CN105898277A - Multi-window naked eye 3D and 2D mixed display method - Google Patents

Abstract

The invention discloses a multi-window naked eye 3D and 2D mixed display method, and belongs to the technical field of 3D display. The method is used for solving the problems that more position depth information cannot be displayed to audiences through traditional 2D display, and although more information can be displayed through naked eye 3D display, more detailed information cannot be clearly watched by the audiences. The method provided by the invention comprises following steps of step 1, determining a 2D video display region and a 3D video display region on a display screen; selecting one region to execute a step 2 or step 3 according to the type of a film source; step 2, displaying the 2D film source in the corresponding 2D video display region; and step 3, displaying the 3D film source in the corresponding 3D video display region. The traditional 2D display technique is combined with the naked eye 3D technique; the complete naked eye 3D stereoscopic effect is displayed at the position of a naked eye 3D display which is partially equipped with naked eye 3D lenticular grating devices; the video images and character information that cannot be clearly displayed by the naked eye 3D are displayed at the 2D display position.

Description

Multiwindow bore hole 3D and 2D mixed display method

Technical field

The invention belongs to 3D Display Technique field.

Background technology

Vision is the most important mode in the human perception external world, and the mankind have the information of more than 80% to be to lean in daily life Vision is experienced.Therefore view-based access control model information processing has obtained quick development with the modern display technology of display.

Traditional 2D Display Technique is the carrier that a kind of two-dimensional signal shows, can facilitate show intuitively various video, image, Word message.2D video image processing technology is ripe, makes content convenient.But owing to 2D video can only show two dimension Information, it is impossible to breath is deeply convinced in the far and near position of represented object etc., cannot meet numerous application to " deep in terms of content displaying Degree level " requirement.

Bore hole 3D Display Technique can bring sensation true to nature on the spot in person to spectators, can show stereopsis the most intuitively Feel effect and the hierarchical relationship of object.At present the bore hole 3D technological means of main flow has: slit liquid crystal grating, column prism, Point to light source, wherein the mode of column prism owing to display brightness will not be reduced, that technology realizes cost is relatively low, is current market Upper comparative maturity and the bore hole 3D implementation of main flow.But column lens type grating has reflected image so that the image of plane Smudgy, it is impossible to identify the minutia of image, such as the most the more commonly used two-dimension pictures such as Quick Response Codes, also cannot see clearly Relatively fine word.

Traditional 2D shows and cannot show more depth information to spectators, although bore hole 3D show can show more Information viewing but cannot be allowed to see more detailed information clearly.

Summary of the invention

The invention aims to solve traditional 2D show and cannot show more depth information, bore hole 3D to spectators Although display can show that more information but cannot allow the problem seeing more detailed information clearly, it is provided that one multiwindow Bore hole 3D and 2D mixed display method.

Multiwindow bore hole 3D of the present invention and 2D mixed display method, the method comprises the following steps:

Step one, the 2D video display area determined on display screen and 3D video display area；

The quantity of 2D video display area is i, and the relative coordinate matrix of each 2D video display area is (x_i,y_i,W_i,H_i), i=1,2 ..., wherein (x_i,y_i) it is pixel coordinate in this 2D video display area, W_i For the width of 2D video display area, H_iHeight for 2D video display area；

The quantity of 3D video display area is j, and the relative coordinate matrix of each 3D video display area is (x_j,y_j,W_j,H_j), j=1,2 ..., wherein (x_j,y_j) it is pixel coordinate in this 3D video display area, W_jFor the width of 3D video display area, H_jHeight for 3D video display area；

Then select a selection according to the type of film source and perform step 2 or step 3；

Step 2,2D film source show on corresponding 2D video display area；

Step 3,3D film source show on corresponding 3D video display area；

3D sheet source contents arranges with nine grids form, and image pixel format is rgb format, and the process of its display is:

Each RGB sub-pixel coordinate (x in 3D video display area_j,y_j) it is taken from 3D film source, and this RGB picture Viewpoint N belonging to element_VDetermine as follows:

$N_V=\frac{\left(\left(y_j-3x_j*tan\mathrm{\α}\right)\mathrm{mod}R\right)A_V}{R}$

Wherein, N_V=1,2 ..., 9；

α is the lens axle inclination angle relative to display screen vertical axis；R is covering RGB sub-pixel in grating horizontal direction Number；A_VFor total viewpoint number；

According to RGB sub-pixel coordinate (x_j,y_jViewpoint N belonging to)_VDetermine that the RGB sub-pixel on each coordinate of display screen is adjusted Use N_VRGB sub-pixel value in individual viewpoint respective coordinates, and (x, y) pixel should show to use bilinear interpolation to obtain address The colouring information shown.

Advantages of the present invention: traditional 2D Display Technique is combined by the present invention with bore hole 3D technology, plays each display Advantage, and be equipped with the playout software for local bore hole 3D Yu 2D mixed display.

Playout software by local bore hole 3D with 2D mixed display can be in local with bore hole 3D column mirror grating device Bore hole 3D location of displays show complete bore hole 3D stereoeffect, position display bore hole 3D shown at 2D cannot The video image of clear display and Word message.

Accompanying drawing explanation

Fig. 1 is the flow chart of multiwindow bore hole 3D of the present invention and 2D mixed display method；

Fig. 2 is the parameter indexing figure that 3D viewing area calculates viewpoint；

Fig. 3 is the perpendicular screen local bore hole 3D display device structure schematic diagram using the inventive method to make.

