CN104036752A

CN104036752A - Information processing method and electronic equipment

Info

Publication number: CN104036752A
Application number: CN201310074794.1A
Authority: CN
Inventors: 钟力科
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2013-03-08
Filing date: 2013-03-08
Publication date: 2014-09-10
Anticipated expiration: 2033-03-08
Also published as: CN104036752B

Abstract

The invention discloses an information processing method and electronic equipment, thereby realizing a technical effect of reducing an interference on a display content of a display unit of electronic equipment by ambient light. The method applied to electronic equipment including a display unit comprises the following steps: When displaying a display content at the display unit, collecting and obtaining parameter information; determining whether the parameter information meets a preset condition; if so, adjusting a display parameter value corresponding to the display of the display unit from a first value to a second value different from the first value, thereby improving contrast of the display content under the ambient light of the electronic equipment.

Description

A kind of method of information processing and electronic equipment

Technical field

The present invention relates to communication technique field, particularly a kind of method of information processing and electronic equipment.

Background technology

Along with scientific and technical development, electronic technology has also obtained development at full speed, and the kind of electronic product is also more and more, and people have also enjoyed the various facilities that development in science and technology brings.People can pass through various types of electronic equipments now, enjoy the comfortable life bringing along with development in science and technology.

Generally, electronic equipment all can include display unit, with the data that show that electronic equipment internal is stored.

Present inventor, in realizing the process of the embodiment of the present application technical scheme, at least finds to exist in prior art following technical matters:

Due in the prior art, can there is surround lighting in described display unit environment of living in, and display unit can exist reflex to surround lighting, so cause surround lighting the displaying contents of display unit to be existed to the technical matters of disturbing.

Summary of the invention

The embodiment of the present invention provides a kind of method and electronic equipment of information processing, to solve surround lighting in prior art, the displaying contents of display unit is existed to the technical matters of interference.

On the one hand, the application provides following technical scheme by an embodiment:

A method for information processing, described method is applied in electronic equipment, and described electronic equipment comprises display unit, and described method comprises:

While showing displaying contents on described display unit, gather and obtain a parameter information;

Judge that whether described parameter information meets first pre-conditioned;

At described parameter information, meet described first when pre-conditioned, the corresponding display parameter value of demonstration from described display unit is adjusted into second value different with described the first value by the first value, to improve the contrast of described displaying contents under the residing surround lighting of described electronic equipment.

Optionally, while being provided with optical unit on described display unit surface, described display parameter value is specially: the optical parameter value of described optical unit, described described display parameter value is adjusted into second value different from described the first value by the first value, and be specially:

Described optical parameter value is adjusted into second optical parameter value different from described the first optical parameter value by the first optical parameter value.

Optionally, when described optical parameter value is described the second optical parameter value, described optical unit is greater than when described optical parameter value is described the first optical parameter value the first receptivity of described surround lighting, second receptivity of described optical unit to described surround lighting; When described optical parameter value is described the second optical parameter value, it is four receptivity of optical unit to described the first light described in described the first optical parameter value that described optical unit is greater than in described optical parameter value to the 3rd receptivity of corresponding the first light of described displaying contents.

Optionally, at described optical unit, specifically comprise: liquid crystal layer, be arranged at described display unit surface, wherein, described liquid crystal layer comprises at least one liquid crystal particle; Linear polarizer, while being arranged at described liquid crystal layer surface, is describedly adjusted into second optical parameter value different from described the first optical parameter value by the optical parameter value of described optical unit by the first optical parameter value, is specially:

Described at least one liquid crystal particle is adjusted into the second order mode different from described first order mode by first order mode;

Wherein, at described at least one liquid crystal particle, during in described first order mode, described linear polarizer is described the second receptivity to the receptivity of described surround lighting, and described linear polarizer is described the 4th receptivity to the receptivity of described the first light; At described at least one liquid crystal particle, during in described second order mode, described linear polarizer is described the first receptivity to the receptivity of described surround lighting, and described linear polarizer is described the 3rd receptivity to the receptivity of described the first light.

Optionally, at described at least one liquid crystal particle during in described second order mode, described linear polarizer is for absorbing the described surround lighting polarized component light parallel with described linear polarizer polarization direction, and then described surround lighting is converted into the first linearly polarized photon, the polarization direction of described the first linearly polarized photon is vertical with described linear polarizer absorption direction; Described liquid crystal layer is for being converted to the first circularly polarized light by described the first linearly polarized photon; Described display unit is for being reflected back described the first circularly polarized light described liquid crystal layer and then obtaining the second circularly polarized light; Described liquid crystal layer is also for described the second circularly polarized light is converted to the second linearly polarized photon, and the polarization direction of described the second linearly polarized photon is parallel with described linear polarizer absorption direction; Described linear polarizer is also for absorbing described the second linearly polarized photon; In addition, described display unit is also for generation of described the first light, and described the first light is the 3rd linearly polarized photon; Described liquid crystal layer is also for being converted to the 3rd circularly polarized light by described the 3rd linearly polarized photon; Described linear polarizer also absorbs the parallel component of direction for absorbing described the 3rd circularly polarized light polarization direction and described linear polarizer; At described at least one liquid crystal particle during in described first order mode, described liquid crystal layer can not be converted to described the second linearly polarized photon by described the first linearly polarized photon, so only can filter out the component parallel with described linear polarizer absorption direction in described surround lighting by described linear polarizer, and can not filter out described the first linearly polarized photon, and then make described the second receptivity be less than described the first receptivity; And described liquid crystal layer can not be converted into described the 3rd circularly polarized light by described the 3rd linearly polarized photon, the absorption direction of described linear polarizer is vertical with the polarization direction of described the 3rd linearly polarized photon, thereby to described the 3rd linearly polarized photon without absorption, and then described the 3rd linearly polarized photon can not absorb by described linear polarizer, and then make described the 4th receptivity be less than described the 3rd receptivity.

