second LCD MODULE of described liquid crystal display is opened and is received described right eye signal, and then obtains described 3D rendering.

Optionally, described Wearable also comprises:

Switch, be connected with described liquid crystal display and polarization unit, when described switch is in opening, and when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain described 3D rendering by described liquid crystal display.

The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:

1, owing to have employed the environment bright angle value obtaining described Wearable place environment, when described environment bright angle value be the first brightness value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, when described Wearable is at 3D rendering exhibition environment, the technological means of 3D rendering is obtained by described polarization unit, according to the environment at Wearable place, liquid crystal display is utilized to complete sunglasses function, polarization unit is utilized to complete 3D glasses function, so, efficiently solve in prior art and a kind of technical problem with the Wearable of several functions can not be provided, achieve and a kind of Wearable with several functions is provided, user can use a Wearable to complete several functions, improve Consumer's Experience.

2, owing to have employed when described Wearable is at 3D rendering exhibition environment, 3D rendering is obtained by described polarization unit, when the environmental data transmission value of described Wearable place environment be first data transmission value and described first data transmission value within the scope of preset data transmission value time, the technological means of 3D rendering is obtained by described liquid crystal display, so, according to the varying environment at Wearable place, provide the multiple method realizing 3D glasses function, improve Consumer's Experience.

Accompanying drawing explanation

Fig. 1 is the flow chart of a kind of information processing method in the embodiment of the present application one;

Fig. 2 is the module map of a kind of Wearable in the embodiment of the present application two;

Fig. 3 is the module map of a kind of Wearable in the embodiment of the present application three.

Embodiment

The embodiment of the present application is by providing a kind of information processing method and Wearable, solve in prior art and a kind of technical problem with the Wearable of several functions can not be provided, achieve and a kind of Wearable with several functions is provided, user can use a Wearable to complete several functions, improves Consumer's Experience.

Technical scheme in the embodiment of the present application is for solving the problems of the technologies described above, and general thought is as follows:

Obtain the environment bright angle value of described Wearable place environment, when described environment bright angle value be the first brightness value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, when described Wearable is at 3D rendering exhibition environment, the technological means of 3D rendering is obtained by described polarization unit, according to the environment at Wearable place, liquid crystal display is utilized to complete sunglasses function, polarization unit is utilized to complete 3D glasses function, so, efficiently solve in prior art and a kind of technical problem with the Wearable of several functions can not be provided, achieve and a kind of Wearable with several functions is provided, user can use a Wearable to complete several functions, improve Consumer's Experience.

In order to better understand technique scheme, below in conjunction with Figure of description and concrete execution mode, technique scheme is described in detail.

Embodiment one

The information processing method that the embodiment of the present application provides, is applied in a Wearable.Described Wearable can be: glasses, intelligent watch, ring etc., the application does not do any restriction, is glasses below with Wearable, is described the information processing method that the embodiment of the present application provides.

As shown in Figure 1, the information processing method that the embodiment of the present application provides comprises the following steps:

S10: the environment bright angle value obtaining described Wearable place environment;

S20: when described environment bright angle value be the first brightness value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value;

S30: when described Wearable is at 3D rendering exhibition environment, obtains 3D rendering by described polarization unit.

Be glasses for Wearable below, the step S10 in the information processing method provide the embodiment of the present application elaborates.

Utilize the photo-sensitive cell in Wearable, obtain the environment bright angle value of described Wearable place environment.Such as: utilize the photo-sensitive cell in glasses, obtain the environment bright angle value of glasses place environment, walk in the sun if user has on glasses, then the environment bright angle value obtained may be: 1.865 hundred million candelas/square metre.

At execution of step S10, after obtaining the environment bright angle value of described Wearable place environment, the information processing method that the embodiment of the present application provides just performs step S20:

When described environment bright angle value be the first brightness value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value.

Be glasses for Wearable below, the step S20 in the information processing method provide the embodiment of the present application elaborates.

When described environment bright angle value is the first brightness value, judge described first brightness value whether within the scope of predetermined luminance value, when described first brightness value is not within the scope of described predetermined luminance value, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value, and described predetermined luminance value scope is the range of luminance values that human eye feels comfortably cool.

