KR101830155B1 - Three-Dimensional Display Apparatus using a High-Definition Multi-Layer Panels - Google Patents

Abstract

A three-dimensional display using a high-resolution multi-panel is provided. According to the embodiment of the present invention, a volumetric display in which a high-resolution three-dimensional image is arranged in a depth direction can be implemented without mechanical motion, and a three-dimensional image with high stability and high quality can be realized. In addition, by adding the display panel and the BS, there is an advantage that the resolution in the depth direction can be increased infinitely.

Description

[0001] The present invention relates to a three-dimensional display using a high-resolution multi-panel,

The present invention relates to a three-dimensional display, and more particularly, to a three-dimensional display using a high resolution multiple panel.

The three-dimensional display can be divided into a spectacular three-dimensional display in which an observer wears glasses and a three-dimensional image, and a three-dimensional display in which a three-dimensional image can be observed without using glasses.

The three-dimensional display of spectacles is a polarized spectacle type three-dimensional display which is widely used in the theater, and there are also shutter glasses and a head mounted display.

There are various kinds of non-standard three-dimensional displays. Three-dimensional images can be observed by attaching various optical elements (parallax barrier, lenticular lens, microlens array) There is a way to make.

A volumetric display is a method of representing a three-dimensional image through a device that can emit light in space. It is mainly used to project a high-speed image projection device (eg DMD: digital micromirror device) It is a method to produce the effect of emitting light in space by rotating rapidly.

In recent years, a tensor display system has been developed in which a plurality of panels are used, in particular, two to three high-speed driving panels are used to reproduce a three-dimensional image by calculating rays within a viewing angle.

Finally, a holographic display, which is called the ultimate 3D display, is a method of reproducing a three-dimensional image using the interference phenomenon of light. Currently, a display panel having enough information to display a moving image A holographic printing method for recording and reproducing a holographic image on a holographic recording element that does not exist or a holographic display method for providing a holographic image within a limited viewing angle is a typical method. However, due to the limited space bandwidth, Is a way to be commercialized.

A method of observing a three-dimensional image by attaching various optical elements to the front surface of a panel among the above-mentioned non-anisotropic three-dimensional displays is a three-dimensional image at each viewpoint as much as a portion divided by the number of viewpoints in the resolution of a conventional two- Therefore, if the number of viewpoints is increased in order to reproduce a natural three-dimensional image, the resolution of the three-dimensional image is reduced. In order to solve this problem, the method of increasing the resolution by increasing the driving speed of the panel higher than the human perception speed of 60 Hz is used. However, since the driving speed is limited, it is difficult to improve the performance beyond a certain level.

A volumetric display requires a panel that drives the image at high speed, but it is very expensive, and it is difficult to see it as a stable three-dimensional display because it must include mechanical movements that rotate the screen.

In the case of a tensor display in which two to three panels are overlapped and a three-dimensional image is calculated by a computer-based method, the complexity of calculation is very complicated and generally two to three liquid crystal displays are stacked. The amount of light is greatly reduced. The depth-fused display method, which uses two panels to represent the depth plane between panels, is a method of expressing depth due to the difference in brightness between two panels. Since the two panels must be very precisely aligned, It is limited.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a method of increasing spatial resolution without mechanical movement by combining a plurality of panels with BS (Beam Splitters) Dimensional display system and method.

According to an aspect of the present invention, there is provided a three-dimensional display comprising: a first panel for displaying a first image of a first depth; A second panel for displaying a second image of a second depth; And a first BS (Beam Splitter) that transmits the first image and reflects the second image and transmits the same through the same path, and the image transmission distance from the second panel to the user is different from the first panel Is longer than the video transmission distance from the user to the user.

According to another aspect of the present invention, there is provided a three-dimensional display comprising: a third panel displaying a third image of a third depth; A fourth panel displaying a fourth image of a fourth depth; A second BS for reflecting the third image, transmitting the fourth image, and transmitting the same through the same path; And a third BS which reflects an image emitted from the first BS and transmits the image output from the second BS and transmits the same through the same path, Is longer than the image transmission distance from the second panel to the user and the image transmission distance from the fourth panel to the user is longer than the image transmission distance from the third panel to the user.

In addition, the three-dimensional display according to an embodiment of the present invention may further include an adjustment unit, provided between the first BS and the third BS, for adjusting a distance between the first BS and the third BS .

