KR20110135799A - Stereoscopic image display device - Google Patents

Abstract

PURPOSE: A three-dimensional image displaying apparatus is provided to adjust parallax of a voltage signal applied to an electrode of a switchable panel, thereby enabling a viewer to watch a three-dimensional image at the position of the viewer without glasses. CONSTITUTION: A display panel(320) projects a two-dimensional image. A switchable panel(340) outputs the two-dimensional image into a three-dimensional image when voltage is applied. A detection part(300) detects the movement and final position of a viewer among a plurality of viewers. A control part(310) outputs a control signal shifting a view of the two-dimensional image. The control part outputs a voltage control signal controlling the voltage signal applied to a voltage source(330).

Description

 Stereoscopic Image Display Device {STEREOSCOPIC IMAGE DISPLAY DEVICE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stereoscopic image display apparatus, and more particularly, to a stereoscopic image display apparatus in which a plurality of viewers can watch a stereoscopic image without glasses, and can detect stereoscopic images by detecting a movement even when the viewer moves a position.

The services to be realized for the high speed of information to be built on the high-speed information communication network today are 'seeing and listening' multi-media centering on digital terminals that process text, voice, and video at high speed from simply 'listening and talking' service like the current telephone. It is expected to develop into a media-type service and ultimately develop into a hyper-spatial, realistic 3D stereoscopic information communication service that transcends time and space.

In general, three-dimensional (3D) (3D) image is made by the principle of stereo vision through two eyes, because the distance between the binocular, that is, the two eyes are about 65mm apart, The difference is that the left and right eyes see slightly different images. As such, the difference in the image due to the positional difference between the two eyes is called binocular disparity.

The 3D stereoscopic image display device uses the binocular disparity so that the left eye can only see the image of the left eye and the right eye can see only the right eye image, so that the viewer can feel the parallax and feel a stereoscopic feeling. That is, when the left and right eyes see different two-dimensional images, and when these two two-dimensional images are delivered to the brain through the retina, the brain accurately fuses them to reproduce the depth and reality of the original three-dimensional image. Such a capability is commonly referred to as stereography, and a device applying this as a display device is called a stereoscopic image display device.

Meanwhile, the stereoscopic image display device may be classified into glasses type and glassesless type according to the presence or absence of glasses in a method of implementing a stereoscopic image. The autostereoscopic method includes a lenticular type and a switchable panel type according to the shape of a structure for implementing a 3D image.

The lenticular method implements a stereoscopic image by attaching a semi-cylindrical lenticular sheet on the display panel, and the switchable panel method includes a switchable panel that converts a two-dimensional image into a three-dimensional image on a display panel that emits a two-dimensional image. In order to implement an image, there are a barrier type switchable barrier type and a lens type switchable liquid crystal lens type.

FIG. 1 is a diagram of a stereoscopic image display device of a general switchable barrier type.

As shown in FIG. 1, the barrier 10 and the slit 15 are placed in front of the display panel 5 having the right eye image information R and the left eye image information L corresponding to the viewer's right eye RE and left eye LE. Arranged at the intersection, the right eye image information R is input to the viewer's right eye RE via the slit 15, and the left eye image information L is input to the left eye LE. As described above, the viewing area in which the right eye image information R is input to the right eye RE and the left eye image information L is input to the left eye LE is called a stereoscopic area.

However, as described above, in the general switchable barrier type stereoscopic image display having two views (parallax), the left eye image information L is in the right eye RE, and the right eye image is in the left eye LE even when the viewer moves only a little from side to side. Since the information R is moved to the inverted stereoscopic region, the viewer cannot watch the stereoscopic image.

The present invention has been made to solve the above problems, by applying a user tracking (User Tracking) technology, a large number of viewers can watch a stereoscopic image, in particular, by detecting the movement of the viewer moving the viewer to position Even when moving, a plurality of viewers can watch a stereoscopic image, which has a purpose.

According to an aspect of the present invention, there is provided a stereoscopic image display device comprising: a display panel corresponding to one switchable area and outputting a two-dimensional image of N (N is a natural number of 3 or more) views or more; A switchable panel positioned on the display panel to emit the two-dimensional image as a three-dimensional image when a voltage is applied; A detector for detecting a movement and a final position of a moving viewer among a plurality of viewers; And a controller configured to output a control signal for shifting the view of the two-dimensional image according to the viewer's movement and final position.

The switchable panel includes: a first substrate and a second substrate facing each other; A plurality of first electrodes formed on the first substrate and corresponding to the one switchable region; A second electrode formed on the second substrate; And a voltage source for applying a voltage to the first electrode and the second electrode.

The switchable panel applies a voltage to the first and second electrodes to form a parabolic potential surface in the liquid crystal layer.

In the switchable panel, the liquid crystal layer is divided into a black region and a white region by applying a voltage to the first and second electrodes.

The switchable panel further includes a polarizer formed on the second substrate.

The voltage source applies a voltage gradually increasing to both sides of the plurality of first electrodes corresponding to the one switchable region with respect to the center of the one switchable region.

The controller outputs a voltage control signal for shifting the voltage applied to the first electrode according to the viewer's movement and final position.

The voltage control signal shifts the view of the two-dimensional image such that a continuous view corresponds to both eyes of the viewer who moves the position.

The detector detects the viewer's movement as a difference between the pupil's pupil or face and the background color.

When the inter-view spacing is binocular spacing / M (M is the number of views corresponding to the binoculars of the viewer and one or more natural numbers), (N-1) / M or more viewers may simultaneously view the stereoscopic image.

The stereoscopic image display device of the present invention as described above has the following effects.

First, even when multiple viewers are in different positions, viewers on a continuous view (parallax) line without glasses can watch stereoscopic images. Further, if there are N consecutive views (N is 3 or more natural numbers), the interval between viewing areas is binocular spacing / M (M is 1 or more natural numbers), and the distance between the display panel and the viewer is within a certain distance, (N-1 ) / M viewers can watch stereoscopic images without glasses at the same time.

Second, when one of the plurality of viewers moves their position, the final position of the moving viewer is detected through tracking to track the movement of the eyes or face, and the electrode of the switchable panel is positioned so that the final position becomes the stereotactic region. By adjusting the parallax of the applied voltage signal, the viewer can watch a stereoscopic image without glasses in the final position.

1 is a diagram of a stereoscopic image display device of a general switchable barrier type.
2 is a diagram in which a stereoscopic image display device has four views (parallax).
3 is a block diagram of a stereoscopic image display device according to the present invention.
4 is a cross-sectional view of the switchable panel of FIG. 3.
Fig. 5 is a diagram showing a first embodiment of the stereoscopic image display device of the present invention.
6A and 6B show a second embodiment of a stereoscopic image display device of the present invention.
Fig. 7 is a diagram showing a third embodiment of the stereoscopic image display device of the present invention.
8 is a view showing a user tracking method of the stereoscopic image display device of the present invention.
9 is a cross-sectional view of a switchable panel in which an arrangement of liquid crystals is changed according to the present invention.

In general, a switchable barrier type stereoscopic image display apparatus having two views (parallax) is a multi-view (multiview) of three or more views in order to allow a viewer to view a stereoscopic image even when the viewer moves to an inverted region where the stereoscopic image cannot be viewed. There was a request.

A view is a unit of a stereoscopic image, and in order to sense an actual stereoscopic image, the viewer can recognize the stereoscopic image only when both eyes of the viewer are positioned one by one.

For example, when implementing 4 views, the viewer of the stereoscopic or inverted stereoscopic image according to the viewer's movement is as follows.

2 is a diagram in which a stereoscopic image display device has four views.

As shown in Fig. 2, the views are 1, 2, 3, 4, 1. Viewers viewing the stereoscopic image display device having four views, which are located in order, may view stereoscopic images in the stereoscopic region of the continuous views 1 and 2, views 2 and 3, and views 3 and 4. Stereoscopic images cannot be viewed in the inverted regions of views 4 and 1.

Therefore, by detecting the movement of the viewer's eyes or face, the viewer's area can be changed to the stereotactic area so that the viewer located in the inverted stereoscopic area can view the stereoscopic image. However, in this case, the motion of one viewer is sensed and cannot be applied to a display such as a TV used by a plurality of viewers.

Hereinafter, a stereoscopic image display device according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of a stereoscopic image display device according to the present invention.

As shown in FIG. 3, the stereoscopic image display device of the present invention is positioned on the display panel 320 and the display panel 320 which emit two-dimensional images of N or more (N is a natural number of 3 or more) views corresponding to one switchable area. When the voltage is applied, the switchable panel 340 which emits the two-dimensional image as a three-dimensional image, the detector 300 which detects the movement and the final position of the moving viewer among the plurality of viewers, and the two-dimensional image according to the movement and the final position of the viewer It includes a control unit 310 for outputting a control signal for shifting the view of.

A stereoscopic image display device in which a plurality of viewers watch a stereoscopic image may be located in an inverted stereoscopic area among the plurality of viewers, and thus a viewer who cannot view the stereoscopic image may move a position to view the stereoscopic image. Alternatively, a plurality of viewers may be located in the inverted region by arbitrarily changing their positions even in the stereotype region.

Accordingly, the stereoscopic image display device of the present invention rearranges the liquid crystal of the switchable panel 340 so that the viewer located in the inverted stereoscopic region is located in the stereoscopic stereoscopic region so that the viewer can watch the stereoscopic image.

First, the detector 300 is preferably a variety of detectors such as a camera or an infrared sensor that can recognize the color and the location so as to recognize the movement of the viewer who changed the location and the final location. For example, if the detector 300 is a camera, the camera may be installed in the display panel 320 or the switchable panel 340 to recognize a pupil or head of a moving viewer or to move the viewer in various ways. The final position can be detected.

If the viewer detects the movement of the pupil, when the viewer moves the position, the camera detects the center position of the viewer's left and right eyes and recognizes that the center position changes. In addition, when detecting the movement of the head, when the viewer turns or moves the head, the camera detects the viewer's final position by recognizing the viewer's movement by the difference between the head and the background color.

Subsequently, when the detection unit 300 detects the viewer's movement, the controller 310 outputs a control signal for adjusting the parallax between the video signal and the voltage signal so that a continuous view corresponds to both eyes of the viewer's final position.

First, the controller 310 outputs a voltage control signal for adjusting a voltage signal applied to the voltage source 330 for applying a voltage to the liquid crystal of the switchable panel 340, and then outputs a 2D image output from the display panel 320. Shift the view.

The voltage source 330 applies a voltage to the first and second electrodes (not shown) of the switchable panel 340. If the switchable panel 340 is a switchable liquid crystal lens type If, the liquid crystal of the switchable panel 340 is arranged in accordance with the voltage signal applied to the first and second electrodes (not shown) of the switchable panel 340 in the voltage source 330, the optical path difference of the liquid crystal occurs The liquid crystal layer has a lens effect.

When the voltage signal is adjusted as described above, the liquid crystal lens of the switchable panel 340 is shifted by shifting the voltage applied to the first electrode (not shown) so that the viewer's final position becomes the stereotactic region so that the viewer can display a stereoscopic image. You can watch. In this case, the actual liquid crystal lens is not moved, but the lens appears to be moved due to the difference in refractive index of the liquid crystal.

If the switchable panel 340 is a switchable barrier type, a polarizer is further included on the switchable panel 340. In addition, the liquid crystals of the switchable panel 340 are arranged according to voltage signals applied to the first and second electrodes (not shown) of the switchable panel 340 by the voltage source 330, and thus the plurality of black and white regions are arranged. This reversed, the viewer who moved the position can watch a stereoscopic image.

The display panel 320 includes a liquid crystal display device (OLED) for emitting a two-dimensional image, an organic light emitting display device, a plasma display panel, and a field emission display device. Flat panel display devices.

In addition, the controller 310 adjusts the video signal parallax so that the image is reproduced on the display panel 320, so that the viewer can watch a stereoscopic image even if the position is changed.

The voltage source 330 applies a voltage to the first and second electrodes (not shown) of the switchable panel 340. If the switchable panel 340 is a switchable liquid crystal lens type If, the liquid crystal of the switchable panel 340 is arranged in accordance with the voltage signal applied to the first and second electrodes (not shown) of the switchable panel 340 in the voltage source 330, the optical path difference of the liquid crystal occurs The liquid crystal layer has a lens effect.

When the voltage signal is adjusted as described above, the liquid crystal lens of the switchable panel 340 is shifted by shifting the voltage applied to the first electrode (not shown) so that the viewer's final position becomes the stereotactic region so that the viewer can display a stereoscopic image. You can watch. In this case, the actual liquid crystal lens is not moved, but the lens appears to be moved due to the difference in refractive index of the liquid crystal.

If the switchable panel 340 is a switchable barrier type, a polarizer is further included on the switchable panel 340. In addition, the liquid crystals of the switchable panel 340 are arranged according to voltage signals applied to the first and second electrodes (not shown) of the switchable panel 340 by the voltage source 330, and thus the plurality of black and white regions are arranged. This reversed, the viewer who moved the position can watch a stereoscopic image.

The display panel 320 includes a liquid crystal display device (OLED) for emitting a two-dimensional image, an organic light emitting display device, a plasma display panel, and a field emission display device. Flat panel display devices.

4 is a cross-sectional view of the switchable panel 340 of FIG. 3.

Referring to FIG. 4, the switchable panel 340 is spaced apart from each other at equal intervals with respect to the first and second substrates 110 and 120 disposed to face each other and the switchable regions on the first substrate 110. Voltage sources for applying different voltages to the plurality of first electrodes 111 and 112, the second electrode 121 formed on the front surface of the second substrate 120, and the first electrodes 111 and 112, respectively. And a liquid crystal layer 130 filled between the first substrate 110 and the second substrate 120. In addition, the first and second alignment layers 115 and 122 may be further formed.

In the stereoscopic image display device as described above, the liquid crystal layer 130 is driven by different electric fields by applying different voltages to the plurality of first electrodes 111 and 112.

If the switchable panel is a switchable liquid crystal lens method, a voltage gradually increasing to both sides of the switchable region is applied to the plurality of first electrodes 111 and 112. In addition, the liquid crystal is arranged in accordance with the voltage signal to cause a difference in the optical path of the liquid crystal, the liquid crystal layer has a lens effect, the viewer can watch a stereoscopic image.

In addition, if the switchable panel is a switchable barrier method, liquid crystals are arranged according to voltage signals applied to the plurality of first electrodes 111 and 112, so that the liquid crystal layer 130 is divided into a black region and a white region. You can watch a stereoscopic image through the white area. In this case, a polarizer may be further formed on the second substrate.

However, the stereoscopic image display device as described above cannot view stereoscopic images when the viewer is located in the inverted stereoscopic region. For example, views 4 and 1 are not continuous views, and thus are inverted regions in which stereoscopic images cannot be viewed.

Therefore, when a viewer located in the inverted stereoscopic region moves to view a stereoscopic image, the detector 300 recognizes a pupil or a head of a moving viewer, and a plurality of regions where the viewer is located becomes a stereoscopic region. The voltages applied to the first electrodes 111 and 112 are changed to change the non-continuous views 4 and 1 into the continuous views 1 and 2.

5 is a diagram illustrating a first embodiment of a stereoscopic image display device of the present invention.

The first embodiment of the present invention as shown in FIG. 5 has four consecutive views, where the views are 1, 2, 3, 4, 1... Located in order. In addition, the distance between views is 65 mm, which is similar to the distance between both eyes of a person, so that one view number corresponds between both eyes of the viewer.

Referring to FIG. 5, when three viewers are located in the stereoscopic region of successive views 1 and 2, 2 and 3 and 3 and 4, respectively, the distance between the display panel 320 and the viewer is constant. You can watch a three-dimensional image.

6A and 6B illustrate a second embodiment of the stereoscopic image display device of the present invention. FIG. 6A has four continuous views, and FIG. 6B has nine consecutive views. 6A and 6B show two views arranged between the two eyes of the viewer, and the distance between the views is 65 mm / 2.

Referring to FIG. 6A, two viewers are located in the stereotactic region of consecutive views 1 and 3 and views 2 and 4, respectively. However, if the viewer located in the stereoscopic area of views 2 and 4 changes the view so that the stereoscopic image can be viewed at the changed location, the viewer located in the stereoscopic area of views 1 and 3 may display the stereoscopic image. Since it is located in the inverted stereoscopic area that cannot be viewed, as described above, when there are four consecutive views and the interval between the views is 65 mm / 2, there is no view condition that can satisfy both viewers. Therefore, only one viewer located in the stereoscopic area of views 1 and 3 or views 2 and 4 can watch stereoscopic images.

Similarly, as shown in FIG. 6B, if there are nine views in one switchable area and the spacing between views is 65 mm / 2, the stereotypes of consecutive views 1 and 3, views 3 and 5, views 5 and 7 and views 7 and 9 Only four viewers located in the area can watch stereoscopic images.

That is, referring to the first and second embodiments, there are N views (N is a natural number of 3 or more) in one switchable area, and the interval between views is 65 mm / M (M is the number of views disposed between both eyes of the viewer). (N-1) / M simultaneous viewing is possible.

For example, as in the first embodiment, when there are four views in one switchable area and the interval between the views is 65 mm, the number of views arranged between the viewer's both eyes, that is, M = 1, is three-dimensional. You can watch the video. And, as in the second embodiment, when there are four views in one switchable area and the interval between the views is 65 mm / 2, one person can watch a stereoscopic image.

Hereinafter, a method of detecting a viewer's movement and spreading a stereoscopic image when one of the viewers located in the stereoscopic area moves to the inverted stereoscopic area will be described.

7 is a diagram illustrating a third embodiment of a stereoscopic image display device of the present invention.

As shown in FIG. 7, when a viewer located in the stereotyped area of the continuous views 3 and 4 of the image A moves to the inverted stereoscopic area of the non-contiguous views 4 and 1 of the image A, the viewer may view a stereoscopic image. Can't. Accordingly, in order to convert the non-continuous regions of the non-continuous views 4 and 1 into the stereotactic region, the image A is adjusted by adjusting the parallax of voltage signals applied to the plurality of first electrodes 111 and 112 of FIG. 4. When the user changes to the image B, the viewer may be located in the stereotactic region of the continuous views 1 and 2 of the image B to watch the stereoscopic image.

FIG. 8 is a view illustrating a user tracking method of a stereoscopic image display device according to an exemplary embodiment of the present invention. The stereoscopic image display device is a switchable liquid crystal lens method.

For example, the movement of the viewer may occur mainly in the region where the antistereos have occurred. This is because the viewer cannot see the stereoscopic image when both eyes correspond to the inverted stereoscopic body, and tries to move. In view of this, the viewer's movement can be detected and the image corresponding to the stereotype can be sprayed corresponding to the moving region.

A switchable liquid crystal lens type stereoscopic image display device includes a switchable panel 340 in front of a display panel 320 of FIG. 3 having right eye image information R and left eye image information L corresponding to a viewer's right eye and left eye. In the figure, only the switchable liquid crystal lens of the switchable panel 340 is illustrated.

By the way, when the viewer changes the position, the detection unit 300 of FIG. 3 detects the final position of the moving viewer. The detection unit 300 of FIG. 3 may recognize the color, and track the movement of the viewer's head or distinguish the viewer's pupil and the sclera.

Then, the parallax of the voltage signal applied to the liquid crystal of the switchable liquid crystal lens is adjusted, so that the switchable liquid crystal lens appears to be moved to the position of the changed switchable liquid crystal lens from the position of the initial switchable liquid crystal lens, so that the viewer's final position Becomes the stereotype region. Thus, the viewer can watch a stereoscopic image at the moved position.

9 is a cross-sectional view of a switchable panel in which an arrangement of liquid crystals is changed according to the present invention. Prior to this, the same parts having the same function are denoted by the same reference numerals and redundant description thereof will be omitted.

Referring to FIG. 9, in the stereoscopic image display apparatus, liquid crystals are arranged to have an initial liquid crystal lens effect on the liquid crystal layer 130 when no viewer among the plurality of viewers changes positions. However, when one of the plurality of viewers moves in position, the arrangement of the liquid crystals is changed to have the changed liquid crystal lens effect so that the region where the viewer is finally located becomes the stereoscopic region.

In the stereoscopic image display device of the present invention as described above, when there are N views and the interval between views is the binocular spacing / M (M is the number of views corresponding to the binocular of the viewer, and is a natural number of 1 or more), (N-1) A stereoscopic image display device that allows multiple / M viewers to simultaneously view stereoscopic images without glasses, and in particular, even when one of the plurality of viewers changes positions by using a user tracking method, multiple viewers can display stereoscopic images without glasses. You can watch.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Will be apparent to those of ordinary skill in the art.

300: detection unit 310: control unit
320: display panel 330: voltage source
340: switchable panel

Claims (10)

A display panel that emits a two-dimensional image corresponding to one switchable area or more than N (N is a natural number of 3 or more) views (parallax);
A switchable panel positioned on the display panel to emit the two-dimensional image as a three-dimensional image when a voltage is applied;
A detector for detecting a movement and a final position of a moving viewer among a plurality of viewers; And
And a controller for outputting a control signal for shifting the view of the two-dimensional image according to the movement and the final position of the viewer. The method of claim 1,
The switchable panel includes: a first substrate and a second substrate facing each other;
A plurality of first electrodes formed on the first substrate and corresponding to the one switchable region;
A second electrode formed on the second substrate; And
And a voltage source for applying a voltage to the first electrode and the second electrode. The method of claim 2,
And wherein the switchable panel applies a voltage to the first and second electrodes to form a parabolic potential surface in the liquid crystal layer. The method of claim 2,
The switchable panel is configured to apply voltage to the first and second electrodes so that the liquid crystal layer is divided into a black region and a white region. The method of claim 4, wherein
The switchable panel further comprises a polarizer formed on the second substrate. The method of claim 2,
And the voltage source applies a voltage gradually increasing to both sides of the plurality of first electrodes corresponding to the one switchable region at a boundary of the center of the one switchable region. The method of claim 1,
And the control unit outputs a voltage control signal for shifting the voltage applied to the first electrode according to the viewer's movement and final position. The method of claim 7, wherein
And the voltage control signal shifts the view of the two-dimensional image such that a continuous view corresponds to both eyes of a viewer who moves a position. The method of claim 1,
And the detector detects the movement of the viewer by a difference between a part of the viewer's pupil or face and a background color. The method of claim 1,
When the inter-view spacing is binocular spacing / M (M is the number of views corresponding to the binocular of the viewer, one or more natural numbers), (N-1) / M or more viewers can watch a stereoscopic image at the same time Stereoscopic video display device.

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