Such as: the range of luminance values that human eye feels comfortably cool is: 200 candelas/square metre to 100 ten thousand candelas/square metre, walk in the sun when user has on glasses, the environment bright angle value then obtained is: 20,000 ten thousand candelas/square metre, judge 20,000 ten thousand candelas/square metre whether 200 candelas/square metre to 100 ten thousand candelas/square metre between, judged result be 20,000 ten thousand candelas/square metre not 200 candelas/square metre to 100 ten thousand candelas/square metre between, the light transmittance of the liquid crystal display of adjustment glasses, by 20,000 ten thousand candelas/square metre to be adjusted to, 10,000 candelas/square metre.

At execution of step S20, after achieving the light transmittance of the liquid crystal display adjusting described Wearable, the information processing method that the embodiment of the present application provides just performs step S30: when described Wearable is at 3D rendering exhibition environment, obtains 3D rendering by described polarization unit.Be specially:

When described Wearable is at 3D rendering exhibition environment, first polarization module of described polarization unit receives the first polarised light of the first projector transmitting, second polarization module of described polarization unit receives second polarised light orthogonal with described first polarised light of the second projector transmitting, and then obtains described 3D rendering.

Be glasses for Wearable below, the step S30 in the information processing method provide the embodiment of the present application elaborates.

When described Wearable is at 3D rendering exhibition environment, first projector launches the first polarised light to described Wearable, second projector launches the second polarised light to described Wearable, because the first polarizer that described first projector is installed is orthogonal with the second polarizer that described second projector is installed, so the first polarised light is orthogonal with the second polarised light.The polarization unit of described Wearable comprises the first polarization module and the second polarization module, first polarization module receives the first polarised light that the first projector is launched, second polarization module receives second polarised light orthogonal with described first polarised light that the second projector is launched, because the first polarised light and the second polarised light create parallactic displacement in human eye, achieve the effect of stereoscopic vision, and then obtain described 3D rendering.

Such as: the left eyeglass lens of glasses has installed horizontal polarizer, vertical polarizer installed by the right eye eyeglass of glasses.When people come into 3D cinema, horizontal polarizer installed by one 3D cinematographic projector, vertical polarizer installed by 2nd 3D cinematographic projector, one 3D cinematographic projector sends horizontal polarised light, 2nd 3D cinematographic projector sends vertical polarised light, the left eyeglass lens of glasses receives the horizontal polarised light that a 3D cinematographic projector sends, the right eye eyeglass of glasses receives the vertical polarised light that the 2nd 3D cinematographic projector sends, parallactic displacement is created in horizontal polarised light and vertical polarised light are in human eye, achieve the effect of stereoscopic vision, so human eye obtains 3D rendering.

At execution of step S20, after achieving the light transmittance of the liquid crystal display adjusting described Wearable, the information processing method that the embodiment of the present application provides execution step S30 while or afterwards, can also following steps be performed:

Step one: the environmental data transmission value obtaining described Wearable place environment;

Step 2: when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display.

In the embodiment of the present application, step 2 specifically comprises the following steps:

Step 2 one: when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched;

Step 2 two: when described synchronizing signal is left eye signal, first LCD MODULE of described liquid crystal display is opened and is received described left eye signal, when described synchronizing signal is right eye signal, second LCD MODULE of described liquid crystal display is opened and is received described right eye signal, and then obtains described 3D rendering.

Be glasses for Wearable below, the step one in the information processing method provide the embodiment of the present application elaborates.

Utilize the data transmission unit in Wearable, obtain the environmental data transmission value of described Wearable place environment.Such as: utilize the data transmission unit in glasses, obtain the environmental data transmission value of glasses place environment, walk in the environment having wireless network if user has on glasses, then the environmental data transmission value obtained may be: 200 kilobits/second.

In execution of step one, after obtaining the environmental data transmission value of described Wearable place environment, the information processing method that the embodiment of the present application provides just performs step 2:

When described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display.

Be glasses for Wearable below, the step 2 in the information processing method provide the embodiment of the present application elaborates.

When described environmental data transmission value is first data transmission value, when judging that described first data transmission value is whether within the scope of preset data transmission value, when described first data transmission value is within the scope of preset data transmission value, the synchronous receiving element of Wearable is utilized to receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched, wherein, described preset data transmission value scope is the transfer of data value scope that can receive synchronizing signal continuously.

Synchronizing signal is left eye signal or right eye signal to utilize the processor of Wearable to judge, when described synchronizing signal is left eye signal, while keeping the second LCD MODULE of described liquid crystal display to close, first LCD MODULE of described liquid crystal display is opened and is received described left eye signal, when described synchronizing signal is right eye signal, while keeping the first LCD MODULE of described liquid crystal display to close, second LCD MODULE of described liquid crystal display is opened and is received described right eye signal, right and left eyes sees left and right picture separately respectively, simulate vision displacement, thus generation 3D effect, obtain 3D rendering.