Optionally, described described at least one liquid crystal particle is adjusted into the second order mode different from described first order mode by first order mode, is specially:

The voltage that described liquid crystal layer two ends are applied is adjusted into the second voltage different from described the first voltage by the first voltage, to be adjusted into described second order mode by least one liquid crystal particle described in described second voltage by described first order mode.

Optionally, described described display parameter value is adjusted into second value different from described the first value by the first value, is specially:

Display brightness value first brightness value of described displaying contents is adjusted into second brightness value different from described the first brightness value; Or

The contrast value of described displaying contents is adjusted into second contrast value different from described the first contrast value by the first contrast value; Or

The tone value of described displaying contents is adjusted into second tone value different from described the first tone value by the first tone value.

Optionally, described parameter information is specially: the behavioural characteristic of using the user of described electronic equipment.

Optionally, described to judge that whether parameter information meets first pre-conditioned, is specially:

Judge whether described behavioural characteristic shows that the corresponding intensity of illumination of described surround lighting is greater than the corresponding intensity of illumination threshold value of described user.

Optionally, describedly judge whether described behavioural characteristic shows that the corresponding intensity of illumination of described surround lighting is greater than the corresponding intensity of illumination threshold value of described user, is specially:

Judge whether described behavioural characteristic shows that the first shelter and described user's head meets the first predetermined relationship.

Judge whether described behavioural characteristic shows that the second shelter and described display unit exist the second predetermined relationship.

On the other hand, the application provides following technical scheme by another embodiment:

An electronic equipment, comprising:

Acquisition module, when showing displaying contents on described display unit, gathers and obtains a parameter information;

Judge module, first pre-conditioned for judging that whether described parameter information meets;

Adjusting module, for meeting described first at described parameter information when pre-conditioned, the corresponding display parameter value of demonstration from described display unit is adjusted into second value different with described the first value by the first value, to improve the contrast of described displaying contents under the residing surround lighting of described electronic equipment.

Optionally, while being provided with optical unit on described display unit surface, described display parameter value is specially: the optical parameter value of described optical unit, and described adjusting module, specifically for:

Optionally, at described optical unit, specifically comprise: liquid crystal layer, be arranged at described display unit surface, wherein, described liquid crystal layer comprises at least one liquid crystal particle; Linear polarizer, while being arranged at described liquid crystal layer surface, described adjusting module, specifically for:

Optionally, described adjusting module, specifically for:

Optionally, described judge module, specifically for:

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

(1) due in the embodiment of the present application, adopted while thering is displaying contents on the display unit of electronic equipment, gather and obtain parameter information, and meet first when pre-conditioned at described parameter information, by the corresponding display parameter value of the demonstration from display unit is adjusted into second value different with the first value by the first value, and then improve the technical scheme of the contrast of described displaying contents under described electronic equipment surround lighting of living in, so reached, reduce the technique effect of surround lighting to the interference of the displaying contents of display unit.

(2) due in the embodiment of the present application, described display parameter value can be for being arranged at the optical parameter value of the optical unit on described display unit surface, by described optical parameter value being adjusted and then can being improved the contrast of described displaying contents under the residing surround lighting of described electronic equipment, so reached, can reduce the technique effect of surround lighting to the interference of displaying contents by optical mode.

(3) due in the embodiment of the present application, can also improve the contrast of described displaying contents under described electronic equipment surround lighting of living in by adjusting the display brightness of displaying contents or the mode of contrast or tone, so reached, reduce surround lighting to the more diversified technique effect of the mode of the interference of described displaying contents.

(4) due in the embodiment of the present application, described parameter information is specially: the behavioural characteristic of using the user of described electronic equipment, then by described behavioural characteristic, judge whether to adjust described display parameter value, because user's behavior can reflect the annoyance level of surround lighting to described displaying contents accurately, so reached the more accurate technique effect of the adjustment of described display parameter value, and more can meet user's needs, and then improve user's Experience Degree.

