KR100426244B1 - Stereoscopic 3d personal copmputer - Google Patents

Abstract

The present invention relates to a personal computer capable of displaying a stereoscopic image using liquid crystal, comprising: image display means for synthesizing and displaying an image taken by a camera, and installed on the front of the image display means and radiated from the image display means. It comprises a liquid crystal panel for controlling the direction of the light, optical glasses and image display means for showing only the image corresponding to each eye of the viewer through the light transmitted through the liquid crystal panel and driving means for driving the liquid crystal panel in synchronization, The optical polarized glasses worn by the spectators can view stereoscopic images without configuring a separate wired / wireless synchronization circuit, thereby making it easy to wear due to the light weight and preventing malfunctions by reacting with an external light source.

Description

Personal Stereo Computer {STEREOSCOPIC 3D PERSONAL COPMPUTER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a personal computer for displaying stereoscopic images, and more particularly to a personal stereoscopic computer using liquid crystals.

When looking at the real world with both human eyes, the distance between the two eyes (2.5 inches) creates slightly different images on the retina. In the projected image on the retina, the horizontal distance difference for the same target point is called image inconsistency. The distance is interpreted by the brain and a person feels three-dimensional.

The two-dimensional image composed of three-dimensional images, each of which is visible to each eye by using the characteristics of perception of the stereoscopic image is called 'binocular stereoscopic', the research to implement this has been tried for a long time. Among many studies, a binocular stereoscopic display device using glasses is generally commercialized and widely used.

The most common method of generating such a binocular stereoscopic image is to separate the two cameras in sync by the left and right eye intervals, and to configure the image on the left in one field and the image on the right in the other field. Although the resolution is reduced in half in the vertical direction, it is possible to generate a perfect stereoscopic image while still following the interlaced scanning method of the existing TV.

On the other hand, the most common technique for viewing a stereoscopic binocular is using a liquid crystal shutter as a glasses. This is to apply the characteristics of the liquid crystal that has both the liquidity of the liquid and the optical anisotropy of the crystal to show different images to both eyes.

1A to 1D are conceptual views for explaining transmission / direction control of light using liquid crystals.

FIG. 1A is a conceptual diagram illustrating an alignment state of liquid crystals. The liquid crystals 101 are irregularly arranged in a natural initial state, but when an electrical stimulus is applied or a direction plate is provided at both ends of the liquid crystals 101, the direction of light passing is determined. You can change it. More specifically, the two alignment films 103 may be formed by installing two glass substrates 102 facing each other and an alignment layer 103 having a groove in a predetermined direction on the opposite surface of the glass substrate 102. When the liquid crystals 101 are placed therein after being cross-aligned with each other by 90 degrees, liquid crystal molecules are arranged along the grooves in the alignment layer 103, and the liquid crystal molecules between the two alignment layers 103 are staggered by 90 degrees. They are staggered by 90 degrees from top to bottom.

When light is transmitted through the liquid crystal panel, the light is staggered by 90 degrees from top to bottom as shown in FIG. This is because light is transmitted between the arranged liquid crystals 101. By using the liquid crystal 101 in this way, it is possible to change the direction of light. If a voltage is applied to the liquid crystal cell, the liquid crystal molecules are vertically changed in a matrix according to the electric field, and light is transmitted in the vertical direction.

On the other hand, as shown in FIG. 1C, the polarization filter 104 transmits or blocks light according to the polarization direction.

FIG. 1D is a conceptual diagram illustrating the control of the transmission direction of light according to the application of voltage in a state in which the polarization filter 104 is used in the aligned liquid crystal cell. If only the light in the direction is transmitted and arranged to cross the two filters 104, the light cannot pass.

As described above, in the conventional personal stereo computer using the light blocking property of the liquid crystal, as shown in FIG. 2, the left image is an odd line and the right image is an even line (or vice versa of the combination). The stereoscopic image is synthesized and displayed on the monitor 111. When the viewer displays the left image using the liquid crystal shutter 112 synchronized with the image displayed on the monitor 111, the right shutter 112a is closed. By opening the left shutter, the image is visible only to the left eye, and when the right image is displayed, the left shutter 112b is closed and the right shutter is opened to show the image only to the right eye.

The conventional stereoscopic image display device is a technology using the interlaced scanning method of a conventional TV as described above, but the interlaced scanning method of the TV displays 30 images each of left and right each second, so people are 'flicker' You will feel chewing gum. Therefore, viewing stereoscopic images under these conditions causes many sensory side effects such as headaches. In this binocular stereoscopic display of images in synchronization with left and right, at least 50 images per second must be displayed at least on the left and right in order to enjoy a good stereoscopic image.

In addition, this method has to configure a circuit for switching the liquid crystal shutter 112, which is synchronized with the displayed image at a high speed to the wired 113 or wireless, so that the weight of the liquid crystal shutter 112 glasses is rather heavy and the wearing comfort is not good. In the case of the method, there is a problem that the infrared wavelength mainly used causes a malfunction in response to an infrared light emitting source such as a lamp.

Accordingly, the present invention has been devised to solve the above problems, and because it does not constitute a separate synchronization circuit for the glasses, the weight is light and easy to wear, and it can be prevented from malfunctioning by reacting with an external light source. 3D computer has a purpose.

The present invention for achieving the above object, the image display means for synthesizing and display the image taken by the shooting means, such as a camera, and installed in front of the image display means to control the direction of light emitted from the image display means Optical control means such as a liquid crystal, optical separation means such as optical glasses showing only the image corresponding to each eye of the viewer, and driving driving the image display means and the optical control means in synchronization with the light control means. It comprises a means.

According to the personal three-dimensional computer of the present invention made as described above, the three-dimensional image can be viewed without configuring a separate wired or wireless synchronization circuit in the optical polarized glasses worn by the viewers, the weight is light, the wear is simple, and reacts with an external light source It can prevent the malfunction.

1A to 1D are conceptual views illustrating the transmission / direction control of light using liquid crystals;

2 is a configuration diagram schematically showing a state of use of a conventional personal stereo computer;

3 is an exploded perspective view schematically showing a state of use of a personal three-dimensional computer according to the present invention,

4 is a block diagram showing a personal stereo computer according to the present invention.

Explanation of symbols on the main parts of the drawings

10: photographing means 20: image display means

21 detection unit 22 control unit

30: light control means 40: image separation means

41, 42: polarizer 50: driving means

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is an exploded perspective view schematically showing a state of use of a personal three-dimensional computer according to the present invention, Figure 4 is a block diagram showing a personal three-dimensional computer according to the present invention, the image taken through the recording means 10, such as a camera An image display means 20 for synthesizing and displaying the light, and an optical control means 30 such as a liquid crystal panel installed in front of the image display means 20 to control the direction of light emitted from the image display means 20, Image synchronizing means 40 such as polarized glasses for showing only the image corresponding to each eye of the viewer by the light passing through the light control means 30, and driving the image display means 20 and the liquid crystal panel in synchronization The drive means 50 is included.

The image display means 20 may be any one of a cathode ray tube (CRT), a liquid crystal display (LCD), a plasma display panel (PDP), and a field emission display (FED).

Here, the liquid crystal panel, which is the light control means 30, has an alignment film and electrodes formed to face each other inside two glass substrates, and the liquid crystal molecular layer is interposed between the two substrates, so that the two alignment films are perpendicular to each other. When arranged in the direction of light transmission, the transmission direction of the light is shifted by 90 degrees, and when the voltage is applied to the electrode, the light is transmitted through both alignment layers as they are.

The polarizing glasses, which are the image separating means 40, have polarizing plates 41 and 42 having polarization directions orthogonal to each other so that stereoscopic images can be seen, and are displayed on the image display means 20 to control the light. The left eye can see the left image and the right eye can see the right image.

The process of providing a stereoscopic image to the viewer by the personal stereoscopic computer of the present invention made as described above is as follows.

First, after shooting by taking the left and right eye intervals through the camera as the photographing means 10, and then synthesized and inputted, the image display means 20 configures the image on the left in one field and the image on the right Is displayed in the other field to display a stereoscopic image. The term “field” in the present specification means a range scanned when a single scan is performed by a predetermined scan pattern to display a moving image on a screen. For example, in the case of adopting an interlaced scanning method in which a scanning line is skipped one by one like a television broadcast screen, a set of line segments in which one scanning line of the screen is skipped becomes a field. However, since the interlaced scanning method is generally not used when displaying a computer screen, in this case, the term "field" means "frame".

When one field of the image constituting the stereoscopic image is displayed on the image display means 20, the liquid crystal panel provided on the front of the image display means 20 is synchronized through the driving means 50, so that the two alignment layers of the liquid crystal panel. If the synchronization is arranged at right angles to each other, the transmission direction of the light is changed by 90 degrees, and when it is synchronized, the light is transmitted as it is when the synchronization is applied to the two alignment layers when the opposite field is displayed.

Accordingly, the direction of polarization that is projected through the liquid crystal panel is changed depending on whether power is applied to each electrode, and the direction of light transmitted through the liquid crystal panel and the polarization direction of the polarizers 41 and 42 of the polarizing glasses worn by the viewer coincide with each other. If you can see from that eye.

As a result, the viewer can feel a three-dimensional effect by following the left eye and the right eye, respectively, which can make the binocular parallax artificially felt.

Here, when at least 50 images are displayed in each eye per second through the image display means 20, the two eyes can view stereoscopic images without flicker.

The image displayed on the image display means 20 may be three-dimensionally moved or spatially clicked in a designated direction through a three-dimensional mouse, a stereo joystick, or a voice or image recognition function.

On the other hand, the image display means 20 is provided with a display detector 21 for detecting whether the area is displayed in the binocular system, the signal detected by the display detector 21 is a control unit of the image display means 20 The display detection unit 21 detects an area in which the file is displayed when the file of the format that can be displayed by the binocular method is reproduced. The controller 22 notifies the controller 22, and the controller 22 causes only the area of the computer screen to display the file in the binocular manner. In this case, the display detector 21 may be displayed in the binocular manner. Recognize a file characteristic of a format, and drive a playback program to display the file in a binocular manner, Recognizing the driving group when the screen is the playing area (i.e., area to be displayed as a binocular scheme of full-screen) of the program, and notifies the control section 22. The control unit 22 controls to display only the area displaying the file in the entire screen of the computer in a binocular manner. As a file format that can be displayed in the binocular manner, an interlace method, a syncable method, and a page are displayed. Flip systems and the like are known. Accordingly, the display detector 21 may recognize a file having a format that can be displayed in the binocular method through a file header, a file extension, or a file image composition analysis algorithm.

According to the detection signal of the display detector 21, the controller 22 displays an area that does not form a binocular stereoscopic image as it is, and an area constituting the binocular image is an area not vertically implemented by interpolation of an upper or lower interpolation or an upper image. It is possible to reconstruct and control binocularly two complete noninterlace images.

Accordingly, even a screen other than an area forming a binocular stereoscopic structure, for example, a desktop of an image display means such as a monitor, can display a perfect image on both the left and right sides without the text being broken, and in doing so, two perfect non-interlacing results. Although the screen is displayed, the data of the section forming the three-dimensional can configure the three-dimensional without forming a perfect two images.

The personal three-dimensional computer of the present invention is not limited to the above-described embodiment, and can be implemented in various modifications within the scope of the technical idea of the present invention.

According to the personal three-dimensional computer of the present invention made as described above, since the optical polarized glasses worn by the spectator does not constitute a separate wired or wireless synchronization circuit, the weight is light, making it easy to wear, and prevents a malfunction by reacting with an external light source. Can be.

In addition, the stereoscopic image display means can enjoy good stereoscopic images without flickering by displaying 50 or more images per second on the left and right.

In addition, the screen other than the area forming the binocular stereoscopic can be detected and compensated or copied and displayed through the display detection unit so that characters can be seen without being broken and a good stereoscopic image can be viewed.

Claims (5)

Image display means 20 configured to display the left image and the right image photographed by the photographing means 10 in different frames, respectively; A liquid crystal panel 30 installed at the front of the image display means 20 and controlling a polarization direction of light emitted from the image display means 20 according to whether a voltage is applied; Image separation means (40) which shows only the image corresponding to each eye of the viewer with the light transmitted through the liquid crystal panel (30); It includes a driving means 50 for driving in synchronization with the image display means 20 and the liquid crystal panel 30, The image display means 20 further includes a display detector 21 for detecting whether the image is displayed in a binocular type, and according to the detection signal detected by the display detector 21, the controller of the image display means 20. Personal stereo computer, characterized in that to control the display image via (22). The personal stereoscopic computer according to claim 1, wherein the image display means (20) is one of a CRT, an LCD, a PDP, and an EFP. delete According to claim 1, wherein the image separation means 40 is an individual, characterized in that the optical polarizing glasses having a left polarizing plate corresponding to the polarization direction of the left image, and a right polarizing plate corresponding to the polarization direction of the right image. Stereoscopic computer. delete