Such as: the transfer of data value scope that can receive synchronizing signal is continuously: be more than or equal to 100 kilobits/second, walk in the environment having wireless network when user has on glasses, the environmental data transmission value then obtained is: 200 kilobits/second, judge whether 200 kilobits/second are more than or equal to 100 kilobits/second, judged result is that 200 kilobits/second are more than or equal to 100 kilobits/second, when 3D signal launched by 3D projector, utilize the synchronous receiving element of glasses to receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that 3D projector is launched.

Then, synchronizing signal is left eye signal or right eye signal to utilize the processor of glasses to judge, when described synchronizing signal is left eye signal, while keeping the right eye liquid crystal lens of glasses to close, the left eye liquid crystal lens of glasses is opened and is received described left eye signal, when described synchronizing signal is right eye signal, while keeping the left eye liquid crystal lens of glasses to close, the right eye liquid crystal lens of glasses is opened and is received described right eye signal, right and left eyes sees left and right picture separately respectively, simulate vision displacement, thus produce 3D effect, obtain 3D rendering.

In the embodiment of the present application, because liquid crystal display can either regulate light transmittance, have and can obtain 3D rendering, but two functions can not realize simultaneously, therefore, Wearable also comprises a switch, under default situations, when namely switch cuts out, liquid crystal display realizes the function regulating light transmittance, only have when the switch is opened, liquid crystal display just realizes the function obtaining 3D rendering.So the method that the embodiment of the present application provides, in the process performing step 2, specifically comprises the following steps:

Whether the switch detected in described Wearable is in opening;

When described switch is in opening, and when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain described 3D rendering by described liquid crystal display.

Be glasses for Wearable below, above-mentioned steps is elaborated.

When described environmental data transmission value is first data transmission value, when judging that described first data transmission value is whether within the scope of preset data transmission value, when described first data transmission value is within the scope of preset data transmission value, judge whether the switch in described Wearable is in opening again, when switch is in opening, the synchronous receiving element of Wearable is utilized to receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched, processor in Wearable is according to the difference of 3D signal, control the first LCD MODULE of liquid crystal display and the unlatching of the second LCD MODULE or closedown, and then acquisition 3D rendering.

Such as: the transfer of data value scope that can receive synchronizing signal is continuously: be more than or equal to 100 kilobits/second, walk in the environment having wireless network when user has on glasses, the environmental data transmission value then obtained is: 200 kilobits/second, judge whether 200 kilobits/second are more than or equal to 100 kilobits/second, judged result is that 200 kilobits/second are more than or equal to 100 kilobits/second, judge whether the switch on glasses is in opening again, when switch is in opening, when 3D signal launched by 3D projector, the synchronous receiving element of glasses is utilized to receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that 3D projector is launched.Processor in glasses is left eye signal or right eye signal according to 3D signal, controls the left eye liquid crystal lens of liquid crystal display and the unlatching of right eye liquid crystal lens or closedown, and then obtains 3D rendering.Concrete control procedure describes in detail, just repeats no more at this.

In order to more clearly allow the application person of an ordinary skill in the technical field understand method in the embodiment of the present application, below in conjunction with concrete application scenarios, the method in the embodiment of the present application is described.

Glasses for Wearable, when user have on glasses walk in the sun time, the photo-sensitive cell of glasses can obtain the first brightness value, because the first brightness value is very dazzling, not in the range of luminance values that human eye feels comfortably cool, so liquid crystal display regulates light transmittance, the first brightness value is reduced, is reduced in the range of luminance values that human eye feels comfortably cool.

When user have on glasses come into 3D cinema time, horizontal polarizer installed by one 3D projector, sends horizontal polarised light, the 2nd 3D projector is installed vertical polarizer, send vertical polarised light, if the left eyeglass lens of glasses is horizontal polarizer, when right eye eyeglass is for vertical polarizer, the left eye of user will receive horizontal polarised light, right eye receives vertical polarised light, in horizontal polarised light and vertical polarised light are in human eye, create parallactic displacement, achieve the effect of stereoscopic vision, so human eye obtains 3D rendering.