Detailed description of the invention

Detailed description of the invention one: present embodiment is described below in conjunction with Fig. 1 and Fig. 2, multiwindow bore hole described in present embodiment 3D Yu 2D mixed display method, the method comprises the following steps:

Step one, the 2D video display area determined on display screen and 3D video display area；

The quantity of 2D video display area is i, and the relative coordinate matrix of each 2D video display area is (x_i,y_i,W_i,H_i), i=1,2 ..., wherein (x_i,y_i) it is pixel coordinate in this 2D video display area, W_i For the width of 2D video display area, H_iHeight for 2D video display area；

The quantity of 3D video display area is j, and the relative coordinate matrix of each 3D video display area is (x_j,y_j,W_j,H_j), j=1,2 ..., wherein (x_j,y_j) it is pixel coordinate in this 3D video display area, W_jFor the width of 3D video display area, H_jHeight for 3D video display area；

Then select a selection according to the type of film source and perform step 2 or step 3；

Step 2,2D film source show on corresponding 2D video display area；

Step 3,3D film source show on corresponding 3D video display area；

3D sheet source contents arranges with nine grids form, and image pixel format is rgb format, and the process of its display is:

Each RGB sub-pixel coordinate (x in 3D video display area_j,y_j) it is taken from 3D film source, and this RGB picture Viewpoint N belonging to element_VDetermine as follows:

$N_V=\frac{\left(\right(y_j-3x_j*tan\mathrm{\α}\left)\mathrm{mod}R\right)A_V}{R}$

Wherein, N_V=1,2 ..., 9；

α is the lens axle inclination angle relative to display screen vertical axis；R is covering RGB sub-pixel in grating horizontal direction Number；A_VFor total viewpoint number；

According to RGB sub-pixel coordinate (x_j,y_jViewpoint N belonging to)_VDetermine that the RGB sub-pixel on each coordinate of display screen is adjusted Use N_VRGB sub-pixel value in individual viewpoint respective coordinates, and (x, y) pixel should show to use bilinear interpolation to obtain address The colouring information shown.

Shown in Figure 2, α is the lens axle inclination angle relative to display screen vertical axis, and presses formulaObtain Taking, wherein, Q is the pitch of column mirror grating unit；Q_xThe width gone up in the horizontal direction for pitch Q of column mirror grating unit；

Video resolution after each viewpoint of 3D sheet source contents is scaled by bilinear interpolation is that final 3D shows Show the size in region.

2D film source is 2D video or 2D image；3D film source is 3D video or 3D rendering.

Detailed description of the invention two: illustrate that present embodiment, present embodiment provide a specific embodiment below in conjunction with Fig. 3.

As a example by the bore hole 3D display of 65 cun of 4K perpendicular screen local.I=1,2, j=1

65 cun of overall resolution are 2160*3840；

A-quadrant is 2D viewing area (i=1), and resolution ratio is 2160*465, is mixed with 2D by multiwindow bore hole 3D Close display software display picture (including advertisement and publicity Quick Response Code)；

B region is 3D viewing area (j=1), and resolution ratio is 2160*1215, by multiwindow bore hole 3D and 2D Mixed display software display bore hole 3D video；

C region is 2D viewing area (i=2), and resolution ratio is 2160*2160, by multiwindow bore hole 3D and 2D Mixed display software display 2D promotional videos；

These 65 cun perpendicular screen local bore hole 3D displays are particularly suitable for market and use.Market can be used for doing demonstration, goes up most Part can show name of product and pay close attention to Quick Response Code, and mid portion is play bore hole 3D video and attracted clients, minimum lower part Play 2D video and product is discussed in detail.

Claims (3)

1. multiwindow bore hole 3D and 2D mixed display method, it is characterised in that the method comprises the following steps:

Step one, the 2D video display area determined on display screen and 3D video display area；

The quantity of 2D video display area is i, and the relative coordinate matrix of each 2D video display area is (x_i,y_i,W_i,H_i), i=1,2 ..., wherein (x_i,y_i) it is pixel coordinate in this 2D video display area, W_i For the width of 2D video display area, H_iHeight for 2D video display area；

The quantity of 3D video display area is j, and the relative coordinate matrix of each 3D video display area is (x_j,y_j,W_j,H_j), j=1,2 ..., wherein (x_j,y_j) it is pixel coordinate in this 3D video display area, W_j For the width of 3D video display area, H_jHeight for 3D video display area；

Then select a selection according to the type of film source and perform step 2 or step 3；

Step 2,2D film source show on corresponding 2D video display area；

Step 3,3D film source show on corresponding 3D video display area；

3D sheet source contents arranges with nine grids form, and image pixel format is rgb format, and the process of its display is:

Each RGB sub-pixel coordinate (x in 3D video display area_j,y_j) it is taken from 3D film source, and this RGB sub-pixel Affiliated viewpoint N_VDetermine as follows:

$N_V=\frac{\left(\right(y_j-3x_j*tan\mathrm{\α}\left)\mathrm{mod}R\right)A_V}{R}$

Wherein, N_V=1,2 ..., 9；

α is the lens axle inclination angle relative to display screen vertical axis；R is the individual of covering RGB sub-pixel in grating horizontal direction Number；A_VFor total viewpoint number；

According to RGB sub-pixel coordinate (x_j,y_jViewpoint N belonging to)_VDetermine that the RGB sub-pixel on each coordinate of display screen is adjusted Use N_VRGB sub-pixel value in individual viewpoint respective coordinates, and (x, y) pixel should show to use bilinear interpolation to obtain address Colouring information.

Multiwindow bore hole 3D and 2D mixed display method the most according to claim 1, it is characterised in that in 3D film source Hold each viewpoint scaled by bilinear interpolation after the size that video resolution is final 3D viewing area.

Multiwindow bore hole 3D and 2D mixed display method the most according to claim 1, it is characterised in that 2D film source is 2D video or 2D image；3D film source is 3D video or 3D rendering.