(5) due in the embodiment of the present application, judge that whether described behavioural characteristic meets first when pre-conditioned, mainly judge whether described behavioural characteristic shows that the corresponding intensity of illumination of described surround lighting is greater than the corresponding intensity of illumination threshold value of described user, wherein judging whether described behavioural characteristic shows that the corresponding intensity of illumination of described surround lighting is greater than the corresponding intensity of illumination threshold value of described user and can be divided into multiple situation again, for example: judge whether described behavioural characteristic shows that the first shelter and described user's head meets the first predetermined relationship, judge whether described behavioural characteristic shows that the second shelter and described display unit exist second predetermined relationship etc., so reached, judge whether described behavioural characteristic meets the first pre-conditioned more diversified technique effect of mode.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of the method for information processing in the embodiment of the present application one;

Fig. 2 a is the position relationship schematic diagram of optical unit and display unit in the embodiment of the present application one method;

Fig. 2 b is the schematic diagram that in the embodiment of the present application one method, at least one liquid crystal particle is first order mode;

Fig. 2 c is the schematic diagram that in the embodiment of the present application one method, at least one liquid crystal particle is second order mode;

Fig. 3 is the structural drawing of electronic equipment in the embodiment of the present application four.

Embodiment

Technical scheme in the embodiment of the present application is for solving above-mentioned technical matters, and general thought is as follows:

While showing displaying contents on the display unit of electronic equipment, gather and obtain a parameter information; Judge that whether described parameter information meets first pre-conditioned; At described parameter information, meet described first when pre-conditioned, the corresponding display parameter value of demonstration from described display unit is adjusted into second value different with described the first value by the first value, to improve the contrast of described displaying contents under the residing surround lighting of described electronic equipment.

Due in such scheme, adopted while thering is displaying contents on the display unit of electronic equipment, gather and obtain parameter information, and meet first when pre-conditioned at described parameter information, by the corresponding display parameter value of the demonstration from display unit is adjusted into second value different with the first value by the first value, and then improve the technical scheme of the contrast of described displaying contents under described electronic equipment surround lighting of living in, so reached, reduce the technique effect of surround lighting to the interference of the displaying contents of display unit.

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

Embodiment mono-

The embodiment of the present application one provides a kind of method of information processing, and described method is applied in electronic equipment, and described electronic equipment is for example: notebook computer, panel computer, mobile phone etc.

Please refer to Fig. 1, the method for described information processing comprises the steps:

Step S101: while showing displaying contents on described display unit, gather and obtain a parameter information;

Step S102: judge that whether described parameter information meets first pre-conditioned;

Step S103: meet described first when pre-conditioned at described parameter information, the corresponding display parameter value of demonstration from described display unit is adjusted into second value different with described the first value by the first value, to improve the contrast of described displaying contents under the residing surround lighting of described electronic equipment.

Wherein, in step S101, described parameter information can be many kinds of parameters, and two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, is not limited to following two kinds of situations.

The first, described parameter information is specially: the user's of the described electronic equipment of use gathering by the built-in or external image collecting device of described electronic equipment behavioural characteristic, described behavioural characteristic can be multiple behavioural characteristic, for example: with hand block described user's forehead behavioural characteristic, with hand, block behavioural characteristic of described display unit etc.

As seen from the above description, due in the embodiment of the present application, described parameter information is specially: the behavioural characteristic of using the user of described electronic equipment, then by described behavioural characteristic, judge whether to adjust described display parameter value, because user's behavior can reflect the annoyance level of surround lighting to described displaying contents accurately, so reached the more accurate technique effect of the adjustment of described display parameter value, and more can meet user's needs, and then improve user's Experience Degree.

The second, described parameter information is specially: the surround lighting parameter value of the described electronic equipment gathering by optical sensor.

Wherein, the difference based on detecting the parameter information obtaining in step S101, judges in step S102 whether described parameter information meets the first pre-conditioned process also different, two kinds that enumerate below are wherein introduced, certainly, in specific implementation process, be not limited to following two kinds of situations.

The first, when described parameter information is specially described behavioural characteristic, described to judge that whether described parameter information meets first pre-conditioned, is specially:

Specifically, namely by described behavioural characteristic is analyzed, with the intensity of illumination of determining described surround lighting, whether at described user's range of receiving, make described user have to take corresponding behavioural characteristic to reduce the impact of described intensity of illumination on described display unit.

In specific implementation process, can characterize by the behavioural characteristic of multiple situation described intensity of illumination and be greater than the corresponding intensity of illumination threshold value of described user, introduce two kinds of situations wherein below, certainly, in specific implementation process, be not limited to following two kinds of situations.

(1) describedly judge whether described behavioural characteristic shows that the corresponding intensity of illumination of described surround lighting is greater than the corresponding intensity of illumination threshold value of described user, is specially:

In specific implementation process, in described intensity of illumination, cross when strong, described user may use the first shelter, such as: hand, books etc., block described user's forehead, and then reduction is radiated at the intensity of illumination of described display unit, so can connect outward or built-in image collecting device gathers the position relationship of described user and described the first shelter by described electronic equipment, and then determine by described the first shelter and described user's whether satisfied the first predetermined relationship of head whether described intensity of illumination is greater than described intensity of illumination threshold value, described the first predetermined relationship is for example: the distance of described the first shelter and described head is less than a predeterminable range threshold value, described the first shelter is connected with described head, and the angle between described the first shelter and described head is in a default angular range, be for example: 60 °～120 °, certainly, also can be other angular range, the embodiment of the present application is not restricted.