When user have on glasses enter into the environment of wireless network time, the data transmission unit of glasses can obtain first data transmission value, if the first transmission value is can in the scope of synchronous signal transmission continuously, illustrate and now can obtain 3D rendering with liquid crystal display, but because liquid crystal display can only realize regulating the one in light transmittance and acquisition 3D rendering two kinds of functions at one time, so be provided with a switch on glasses, when user needs to use liquid crystal display to obtain 3D rendering, with regard to opening switch, then, when 3D signal launched by 3D projector, the synchronous receiving element of glasses can receive the synchronizing signal synchronous with 3D signal, the processor of glasses judges that the synchronizing signal received is left eye signal or right eye signal, if the synchronizing signal received is left eye signal, just control left eye LCD panel to open and the closedown of right eye LCD panel, left eye LCD panel receives left eye signal, if the synchronizing signal received is right eye signal, just control right eye LCD panel to open and the closedown of left eye LCD panel, right eye LCD panel receives right eye signal, right and left eyes sees left and right picture separately respectively, simulate vision displacement, thus generation 3D effect, human eye just obtains 3D rendering.

Embodiment two

Based on same inventive concept, a kind of Wearable is additionally provided in the embodiment of the present invention, the principle of dealing with problems due to this Wearable is similar to information processing method, and therefore the enforcement of this Wearable see the enforcement of method, can repeat part and repeat no more.

The embodiment of the present application provides a kind of Wearable, and described Wearable comprises liquid crystal display and polarization unit, and as shown in Figure 2, described Wearable also comprises:

First obtains unit 10, for obtaining the environment bright angle value of described Wearable place environment;

First adjustment unit 20, for be the first brightness value when described environment bright angle value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value;

Second obtains unit 30, for when described Wearable is at 3D rendering exhibition environment, obtains 3D rendering by described polarization unit.

Optionally, described Wearable also comprises:

3rd obtains unit, for obtaining the environmental data transmission value of described Wearable place environment;

4th obtains unit, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, by described liquid crystal display acquisition 3D rendering.

Wherein, the described 3rd obtains unit, specifically for:

When described Wearable is at 3D rendering exhibition environment, first polarization module of described polarization unit receives the first polarised light of the first projector transmitting, second polarization module of described polarization unit receives second polarised light orthogonal with described first polarised light of the second projector transmitting, and then obtains described 3D rendering.

Wherein, the described 4th obtains unit, specifically comprises:

First receiving element, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched;

Second receiving element, for when described synchronizing signal is left eye signal, first LCD MODULE of described liquid crystal display is opened and is received described left eye signal, when described synchronizing signal is right eye signal, second LCD MODULE of described liquid crystal display is opened and is received described right eye signal, and then obtains described 3D rendering.

Wherein, the described 4th obtains unit, specifically comprises:

Whether the first detecting unit, be in opening for the switch detected in described Wearable;

5th obtains unit, for being in opening when described switch, and when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain described 3D rendering by described liquid crystal display.

Embodiment three

Based on same inventive concept, a kind of Wearable is additionally provided in the embodiment of the present invention, the principle of dealing with problems due to this Wearable is similar to information processing method, and therefore the enforcement of this Wearable see the enforcement of method, can repeat part and repeat no more.

As shown in Figure 3, the embodiment of the present application provides a kind of Wearable, comprising:

Photo-sensitive cell 1, for obtaining the environment bright angle value of described Wearable place environment;

Liquid crystal display 2, described liquid crystal display is connected with described photo-sensitive cell, for be the first brightness value when described environment bright angle value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value;

Polarization unit 3, for when described Wearable is at 3D rendering exhibition environment, obtains 3D rendering by described polarization unit.

Described Wearable also comprises:

Data transmission unit 4, for obtaining the environmental data transmission value of described Wearable place environment;

Processor 5, described processor is connected with described data transmission unit, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display.

Described polarization unit specifically for:

When described Wearable is at 3D rendering exhibition environment, first polarization module of described polarization unit receives the first polarised light of the first projector transmitting, second polarization module of described polarization unit receives second polarised light orthogonal with described first polarised light of the second projector transmitting, and then obtains described 3D rendering.

Described Wearable also comprises:

Synchronous receiving element 6, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched;

Described processor 5 connects with described liquid crystal display 2 and described synchronous receiving element 6, when described synchronizing signal is left eye signal, first LCD MODULE of described liquid crystal display is opened and is received described left eye signal, when described synchronizing signal is right eye signal, second LCD MODULE of described liquid crystal display is opened and is received described right eye signal, and then obtains described 3D rendering.