A three-dimensional display according to an embodiment of the present invention includes a fifth panel for displaying a fifth image of a fifth depth; A sixth panel for displaying a sixth image of a sixth depth; A fourth BS that transmits the fifth image, reflects the sixth image, and transmits the same through the same path; And a fifth BS which transmits an image outputted from the third BS and reflects an image outputted from the fourth BS and transmits the same through the same path, Is longer than the image transmission distance from the fourth panel to the user and the image transmission distance from the sixth panel to the user is longer than the image transmission distance from the fifth panel to the user.

In addition, a three-dimensional display according to an embodiment of the present invention includes a seventh panel for displaying a seventh image of a seventh depth; An eighth panel displaying an eighth image of an eighth depth; A sixth BS that reflects the seventh image, transmits the eighth image, and transmits the eighth image through the same path; And a seventh BS for reflecting the image outputted from the fourth BS and for transmitting the image outputted from the sixth BS and transmitting the same through the same path, Wherein the image transmission distance from the seventh panel to the user is longer than the image transmission distance from the sixth panel to the user, The video transmission distance from the eighth panel to the user is longer than the video transmission distance from the seventh panel to the user.

According to another aspect of the present invention, there is provided a three-dimensional display comprising: a third panel displaying a third image of a third depth; A fourth panel displaying a fourth image of a fourth depth; A second BS that transmits the third image, reflects the fourth image, and transmits the same through the same path; And a third BS which reflects an image emitted from the first BS and transmits the image output from the second BS and transmits the same through the same path, Is longer than the image transmission distance from the second panel to the user and the image transmission distance from the fourth panel to the user is longer than the image transmission distance from the third panel to the user.

According to another aspect of the present invention, there is provided a three-dimensional display comprising: a third panel displaying a third image of a third depth; A fourth panel displaying a fourth image of a fourth depth; A second BS that transmits the third image, reflects the fourth image, and transmits the same through the same path; And a third BS which transmits an image outputted from the first BS and transmits an image reflected by the second BS and transmits the same through the same path, Is longer than the image transmission distance from the second panel to the user and the image transmission distance from the fourth panel to the user is longer than the image transmission distance from the third panel to the user.

A three-dimensional display according to an exemplary embodiment of the present invention is provided between the first BS and the first panel to adjust a distance between the first BS and the first panel, And a first adjustment unit for adjusting the image transmission distance of the image.

In addition, a three-dimensional display according to an embodiment of the present invention is provided between the first BS and the second panel to adjust the distance between the first BS and the second panel, And a second adjustment unit for adjusting the image transmission distance of the image.

According to another aspect of the present invention, there is provided a three-dimensional display method including: transmitting a first image of a first depth displayed on a first panel; Reflecting the second image of the second depth displayed on the second panel and transmitting the second image on the same path as the first image, wherein the image transfer distance from the second panel to the user is determined by the user from the first panel, Is longer than the video transmission distance.

According to another aspect of the present invention, there is provided a three-dimensional display comprising: a first panel for displaying a first image of a first depth; A second panel for displaying a second image of a second depth; And a first BS (Beam Splitter) that reflects the first image and transmits the second image through the same path, wherein the image transmission distance from the second panel to the user is determined by a distance from the first panel Is longer than the video transmission distance to the user.

According to another aspect of the present invention, there is provided a three-dimensional display method including: reflecting a first image of a first depth displayed on a first panel; And transmitting the second image having the second depth displayed on the second panel on the same path as the first image, wherein the image transfer distance from the second panel to the user is determined by the user from the first panel, Is longer than the video transmission distance.

As described above, according to the embodiments of the present invention, a volumetric display in which a high-resolution three-dimensional image is arranged in the depth direction can be implemented without mechanical motion, and a three-dimensional image with high stability and high quality can be realized do.

In addition, according to embodiments of the present invention, the resolution in the depth direction can be increased infinitely by adding the display panel and the BS.

1 is a view showing a concept of stacking five display panels,
FIG. 2 is a view illustrating a concept of stacking and superimposing / combining five display panels with BSs,
3 is a diagram illustrating a structure of a non-driving volume type three-dimensional display according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

In the embodiment of the present invention, a three-dimensional display using a high-resolution multi-panel is presented. In the three-dimensional display according to the embodiment of the present invention, a volumetric three-dimensional display system different from the conventional one is used.