(2) describedly judge whether described behavioural characteristic shows that the corresponding intensity of illumination of described surround lighting is greater than the corresponding intensity of illumination threshold value of described user, is specially:

In specific implementation process, when described user experiences described intensity of illumination and is greater than described intensity of illumination threshold value, also may block described display unit by the second shelter, described the second shelter is for example: user's hand, books etc., so people's predetermined relationship that can whether exist by described the second shelter and described display unit, and then judge whether described intensity of illumination is greater than described intensity of illumination threshold value.In specific implementation process, can image collecting device built-in by described electronic equipment or that connect gather the position relationship of described the second shelter and described display unit outward, and then determine whether to meet described second pre-conditioned; Or when described display unit is touch-display unit, also can whether there is a default contact area with described the second shelter, and then determine whether described the second shelter and described display unit exist the second predetermined relationship by described touch-display unit.For in specific implementation process, adopt which kind of mode to judge whether described behavioural characteristic shows whether described the second shelter and described display unit exist the second relation, and the embodiment of the present application is not restricted.

As seen from the above description, due in the embodiment of the present application, judge that whether described behavioural characteristic meets first when pre-conditioned, mainly judge whether described behavioural characteristic shows that the corresponding intensity of illumination of described surround lighting is greater than the corresponding intensity of illumination threshold value of described user, wherein judging whether described behavioural characteristic shows that the corresponding intensity of illumination of described surround lighting is greater than the corresponding intensity of illumination threshold value of described user and can be divided into multiple situation again, for example: judge whether described behavioural characteristic shows that the first shelter and described user's head meets the first predetermined relationship, judge whether described behavioural characteristic shows that the second shelter and described display unit exist second predetermined relationship etc., so reached, judge whether described behavioural characteristic meets the first pre-conditioned more diversified technique effect of mode.

In specific implementation process, if the behavioural characteristic of described behavioural characteristic for adopting by image collecting device can also be carried out following steps: judge that whether described image collecting device is in image acquisition state so; At described image collecting device, during in described image acquisition state, by described image collecting device, gather described behavioural characteristic.

Specifically, namely at described image collecting device for example, in image acquisition state: take pictures, during Video chat, just by described image collecting device, gather described behavioural characteristic, owing to not needing to restart described image collecting device, so there is the technique effect of saving energy consumption.

The second, is specially described surround lighting parameter value at described parameter information, and described to judge that whether described parameter information meets first pre-conditioned, is specially:

Judge whether described surround lighting parameter value is greater than a default surround lighting parameter threshold.

In specific implementation process, can in described electronic equipment, preset surround lighting parameter threshold, and then at described surround lighting parameter value, be greater than described default surround lighting parameter value and illustrate that described surround lighting is larger to the interference of described displaying contents, and then described display parameter value is adjusted.In specific implementation process, described default surround lighting parameter threshold can be a fixed value, also can the user based on different adjust, and this embodiment of the present application is not restricted.

Wherein, in step S103, described display parameter value can be divided into multiple display parameter value, and then also different to the adjustment mode of described display parameter value, and two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, are not limited to following two kinds of situations.

The first, while being provided with optical unit on described display unit surface, described display parameter value is specially: the optical parameter value of described optical unit, described described display parameter value is adjusted into second value different from described the first value by the first value, be specially:

In specific implementation process, when described optical parameter value is described the second optical parameter value, described optical unit is greater than when described optical parameter value is described the first optical parameter value the first receptivity of described surround lighting, second receptivity of described optical unit to described surround lighting; When described optical parameter value is described the second optical parameter value, it is four receptivity of optical unit to described the first light described in described the first optical parameter value that described optical unit is greater than in described optical parameter value to the 3rd receptivity of corresponding the first light of described displaying contents.

Wherein, although in described optical parameter value when being adjusted into the second optical parameter value by the first optical parameter value, described optical unit all can increase the receptivity of described the first light the receptivity of surround lighting and described optical unit, but comparatively speaking, the absorption of the how described surround lighting of described optical unit can be stronger, so can increase described displaying contents with respect to the contrast of surround lighting, and then can reduce the interference of surround lighting to described displaying contents.

In specific implementation process, please refer to Fig. 2 a, described optical unit specifically comprises following structure:

Liquid crystal layer 21, is arranged at described display unit 20 surfaces, and wherein, described liquid crystal layer 21 comprises at least one liquid crystal particle 21a;

Linear polarizer 22, is arranged at described liquid crystal layer 21 surfaces.