Described Wearable also comprises:

Switch 7, be connected with described liquid crystal display and polarization unit, when described switch is in opening, and when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain described 3D rendering by described liquid crystal display.

Technical scheme in above-mentioned the embodiment of the present application, at least has following technique effect or advantage:

1, owing to have employed the environment bright angle value obtaining described Wearable place environment, when described environment bright angle value be the first brightness value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, when described Wearable is at 3D rendering exhibition environment, the technological means of 3D rendering is obtained by described polarization unit, according to the environment at Wearable place, liquid crystal display is utilized to complete sunglasses function, polarization unit is utilized to complete 3D glasses function, so, efficiently solve in prior art and a kind of technical problem with the Wearable of several functions can not be provided, achieve and a kind of Wearable with several functions is provided, user can use a Wearable to complete several functions, improve Consumer's Experience.

2, owing to have employed when described Wearable is at 3D rendering exhibition environment, 3D rendering is obtained by described polarization unit, when the environmental data transmission value of described Wearable place environment be first data transmission value and described first data transmission value within the scope of preset data transmission value time, the technological means of 3D rendering is obtained by described liquid crystal display, so, according to the varying environment at Wearable place, provide the multiple method realizing 3D glasses function, improve Consumer's Experience.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disc store, CD-ROM, optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the flow chart of the method for the embodiment of the present invention, equipment (system) and computer program and/or block diagram.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can being provided to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computer or other programmable data processing device produce device for realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices is provided for the step realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

Specifically, a kind of information processing method in the embodiment of the present application, be applied in a Wearable, described Wearable comprises liquid crystal display and polarization unit, computer program instructions corresponding to described method can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when the computer program instructions corresponding with a kind of information processing method in storage medium is read by an electronic equipment or be performed, comprise the steps:

Obtain the environment bright angle value of described Wearable place environment;

When described environment bright angle value be the first brightness value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value;

When described Wearable is at 3D rendering exhibition environment, obtain 3D rendering by described polarization unit.

Optionally, other computer instruction is also stored in described storage medium, these computer instructions with step: obtaining after computer instruction corresponding to the environment bright angle value of described Wearable place environment is performed and be performed, comprising the steps: when being performed

Obtain the environmental data transmission value of described Wearable place environment;

When described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display.

Optionally, store in described storage medium with step when described Wearable is at 3D rendering exhibition environment, obtain 3D rendering by described polarization unit, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

When described Wearable is at 3D rendering exhibition environment, first polarization module of described polarization unit receives the first polarised light of the first projector transmitting, second polarization module of described polarization unit receives second polarised light orthogonal with described first polarised light of the second projector transmitting, and then obtains described 3D rendering.

Optionally, store in described storage medium with step when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, 3D rendering is obtained by described liquid crystal display, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

When described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched;

When described synchronizing signal is left eye signal, first LCD MODULE of described liquid crystal display is opened and is received described left eye signal, when described synchronizing signal is right eye signal, second LCD MODULE of described liquid crystal display is opened and is received described right eye signal, and then obtains described 3D rendering.

Optionally, store in described storage medium with step when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, 3D rendering is obtained by described liquid crystal display, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

Whether the switch detected in described Wearable is in opening;

When described switch is in opening, and when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain described 3D rendering by described liquid crystal display.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (15)

1. an information processing method, be applied in a Wearable, described Wearable comprises liquid crystal display and polarization unit, and described method comprises:

Obtain the environment bright angle value of described Wearable place environment;

When described environment bright angle value be the first brightness value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value;

When described Wearable is at 3D rendering exhibition environment, obtain 3D rendering by described polarization unit.

2. the method for claim 1, is characterized in that, after the environment bright angle value of described acquisition described Wearable place environment, described method also comprises:

Obtain the environmental data transmission value of described Wearable place environment;

When described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display.

3. the method for claim 1, is characterized in that, described when described Wearable is at 3D rendering exhibition environment, obtains 3D rendering, be specially by described polarization unit:

When described Wearable is at 3D rendering exhibition environment, first polarization module of described polarization unit receives the first polarised light of the first projector transmitting, second polarization module of described polarization unit receives second polarised light orthogonal with described first polarised light of the second projector transmitting, and then obtains described 3D rendering.

4. method as claimed in claim 2, it is characterized in that, described when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display, specifically comprise:

When described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched;

When described synchronizing signal is left eye signal, first LCD MODULE of described liquid crystal display is opened and is received described left eye signal, when described synchronizing signal is right eye signal, second LCD MODULE of described liquid crystal display is opened and is received described right eye signal, and then obtains described 3D rendering.

5. method as claimed in claim 4, it is characterized in that, described when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display, specifically comprise:

Whether the switch detected in described Wearable is in opening;

When described switch is in opening, and when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain described 3D rendering by described liquid crystal display.

6. a Wearable, described Wearable comprises liquid crystal display and polarization unit, and described Wearable also comprises:

First obtains unit, for obtaining the environment bright angle value of described Wearable place environment;

First adjustment unit, for be the first brightness value when described environment bright angle value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value;

Second obtains unit, for when described Wearable is at 3D rendering exhibition environment, obtains 3D rendering by described polarization unit.

7. Wearable as claimed in claim 6, it is characterized in that, described Wearable also comprises:

3rd obtains unit, for obtaining the environmental data transmission value of described Wearable place environment;

4th obtains unit, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, by described liquid crystal display acquisition 3D rendering.

8. Wearable as claimed in claim 6, is characterized in that, the described 3rd obtains unit, specifically for:

When described Wearable is at 3D rendering exhibition environment, first polarization module of described polarization unit receives the first polarised light of the first projector transmitting, second polarization module of described polarization unit receives second polarised light orthogonal with described first polarised light of the second projector transmitting, and then obtains described 3D rendering.

9. Wearable as claimed in claim 7, is characterized in that, the described 4th obtains unit, specifically comprises:

First receiving element, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched;

Second receiving element, for when described synchronizing signal is left eye signal, first LCD MODULE of described liquid crystal display is opened and is received described left eye signal, when described synchronizing signal is right eye signal, second LCD MODULE of described liquid crystal display is opened and is received described right eye signal, and then obtains described 3D rendering.

10. Wearable as claimed in claim 9, is characterized in that, the described 4th obtains unit, specifically comprises:

Whether the first detecting unit, be in opening for the switch detected in described Wearable;

5th obtains unit, for being in opening when described switch, and when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain described 3D rendering by described liquid crystal display.

11. 1 kinds of Wearable, comprising:

Photo-sensitive cell, for obtaining the environment bright angle value of described Wearable place environment;

Liquid crystal display, described liquid crystal display is connected with described photo-sensitive cell, for be the first brightness value when described environment bright angle value and described first brightness value not within the scope of predetermined luminance value time, adjust the light transmittance of described liquid crystal display, and described first brightness value is adjusted to the second brightness value, wherein, described second brightness value is within the scope of described predetermined luminance value;

Polarization unit, for when described Wearable is at 3D rendering exhibition environment, obtains 3D rendering by described polarization unit.

12. Wearable as claimed in claim 11, it is characterized in that, described Wearable also comprises:

Data transmission unit, for obtaining the environmental data transmission value of described Wearable place environment;

Processor, described processor is connected with described data transmission unit, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain 3D rendering by described liquid crystal display.

13. Wearable as claimed in claim 11, is characterized in that, described polarization unit specifically for:

When described Wearable is at 3D rendering exhibition environment, first polarization module of described polarization unit receives the first polarised light of the first projector transmitting, second polarization module of described polarization unit receives second polarised light orthogonal with described first polarised light of the second projector transmitting, and then obtains described 3D rendering.

14. Wearable as claimed in claim 12, it is characterized in that, described Wearable also comprises:

Synchronous receiving element, for be first data transmission value when described environmental data transmission value and described first data transmission value within the scope of preset data transmission value time, receive synchronizing signal, described synchronizing signal is synchronous with the 3D signal that projector is launched;

Described processor connects with described liquid crystal display and described synchronous receiving element, when described synchronizing signal is left eye signal, first LCD MODULE of described liquid crystal display is opened and is received described left eye signal, when described synchronizing signal is right eye signal, second LCD MODULE of described liquid crystal display is opened and is received described right eye signal, and then obtains described 3D rendering.

15. Wearable as claimed in claim 14, it is characterized in that, described Wearable also comprises:

Switch, be connected with described liquid crystal display and described polarization unit, when described switch is in opening, and when described environmental data transmission value be first data transmission value and described first data transmission value within the scope of preset data transmission value time, obtain described 3D rendering by described liquid crystal display.