CN103293692A

CN103293692A - Naked eye three-dimensional image display control method and device

Info

Publication number: CN103293692A
Application number: CN2013102450323A
Authority: CN
Inventors: 骆俊谕; 王艳辉
Original assignee: Qingdao Hisense Electronics Co Ltd
Current assignee: Qingdao Hisense Electronics Co Ltd
Priority date: 2013-06-19
Filing date: 2013-06-19
Publication date: 2013-09-11
Anticipated expiration: 2033-06-19
Also published as: CN103293692B

Abstract

An embodiment of the invention provides a naked eye three-dimensional image display control method and device. The naked eye three-dimensional image display control method includes: detecting obtained space position of a user corresponding to a display device, determining a first display mode corresponding to the space position according to the space position, adjusting a period view of a first display panel according to the first display mode, generating a first sub-pixel set on a second display panel, wherein the first sub-pixel set comprises a plurality of columns of sub-pixels, and the first sub-pixel set generates a first slit grating to enable light rays on the first display panel to form a first period visual area distributed in a period mode on the corresponding area of the display device. The naked eye three-dimensional image display control method and device solves the technical problem that in the prior art, a three-dimensional (3D) imaging device cannot change an imaging visual area of the 3D imaging device according to user positions.

Description

A kind of bore hole stereo-picture display control method and device

Technical field

The present invention relates to electronic technology field, relate in particular to a kind of bore hole stereo-picture display control method and device.

Background technology

Continuous development along with electronic technology, the 3D demonstration is used widely in the prior art, but the user needs to wear corresponding 3D glasses when watching 3D TV or 3D film, though this image of watching mode can watch 3D effect, but can bring great inconvenience to the user, make that user's Experience Degree is relatively poor.

Therefore, the naked 3D of the looking display technique that need not wearing spectacles just becomes the direction and goal that continues development, has just occurred the following naked 3D of looking technology in the prior art: slit grating formula and column mirror grating formula.

Wherein be to use a switch liquid crystal display, polarizing coating and high molecule liquid crystal layer based on liquid crystal shutter slit grating formula, utilize liquid crystal layer and polarizing coating to produce a series of barrier stripeds with certain angle of inclination, thereby make the user before LCDs can watch 3D rendering; Column mirror grating formula principle is to add the last layer lens pillar to make being positioned at as the plane on the focal plane of lens of liquid crystal display in the front of LCDs, and lens just can be with each sub-pixel of different direction projections like this.So eyes are watched display screen from different angles, just see different image (as shown in Figure 1), see that the user that adjacent two width of cloth have certain anaglyph visually produces 3D effect thereby make.

But, no matter be that slit grating formula or column mirror grating formula all are can only be to form to watch vision area in first fixed area in the place ahead of 3D imaging device, so 3D imaging device of the prior art exists can not be according to the technical matters of user's position real time altering 3D imaging device imaging vision area, and then have influence on user's viewing experience and degree easy to use.

Summary of the invention

The invention provides a kind of display mode and device, there is the technical matters that can not implement to change 3D imaging device imaging vision area according to user's position in the 3D imaging device in the prior art in order to solve, and its concrete technical scheme is as follows:

A kind of bore hole stereo-picture display control method, described method is applied to a display device, described display device comprises first display panel at least, be used for showing that first shows object, the described first demonstration object is made up of a plurality of period view, second display panel has comprised the multiple row sub-pixel on described second display panel, and described method comprises:

Detect and obtain the user with respect to the locus of display device;

According to described locus, determine first display mode corresponding with described locus;

According to described first display mode, adjust the described period view on described first display panel, and at described second display panel generation, the first sub-pixel collection, described first sub-pixel is concentrated and has been comprised the multiple row sub-pixel, form first slit grating by the described first sub-pixel collection, so that after the light on described first display panel sees through described first slit grating, the period 1 vision area that the formation cycle arranges in described display device corresponding region.

A kind of bore hole stereo-picture display control unit, described device comprises first display panel at least, is used for showing that first shows object, the described first demonstration object is made up of a plurality of period view, second display panel has comprised the multiple row sub-pixel on described second display panel, and described device also comprises:

Detecting unit is used for obtaining the user with respect to the locus of described device;

Determining unit is used for according to described locus, determines first display mode corresponding with described locus;

Adjustment unit, be used for according to described first display mode, adjust the described period view on described first display panel, and at described second display panel generation, the first sub-pixel collection, described first sub-pixel is concentrated and has been comprised the multiple row sub-pixel, form first slit grating by the described first sub-pixel collection, so that after the light on described first display panel sees through described first slit grating, the period 1 vision area that the formation cycle arranges in described device corresponding region.

Optionally, described detecting unit is specifically for detection of the primary importance coordinate of each user in the corresponding predeterminable area of described device, and with each user's primary importance coordinate as described first parameter.

Optionally, described determining unit specifically comprises:

Determination module, it is first pre-conditioned be used for to judge whether described first parameter satisfies, and generates first result of determination;

Determination module is used for satisfying described first when pre-conditioned when described first parameter, obtains described first the presets list, determines described first display mode corresponding with described first parameter in described first the presets list.

Optionally, described adjusting module specifically comprises:

First determination module is used for obtaining described first the presets list, determines the period 1 vision area that can make described primary importance coordinate be positioned at three-dimensional vision area coordinate range in described first the presets list;

Second determination module is used for determining first display mode of described period 1 vision area correspondence according to described second round of vision area in described first the presets list.

Optionally, described first determination module specifically comprises:

Priority determining unit is used for determining the first pre-setting priority at the pre-setting priority that prestores, and wherein, described pre-setting priority is used for determining the looked-up sequence of described first the presets list cycle vision area;

Search the unit, be used for according to described primary importance coordinate, in described first the presets list, determine described period 1 vision area according to the described first default priority orders.

Optionally, when described first display panel was identical with the described second display panel resolution, described adjustment unit specifically comprised:

First adjusting module is used for according to described first display mode, is listed as increase or is reduced to the Q row by current J at the pixel columns what comprise in each the described period view on described first display panel;

Second adjusting module, be used for will each current on described second display panel set of pixels the sub-pixel columns increase or be reduced to the Q row, and generation comprises the described first sub-pixel collection of Q row sub-pixel, wherein, described Q is the positive integer more than or equal to 2, and Q is not equal to J.

A kind of display device, described display device comprises:

First liquid crystal panel can show that first shows object, and this first demonstration object can be made up of a plurality of period view, has comprised the multiple row sub-pixel in each described period view;

Second liquid crystal panel, overlap with described first liquid crystal panel, comprised a plurality of first sub-pixel collection on described second liquid crystal panel, each described first sub-pixel is concentrated and has been comprised the multiple row sub-pixel, and each described first sub-pixel collection moves according to first drive pattern;

Detecting device is used for obtaining the user with respect to the locus of described device;

Process chip, be connected with described first liquid crystal panel, second liquid crystal panel and described detecting device, be used for according to described locus, determine first display mode corresponding with described locus, and according to first display mode, the period view of controlling on described first liquid crystal panel is adjusted, and generates the first sub-pixel collection at described second liquid crystal panel;

Wherein, described first sub-pixel is concentrated and has been comprised the multiple row pixel, first slit grating that forms by the described first sub-pixel collection, so that after the light on described first display panel sees through described first slit, the period 1 vision area that the formation cycle arranges in described display device corresponding region.