Described the optical parameter value of described optical unit is adjusted into second optical parameter value different from described the first optical parameter value by the first optical parameter value, is specially:

Described at least one liquid crystal particle 21a is adjusted into the second order mode different from described first order mode by first order mode;

Wherein, at described at least one liquid crystal particle 21a during in described first order mode, the receptivity of 22 pairs of described surround lightings 23 of described linear polarizer is described the second receptivity, and the receptivity of 22 pairs of described the first light of described linear polarizer is described the 4th receptivity; At described at least one liquid crystal particle 21a during in described second order mode, the receptivity of 22 pairs of described surround lightings 23 of described linear polarizer is described the first receptivity, the receptivity of 22 pairs of described the first light of described linear polarizer is described the 3rd receptivity, in specific implementation process, described first order mode is for example: described at least one liquid crystal particle 21a is longitudinal arrangement mode, as shown in Figure 2 b; Described second order mode is for example: described at least one liquid crystal particle 21a is horizontal mode, as shown in Figure 2 c.

In specific implementation process, at described at least one liquid crystal particle 21a during in described second order mode, described linear polarizer 22 is for absorbing the described surround lighting 23 polarized components light parallel with described linear polarizer 22 polarization directions, and then described surround lighting 23 is converted into the first linearly polarized photon 24, the polarization direction of described the first linearly polarized photon 24 is vertical with described linear polarizer 22 absorption directions; Described liquid crystal layer 21 is for being converted to the first circularly polarized light 25 by described the first linearly polarized photon 24; Described display unit 20 is for being reflected back described the first circularly polarized light 25 described liquid crystal layer 21 and then obtaining the second circularly polarized light 26; Described liquid crystal layer 21 is also for described the second circularly polarized light 26 is converted to the second linearly polarized photon 27, and the polarization direction of described the second linearly polarized photon 27 is parallel with described linear polarizer 22 absorption directions; Described linear polarizer 22 is also for absorbing described the second linearly polarized photon 27; In addition, described display unit 20 is also for generation of described the first light, and described the first light is the 3rd linearly polarized photon; Described liquid crystal layer 21 is also for being converted to the 3rd circularly polarized light by described the 3rd linearly polarized photon; Described linear polarizer 22 also absorbs the parallel component of direction for absorbing described the 3rd circularly polarized light polarization direction with described linear polarizer 22; At described at least one liquid crystal particle 21a during in described first order mode, described liquid crystal layer 21 can not be converted to described the second linearly polarized photon 27 by described the first linearly polarized photon 24, so only can filter out the component parallel with described linear polarizer 22 absorption directions in described surround lighting 23 by described linear polarizer 22, and can not filter out described the first linearly polarized photon 24, and then make described the second receptivity be less than described the first receptivity; And described liquid crystal layer 21 can not be converted into described the 3rd circularly polarized light by described the 3rd linearly polarized photon, the absorption direction of described linear polarizer 22 is vertical with the polarization direction of described the 3rd linearly polarized photon, thereby to described the 3rd linearly polarized photon without absorption, and then described the 3rd linearly polarized photon can not absorb by described linear polarizer 22, and then make described the 4th receptivity be less than described the 3rd receptivity.

In specific implementation process, described described at least one liquid crystal particle 21a is adjusted into the second order mode different from described first order mode by first order mode, be specially:

The voltage that described liquid crystal layer 21 two ends are applied is adjusted into the second voltage different from described the first voltage by the first voltage, to be adjusted into described second order mode by least one liquid crystal particle 21a described in described second voltage by described first order mode.

In specific implementation process, when described liquid crystal layer 21 two ends being applied with to a magnitude of voltage being greater than the first voltage of a preset value, described at least one liquid crystal particle 21a will be in described first order mode; And described liquid crystal layer 21 two ends are being applied while being less than the second voltage of described preset value by a magnitude of voltage, described at least one liquid crystal particle 21a will be in described first order mode, described predetermined threshold value is for example: 0V, certainly, in specific implementation process,, for absolute 0V, can be not also other value close with 0V, such as: 0.01V, 0.1V etc., the embodiment of the present application is not restricted.

As seen from the above description, due in the embodiment of the present application, described display parameter value can be for being arranged at the optical parameter value of the optical unit on described display unit surface, by described optical parameter value being adjusted and then can being improved the contrast of described displaying contents under the residing surround lighting of described electronic equipment, so reached, can reduce the technique effect of surround lighting to the interference of displaying contents by optical mode.

The second, described display parameter value is specially: the corresponding parameter value of described displaying contents, in this case, the difference of the parameter value based on described displaying contents, describedly described display parameter value is adjusted into second value different from described the first value by the first value can be divided into multiple situation again, three kinds that enumerate below are wherein introduced, certainly, in specific implementation process, be not limited to following three kinds of situations.

(1) described described display parameter value is adjusted into second value different from described the first value by the first value, is specially:

Display brightness value first brightness value of described displaying contents is adjusted into second brightness value different from described the first brightness value.

Specifically, namely, by improving the mode of the display brightness value of described displaying contents, improve described displaying contents with respect to the contrast of described surround lighting.

(2) described described display parameter value is adjusted into second value different from described the first value by the first value, is specially:

The contrast value of described displaying contents is adjusted into second contrast value different from described the first contrast value by the first contrast value.

