KR20040084874A - method of displaying stereoscopic three dimensions - Google Patents

Abstract

PURPOSE: A 3D image display method is provided to separate a left-eye image and a right-eye image using an image processing program, synchronize the left-eye image and the right-eye image to a vertical frequency, and display the synchronized image on a display device. CONSTITUTION: Kinds of 3D image files are discriminated by easily classifying the number of image files according as left and right images are an independent image, and the discriminated 3D image files are branched(211). If the left and right images exist independently, the left and right images which exist in one frame are separated(212). The separated left and right images are processed using an interpolation method to acquire a smooth image(213). A synchronous signal of timing information(215) is read using frame refresh rate information to fit timing alternated for displaying the left and right images(215). The left and right images independently acquired in an image processing program are synchronized to a vertical frequency of a monitor of the read synchronous signal, and are alternately displayed(214).

Description

Method of displaying stereoscopic three dimensions

The present invention is not limited to the display method, and can view S3D (stereoscopic three dimensions) images regardless of the resolution and horizontal / vertical frequency, and moreover, it is possible to display S3D only in a specific window on one screen, so It can be used in combination, and can adjust the screen size for the S3D image arbitrarily, and can interface with wired / wireless shuttering LCD glasses at the same time so that multiple observers can enjoy S3D image on one display device. It relates to a display method.

Conventionally, in order to view S3D, a switching device is provided between the video card of the personal computer main body and the connection terminal of the monitor. The switching device performs signal processing for observing S3D and transmits it to the monitor. In particular, it is possible to display only the image file in which the left and right images are alternately inserted one line in one frame, and have to implement the interlacing method in order to display the left and right images separately. Moreover, every single moment displayed on the monitor is only half the original resolution. This is because the left and right eye images are alternately present in one frame and only one image of the left or right eye is displayed at any one moment displayed on the monitor, so the opposite image is not displayed. In addition, since the image of the S3D is inserted alternately line by line, there is an inconvenience that the operation of the S3D image window has to be operated in a fixed image mode because the relation thereof is changed.

The conventional method does not present a method for detecting the resolution of an image coming from a video card, and thus S3D can be observed only at a fixed resolution and vertical / horizontal frequency of the monitor. In addition, there is no countermeasure against mixed images of 2D and S3D images. In other words, when the S3D image window and the 2D image window exist simultaneously on one screen, the 2D image window cannot be observed in the mode of observing the S3D image.

Conventionally, devices for enabling viewing of S3D images provide S3D only in an interlaced manner. This is due to the fact that the S3D video is composed of alternating left and right images in one frame in accordance with horizontal frequency synchronization. In order to solve these conventional problems, the present invention uses a software method on a personal computer. In other words, the left and right eye images formed in one image are separated using an image processing program and output to the display device in synchronization with the vertical frequency, thereby interlacing / non-interlace. You can observe S3D regardless of). In addition, the software process allows 2D video and S3D video to be viewed simultaneously on one screen, and the size of the S3D video window can be adjusted arbitrarily.

In addition, the present invention, in order to overcome the limitation that the S3D can be observed only at a fixed resolution and vertical / horizontal frequency, a vertical implementation using a microcomputer inside the display device as a hardware implementation method apart from the function of the image processing program. Using information about horizontal frequencies, S3D can be observed at all resolutions and vertical and horizontal frequencies.

1 is a schematic block diagram illustrating a configuration of a display apparatus for implementing a method according to an embodiment of the present invention.

2 is a program flow diagram of the image processing program in FIG. 1 for realizing a method according to an embodiment of the present invention.

FIG. 3 is a diagram showing the main hardware configuration of the display, FIG. 4 is a diagram showing the main signal of the internal configuration of FIG. 3, and FIG. 5 is a signal diagram of the second MUX generated by the mode determined according to the resolution.

<Description of symbols for important parts of the drawings>

100: display device 110: wired interface module

120: wireless interface module 130: shuttering LCD control signal generator

140: microcomputer 150: video signal processing

200: personal computer 210: image processing program

300: wired shuttering LCD glasses 400: wireless shuttering LCD glasses

211: image file type discrimination step 212: left and right eye image separation step

213: Image processing step 214: Left and right eye image display step

215: Step of reading timing information 131,132: Counter (1 bit)

133: first MUX 134: XOR gate

141: resolution table 142: mode selection unit

151: second MUX 152: 2D / 3D selection control unit

In order to achieve the above object of the present invention, a stereoscopic three-dimensional image display method includes a left and right eye shuttering LCD having an image processing program for separating a left and right eye image formed in one image by a personal computer. A method of displaying a stereoscopic 3D image of a monitor through glasses, wherein the image processing program: discriminates various types of S3D image files by easily distinguishing the number of image files according to whether they are independent images of left and right eyes. Image file type discrimination step of branching; A left and right eye image separation step of separating each of the left and right eye images that coexist in one frame when the left and right eye images exist independently in the image file type discrimination step; An image processing step of processing an image by using interpolation to obtain a smoother image of each of the left and right eye images obtained by separating the left and right eye images in the left and right eye image separation step; A timing information reading step of reading a synchronization signal of the timing information by using frame refresh rate information of frames in order to adjust the alternating timing for displaying left and right eye images; The left and right eye images obtained independently from the image processing program are alternately displayed according to the vertical frequency of the monitor of the synchronization signal read out in the timing information reading step, and the left and right eye images in the image file type discrimination step. Including the left and right eye image display step of displaying the image when the non-independent exists, it is independent of the window size of the display method interlaced or non-interlaced, resolution, horizontal / vertical frequency and S3D image, Characterized in that it can be used in combination with the S3D video.

Hereinafter, the configuration and operation principle of the invention will be described with reference to the drawings.

First, in order to view the S3D image regardless of the interlace / non-interlace method in the display apparatus 100 as shown in FIG. 1, the image of the left and right eyes is separated using the image processing program 210 in the personal computer 200. Output alternately according to the frame rate. In general S3D video, left and right images exist simultaneously in one frame. The image program 210 separates the left and right images from the images and displays them alternately according to the vertical frequency of the display device.

2 is a flowchart of an image program that plays such a role.

In the video file type discrimination step 211 of FIG. 2, the type of the S3D video file is determined. In general, S3D image files are inserted alternately with respect to horizontal lines with respect to the image of left and right eyes in one frame. However, since the standardization work for the S3D display method is not in progress, there may be file types other than the general type. The image file type distinguishing step 211 is divided into two cases of left and right eye images independently and different cases for various S3D image files. In the former case, the left and right eye image separation step 212 is used. In step 214, the eye image display is performed. The left and right eye image separation step 212 separates the left and right eye images which coexist in one frame. For example, in the case of an image inserted alternately with respect to a horizontal line, left and right eye images are obtained by separating lines by line. In addition, in the red-blue format, the left and right eye images are obtained by filtering the S3D image in red / blue. In this case, when the left and right eye images are separated by lines, the obtained left and right eye images are obtained by the vertically deleted line by image, and the interpolation method is used to obtain a smoother image. Perform (213).

Each image is alternately displayed according to the vertical frequency of the monitor with respect to the images obtained independently of the left and right eyes. In this case, in order to match the alternating timing, the timing information reading step 215 uses a synchronization signal of timing information, and the timing information reading step 215 uses frame refresh rate information.

In FIG. 1, the display apparatus 100 that receives an output signal (RGB video signal, I2C, etc.) from the personal computer 200 receives a signal for controlling the shuttering LCD glasses 300 and 400 by using a vertical signal and a horizontal signal. Generated by the shuttering LCD control signal generator 130, a wired interface module 110 for interfacing with the wired shuttering LCD glasses 300, and a wireless interface module for interfacing with the wireless shuttering LCD glasses 400 Input 120. Here, in order to perform accurate operation at all resolutions and vertical / horizontal frequencies, a signal is generated from the microcomputer 140 inside the display device to generate a shuttering LCD control signal.

The microcomputer 140 mounted inside the monitor uses I2C communication for basic data transmission between the monitor and the personal computer 200. At this time, monitor display resolution information of data transmitted from the personal computer is used. There are VGA, SVGA, XGA and SXGA resolutions, and there are vertical / horizontal frequencies of the monitor for each resolution. For example, in VGA mode, there are 60Hz / 31.469KHz, 72Hz / 37.861KHz, 75Hz / 37.5KHz, 85Hz / 43.269KHz horizontal and vertical frequencies. At this time, the microcomputer 140 writes each resolution and frequency information in the resolution table 141 as shown in FIG. 3 and determines whether the number of horizontal synchronization signals existing during one period of the vertical signal is even or odd for all cases. Information about the data is stored in the mode selector 142.

The V_sync signal in FIG. 3 is the same as that of FIG. 4A, and the output signal b of the 1-bit counter 132 generated therefrom, the H_sync signal c, and the 1-bit counter 131 generated therefrom. The relationship with the output signal is shown in FIG. Here, the signal (d) is to alternately output horizontal lines of the image so that only the left eye image or the right eye image can be output when the S3D image of the interlace method is displayed. In this case, when the number of horizontal synchronization signals existing during one period of the vertical signal is even, the signal (b) is used to alternately appear to the left eye image and the right eye image every frame. However, the odd (d) signal causes the left and right eye images to appear alternately every frame. Accordingly, according to the even / odd mode by the mode selector 142, the first MUX 133 is formed to control the signal (d) and the signal shown in FIG. 5 is output.

The XOR gate 134 receives the output signal of the 1-bit counter 131 and the output signal of the first MUX 133, and at this time, the XOR gate 134 operates as a buffer or an inverter. 152 receives the output signal of the XOR gate 134 and generates a control signal of the second MUX 151 by an external input according to the user's 2D or 3D selection.

As a specific method for implementing the interlace method for the video signal transmitted from the personal computer, the function of the second MUX 151 is used as shown in FIG. 3, and a control signal for this is generated by the 2D / 3D selection controller 152. do. At this time, when the image processing program 210 is driven, the 2D / 3D selection controller 152 generates a control signal so that the second MUX 151 outputs only the video signal transmitted from the personal computer. To be observed.

According to the configuration and operation of the embodiment of the display method of the stereoscopic three-dimensional image of the present invention described above, the existing S3D display method is interlaced due to the use of the image processing program 210 to alternately display the left and right eye images Unlike the method only, the display method is not limited to the display method, and the S3D can be viewed regardless of the resolution and the horizontal / vertical frequency. Moreover, the adoption of this method allows only a portion of the display screen to be viewed by S3D, while unwanted portions can display the existing 2D image perfectly. That is, S3D can be displayed only in a specific window on one screen. In addition, it is irrelevant to arbitrarily adjust the size of the screen for the image of the S3D (in the conventional method, it is impossible to observe the S3D by arbitrarily adjusting the size of the S3D screen).

In addition, by using the information on the current display mode (resolution and vertical / horizontal frequency) in the microcomputer 140 of the display device, S3D can be observed regardless of the resolution and vertical / horizontal frequency without the image processing program 210. You will be able to enjoy clear S3D video. In addition, wired / wireless shuttering LCD glasses can be interfaced simultaneously, allowing multiple observers to enjoy S3D images on a single display device. That is, according to the present invention, a plurality of observers can enjoy a clear S3D image at any resolution, and can be mixed with a 2D image, thereby increasing its utility.

Claims (1)

The personal computer 200 includes an image processing program 210 for separating the left and right eye images formed in one image into the storage means to display the stereoscopic 3D image of the monitor through the left and right eye shuttering LCD glasses 300 and 400. In a method for displaying for viewing, the image processing program 210: An image file type discrimination step 211 for distinguishing and branching various S3D image files by easily classifying the number of image files according to whether they are independent images of left and right eyes; A left and right eye image separation step 212 that separates each of left and right eye images that coexist in one frame when the left and right eye images exist independently in the image file type discrimination step 211; An image processing step (213) of processing the image by using interpolation to obtain a smoother image of each of the left and right eye images obtained by separating the left and right eye images in the left and right eye image separation step (212); A timing information reading step 215 for reading a synchronization signal of the timing information 215 by using frame refresh rate information of frames in order to match alternating timings for displaying left and right eye images; The left and right eyes obtained by the image processing program 210 independently display each image alternately according to the vertical frequency of the monitor of the synchronization signal read out in the timing information reading step 215, and the image file type. In the distinguishing step 211, a left and right eye image display step 214 for displaying an image when the left and right eye images are non-independently present is configured to include an interlace method, a non-interlace method, a resolution, and a horizontal / vertical frequency. And a method of displaying a stereoscopic three-dimensional image, regardless of the size of the window of the S3D image, and enabling a mixed use of the 2D image and the S3D image.