KR20050049623A - Apparatus and method for display of stereo-scopic video - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a stereoscopic image display apparatus and a method thereof.

2. The technical problem to be solved by the invention

According to the present invention, a three-dimensional image for acquiring a clear three-dimensional image of a native resolution through three-dimensional image signal processing from a three-dimensional input image composed of various three-dimensional image formats and low resolution, and displaying left and right images independently, To provide a video display device and a method thereof.

3. Summary of Solution to Invention

According to an aspect of the present invention, there is provided a stereoscopic image display apparatus comprising: image signal input means for receiving a low resolution image signal of various formats and converting the image signal into a digital signal; Three-dimensional image signal processing means for interpolating the image signal from the image signal input means in accordance with a corresponding video format to obtain a high resolution left / right image signal; Display driving means for displaying the high resolution left and right image signals acquired by the 3D image signal processing means independently of the left and right display means; And said display means for independently displaying left and right video signals from said display driving means.

4. Important uses of the invention

The present invention is used in image processing systems and the like.

Description

Apparatus and Method for Display of Stereo-Scopic Video}

The present invention relates to a stereoscopic image display apparatus and method for receiving a three-dimensional image composed of a variety of formats and low resolution to convert the image into a clear original resolution and display.

Unlike 2D plane information, a 3D stereoscopic image is a more realistic image that simultaneously provides depth and spatial shape information. That is, the 3D stereoscopic image is an image of a spatial recognition concept that is synthesized in a process in which the human eyes (that is, the left and right eyes) recognize the environment having a volume that has already been learned and organize in the brain. In other words, it provides a sense of presence, realism and virtual reality as if it were seen in the field.

The three-dimensional display is a three-dimensional display technology that can express a three-dimensional feeling such as viewing the real by displaying a three-dimensional stereoscopic image with a sense of depth that was impossible in the conventional two-dimensional flat panel display.

The three-dimensional image display method includes a three-dimensional image having information before and after (ie, depth) of the object and a three-dimensional image having side information of the object.

First, stereoscopic image display is a technique based on the principle of binocular disparity effect, and depends on the technique of how to properly present and fuse each two-dimensional image corresponding to both eyes independently to the left and right eyes.

There are two types of presenting techniques, a method of using special glasses and a method of using a strong display surface.

The three-dimensional image display technology includes a multi-lens system using a special lens plate, a depth sampling method that is a variable focus mirror method, and a holographic method that records and reproduces the amplitude and phase of light.

1A to 1C are exemplary diagrams illustrating an image format of a general 3D image.

As shown in FIGS. 1A to 1C, a 3D image is configured in various image formats.

First, the field-by-field format of FIG. 1A shows left and right images divided into an odd field and an even field, and the top down of FIG. 1b. ) Shows left and right images up and down. In addition, the side-by-side of FIG. 1C shows left and right images on both sides.

The conventional three-dimensional image format as described above is composed of about half the resolution of the original image. That is, the images of the various image formats as above only have information about 50% of the left and right images.

For example, when displaying a three-dimensional image composed of a field-by-field through a head mounted display (HMD), the odd field and the even field are left. When displayed on a liquid crystal display (LCD) device, an observer cannot observe a clear image of an original image, and both eyes only observe a field corresponding to half the resolution of the original image.

Therefore, the conventional three-dimensional image format has a problem that can not display a clear image because it is composed of about half the resolution of the original image.

In addition, existing 3D image display devices have a problem in that they cannot implement high functionality of the display device due to various formats that are not uniformly configured.

The present invention has been proposed to solve the above problems, and obtains a clear three-dimensional image of the original resolution through three-dimensional image signal processing from a three-dimensional input image composed of various three-dimensional image formats and low resolution Accordingly, an object of the present invention is to provide a stereoscopic image display apparatus and a method for independently displaying left and right images.

According to an aspect of the present invention, there is provided a stereoscopic image display apparatus comprising: image signal input means for receiving a low resolution image signal having various formats and converting the same into a digital signal; Three-dimensional image signal processing means for interpolating the image signal from the image signal input means in accordance with a corresponding video format to obtain a high resolution left / right image signal; Display driving means for displaying the high resolution left and right image signals acquired by the 3D image signal processing means independently of the left and right display means; And the display means for independently displaying the left / right image signals from the display driving means.

On the other hand, the method of the present invention, in the stereoscopic image display method, the first step of receiving a low-resolution video signal of various formats and converting it into a digital signal; A second step of interpolating the converted video signal according to a corresponding video format to obtain a high resolution left / right video signal; And a third step of independently displaying the obtained high resolution left and right video signals.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of an embodiment of a stereoscopic image display device according to the present invention.

As shown in FIG. 2, the stereoscopic image display apparatus according to the present invention includes a video signal input unit 210 and a digital image output from the video signal input unit 210 for receiving various video signals and converting them into digital video signals. 3D image signal processor 220 and 3D image signal processor 220 for obtaining high resolution left and right image signals through image signal processing such as interpolation, etc. Display the liquid crystal display (LCD) driver 230 for displaying the image signal on the liquid crystal display (LCD) 240, and the left and right image signal output from the liquid crystal display (LCD) driver 230 It includes a liquid crystal display (LCD) unit 240 for.

As described above, the stereoscopic image display apparatus according to the present invention will be described in more detail as follows.

First, the video signal input unit 210 includes various video signals, that is, video signals output from a computer (for example, VGA, XGA, etc.) and all standard signals of video (for example, NTSC, PAL, SECAM, S-VHS). Etc.) to receive all video signals. The various three-dimensional or two-dimensional image signals input by the image signal input unit 210 are converted into digital image signals and output.

In addition, the digital 3D image signals of various image formats output from the image signal input unit 210 are input to the 3D image signal processor 220. Then, the 3D image signal processor 220 performs 3D image signal processing such as interpolation on the input 3D image signal to obtain clear high resolution left and right images of original resolution.

The high resolution 3D left and right image signals obtained by the 3D image signal processing unit 220 are input corresponding to left and right independent LCD display devices and displayed on the left and right LCD displays, respectively. Will be.

As such, by converting a 3D image composed of half the resolution of the original resolution into a left / right independent image of the original resolution and displaying the image on a left / right liquid crystal display (LCD), an observer can observe a clear 3D image. .

On the other hand, when the input image is two-dimensional, it is possible to display the two-dimensional image independently of the left / right image by making the two-dimensional image the same image left / right.

3 is a detailed block diagram of an example of a 3D image signal processor of a 3D image display apparatus according to the present invention.

As shown in FIG. 3, the 3D image signal processor 220 according to the present invention distributes an input image according to the 3D image format in the image distribution module 310 and the image distribution module 310. An interpolation module 320 for interpolating the video signals according to the respective video formats, and the left / right video signals of the original resolution interpolated by the interpolation module 320. And an image output module 330 for outputting.

The 3D image signal processor 220 performs a function of generating a left / right image having a raw resolution from various 3D image formats having about half the resolution of the original image.

At this time, the input 3D image format is composed of various formats such as field-by-field, top-down, and side-by-side. It is.

In addition, the conventional 3D image format is composed of half the resolution of the original image, the existing 3D image display device is composed of several formats that are not unified.

The video signals of the various three-dimensional image formats as described above have only information on 50% of the left and right images. Therefore, in order to provide the same image as the original image to each of the left and right liquid crystal displays (LCDs), a clear original image is restored by using interpolation for each image format.

That is, the image signal input from the external input terminal is separated by the image format by the image distribution module 310 and then restored as the original image by the interpolation module 320 using interpolation for each characteristic. . The high resolution clear left and right image signals are sent to the left and right liquid crystal display (LCD) driving units so that they can be displayed on the left and right liquid crystal display (LCD).

By virtue of the above-described method, clear high-resolution 3D images can be observed by acquiring clear left / right images.

4A to 4C are diagrams illustrating an embodiment of interpolation of the 3D image signal processor according to the present invention.

Interpolation of the 3D image signal processor restores a clear original image by using interpolation that is suitable for a 3D image format.

That is, an edge is calculated from the input 3D image, the image format is recognized according to the calculated information, and interpolation is performed according to the image format.

Here, when edge information calculated from the input 3D image appears strongly in the vertical direction from the center, the input 3D image is recognized as a side-by-side image format, and the center is recognized. In the case of strong display in the horizontal direction, the input 3D image is recognized as a top-down image format. When the edge information appears strongly in the horizontal direction and is uniformly distributed in the vertical direction, the input 3D image is recognized as a field-by-field image format. . However, if it is not distributed in any single direction, the input image is recognized in two dimensions.

FIG. 4A illustrates a case where the 3D image format is a field-by-field, and generates an odd field by interpolating an even field. By generating an Even Field by interpolating an Odd Field, left and right images having an original resolution are obtained.

FIG. 4B illustrates a case in which the 3D image format is top-down, interpolating an image of an upper region to obtain an image having a double resolution of twice the resolution, and interpolating an image of a lower region. By interpolating to obtain the original resolution image having twice the resolution, the left / right image of the original resolution is obtained.

FIG. 4C illustrates a case in which the 3D image format is side-by-side. Interpolation of an image of the left region may be performed to obtain an original resolution image having twice the resolution, and a right region. By interpolating the image of the image to obtain the original resolution image of twice the resolution, the left / right image of the original resolution is obtained.

5 is a flowchart illustrating a method of displaying a stereoscopic image according to the present invention.

As shown in FIG. 5, the stereoscopic image display method according to the present invention first receives a low resolution image signal expressed in various formats (501), and interpolates the received image according to the image format. The left / right image having the original resolution is obtained (502). The obtained left and right images are displayed on the left and right liquid crystal display (LCD) by the left and right liquid crystal display (LCD) driving unit (503).

That is, the stereoscopic image display method according to the present invention can display more various three-dimensional stereoscopic image contents than the conventional display method, and image interpolation unlike a method of displaying in low resolution using only one field as an existing image By signal processing using (Interpolation), a clearer image can be displayed.

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form. Since this process can be easily implemented by those skilled in the art will not be described in more detail.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

The present invention as described above, by using the interpolation (Interpolation) to match the different three-dimensional image signal, it is possible to display a clear three-dimensional image can maximize the display effect, it is possible to high-function the display device It works.

1A to 1C are exemplary diagrams illustrating an image format of a general three-dimensional image.

2 is a block diagram of an embodiment of a stereoscopic image display device according to the present invention.

Figure 3 is a detailed configuration of an embodiment of a three-dimensional image signal processing unit of the stereoscopic image display apparatus according to the present invention.

4A to 4C are diagrams illustrating an embodiment of interpolation of a 3D image signal processor according to the present invention.

5 is a flowchart illustrating an embodiment of a stereoscopic image display method according to the present invention;

* Explanation of symbols for the main parts of the drawings

210: image signal input unit 220: 3D image signal processing unit

230: liquid crystal display (LCD) drive unit 240: liquid crystal display (LCD)

Claims (10)

In the stereoscopic image display device, Video signal input means for receiving a low resolution video signal of various formats and converting the same into a digital signal; Three-dimensional image signal processing means for interpolating the image signal from the image signal input means in accordance with a corresponding video format to obtain a high resolution left / right image signal; Display driving means for displaying the high resolution left and right image signals acquired by the 3D image signal processing means independently of the left and right display means; And The display means for independently displaying the left / right image signals from the display driving means; Stereoscopic image display device comprising a. The method of claim 1, The three-dimensional image signal processing means, Video distribution means for distributing the video signal from the video signal input means in accordance with a three-dimensional video format; Interpolation means for interpolating video signals according to respective video formats distributed by the video distribution means; And Image output means for transferring the left / right image of the original resolution interpolated by the interpolation means to the display driving means. Stereoscopic image display device comprising a. The method of claim 2, The image distribution means, Edge information is calculated from the 3D image signal from the image signal input means, and the image format is recognized according to the calculated edge information, and then transferred to the interpolation means suitable for the recognized image format. Stereoscopic image display device. The method of claim 3, wherein The image format recognition process according to the edge information, If it appears strong in the vertical direction from the center, the input 3D image is recognized as a side-by-side image format. If it appears strong in the horizontal direction from the center, the input 3D image is recognized as the Top-Down image format. When the edge information appears strongly in the horizontal direction and is uniformly distributed in the vertical direction, the received 3D image is recognized as a field-by-field image format. Stereoscopic image display device. The method according to any one of claims 2 to 4, The interpolation means, In the case of a field-by-field image format, an odd field is generated by interpolating an even field, and an even field is interpolated by interpolating an odd field. Create a field (Even Field) to obtain the left / right image of the original resolution, In the case of the Top-Down image format, the image of the upper region is interpolated to obtain an original resolution image, and the image of the lower region is interpolated to acquire an image of the original resolution to obtain the original resolution. / Right video, In the case of a side-by-side image format, an image of the left region is interpolated to obtain an original resolution image, and an image of the right region is interpolated to obtain an original resolution image. And a left / right image having a raw resolution. In the stereoscopic image display method, A first step of receiving low-resolution video signals of various formats and converting them into digital signals; A second step of interpolating the converted video signal according to a corresponding video format to obtain a high resolution left / right video signal; And A third step of independently displaying the obtained high resolution left and right video signals; Stereoscopic image display method comprising a. The method of claim 6, The second step, A distribution process of distributing the converted video signal according to a 3D image format; An interpolation process of interpolating video signals according to each of the divided video formats; And Transfer process of delivering the interpolated raw resolution left / right image Stereoscopic image display method comprising a. The method of claim 7, wherein The distribution process, After recognizing the image format according to the edge information calculated by calculating the edge (Edge) information from the converted three-dimensional image signal, it is transmitted to the interpolation (Interpolation) process according to the recognized image format Display method. The method of claim 8, The image format recognition process according to the edge information, If it appears strong in the vertical direction from the center, the input 3D image is recognized as a side-by-side image format. If it appears strong in the horizontal direction from the center, the input 3D image is recognized as the Top-Down image format. When the edge information appears strongly in the horizontal direction and is uniformly distributed in the vertical direction, the received 3D image is recognized as a field-by-field image format. Stereoscopic image display method. The method according to any one of claims 7 to 9, The interpolation process, In the case of a field-by-field image format, an odd field is generated by interpolating an even field, and an even field is interpolated by interpolating an odd field. Create a field (Even Field) to obtain the left / right image of the original resolution, In the case of the Top-Down image format, the image of the upper region is interpolated to obtain an original resolution image, and the image of the lower region is interpolated to acquire an image of the original resolution to obtain the original resolution. / Right video, In the case of a side-by-side image format, an image of the left region is interpolated to obtain an original resolution image, and an image of the right region is interpolated to obtain an original resolution image. An image display method comprising acquiring a left / right image having a native resolution.