Specifically, namely by adjusting the mode of the contrast value of described displaying contents, improve described displaying contents with respect to the contrast of described surround lighting, generally for improving described contrast value, for example: the part that brightness in described displaying contents is greater than to the first default brightness value improves brightness, and brightness in described displaying contents is reduced to brightness lower than the described first part of presetting brightness value.

(3) described described display parameter value is adjusted into second value different from described the first value by the first value, is specially:

Specifically, namely by adjusting the mode of the tone value of described displaying contents, improve described displaying contents with respect to the contrast of described surround lighting, generally, for improving the saturation degree of the tone value of described displaying contents, generally, the image that saturation degree is higher is more easily noted by user's eyes, so can improve described displaying contents with respect to the contrast of described surround lighting by improving the mode of described saturation degree.

As seen from the above description, due in the embodiment of the present application, can also improve the contrast of described displaying contents under described electronic equipment surround lighting of living in by adjusting the display brightness of displaying contents or the mode of contrast or tone, so reached, reduce surround lighting to the more diversified technique effect of the mode of the interference of described displaying contents.

Embodiment bis-

In order to make those skilled in the art further understand the method for the information processing that the embodiment of the present application one introduces, the present embodiment will stand in user's side and introduce the specific implementation process of the method for the information processing that the embodiment of the present application one introduces, in the present embodiment, the described electronic equipment of take is introduced as mobile phone as example, and described electronic equipment comprises a touching display screen.

At T1 constantly, user A carries out release to described mobile phone, browses the operation of microblogging by described mobile phone.

At T2 constantly, user A thinks that surround lighting is too strong, so hand is blocked to the surface in described touching display screen, there is a contact area in hand and described touching display screen that described touching display screen detects described user A, so it is first pre-conditioned that described mobile phone determines that the behavioural characteristic of described user A meets, and then produce first steering order that regulates the display parameter value of described mobile phone;

At T3 constantly, described mobile phone is carried out described the first steering order, and then improves the contrast of the displaying contents of described touching display screen, and then reduces the interference of described surround lighting to the displaying contents of described touching display screen.

Embodiment tri-

In order to make those skilled in the art further understand the method for the information processing that the embodiment of the present application one introduces, the embodiment of the present application three will further stand in user's side and introduce the method for the information processing that the embodiment of the present application one introduces, the described electronic equipment of take is in the present embodiment introduced as notebook computer as example, described notebook computer comprises a display unit and camera, described display unit surface is provided with liquid crystal layer, described liquid crystal layer comprises at least one liquid crystal particle, described liquid crystal layer surface is provided with linear polarizer, described liquid crystal layer two ends are applied with voltage, and then described at least one liquid crystal particle is transversely arranged.

At T4 constantly, user B opens described notebook computer, and opens the chat software on described notebook computer.

At T5 constantly, user B opens described camera, and then carries out Video chat by described chat software and user C.Described notebook computer detects after user B opens described camera and carry out the operation of Video chat, gathers the behavioural characteristic of described user B.

At T6 constantly, user B blocks the forehead of described user B by a book, after described notebook computer collects the above-mentioned behavioural characteristic of described user B, and then the behavioural characteristic of determining described user B meets described first pre-conditioned, and then produce the second steering order, with the display parameter value that the demonstration to described display unit is relevant, adjust.

At T7 constantly, described notebook computer is carried out described the second steering order, and then stop at described liquid crystal layer two ends and apply described voltage, thereby control described at least one liquid crystal particle and be longitudinal arrangement, to open the anti-reflective function of described at least one liquid crystal particle, and then surround lighting is absorbed by described linear polarizer and described liquid crystal layer completely, to reduce the interference of surround lighting to the displaying contents of described display unit.

Embodiment tetra-

Based on same inventive concept, the embodiment of the present application four provides a kind of electronic equipment of implementing the method for information processing in the embodiment of the present application one, two, three, please refer to Fig. 3, and described electronic equipment comprises following structure:

Acquisition module 301, when showing displaying contents on described display unit, gathers and obtains a parameter information;

Judge module 302, first pre-conditioned for judging that whether described parameter information meets;

Adjusting module 303, for meeting described first at described parameter information when pre-conditioned, the corresponding display parameter value of demonstration from described display unit is adjusted into second value different with described the first value by the first value, to improve the contrast of described displaying contents under the residing surround lighting of described electronic equipment.

In specific implementation process, the parameter information that described acquisition module 301 gathers can be many kinds of parameters information, for example: use surround lighting parameter value of the user's of described electronic equipment behavioural characteristic, described electronic equipment environment of living in etc.

In specific implementation process, the difference of the described parameter information gathering based on described acquisition module 301, the judgement of described judge module 302 is also different, two kinds that enumerate below are wherein introduced, certainly, in specific implementation process, be not limited to following two kinds of situations.

The first, is specially at described parameter information: while using user's the behavioural characteristic of described electronic equipment, and described judge module 302, specifically for:

Wherein, described judge module 302 is judging whether described behavioural characteristic shows that the corresponding intensity of illumination of described surround lighting is greater than the corresponding intensity of illumination threshold value of described user, can be divided into multiple situation again, two kinds that enumerate below are wherein introduced, certainly, in specific implementation process, be not limited to following two kinds of situations.