In particular, a three-dimensional display according to an embodiment of the present invention combines BS (Beam Splitters), also called semi-transmissive mirrors, to stack a plurality of high resolution panels optically differently in depth.

The three-dimensional display according to the embodiment of the present invention is advantageous in that both the display and the image are stable because there is no mechanical driving, and BS and the display panel are added to further increase the resolution in the depth direction.

For this purpose, as shown in FIG. 1, a volumetric three-dimensional display made by stacking five panels can be assumed. The most simple form of a volumetric display corresponds to a structure in which a display panel is stacked in a depth direction to form a three-dimensional display.

However, in the case of the volumetric three-dimensional display shown in FIG. 1, even if the brightness of the panel is increased, the images displayed on the remaining panels except the panel closest to the observer can not be observed completely. This is because it is covered by the front panel.

Accordingly, the volume type three-dimensional display according to the embodiment of the present invention applies the technique shown in FIG.

FIG. 2 conceptually shows stacking and superposition / combination of five display panels with BSs. The images are superimposed / combined by the BS so that the observer can observe images of different depths displayed on the plurality of display panels, so that the observer can feel both depth and three-dimensional feeling.

3 is a diagram illustrating a structure of a non-driving volume type three-dimensional display according to an embodiment of the present invention. 3, the non-driving volumetric three-dimensional display according to the exemplary embodiment of the present invention includes a plurality of display panels 110 to 180 and a plurality of BSs 210 to 270 arranged therein.

The display panels 110 to 180 are implemented as display panels supporting high-resolution images, and display images of different depths. Specifically,

1) The display panel-1 110 displays an image of a first depth,

2) The display panel-2 120 displays an image of a second depth (> first depth)

3) The display panel-3 (130) displays an image of a third depth (> second depth)

4) The display panel -4 (140) displays the image at the fourth depth (> third depth)

5) The display panel-5 (150) displays an image at the fifth depth (> fourth depth)

6) The display panel -6 (160) displays the image at the sixth depth (> fifth depth)

7) The display panel-7 (170) displays the image at the seventh depth (> the sixth depth)

8) The display panel-8 (180) displays the image at the eighth depth (> seventh depth).

The BSs 210 to 270 combine images of different depths displayed on the display panels 110 to 180 into a three-dimensional volumetric image. Specifically,

1) BS-1 210 transmits an image of the display panel-1 110 and reflects the image of the display panel-2 120,

2) The BS-2 220 reflects the image of the display panel-3 120 and transmits the image of the display panel-4 140,

3) The BS-3 230 reflects an image output from the BS-1 210 and transmits an image output from the BS-2 220,

4) The BS-4 240 transmits the image of the display panel-5 (150) and reflects the image of the display panel-6 (160)

5) The BS-5 250 reflects the image of the display panel-7 170, transmits the image of the display panel-8 180,

6) The BS-6 260 reflects an image output from the BS-4 240 and transmits the image output from the BS-5 250,

7) The BS-7 270 transmits the image output from the BS-3 230 and reflects the image output from the BS-6 260, thereby combining the images and outputting the combined images.

3, a linear spacer / stage for adjusting the distance is provided between the BSs 210, 220, 240, and 250 and the display panels 110 to 180. Specifically,

1) The linear spacer / stage-1 provided between the BS-1 210 and the display panel-1 110 adjusts the distance between the BS-1 210 and the display panel-1 110, The distance (image transmission distance) from the display panel-1 110 to the observer is made the shortest,

2) The linear spacer / stage-2 provided between the BS-1 210 and the display panel-2 120 adjusts the distance between the BS-1 210 and the display panel-2 120, The distance (image transmission distance) from the display panel-2 (120) to the observer is shortened for the second time,

3) The linear spacer / stage-3 provided between the BS-2 220 and the display panel-3 adjusts the distance between the BS-2 220 and the display panel-3 to ultimately The distance (image transmission distance) from the display panel-3 (130) to the observer is shortened for the third time,

4) The linear spacer / stage 4 provided between the BS-2 220 and the display panel -4 140 adjusts the distance between the BS-2 220 and the display panel -4 140, The distance (image transmission distance) from the display panel -4 (140) to the observer is shortened for the fourth time,