Optionally, described detecting device is specifically for detection of the primary importance coordinate of each user in the corresponding predeterminable area of described display screen, and with each user's primary importance coordinate as described first parameter.

Optionally, described process chip also is used for determining the first pre-setting priority at the pre-setting priority that prestores, and according to the primary importance coordinate, in described first the presets list, determine the period 1 vision area according to the described first default priority orders, according to described period 1 vision area, in described first the presets list, determine described first display mode of described period 1 vision area correspondence.

Optionally, when described first liquid crystal panel has identical resolution with described second liquid crystal panel, described process chip specifically is used for according to first display mode, the sub-pixel columns that comprises in each described period view on first liquid crystal panel is listed as increase or is reduced to the Q row by current J, and the sub-pixel columns in current each set of pixels on described second liquid crystal panel increased or be reduced to the Q row, generate the described first sub-pixel collection that comprises Q row sub-pixel.

Optionally, described process chip is used for according to described first display mode, obtain first drive pattern that the described first sub-pixel set pair is answered, according to described first drive pattern, each first sub-pixel collection on described second liquid crystal panel is moved according to first drive pattern, form first slit grating at described second liquid crystal panel, so that the user is positioned at the three-dimensional vision area of the period 1 vision area that forms by described first slit grating.

One or more embodiment provided by the invention exists following technique effect and advantage at least:

If in embodiments of the present invention during the three-dimensional vision area of the residing position of user right and wrong, this display device will be determined a vision area that the user is in the three-dimensional vision area according to the current position of user and distribute in first the presets list, distribute according to this vision area then and determine a display mode, adjust on first display panel period view and generate the first sub-pixel collection at second display panel, make the arrangement mode correspondence of the vision area that the corresponding first distance areas intercycle of display device is arranged adjust, there is the technical matters that can not implement change display device imaging vision area according to user's position in display device in the existing skill thereby just can solve.So just can realize the user under the situation that is in non-three-dimensional vision area or is moving, this electronic equipment can be real-time detection active user position, and adjust display mode and the drive pattern of sub-pixel on the display device according to user's position, the final vision area of adjusting the display device correspondence is arranged, make user's present located position all can be in the viewing area of stereo-picture, and then realized that display device can be according to the residing position of user to increase or to reduce the concentrated sub-pixel columns of sub-pixel, thereby the vision area in the display device of arranging the again corresponding region distributes, and also promoted display device adaptability and reliability, and also promoted user's experience.

Pass through to gather user's position coordinates in embodiments of the present invention in this display device, in first the presets list, determine a display mode according to this position coordinates then, and adjust on first display panel putting in order of view in the period view according to this display mode, thereby adjusted the displaying contents in the corresponding vision area of display device, therefore just can make by the adjustment to displaying contents in the vision area to be in against vision area originally or to be that the user of non-viewing location can watch 3D rendering normally, so also make and also can watch 3D rendering when the user can adjust the position.

Display device can record the access times of every kind of display mode in embodiments of the present invention, when determining display mode according to user's current location, will carry out determining of display mode according to the access times of every kind of display mode, what just access times were the highest will preferentially be mated, so just make the display mode that display device is can be more according to user's current location locating and displaying pattern the time quick, accurate in locating goes out to satisfy user's viewing location, save the time that display device is adjusted display mode, also improved the work efficiency of display device.

In embodiments of the present invention when there emerged a a plurality of display mode according to user's current location location, then this display device will select to have the display mode of boy's number of views or minimum vision area number, such mode can be so that this display device be when guaranteeing that the user can normally watch 3D rendering, the demonstration image of optimum resolution can be provided to the user, also promote display effect when display device is adjusted in real time like this, promoted user's viewing effect.

Description of drawings

Figure 1 shows that bore hole 3D shows synoptic diagram in the prior art;

Figure 2 shows that a kind of bore hole stereo-picture display control method process flow diagram in the embodiment of the invention;

Figure 3 shows that 4 vision area synoptic diagram in the embodiment of the invention;

Figure 4 shows that 5 vision area synoptic diagram in the embodiment of the invention;

Figure 5 shows that a sub pixel collection drive pattern in the embodiment of the invention;

Figure 6 shows that the arrangement mode of sub-pixel in the embodiment of the invention;

Figure 7 shows that the drive pattern of another kind of sub-pixel collection in the embodiment of the invention;

Figure 8 shows that another kind of bore hole stereo-picture display control method process flow diagram in the embodiment of the invention;

Figure 9 shows that the synoptic diagram after the 4 vision areas adjustment vision area in the embodiment of the invention;

Figure 10 shows that embodiment of the invention kind bore hole stereo-picture display control unit structural representation;

Figure 11 shows that the structural representation of a kind of display screen in the embodiment of the invention.

Embodiment

The invention provides a kind of bore hole stereo-picture display control method and display device, this display device has comprised first display panel at least, this first display panel is used for showing that first shows object, this first demonstration object is made up of a plurality of period view, this display device also comprises second display panel, a plurality of first sub-pixel collection have been comprised on this second display panel, each first sub-pixel energy collecting is enough to form first slit grating at second display panel, after light on first display panel sees through first slit grating then, the period 1 vision area of in this display device corresponding region, the formation cycle being arranged, as shown in Figure 1, this display device is just to there being the period 1 vision area of 4 vision areas compositions in Fig. 1, standard vision area and non-three-dimensional vision area in this period 1 vision area, have been comprised, this standard vision area is the vision area 1 among Fig. 1, vision area 2, vision area 3, vision area 4, the vision area scope that the vision area 1 that this non-three-dimensional vision area scope then is the one-period vision area and the vision area 4 of another adjacent periods vision area are formed, if when the user is in this non-three-dimensional vision area scope, then the user can not watch stereo-picture or watch ghost image.

This display device also will detect the locus of this display device respective user in embodiments of the present invention then, can determine first display mode corresponding with this locus according to this locus, according to this first display mode, become the first sub-pixel collection on second display panel of this display device, this first sub-pixel is concentrated and has been comprised the multiple row sub-pixel, form first slit grating by the first sub-pixel collection, so that after the light on first display panel sees through first slit grating, the period 1 vision area that the formation cycle arranges in the display device corresponding region.

Simply, this display device can detect this display device respective user with respect to the position of this display device, thereby determine the user whether in the non-three-dimensional vision area scope of display device according to the position that detects, if this user is in the three-dimensional vision area scope of this display device correspondence the time, then work second display panel of looking the barrier effect in this display device and will not have any adjustment, but when the residing position of user is in non-three-dimensional vision area scope, then this display device will generate a sub-set of pixels at second display panel according to the current position with respect to display device of user, and the operational mode of definite this sub-pixel collection, thereby make the corresponding standard vision area of display device position change, namely change former non-stereopsis zone position, and then after the position of standard vision area and non-three-dimensional vision area changes, make the user adjust to three-dimensional vision area scope by former non-three-dimensional vision area scope, the realization display device is adjusted vision area according to user's position and is distributed, and makes the user can both watch 3D rendering in different positions.

Need to prove, in embodiments of the present invention this display device in the resolution of second display panel be greater than the resolution that equals first display panel, simply be exactly the sharpness that sharpness on second display panel is higher than first display panel.

Below by accompanying drawing and specific embodiment technical solution of the present invention is described in detail, be to be understood that, embodiment provided by the invention is the detailed description to technical solution of the present invention, and be not limited to the technical solution, under the situation of not conflicting, the concrete technical characterictic among the embodiment of the invention and the embodiment can make up mutually.