(1) described judge module 302, specifically for:

(2) described judge module 302, specifically for:

The second, described judge module 302, specifically for:

In specific implementation process, described display parameter value can multiple display parameter value, and then the adjustment process of described adjusting module 303 is also different, and two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, are not limited to following two kinds of situations.

The first, while being provided with optical unit on described display unit surface, described display parameter value is specially: the optical parameter value of described optical unit, described adjusting module 303, specifically for:

In specific implementation process, please continue to refer to Fig. 2 a, at described optical unit, specifically comprise: liquid crystal layer 21, be arranged at described display unit 20 surfaces, wherein, described liquid crystal layer 21 comprises at least one liquid crystal particle 21a; Linear polarizer 22, while being arranged at described liquid crystal layer 21 surface, described adjusting module 303, specifically for:

Wherein, at described at least one liquid crystal particle 21a during in described first order mode, the receptivity of 22 pairs of described surround lightings 23 of described linear polarizer is described the second receptivity, and the receptivity of 22 pairs of described the first light of described linear polarizer is described the 4th receptivity; At described at least one liquid crystal particle 21a during in described second order mode, the receptivity of 22 pairs of described surround lightings 23 of described linear polarizer is described the first receptivity, and the receptivity of 22 pairs of described the first light of described linear polarizer is described the 3rd receptivity.

In specific implementation process, described adjusting module 303, specifically for:

The second, described adjusting module 303, specifically for:

The electronic equipment of introducing due to the embodiment of the present application four, the electronic equipment adopting for implementing the method for acquisition of information in the embodiment of the present application one to three, so method of the acquisition of information based on introducing in the embodiment of the present application one to three, the concrete structure that those skilled in the art can understand the electronic equipment in the present embodiment four with and various version, so introduce no longer in detail for this electronic equipment at this.As long as those skilled in the art implement the electronic equipment that the method for acquisition of information in the embodiment of the present application one to three adopts, all belong to the scope of the application institute wish protection.

One or more technical schemes that the application provides, at least have following technique effect or advantage:

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

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

Claims

1. a method for information processing, described method is applied in electronic equipment, and described electronic equipment comprises display unit, it is characterized in that, and described method comprises:

Judge that whether described parameter information meets first pre-conditioned;

2. the method for claim 1, it is characterized in that, when described display unit surface is provided with optical unit, described display parameter value is specially: the optical parameter value of described optical unit, described described display parameter value is adjusted into second value different from described the first value by the first value, is specially:

3. method as claimed in claim 2, it is characterized in that, when described optical parameter value is described the second optical parameter value, described optical unit is greater than when described optical parameter value is described the first optical parameter value the first receptivity of described surround lighting, second receptivity of described optical unit to described surround lighting; When described optical parameter value is described the second optical parameter value, it is four receptivity of optical unit to described the first light described in described the first optical parameter value that described optical unit is greater than in described optical parameter value to the 3rd receptivity of corresponding the first light of described displaying contents.

4. method as claimed in claim 3, is characterized in that, at described optical unit, specifically comprises: liquid crystal layer, be arranged at described display unit surface, and wherein, described liquid crystal layer comprises at least one liquid crystal particle; Linear polarizer, while being arranged at described liquid crystal layer surface, is describedly adjusted into second optical parameter value different from described the first optical parameter value by the optical parameter value of described optical unit by the first optical parameter value, is specially:

5. method as claimed in claim 4, it is characterized in that, at described at least one liquid crystal particle during in described second order mode, described linear polarizer is for absorbing the described surround lighting polarized component light parallel with described linear polarizer polarization direction, and then described surround lighting is converted into the first linearly polarized photon, the polarization direction of described the first linearly polarized photon is vertical with described linear polarizer absorption direction; Described liquid crystal layer is for being converted to the first circularly polarized light by described the first linearly polarized photon; Described display unit is for being reflected back described the first circularly polarized light described liquid crystal layer and then obtaining the second circularly polarized light; Described liquid crystal layer is also for described the second circularly polarized light is converted to the second linearly polarized photon, and the polarization direction of described the second linearly polarized photon is parallel with described linear polarizer absorption direction; Described linear polarizer is also for absorbing described the second linearly polarized photon; In addition, described display unit is also for generation of described the first light, and described the first light is the 3rd linearly polarized photon; Described liquid crystal layer is also for being converted to the 3rd circularly polarized light by described the 3rd linearly polarized photon; Described linear polarizer also absorbs the parallel component of direction for absorbing described the 3rd circularly polarized light polarization direction and described linear polarizer; At described at least one liquid crystal particle during in described first order mode, described liquid crystal layer can not be converted to described the second linearly polarized photon by described the first linearly polarized photon, so only can filter out the component parallel with described linear polarizer absorption direction in described surround lighting by described linear polarizer, and can not filter out described the first linearly polarized photon, and then make described the second receptivity be less than described the first receptivity; And described liquid crystal layer can not be converted into described the 3rd circularly polarized light by described the 3rd linearly polarized photon, the absorption direction of described linear polarizer is vertical with the polarization direction of described the 3rd linearly polarized photon, thereby to described the 3rd linearly polarized photon without absorption, and then described the 3rd linearly polarized photon can not absorb by described linear polarizer, and then make described the 4th receptivity be less than described the 3rd receptivity.