5) The linear spacer / stage 5 provided between the BS-4 240 and the display panel-5 150 adjusts the distance between the BS-4 240 and the display panel-5 150, The distance (image transmission distance) from the display panel 5 (140) to the observer is shortened for the fifth time,

6 The linear spacer / stage 6 provided between the BS-4 240 and the display panel -6 160 adjusts the distance between the BS-4 240 and the display panel -6 to ultimately The distance (image transmission distance) from the display panel -6 (160) to the observer is shortened for the sixth time,

7) The linear spacer / stage 7 provided between the BS-5 250 and the display panel-7 170 adjusts the distance between the BS-5 250 and the display panel-7 170, The distance (image transmission distance) from the display panel-7 170 to the observer is shortened to the seventh,

8) The linear spacer / stage 8 provided between the BS-5 250 and the display panel-8 180 adjusts the distance between the BS-5 250 and the display panel-8 180, The distance (video transmission distance) from the display panel-8 (180) to the observer is maximized.

Thus, the observer observes the eight images at different distances (depths), enabling three-dimensional volumetric image viewing.

Up to now, a preferred embodiment has been described in detail for a volumetric three-dimensional display in which the panels are combined at different distances (depths) using BSs.

In the above embodiment, it has been assumed that the distance from the display panel to the observer uses a linear spacer / stage provided between the BS and the display panel. Furthermore, a distance between the BSs can be adjusted to adjust the distance between the two display panels and the observer at a time.

In the above embodiment, the number of display panels is eight, which is merely an example. The technical idea of the present invention can be applied even when the number of display panels is implemented in a larger number as well as in a smaller number.

Also, the technical idea of the present invention is applicable to the case where the display transmitted through the BS and the display panel reflected by the panel change. That is, the specific design of the arrangement of the BS and the displays can be changed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the present invention.

110 to 180: Display panel
210 to 270: Beam splitter (BS)

Claims (12)

A first panel for displaying a first image of a first depth;
A second panel for displaying a second image of a second depth;
A first BS (Beam Splitter) that transmits the first image and reflects the second image, and transmits the first image and the second image together on the same path;
A third panel for displaying a third image of a third depth;
A fourth panel displaying a fourth image of a fourth depth;
A second BS that reflects the third video and transmits the fourth video by combining the third video and the fourth video on the same path; And
And a third BS for reflecting the image outputted from the first BS, transmitting the image outputted from the second BS and transmitting the same through the same path,
Wherein the image transfer distance from the second panel to the user is longer than the image transfer distance from the first panel to the user,
The image transmission distance from the third panel to the user is longer than the image transmission distance from the second panel to the user,
Wherein the image transfer distance from the fourth panel to the user is longer than the image transfer distance from the third panel to the user.
delete The method according to claim 1,
And an adjustment unit, provided between the first BS and the third BS, for adjusting a distance between the first BS and the third BS.
The method according to claim 1,
A fifth panel for displaying a fifth image of a fifth depth;
A sixth panel for displaying a sixth image of a sixth depth;
A fourth BS transmitting the fifth image and reflecting the sixth image, combining the fifth image and the sixth image and transmitting the fifth image and the sixth image on the same path; And
And a fifth BS that transmits the image output from the third BS, reflects the image output from the fourth BS, and transmits the reflected image on the same path,
The image transfer distance from the fifth panel to the user is longer than the image transfer distance from the fourth panel to the user,
Wherein the image transfer distance from the sixth panel to the user is longer than the image transfer distance from the fifth panel to the user.
The method of claim 4,
A seventh panel for displaying a seventh image of a seventh depth;
An eighth panel displaying an eighth image of an eighth depth;
A sixth BS that reflects the seventh image, transmits the eighth image, and transmits the seventh image and the eighth image on the same path by combining the seventh image and the eighth image; And
And a seventh BS for reflecting the image output from the fourth BS, transmitting the image output from the sixth BS, and transmitting the same through the same path,
The fifth BS includes:
Transmits the image output from the third BS, reflects the image output from the seventh BS, and transmits the reflected image on the same path,
The image transmission distance from the seventh panel to the user is longer than the image transmission distance from the sixth panel to the user,
Wherein the image transfer distance from the eighth panel to the user is longer than the image transfer distance from the seventh panel to the user.
A first panel for displaying a first image of a first depth;
A second panel for displaying a second image of a second depth; And
A first BS (Beam Splitter) that transmits the first image and reflects the second image, and transmits the combined first image and the second image on the same path;
A third panel for displaying a third image of a third depth;
A fourth panel displaying a fourth image of a fourth depth;
A second BS which transmits the third image and reflects the fourth image to transmit the third image and the fourth image on the same path; And
And a third BS for reflecting the image outputted from the first BS, transmitting the image outputted from the second BS and transmitting the same through the same path,
Wherein the image transfer distance from the second panel to the user is longer than the image transfer distance from the first panel to the user,
The image transmission distance from the third panel to the user is longer than the image transmission distance from the second panel to the user,
Wherein the image transfer distance from the fourth panel to the user is longer than the image transfer distance from the third panel to the user.
A first panel for displaying a first image of a first depth;
A second panel for displaying a second image of a second depth; And
A first BS (Beam Splitter) that transmits the first image and reflects the second image, and transmits the first image and the second image together on the same path;
A third panel for displaying a third image of a third depth;
A fourth panel displaying a fourth image of a fourth depth;
A second BS which transmits the third image and reflects the fourth image to transmit the third image and the fourth image on the same path; And
And a third BS that transmits an image output from the first BS and transmits the image reflected by the second BS and transmits the same through the same path,
Wherein the image transfer distance from the second panel to the user is longer than the image transfer distance from the first panel to the user,
The image transmission distance from the third panel to the user is longer than the image transmission distance from the second panel to the user,
Wherein the image transfer distance from the fourth panel to the user is longer than the image transfer distance from the third panel to the user.
The method according to claim 1,
And a first adjuster provided between the first BS and the first panel to adjust a distance between the first BS and the first panel to adjust an image transmission distance from the first panel to the user, Wherein the display is a three-dimensional display.
The method of claim 8,
And a second adjuster provided between the first BS and the second panel to adjust the distance between the first BS and the second panel to adjust the image transmission distance from the second panel to the user Wherein the display is a three-dimensional display.
Transmitting a first image of a first depth displayed on a first panel;
A first transmitting step of reflecting the second image of the second depth displayed on the second panel so that the first image and the second image are combined and transmitted on the same path;
Reflecting a third image of a third depth displayed on a third panel;
A second transmission step of transmitting the fourth image of the fourth depth displayed on the fourth panel by combining the third image and the fourth image on the same path;
And a third transmitting step of reflecting the image transmitted in the first transmitting step and transmitting the image transmitted in the second transmitting step and transmitting the same through the same path,
Wherein the image transfer distance from the second panel to the user is longer than the image transfer distance from the first panel to the user,
The image transmission distance from the third panel to the user is longer than the image transmission distance from the second panel to the user,
Wherein the image transfer distance from the fourth panel to the user is longer than the image transfer distance from the third panel to the user.
A first panel for displaying a first image of a first depth;
A second panel for displaying a second image of a second depth;
A first BS (Beam Splitter) for reflecting the first image, transmitting the second image, and transmitting the combined first image and the second image on the same path;
A third panel for displaying a third image of a third depth;
A fourth panel displaying a fourth image of a fourth depth;
A second BS that reflects the third video and transmits the fourth video by combining the third video and the fourth video on the same path; And
And a third BS for reflecting the image outputted from the first BS, transmitting the image outputted from the second BS and transmitting the same through the same path,
The image transmission distance from the second panel to the user is longer than the image transmission distance from the first panel to the user,
The image transmission distance from the third panel to the user is longer than the image transmission distance from the second panel to the user,
Wherein the image transfer distance from the fourth panel to the user is longer than the image transfer distance from the third panel to the user.
Reflecting a first image of a first depth displayed on a first panel;
A first transmission step of transmitting a second image having a second depth displayed on a second panel and transmitting the second image on the same path as the first image;
Reflecting a third image of a third depth displayed on a third panel;
A second transmission step of transmitting the fourth image of the fourth depth displayed on the fourth panel by combining the third image and the fourth image on the same path;
And a third transmitting step of reflecting the image transmitted in the first transmitting step and transmitting the image transmitted in the second transmitting step and transmitting the same through the same path,
Wherein the image transfer distance from the second panel to the user is longer than the image transfer distance from the first panel to the user,
The image transmission distance from the third panel to the user is longer than the image transmission distance from the second panel to the user,
Wherein the image transfer distance from the fourth panel to the user is longer than the image transfer distance from the third panel to the user.

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