Embodiment one:

Be illustrated in figure 2 as the process flow diagram of a kind of display packing in the embodiment of the invention, this method comprises:

Step 201 detects and obtains the user with respect to the locus of display device.

At first, display packing in the embodiment of the invention is applied to a display device, this display device has comprised first display panel at least, this first display panel is used for showing that first shows object, this first demonstration object is made up of a plurality of period view, this display device also comprises second display panel, has comprised the multiple row sub-pixel on this second display panel.

At first, sub-pixel number on first display panel and second display panel can be inequality in embodiments of the present invention, specifically be exactly that the resolution of second display panel is more than or equal to the resolution of first display panel, after forming slit grating, the light of display device just sees through after the slit grating can be in formation cycle vision area in display device correspondence regional on such second display panel.

Be to describe by first display panel situation identical with the resolution of second display panel in the following embodiments.

In the starting stage, in this display device corresponding region of detection that the pick-up unit on this display device can be real-time user's locus, and this locus is defined as first parameter.

Such as, if display screen is in 3D display mode following time, at first can show an image on the ground floor liquid crystal panel of this display screen, in this image, just comprised the view sequence that the cycle arranges, such as just comprised the sub-pixel collection of 4 viewpoint view sequence correspondences as shown in Figure 1 in the one-period view, be each sub-pixel content displayed on the ground floor liquid crystal panel be in the 4 viewpoint view sequence respective view in the sub-pixel content of same, physical, specifically, be exactly that the first row sub-pixel in each period view is formed first view, the secondary series sub-pixel is formed second view, when having comprised what sub-views in the period view, how many row sub-pixels have just been comprised in the one-period view, will comprise 4 row sub-pixels in the sub-set of pixels on second liquid crystal panel of display screen then, this 4 row sub-pixel can be in different penetrabilitys respectively, can be the 1st, 2,4 row sub-pixels are light tight, and the 3rd row sub-pixel printing opacity, each sub-pixel collection on second liquid crystal panel carries out the drive pattern driving in such a manner then, finally formed first slit grating at second liquid crystal panel, under the effect of first slit grating, just can form the vision area of watching 3D rendering in the zone of display device correspondence, the user just can see the image of 3D effect in the vision area that forms then.

If the user need see the image of 3D effect, then user's left eye is in vision area 2, and when right eye is in vision area 3 (as shown in Figure 1), then the user just can see corresponding 3D effect image, but if user shift position, and make left eye and right eye be in two different vision areas simultaneously in the cycle time, the vision area position of display device is in the prior art all fixed, can not adjust at any time, thereby when the residing position of user's eyes during in non-three-dimensional vision area scope, that is: user's left eye on current location is in the last vision area of one-period vision area, and right eye is when being positioned at the initial vision area of another adjacent periods vision area, then the user just can not watch corresponding 3D effect image or can only watch ghost image, so just make that user's viewing experience is very poor, and make that also the display effect of display device is relatively poor.

In order to solve the above problems, therefore comprise the relative position relation that can also detect in real time in the electronic equipment of this display device between user and this display device in embodiments of the present invention, just detect each user and first parameter between the display device, that is: each user's the primary importance coordinate that obtains the display device correspondence.

After detecting first parameter, this display device is with execution in step 202.

Step 202 according to the locus, is determined first display mode corresponding with the locus.

In step 201, get access to after first parameter, this display device can be transferred out first the presets list, in this first the presets list, comprised the corresponding relation between vision area distribution and the display mode, and in this vision area distributes, specifically comprised standard vision area coordinate range, specifically, this standard vision area coordinate range is first vision area as shown in fig. 1, second vision area, the 3rd vision area, the coordinate range of the 4th vision area correspondence in the space, the standard vision area coordinate range during this display device can distribute to vision area according to different space environment sizes certainly carries out real-time renewal.

Such as, this display device can be determined different display modes with the position relation between the display device according to the user in embodiments of the present invention, therefore, first the presets list in embodiments of the present invention can prestore in this display device, corresponding relation between in this first the presets list, preserving different display modes and vision area distributing, specifically, display mode D(a, b, c) and vision area distribution F(S) between corresponding relation, wherein a is sub-number of views on first display panel, b is the grating arrangement mode, and c is the drive pattern of sub-pixel collection on second display panel.

In addition, need to prove that vision area distributes is made up of a plurality of vision areas, can be to comprise 2 vision areas, 3 vision areas or 4 vision areas during a vision area distributes, as shown in Figure 1, a vision area has just comprised first vision area, second vision area, the 3rd vision area, the 4th vision area 4 vision areas altogether in distributing.

Then at vision area distribution F(D) in preserved the corresponding standard vision area of each vision area coordinate, such as vision area distribution F(S1) the first vision area coordinate be (X ₁₁, Y ₁₁, Z ₁₁) (X ₁₂, Y ₁₂, Z ₁₂), the second vision area coordinate is (X ₂₁, Y ₂₁, Z ₂₁) (X ₂₂, Y ₂₂, Z ₂₂), the 3rd vision area coordinate is (X ₃₁, Y ₃₁, Z ₃₁) (X ₃₂, Y ₃₂, Z ₃₂), the 4th vision area coordinate is (X ₄₁, Y ₄₁, Z ₄₁) (X ₄₂, Y ₄₂, Z ₄₂).

In like manner, the coordinate setting of other vision areas is identical with above-mentioned mode, just repeats no more at this.

According to above-mentioned corresponding relation, in this display device, above-mentioned corresponding relation will be kept in first the presets list, that is: table 1

Display mode	Vision area distributes
		D（a1、b1、c1）	F（S1）
D（a2、b2、c2）	F（S2）
		D（a3、b3、c3）	F（S3）

Table 1

After getting access to first the presets list, it is first pre-conditioned that this display device needs at first to judge that whether first parameter satisfies, that is: whether the primary importance coordinate of judging the user satisfies pre-conditioned, whether the primary importance coordinate of judging the user in embodiments of the present invention satisfies pre-conditioned mode comprises two kinds, a kind of can be to determine distance between display device and the user by the primary importance coordinate, goes to determine by this distance whether user's present located position can watch stereo-picture then.

Further, be that the standard vision area coordinate range in primary importance coordinate and first the presets list is mated at the preferred embodiment of the embodiment of the invention, when if this primary importance coordinate is arranged in adjacent two vision areas of one-period vision area, determine that then this primary importance coordinate does not satisfy pre-conditioned, that is: this primary importance coordinate is positioned at and normally watches vision area, when if this primary importance coordinate is in two cycle vision areas, that is: go up the last vision area of one-period vision area, and during the initial vision area of next cycle vision area, then this primary importance coordinate satisfy pre-conditioned, this moment this demonstration will determine that this user is in the non-three-dimensional vision area coordinate range of non-three-dimensional vision area correspondence.

Specifically, this display device will parse the primary importance coordinate of each user in this first parameter, this primary importance coordinate can be to locate by the image acquisition units on the display device, can also be to locate this coordinate by other means, display device is compared user's primary importance coordinate and the vision area that the prestores corresponding coordinate that distributes then, and concrete decision procedure is as follows:

At first, left eye position coordinates (the x1 that in this primary importance coordinate, comprises the user, y1, z1) and right eye position coordinates (x2, y2, z2) with table 1 in vision area distribute and to compare, if user's left eye coordinates is in the last vision area of one-period vision area, and the right eye coordinate is when being in the initial vision area of another cycle vision area, that is: as shown in Figure 3, user's left eye is positioned at 4 vision areas in a vision area cycle, and right eye is when being positioned at 1 vision area of next cycle vision area, then the user can not watch the image of 3D effect, and defining this position is non-three-dimensional vision area, and this non-three-dimensional vision area corresponds to non-three-dimensional vision area coordinate range.

When in determining all users, having any user's primary importance coordinate to be in the non-three-dimensional vision area, then this display device will travel through first the presets list according to this user's primary importance coordinate, owing in this first the presets list, preserve the coordinate that each vision area distributes, therefore, just can travel through out the vision area distribution mode that makes the primary importance coordinate be positioned at three-dimensional vision area, that is: a period 1 vision area by the primary importance coordinate in embodiments of the present invention.

Owing in first the presets list, preserved the corresponding relation between vision area distribution mode and the display mode, therefore, just can determine first display mode by the vision area distribution mode of determining, that is: just can directly determine first display mode corresponding with this period 1 vision area by the period 1 vision area.

Such as: in table 1, can find out a vision area distribution and make user's left eye position coordinates be positioned at a vision area, and user's right eye position coordinates is positioned at the adjacent another one vision area of one-period vision area, if the vision area distribution F(S2 that determines according to active user's left eye position coordinates and right eye position coordinates) can make left eye position coordinates and right eye position coordinates be in one-period vision area different vision area the time, distribute according to vision area in the table 1 then and display mode between corresponding relation, thereby just can determine this vision area distribution F(S2) the display mode D(a2 of correspondence, b2, c2).

Further, in embodiments of the present invention, in order to improve vision area distribution and display mode constant speed degree really, and the display effect that promotes display device, therefore in embodiments of the present invention in definite cycle during vision area, this display device will be transferred the pre-setting priority that prestores, this pre-setting priority is used for determining the looked-up sequence of first the presets list cycle vision area, this display device can be determined first priority in pre-setting priority, according to the primary importance coordinate, in first the presets list, determine the period 1 vision area according to the first default priority orders then.

Specifically priority determines that mode has comprised following mode in embodiments of the present invention:

Be distributed as two or when a plurality of when determine the vision area that can make left eye position coordinates and right eye position coordinates be positioned at different vision areas simultaneously according to the primary importance coordinate, for the resolution that guarantees to show on first display panel, therefore, if the vision area of determining distributes when comprising two or more, this display device is at first determined the corresponding display mode of each vision area distribution according to first the presets list, parse the sub-number of views in each display mode then, and select that to comprise a minimum display mode of sub-number of views be the target display mode, that is: determining a minimum vision area of number of views or vision area number in a plurality of vision areas distribute distributes, therefore the system of selection by this pattern can guarantee that this display device can be adjusted to user's present located position in the suitable 3D visible area under the higher prerequisite of display resolution.

Such as, current vision area is distributed as each vision area 3 vision areas of arranging in the cycle, that is: vision area 1, vision area 2 and vision area 3, in the time of should can not satisfying the current position of user in this vision area cycle then, this display device will in table 1, determine the cycle vision area that satisfies user's current location have the vision area number be 4 and the vision area number be two cycle vision areas of 5, this moment, the vision area number was to have comprised the period view with 4 sub-views in the display mode of 4 cycle vision area correspondence, the vision area number is to have comprised the period view with 5 sub-views in the display mode of 5 cycle vision area correspondence, when existing two above-mentioned display modes can make the user when current location is watched 3D rendering, then this display device is in order to improve best image resolution to the user, therefore, this display device will be selected the display mode of minimum sub-number of views, and just this display device will select to have the display mode of 4 sub-views.

In addition, in embodiments of the present invention except aforesaid way is determined first display mode, in order to make display device to determine first display mode according to user's use habit, thereby make the user can experience best 3D rendering effect, therefore also provide a kind of first display mode definite mode in embodiments of the present invention, its concrete definite mode is as follows:

Display device is under the 3D display mode in this embodiment, can carry out mark to the each display mode that uses of user, it is 3 times such as the user uses the access times of first display mode, the access times that use second display mode are 4 times, the access times that use the 3rd display mode are 5 times, the number of times that uses the 4th display mode is 2 times, after noting all access times, when searching the vision area distribution, this display device vision area that at first the match user access times are maximum distributes, if the vision area that access times are maximum distributes when not satisfying condition, then this display device will be mated the vision area distribution of access times second, mode continues down to mate according to this, that is: this display device is when definite user's current location is in the first unavailable vision area, this display device at first is that the 3rd vision area distribution coordinate that user's current position coordinates is corresponding with the 3rd display mode mates, determine just whether user's current position coordinates is in the available vision area coordinate range of the 3rd vision area distribution, when if user's current position coordinates is in the available vision area coordinate range that the 3rd vision area distributes, then will directly to determine the 3rd display mode be the target display mode to this display device.

If the current coordinate of user also is to be in the non-three-dimensional vision area coordinate range of the 3rd vision area distribution, then this display device can continue down to mate according to priority, that is: display device will continue coupling second display mode, first display mode, the 4th display mode until matching a target display mode that satisfies condition.

Can record the use of display mode frequently spends by above-mentioned mode, then according to using frequent degree to adjust display mode, thereby can be so that display device can be searched coupling according to priority to display mode, and make display device can orient the display mode that satisfies user's viewing location more accurately and fast, save the time that display device is adjusted display mode, also improved the work efficiency of display device.

In addition, above-mentioned in embodiments of the present invention process is that display device has a display mode before, and the corresponding one-period vision area of this display mode meeting, when user's current position coordinates is in the non-three-dimensional vision area coordinate range of this cycle vision area, then shows and in first the presets list, to find out a display mode according to user's current position coordinates.

This display device also comprises another embodiment in embodiments of the present invention, that is: this display device is after detecting the current primary importance coordinate of user, this display device can be determined this primary importance coordinate a vision area that can make the primary importance coordinate be positioned at three-dimensional vision area coordinate range and distribute in first the presets list, distribute according to this vision area then and determine the first corresponding display mode, it is determined that vision area distributes and determines that the mode of display mode and the mode in above-described embodiment are identical.

Certainly the coupling of determining also can carry out according to priority order that distributes of vision area in this embodiment, that is: the vision area that priority is high distributes and will at first mate, and the low vision area of priority distribute will by after distribute.

Therefore distribute by finding out the corresponding vision area of user's current position coordinates according to priority orders in above-described embodiment, distribute according to this vision area then and directly determine a kind of display mode, this display device and not be used in first the presets list each vision area distributed and mate under such embodiment, thereby can reduce the process of coupling, and the time that reduces coupling, and the vision area that can accurate localization goes out the most suitable active user position distributes and display mode.

In addition, in embodiments of the present invention in order to improve the 3D display effect that the user watches, therefore display device can be divided into a plurality of grades with the vision area that forms, such as, in Fig. 4, the zone between 1 vision area and 2 vision areas can be divided into third-class vision area, zone between 2 vision areas and 3 vision areas is divided into second-class vision area, zone between 3 vision areas and 4 vision areas is divided into first-class vision area, zone between 4 vision areas and 5 vision areas then is divided into third-class vision area, specifically, this vision area grade classification well can be stored in first the presets list afterwards, thereby when definite vision area distributes, can directly determine the higher vision area of grade in this first the presets list.

If the mode by above-mentioned vision area division, display device is when determining display mode, can adjust according to this vision area grade, such as, when user's current position coordinates is in non-available vision area, when then this display device redefines the vision area distribution, distribute at first finding out the vision area that can make user's current position coordinates be in first-class vision area, if exist such vision area to distribute, this display device will directly distribute this vision area and distribute as final vision area, determine the display mode that this vision area distributes and corresponds to then, show according to this display mode at last.

Therefore by dividing the service rating of available vision area, can be under vision area distributes certain situation, can directly orient and to satisfy user's current location, and the vision area with higher display effect distributes, so namely reduced the positioning time of display device, simultaneously the position at active user place is in the first-class vision area, makes the user can watch best 3D display effect, promote user's viewing experience.After determining the target display mode, this display device is with execution in step 203.

Step 203 according to first display mode, generates the first sub-pixel collection at second display panel.

Specifically, if when having a display mode before this display device, after determining first display mode, this display device will be resolved first display mode, in this first display mode to the Q that comprises in the period view sub-view should be arranged, owing to comprised Q sub-view in the one-period view, and each sub-view is made up of the same column sub-pixel in each cycle, therefore when the quantity of sub-view changes, then the sub-pixel columns in this period view also will be adjusted accordingly, that is: according to Q sub-view, the sub-pixel columns that comprises in each period view on first display panel is listed as increase or is reduced to the Q row by the J under the original display mode, wherein, Q is to be not equal to J and is not 0 positive integer.

In order to guarantee that the image that the user watches is the view that shows in real time on first display panel, when therefore the sub-number of views on first display panel changes, the sub-pixel columns that sub-pixel on second display panel is concentrated also will be adjusted accordingly, specifically, when the sub-pixel columns on definite first display panel increases or is reduced to the Q row, the sub-pixel columns that sub-pixel is concentrated under the former display mode on second display panel also can be increased or be reduced to the Q row accordingly by original J row, certainly here so long as sub-number of views increase on first display panel, then the sub-pixel columns that sub-pixel is concentrated on second display panel also increases, and sub-number of views reduces the sub-pixel columns that sub-pixel then concentrates and also reduces.

Certainly, the sub-pixel columns that sub-pixel on second display panel is concentrated increases or is reduced to after the Q row, will generate accordingly on this second display panel comprises the first sub-pixel collection of Q row sub-pixel, and owing to generated the first sub-pixel collection that comprises Q row sub-pixel, so the grating that forms on this second display panel also changes accordingly.

Such as, when being adjusted into as shown in Figure 4 period view by the period view among Fig. 3, the sub-number of views in each period view is 5 on this first display panel in Fig. 4, therefore on second display panel sub-pixel columns in sub-set of pixels too be adjusted into 5, so corresponding vision area that can make this display device form one by one can provide the image of 3D display effect.

After generating the first sub-pixel collection, because the sub-pixel columns that comprises in the first sub-pixel collection and the atom set of pixels is inequality, therefore just need parse the drive pattern of the first sub-pixel collection under first display mode in embodiments of the present invention, this drive pattern is exactly the light transmission mode that first sub-pixel is concentrated every row sub-pixel, light transmission state and non-light transmission state have been comprised in this light transmission mode, the first sub-pixel collection drive pattern is kept in first display mode, such as first display mode is D(a1, b1, c1), wherein c1 is the drive pattern of the first sub-pixel collection under first display mode, just can drive the light transmission state of the concentrated every row sub-pixel of each first sub-pixel according to this drive pattern, such as shown in Figure 5, this second sub-pixel is concentrated in Fig. 5 the 1st, 2,3,4 row sub-pixels all are to be in non-light transmission state, and the 5th row sub-pixel is in light transmission state, such first sub-pixel collection just can form first slit grating that is different from former slit grating, thereby just can form the vision area number by first slit grating that each first sub-pixel collection forms is 5 cycle vision area, that is: vision area second round (as shown in Figure 4).

After formation comprises the cycle vision area of 5 vision areas, user's current location correspondence shared coordinate position in the cycle vision area will be adjusted in two different vision areas that are in the one-period vision area, that is: in Fig. 4, this user's left eye position coordinates is in 2 vision areas, user's right eye position coordinates is in 3 vision areas simultaneously, so just can guarantee that the user watches normal 3D rendering.

Explanation is in the display device during display mode of current existence in the above-described embodiment, this display device can be determined first display mode according to user's primary importance coordinate in first the presets list, and this display device adjusted first display mode from current display mode, specifically be exactly the sub-pixel columns of adjusting on first display panel and second display panel.

But, this display device is current in embodiments of the present invention when not having any display mode, after display device is determined first display mode by user's primary importance coordinate, this display device will directly be adjusted to first display mode, that is to say on first display panel of current display device and do not have period view, when not having definite sub-pixel collection on second display panel, under first display mode, the period view that will comprise Q sub-view on first display panel of this display device, generate the first sub-pixel collection that comprises Q row sub-pixel at second display panel then, finally in the display device corresponding region, form the period 1 vision area, so also can make the user can be in 3D and watch in the vision area.

Certainly, also there is the above-mentioned priority matching way that vision area is distributed in this embodiment and to the division of vision area grade, these two processes are identical with above-mentioned process, just do not giving unnecessary details at this.

Further, in embodiments of the present invention except by increasing or reduce in the period view number of views and adjusting the sub-pixel columns that sub-pixel is concentrated on second display panel, this can also be to adjust putting in order of the view in the period view on first display panel by user's primary importance coordinate in embodiments of the present invention, thereby the change by order can be adjusted to normally and watches in the vision area so that be in the user of contrary vision area originally.

Specifically, display mode in this first the presets list is the putting in order of view in the period view on control first display panel in embodiments of the present invention, such as putting in order of period view is 1 on this first display panel under first display mode, 2,3,4,5, under second display mode on first display panel putting in order of period view be 1,3,5,2,4, under the 3rd display mode on first display panel putting in order of period view be 5,4,3,2,1, that is to say putting in order inequality of on this first display panel under different display modes period view.

Owing to putting in order of view in the period view is inequality, so the content that the user watches in each vision area just changes accordingly, this moment, this display device was after the primary importance coordinate of determining the user, this display device will determine whether the user is in the contrary vision area under the current display mode, if the user is not in contrary vision area, then this display mode can not adjusted, when if the user is in against vision area, this display device will be determined second display mode according to user's primary importance coordinate in first the presets list, adjust on first display panel according to second display mode then that view puts in order in the period view, the change that puts in order by view just can be so that the corresponding content of each vision area of display device changes, thereby makes the user who was in contrary vision area originally also can watch normal 3D rendering.

Certainly, if current display device is being used without any a kind of display mode, then this display device is after collecting user's primary importance coordinate, this display device will directly be determined a kind of display mode according to user's primary importance coordinate, and directly determine putting in order of the first display panel top view according to the display mode of determining, then with this view corresponding alignment view that puts in order.

Pass through to gather user's position coordinates in the above-described embodiments in this display device, in first the presets list, determine a display mode according to this position coordinates then, and adjust on first display panel putting in order of view in the period view according to this display mode, thereby adjusted the displaying contents in the corresponding vision area of display device, therefore just can make by the adjustment to displaying contents in the vision area to be in against vision area originally or to be that the user of non-viewing location can watch 3D rendering normally, so also make and also can watch 3D rendering when the user can adjust the position.

In addition, need to prove at this, arrangement of subpixels mode on second display panel has two kinds in embodiments of the present invention, first kind as shown in Figure 5, this row sub-pixel is to arrange in vertical mode in Fig. 5, that is to say that each row sub-pixel is to arrange according to vertical direction to form grating.

Another kind of situation then is that each row sub-pixel all is to have certain pitch angle, and as shown in Figure 6, in Fig. 6, each identical sub-pixel all has certain pitch angle each other, will form grating as shown in Figure 7 when therefore forming grating at last.

Embodiment two:

Determine the mode except a kind of display mode of embodiment in embodiments of the present invention, also provide a kind of display mode definite mode two kinds of embodiment, this display device is preserved first the presets list in embodiment two, available vision area and non-available vision area that each vision area distributes in this first the presets list, have been preserved, each vision area distribution is corresponding display mode all, and is specifically as shown in table 2.

Display mode

Vision area distributes

D1（A ₁，B ₁，C ₁）	F（m ₁），F（n ₁）
		D2（A ₂，B ₂，C ₂）	F（m ₂），F（n ₂）
D3（A ₃，B ₃，C ₃）	F（m ₃），F（n ₃）
		D4（A ₄，B ₄，C ₄）	F（m ₄），F（n ₄）

Table 2

In table 2, this D1 characterizes first display mode, the A under first display mode ₁Characterize the sub-number of views on first display panel, B ₁Characterize the grating arrangement mode, C ₁Characterize the drive pattern of sub-pixel collection on second display panel, F(m ₁) be characterized in available vision area coordinate range under first display mode, F(n ₁) be characterized in non-available vision area coordinate range under first display mode, F(m certainly ₁) and F(n ₁) all be to generate according to standard vision area coordinate range.

Specifically, in embodiments of the present invention except can being to determine by user's eyes whether the user can watch the 3D rendering, can also determine whether the user can watch 3D rendering according to a unique point in embodiments of the present invention, such as can be the middle some points of user's eyes, or the centre position of user's nose, these positions can be unique points, when determining that some unique point conducts need the point of collection at last, then this display device can generate an available vision area coordinate range and non-available vision area coordinate range according to unique point and benchmark vision area coordinate range before showing, when if detected unique point is in the available vision area coordinate range, this user just can watch 3D rendering, in the time of in detected unique point is in non-available vision area coordinate range, this user just can watch 3D rendering or watch ghost image.

Such as, when this unique point is position of user's eyes centre, when detecting this unique point and be positioned at available vision area coordinate range, the right and left eyes that the user just is described lays respectively at two adjacent vision areas in the one-period vision area, thereby the user can watch 3D rendering, when detecting this unique point and be positioned at non-available vision area coordinate range, illustrate that then this user's left eye is positioned at the not vision area of a vision area, and right eye is arranged in the initial vision area of another adjacent periods vision area, just being in the contrary vision area of user makes the user can produce ghost image when watching 3D rendering like this.

When if detected unique point has been positioned at non-available vision area coordinate range under first display mode, then first display mode can not satisfy user's demand, therefore, this display device will be carried out traversal queries according to the characteristic point position coordinate in table 2, inquire a vision area that can make the characteristic point position coordinate be positioned at available vision area coordinate range and distribute, if find out F(m ₂) comprised the characteristic point position coordinate, this display device was just determined second vision area and was distributed and to satisfy condition this moment, and second display mode that the distribution of second vision area is corresponding is as the display mode of determining, this display device will be resolved second display mode then, in second display mode, determine the sub-number of views of first display panel and the drive pattern of the sub-pixel collection on grating arrangement mode and second display panel, according to second display mode first display panel and second display panel are adjusted then, mode among the adjustment process that it is concrete and the embodiment 1 is identical, just repeats no more at this.

In addition, this display device is current in embodiments of the present invention may be not have any display mode, that is to say that this collects after the characteristic point position coordinate, this display device can not judge whether this characteristic point position coordinate is in the non-available vision area coordinate range, but directly according to the direct traversal list 2 of detected characteristic point position coordinate, determining the vision area that this characteristic point position coordinate is in the available vision area coordinate range then in table 2 distributes, after determining the vision area distribution, according to the corresponding relation between vision area distribution and the display mode, determine the corresponding display mode of this vision area distribution, finally this display device will be adjusted first display panel and second display panel according to the display mode of determining.

Further, in the present embodiment, this display device is when determining display mode, also there is Determination of priority, the arrangement mode of this priority is detailed explanation in embodiment one, just do not giving unnecessary details at this, when in first the presets list, having the priority of vision area distribution or display mode, when this display device is determined display mode according to the characteristic point position coordinate, can at first go to determine the higher vision area of priority according to the characteristic point position coordinate distributes or display mode, thereby can make display device to provide optimum display mode to the user, and then can make the user watch the display effect that more has.

Embodiment three:

The present invention also provides a kind of bore hole stereo-picture display control method, is illustrated in figure 8 as another kind of bore hole stereo-picture display control method in the embodiment of the invention, and this method comprises:

Step 801 detects first user and the relation of the primary importance between the display device that obtain the display device correspondence.

At first, display packing in the embodiment of the invention is applied in the electronic equipment, this electronic equipment has comprised a display device, this display device has specifically comprised first display panel, be used for showing that first shows object, this first demonstration object is divided into a plurality of period view, comprised J sub-view in each period view, this display device also comprises second display panel, a plurality of first sub-pixel collection on this second display panel, L the row sub-pixel that each first sub-pixel is concentrated, and the arrangement mode of each first sub-pixel collection is identical, and each first sub-pixel collection can both form first slit grating.

Simply, such as, display screen in this electronic equipment is in 3D display mode following time, at first can show an image on the ground floor liquid crystal panel of this display screen, in this image, just comprised each period view that the cycle arranges, such as having comprised 4 sub-views in the one-period image, each sub-view is that the same column sub-pixel is formed in each period view.

When having comprised 4 sub-views in the period view on first liquid crystal panel, first sub-pixel is concentrated will comprise 4 row sub-pixels, the 1st, 2,4 row sub-pixels are light tight, and the 3rd row sub-pixel printing opacity, each sub-pixel collection on second liquid crystal panel is arranged in such a manner then, finally formed first slit grating at second liquid crystal panel, under the effect of first slit grating, will form the cycle vision area in this display screen corresponding region, if the user just can see the image of 3D effect in the vision area of correspondence, such as, under the 3D watching mode as shown in Figure 1, when user's left eye is in vision area 2, and right eye is when being in vision area 3, and then the user just can see corresponding 3D effect image.

Step 802 determines that according to primary importance information first user whether in the corresponding vision area scope of display device, generates first testing result.

Because this electronic equipment can get access to the arrangement mode of the sub-pixel on second display panel of display device, therefore, this electronic equipment just can be determined the corresponding vision area of display device position, specifically, be exactly that this electronic equipment can be determined the vision area position that the display device correspondence goes out by the grating that forms on self second display panel.

Certainly, also can preserve the corresponding vision area distribution plan of this display device in embodiments of the present invention in this electronic equipment, just this electronic equipment stores interior existence first vision area of distance display device first distance, there is second vision area in the second distance, therefore after electronic equipment detects the primary importance information of first user with respect to display device, whether this electronic equipment just can obtain this first user according to distance analysis and be within the available vision area scope, certainly, can also be that detected primary importance information and the vision area distribution plan that is stored in this electronic equipment are compared, just can determine first user whether in available vision area scope according to the result who compares.

Such as shown in Figure 3, in the 3D display device, 4 viewpoints of periodic arrangement on first liquid crystal panel, then on second liquid crystal panel also corresponding periodic arrangement 4 sub-pixels, in these 4

sub-pixels

1,2,3 sub-pixels all are to be in lighttight state, and 4 pixels are in the logical state of photoconduction, at this moment, 4 vision areas can arranging in the position formation cycle of this 3D display device correspondence just, it is the vision area 1 that the cycle arranges among Fig. 3, vision area 2, vision area 3 vision areas 4, vision area 1, vision area 2, vision area 3, vision area 4, when user's left eye and right eye are in continuous vision area, then the user can watch the 3D effect image of complete display, and when user's left eye right eye is in discontinuous vision area, such as left eye is in vision area 4, right eye is when vision area 1, then this user just is in contrary vision area, and at this moment, ghost image or imperfect image will appear in the image that the user watches, therefore, whether the detection user that this electronic equipment will also can be real-time is in contrary vision area.

When detecting after the user is in contrary first testing result of vision area, this electronic equipment is with execution in step 803.

Step 803 when first testing result characterizes first user not in the vision area scope time, generates L sub-pixel that each first sub-pixel concentrates and first adjusts and instruct with what the second order mode was arranged.

At first, if first testing result that this electronic equipment generates characterizes first user in the vision area scope time, then this electronic equipment will can not taked any operation, and keep current display mode not do any adjustment, so just can guarantee normally watching of user.

When first testing result characterizes first user not in the vision area scope time, then this electronic equipment will generate a row sub-pixel that will be in the logical dress state of photoconduction in the L row sub-pixel in each first sub-pixel and be adjusted into the first line of pixels column distribution figure that b row sub-pixel is in the logical state of photoconduction according to primary importance information.

According to above-mentioned processing procedure, this electronic equipment will generate the arranged distribution figure of first sub-pixel that pixel is adjusted, in this arranged distribution figure, just comprised specifically the adjustment mode to sub-pixel, according to such arranged distribution figure, this electronic equipment will be determined the second order mode of each first sub-pixel collection.

According to the second order mode, this electronic equipment will be determined the adjustment mode of each first sub-pixel collection, wherein, whenever the adjustment mode of first sub-pixel collection is identical, therefore, mainly be to determine after the adjustment mode of first a sub-pixel collection, the adjustment mode of each first sub-pixel collection of back is identical, that is: each first sub-pixel is concentrated a row sub-pixel that is in the logical state of photoconduction be adjusted into b row sub-pixel and be in the logical state of photoconduction, generate the described second sub-pixel collection, and form second slit grating, wherein, just concentrate the arrangement mode of sub-pixel to adjust to first sub-pixel in this embodiment, and do not change the sub-pixel number that first sub-pixel is concentrated, therefore the J=K here.

Such as, adjust to as shown in Figure 9 vision area arrangement mode by the vision area arrangement mode of Fig. 3, the sub-pixel collection that has comprised 4 view image that the cycle arranges on first liquid crystal panel of this display device, a plurality of sub-pixel collection of having arranged in cycle on second liquid crystal panel then, each sub-pixel is concentrated and has just been comprised 4 row sub-pixels, wherein, the 1st, 2,3 row pixels are in non-light transmission state, and the 4th row pixel is in light transmission state, in the band of position of corresponding first distance of display device, include the vision area position that the cycle arranges then, when user's eyes are in the viewpoint 1 of viewpoint 4 and next cycle, then this moment, the user was in contrary vision area, therefore the arrangement mode of sub-pixel collection needs to change on second liquid crystal panel, and the arrangement mode of indication is not switch herein, and refers to that the light transmission state of sub-pixel adjusts.

When determining to need to adjust the vision area arrangement mode, then this electronic equipment is in light transmission state with the 4th row pixel in 4 original sub-pixels and is adjusted into the 3rd row pixel and is in light transmission state, and the 1st, 2,4 row pixels will be adjusted into non-light transmission state (as shown in Figure 9), so just can be so that adjust in the vision area position that corresponding first distance and position of display device zone intercycle is arranged, in Fig. 9, vision area 2 originally changes over vision area 3, vision area 3 originally changes over vision area 4, vision area 4 originally changes over vision area 1, vision area 1 originally changes over vision area 2, be exactly to be equivalent to position of original vision area translation like this, adjust the user this moment in such a manner and just can change over vision area 1 and vision area 2 by original shared vision area 4 and vision area 1.

At last, after according to electronic equipment the arranged distribution figure of first sub-pixel being confirmed, this electronic equipment will just determine accordingly first sub-pixel and in the second order mode, at this moment, according to the second order mode, this electronic equipment is with execution in step 804.

Step 804, adjust instruction according to described first, L row sub-pixel in described each first set of pixels that will arrange in the first order mode is adjusted in the described second order mode different with the first order mode, generates the second sub-pixel collection of arranging in the second order mode.

After finishing arranged distribution figure, this electronic equipment will carry out the adjustment of arrangement mode to each first sub-pixel collection according to the second order mode among the arranged distribution figure, thereby make corresponding adjustment of arrangement mode of the vision area of arranging at the corresponding first distance areas intercycle of electronic equipment, so just can realize under the situation that the user moves, this electronic equipment can be real-time detection active user position, and adjust the arrangement mode of sub-pixel on the display device according to user's position, there is the technical matters that can not implement to change 3D imaging device imaging vision area according to user's position in the 3D imaging device in the existing skill thereby just can solve.

A kind of method of demonstration in the corresponding embodiment of the invention, the embodiment of the invention also provides a kind of display device, is the concrete structure synoptic diagram of a kind of display device in the embodiment of the invention as shown in figure 10.

Described control device is used for control one display device, described display device comprises first display panel at least, be used for showing that first shows object, the described first demonstration object is made up of a plurality of period view, comprised J row sub-pixel in each described period view, same column sub-pixel in each described period view constitutes a sub-view, second display panel, a plurality of first sub-pixel collection have been comprised on described second display panel, each described first sub-pixel is concentrated and has been comprised J row sub-pixel, each described first sub-pixel collection moves according to first drive pattern, each described first sub-pixel energy collecting is enough to form first slit grating at described second display panel, after light on described first display panel sees through described first slit grating, the period 1 vision area that the formation cycle arranges in described display device corresponding region, comprised the first available vision area and the first unavailable vision area in the described period 1 vision area, described control device comprises:

Detecting unit 110 is for detection of obtaining the locus of user with respect to described device.

Determining unit 111 is used for according to described locus, determines first display mode corresponding with described locus.

Adjustment unit 112, be used for according to described first display mode, generate the first sub-pixel collection at described second display panel, described first sub-pixel is concentrated and has been comprised the multiple row sub-pixel, form first slit grating by the described first sub-pixel collection, so that after the light on described first display panel sees through described first slit grating, the period 1 vision area that the formation cycle arranges in described device corresponding region.

Wherein, this detecting unit 110 concrete primary importance coordinates that are used for obtaining each user in the corresponding predeterminable area of this display device, and with each user's primary importance coordinate as first parameter.

After getting access to the primary importance coordinate, in this control device really order unit 111 specifically comprise:

Determination module, it is first pre-conditioned be used for to judge whether described first parameter satisfies, and generates first result of determination.

Acquisition module is used for satisfying described first when pre-conditioned when described first parameter, obtains described first the presets list, determines described first display mode corresponding with described first parameter in described first the presets list.

Specifically, the adjustment unit 112 in this device specifically comprises:

First determination module is used for obtaining first the presets list, determines the period 1 vision area that can make the primary importance coordinate be positioned at three-dimensional vision area coordinate range in first the presets list.

Second determination module, the user determines first display mode of period 1 vision area correspondence according to the period 1 vision area in first the presets list.

Further, this first determination module also comprises:

Priority determining unit is used for determining the first pre-setting priority at the pre-setting priority that prestores, and wherein, described default priority users is determined the looked-up sequence of cycle vision area in described first the presets list.

Search the unit, be used for according to the primary importance coordinate, in first the presets list, determine the period 1 vision area according to the first default priority orders.

Further, when having identical resolution on first display panel on this device and second display panel, the adjustment unit in this device specifically also comprises:

First adjusting module is used for according to first display mode, the sub-pixel columns that comprises in each period view on first display panel is increased or is reduced to Q by current J row be listed as.

Second adjusting module, the sub-pixel columns that is used for that each current on second display panel sub-pixel is concentrated increase or are reduced to the Q row, and generate the first sub-pixel collection that comprises Q row sub-pixel, and wherein, described Q is the positive integer more than or equal to 2, and Q is not equal to J.

In addition, also providing a kind of display device in the embodiment of the invention, is the structural representation of a kind of display device in the embodiment of the invention as shown in figure 11, and this display screen comprises:

First liquid crystal panel can show that first shows object, and this first demonstration object can be made up of a plurality of period view, has comprised J row sub-pixel in each described period view;

Second liquid crystal panel, overlap with described first liquid crystal panel, comprised a plurality of first sub-pixel collection on described second liquid crystal panel, each described first sub-pixel is concentrated and has been comprised J row sub-pixel, and each described first sub-pixel collection moves according to first drive pattern;

Camera is for detection of obtaining the locus of user with respect to described display screen;

Process chip, be connected with described first liquid crystal panel, second liquid crystal panel and described detecting device, be used for according to described locus, determine first display mode corresponding with described locus, and according to first display mode, control and generate the first sub-pixel collection on described second liquid crystal panel;

Further, the camera on this display screen is specifically for detection of the primary importance coordinate of each user in the corresponding predeterminable area of this display screen, and with each user's primary importance coordinate as first parameter.

Further, this process chip also is used for determining the first pre-setting priority at the pre-setting priority that prestores, and according to the primary importance coordinate, and preset priority orders according to first and in first the presets list, determine the period 1 vision area, according to the period 1 vision area, in first the presets list, determine first display mode of period 1 vision area correspondence.

Further, when first liquid crystal panel has identical resolution with second liquid crystal panel, process chip also is used for according to first display mode, the pixel columns that comprises in each period view on first liquid crystal panel is listed as increase or is reduced to the Q row by current J, and the sub-pixel columns that current each sub-pixel on second liquid crystal panel is concentrated increased or be reduced to the Q row, generate the first sub-pixel collection that comprises Q row sub-pixel.

Further, process chip in this display device also is used for according to first display mode, obtain first drive pattern that the first sub-pixel set pair is answered, according to described first drive pattern, each first sub-pixel collection on second liquid crystal panel is moved according to first drive pattern, form first slit grating at second liquid crystal panel, so that the user is positioned at the three-dimensional vision area of the period 1 vision area that forms by first slit grating.

There is advantage behind the following technique effect at least in one or more embodiment provided by the invention:

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

Claims

1. bore hole stereo-picture display control method, described method is applied to a display device, described display device comprises first display panel at least, be used for showing that first shows object, the described first demonstration object is made up of a plurality of period view, and second display panel has comprised the multiple row sub-pixel on described second display panel, it is characterized in that described method comprises:

Detection also obtains the user with respect to the locus of described display device;

2. the method for claim 1, it is characterized in that, described detection also obtains the user with respect to the locus of described display device, be specially: detect first position coordinates of each user in the corresponding predeterminable area of described display device, and with each user's primary importance coordinate as described first parameter.

3. the method for claim 1 is characterized in that, and is described according to described locus, determines first display mode corresponding with described locus, specifically comprises:

It is first pre-conditioned to judge that whether described first parameter satisfies, and generates first result of determination;

When described first parameter satisfies described first when pre-conditioned, obtain described first the presets list, in described first the presets list, determine described first display mode corresponding with described first parameter.

4. method as claimed in claim 3 is characterized in that, it is first pre-conditioned whether described first parameter of described judgement satisfies, and generate first result of determination, is specially:

Obtain first the presets list, the non-three-dimensional vision area coordinate range that is stored in described first the presets list is pre-conditioned as described first;

Judge whether there is the primary importance coordinate that is positioned at described non-three-dimensional vision area coordinate range in all primary importance coordinates, and generate described first result of determination.

5. method as claimed in claim 2 is characterized in that, and is described according to described locus, determines first display mode corresponding with described locus, specifically comprises:

Obtain described first the presets list, in described first the presets list, determine the period 1 vision area that can make described primary importance coordinate be positioned at three-dimensional vision area coordinate range;

According to described period 1 vision area, in described first the presets list, determine first display mode of described period 1 vision area correspondence.

6. method as claimed in claim 5 is characterized in that, determines the period 1 vision area that can make described primary importance coordinate be positioned at three-dimensional vision area coordinate range in described first the presets list, specifically comprises:

Determine the first pre-setting priority in the pre-setting priority that prestores, wherein, described pre-setting priority is used for determining the looked-up sequence of described first the presets list cycle vision area;

According to described primary importance coordinate, in described first the presets list, determine described period 1 vision area according to the described first default priority orders.

7. method as claimed in claim 6 is characterized in that, the described first pre-setting priority is specially the access times of cycle vision area in described first the presets list.

8. method as claimed in claim 6 is characterized in that, the described first pre-setting priority is specially the standard vision area number of cycle vision area in described first the presets list.

9. the method for claim 1, it is characterized in that, when described first display panel is identical with the described second display panel resolution, described according to described first display mode, adjust the described period view on described first display panel, and at described second display panel generation, the first sub-pixel collection, specifically comprise:

According to described first display mode, the sub-pixel columns that comprises in each the described period view on described first display panel is listed as increase or is reduced to the Q row by current J;

Sub-pixel columns in each current on described second display panel set of pixels is increased or be reduced to the Q row, and generate the described first sub-pixel collection that comprises Q row sub-pixel, wherein, described Q is the positive integer more than or equal to 2, and Q is not equal to J.

10. method as claimed in claim 9 is characterized in that, after the described sub-pixel columns that each described first sub-pixel on described second display panel is concentrated increased or is reduced to the Q row, described method also comprised:

Resolve described first display mode, obtain first drive pattern that the described first sub-pixel set pair is answered;

According to described first drive pattern, each first sub-pixel collection on described second display panel is moved according to first drive pattern, and at described second display panel formation, first slit grating, so that described user is positioned at the three-dimensional vision area of the period 1 vision area that forms by described first slit grating.

11. bore hole stereo-picture display control unit, described device comprises first display panel at least, be used for showing that first shows object, the described first demonstration object is made up of a plurality of period view, second display panel, comprised the multiple row sub-pixel on described second display panel, it is characterized in that, described device also comprises:

12. a display device is characterized in that, described display device comprises:

Detecting device is for detection of obtaining the locus of user with respect to described device;