6. method as claimed in claim 4, is characterized in that, described described at least one liquid crystal particle is adjusted into the second order mode different from described first order mode by first order mode, is specially:

7. the method for claim 1, is characterized in that, described described display parameter value is adjusted into second value different from described the first value by the first value, is specially:

8. the method as described in claim as arbitrary in claim 1-7, is characterized in that, described parameter information is specially: the behavioural characteristic of using described electronic equipment.

9. method as claimed in claim 8, is characterized in that, described to judge that whether described parameter information meets first pre-conditioned, is specially:

10. method as claimed in claim 9, is characterized in that, describedly judges whether described behavioural characteristic shows that the corresponding intensity of illumination of described surround lighting is greater than the corresponding intensity of illumination threshold value of described user, is specially:

11. methods as claimed in claim 9, is characterized in that, describedly judge whether described behavioural characteristic shows that the corresponding intensity of illumination of described surround lighting is greater than the corresponding intensity of illumination threshold value of described user, is specially:

12. 1 kinds of electronic equipments, is characterized in that, comprising:

13. electronic equipments as claimed in claim 12, is characterized in that, while being provided with optical unit on described display unit surface, described display parameter value is specially: the optical parameter value of described optical unit, and described adjusting module, specifically for:

14. electronic equipments as claimed in claim 13, it is characterized in that, when described optical parameter value is described the second optical parameter value, described optical unit is greater than when described optical parameter value is described the first optical parameter value the first receptivity of described surround lighting, second receptivity of described optical unit to described surround lighting; When described optical parameter value is described the second optical parameter value, it is four receptivity of optical unit to described the first light described in described the first optical parameter value that described optical unit is greater than in described optical parameter value to the 3rd receptivity of corresponding the first light of described displaying contents.

15. electronic equipments as claimed in claim 14, is characterized in that, at described optical unit, specifically comprise: liquid crystal layer, be arranged at described display unit surface, and wherein, described liquid crystal layer comprises at least one liquid crystal particle; Linear polarizer, while being arranged at described liquid crystal layer surface, described adjusting module, specifically for:

16. electronic equipments as claimed in claim 15, it is characterized in that, at described at least one liquid crystal particle during in described second order mode, described linear polarizer is for absorbing the described surround lighting polarized component light parallel with described linear polarizer polarization direction, and then described surround lighting is converted into the first linearly polarized photon, the polarization direction of described the first linearly polarized photon is vertical with described linear polarizer absorption direction; Described liquid crystal layer is for being converted to the first circularly polarized light by described the first linearly polarized photon; Described display unit is for being reflected back described the first circularly polarized light described liquid crystal layer and then obtaining the second circularly polarized light; Described liquid crystal layer is also for described the second circularly polarized light is converted to the second linearly polarized photon, and the polarization direction of described the second linearly polarized photon is parallel with described linear polarizer absorption direction; Described linear polarizer is also for absorbing described the second linearly polarized photon; In addition, described display unit is also for generation of described the first light, and described the first light is the 3rd linearly polarized photon; Described liquid crystal layer is also for being converted to the 3rd circularly polarized light by described the 3rd linearly polarized photon; Described linear polarizer also absorbs the parallel component of direction for absorbing described the 3rd circularly polarized light polarization direction and described linear polarizer; At described at least one liquid crystal particle during in described first order mode, described liquid crystal layer can not be converted to described the second linearly polarized photon by described the first linearly polarized photon, so only can filter out the component parallel with described linear polarizer absorption direction in described surround lighting by described linear polarizer, and can not filter out described the first linearly polarized photon, and then make described the second receptivity be less than described the first receptivity; And described liquid crystal layer can not be converted into described the 3rd circularly polarized light by described the 3rd linearly polarized photon, the absorption direction of described linear polarizer is vertical with the polarization direction of described the 3rd linearly polarized photon, thereby to described the 3rd linearly polarized photon without absorption, and then described the 3rd linearly polarized photon can not absorb by described linear polarizer, and then make described the 4th receptivity be less than described the 3rd receptivity.

17. electronic equipments as claimed in claim 15, is characterized in that, described adjusting module, specifically for:

18. electronic equipments as claimed in claim 12, is characterized in that, described adjusting module, specifically for:

Electronic equipment as described in 19. claims as arbitrary in claim 12-18, is characterized in that, described parameter information is specially: the behavioural characteristic of using the user of described electronic equipment.

20. electronic equipments as claimed in claim 19, is characterized in that, described judge module, specifically for:

21. electronic equipments as claimed in claim 20, is characterized in that, described judge module, specifically for:

22. electronic equipments as claimed in claim 20, is characterized in that, described judge module, specifically for: