KR100855040B1 - 3d lcd monitor control system - Google Patents

Abstract

A 3D LCD(Liquid Crystal Display) monitor control system is provided to automatically display a 3D image on a monitor by analyzing a 3D image pattern on an output image from a PC and providing the analyzed result to the monitor. A PC(Personal Computer) main body(10) includes an image recognizing unit(11), an image position determining unit(12), a 3D image pattern determining unit(13), an image signal generator(14), a signal transmitter(15), and a controller(19). The image recognizing unit recognizes information on an image and moving pictures from the information delivered to a monitor in real-time and stores displayed image and moving pictures in a 3D image database(20). The image position determining unit receives position coordinates of the displayed image and moving pictures and stores the coordinates in an image position database(21). The image position determining unit generates a position signal, which is delivered to the monitor. The 3D image pattern determining unit includes a left/right image determining unit(16), an up/down image determining unit(17), and an interlaced image determining unit(18).

Description

3D LCD MONITOR CONTROL SYSTEM

1 is a schematic diagram of a 3D LCD monitor control system according to the present invention;

Figure 2 is a block diagram of a 3D LCD monitor control system located in the main body according to the present invention.

3 is a block diagram of a 3D LCD monitor control system located in the monitor.

<Explanation of symbols for main parts of drawing>

10: PC body 11: Image recognition unit

12: image position check unit 13: 3D image pattern check unit

14: video signal generator 15: signal transmission unit

16: Left / Right image confirmation unit 17: Up / Down image confirmation unit

18: interlace image check unit 30: monitor

31: stereoscopic image conversion unit 32: stereoscopic image output unit

33: three-dimensional panel drive unit 35: three-dimensional panel

The present invention analyzes a 3D pattern of an image or a video output from a PC main body and provides an analysis result to the monitor to automatically operate a three-dimensional panel corresponding to the 3D pattern on the monitor to automatically display a 3D image according to the pattern of the image. The 3D LCD monitor control system for displaying the display.

In general, there are physiological and empirical factors in which a person feels a three-dimensional effect, and in three-dimensional image display technology, a three-dimensional effect of an object is generally determined by using a binocular parallax, which is the biggest factor that recognizes a three-dimensional effect at a short distance. Express There are two methods of using binocular disparity, an eyeglass method for wearing glasses and an autostereoscopy for not wearing glasses.

The glasses method is an anaglyph method that uses blue and red sunglasses on both eyes, a polarization method that uses polarized glasses with different polarization directions, and an electronic shutter synchronized with this period by periodically repeating the time-divided screen. There is a time division method of wearing glasses installed. However, the method of wearing glasses has problems such as inconvenience of wearing glasses and trouble in observing an object other than an image while wearing glasses.

The glasses-free method is a device that does not require a special device, so that the left and right images can be spatially separated to view a stereoscopic image, and there are representative methods using a lenticular lens array and a parallax barrier.

The Parallax Barrier system arranges the Parallax Barrier formed by repeatedly arranging transparent slits and opaque parts in front of the monitor so that when the viewer is a 3D image, the image displayed on the monitor through the transparent slit of the Parallax Barrier is three-dimensional. One way to see it.

Meanwhile, the 3D image is created as a 3D image or a 3D video of left / right stereo type, top / bottom stereo type, frame sequential stereo type and interlaced stereo type, and displayed on a monitor through a PC main body. When displayed, a button is operated when a user drives a parallax barrier of a monitor suitable for a type of 3D image to display a stereoscopic image.

However, this method is inconvenient for the user to check whether the image or video displayed on the monitor is converted to 3D video, and even manually operate a barrier operation button suitable for each type even in the case of 3D video. .

The present invention is to solve this problem, an object of the present invention is to analyze the 3D pattern of the image or video output from the PC main body to provide the analysis results to the monitor to automatically correspond to the 3D pattern on the monitor The present invention provides a 3D LCD monitor control system that operates a panel to automatically display a 3D image according to an image pattern.

Another object of the present invention is to provide a 3D LCD monitor control system that can determine whether the 3D image by extracting and matching edge information by applying Canny Edge Detection by buffering the image information provided from the PC main body in the monitor have.

Another object of the present invention is to provide a 3D LCD monitor control system that is provided with the size and position information when displayed in 2D to display an image or video converted into a 3D image at the same size and position as the 2D image.

The 3D LCD monitor control system according to the present invention for achieving the above objects includes a monitor connected to the PC body and the DDC line through the clock line (SCL) and the signal line (SDA), the three-dimensional panel is formed on the surface,

The PC body

An image recognizing unit recognizing information on an image displayed among information provided to the monitor; An image position checking unit which checks a display position of an image recognized by the image recognition unit, recognizes coordinate information about the display position, and generates and stores a position signal for a position output to the monitor; A 3D image pattern checking unit which checks whether the image recognized by the image recognition unit corresponds to any one of a left / right stereo type image, an up / down stereo type, and an interlace stereo type 3D image; An image signal generator for generating a pattern signal suitable for the pattern of the 3D image identified by the 3D image pattern checker, and generating a position signal of the image recognized by the image position checker; And a signal transmitter configured to match the pattern signal generated by the image signal generator and the position signal to correspond to the 3D image and transmit the pattern signal to the monitor.

The monitor

A stereoscopic image converting unit configured to convert a 2D image into a 3D image by operating the stereoscopic panel of the monitor according to the pattern signal provided from the signal transmitting unit of the PC main body; A stereoscopic image output unit configured to output the 3D image converted by the stereoscopic image conversion unit to a size corresponding to a position and a size corresponding to a position signal of the stereoscopic signal generator; And a three-dimensional panel driver for operating a three-dimensional panel when the pattern signal is received from the signal transmission unit.
The 3D image pattern check unit
By extracting only the brightness value of the image from the image recognized by the image recognition unit, the left region and the right region are regarded as the respective images, and the difference image is obtained. The left region and the right region are obtained. A left / right image identification unit for recognizing a 3D image of left / right stereo system when the brightness value of each region of the region becomes similar and the average value of each pixel difference is less than 30%; From the image recognized by the image recognition unit, the top region and the bottom region of the image are regarded as respective images, and a difference image between pixels is obtained by obtaining a difference image between pixels. An upper / lower image identification unit for recognizing an image having an average value of less than or equal to 3D image of a stereo image; And from the image recognized by the image recognition unit, the odd lines of the image are arranged in the left region in the order of top to bottom, and the even lines are arranged in the right region of the image, and then the brightness value of each image ( After extracting Brightness, Canny Edge detection is performed. In the case of less than 32%, one of the interlaced image checking unit recognizes the interlaced stereoscopic 3D image.

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The 3D image may be a 3D image or a 3D video.

Preferably, the stereoscopic image converting unit converts a left / right pattern into a 3D image when the 3D image is a left / right stereo pattern, and an up / down pattern when the 3D image is a top / bottom stereo pattern. When the 3D image is an interlaced stereo pattern, the interlaced stereo pattern is converted into a 3D image.

The stereoscopic image output unit may output the 3D image in the same size as the pre-conversion image.

Hereinafter, a 3D LCD monitor control system of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a 3D LCD monitor control system according to the present invention, Figure 2 is a block diagram of a 3D LCD monitor control system located in the main body according to the present invention, Figure 3 is a 3D LCD monitor control system located in the monitor Is a block diagram of.

As shown in FIG. 1, the 3D LCD monitor control system according to the present invention checks whether an image or a video, such as an image or a video, displayed through an application program in real time on a PC main body 10 is a 2D image or a 3D image. When the displayed image is a 3D image, the pattern and position information of the 3D image are transmitted to the monitor 30. The monitor 30 automatically operates the stereoscopic panel 35 of the monitor according to the pattern of the 3D image received through the clock line SCL and the signal line SDA of the DDC line to display the 3D image automatically.

As shown in FIG. 2, the PC main body 10 of the present invention includes an image recognition unit 11, an image positioning unit 12, a 3D image pattern checking unit 13, an image signal generating unit 14, and a signal. It includes a transmission unit 15 and a control unit 19.

The image recognition unit 11 of the PC main body 10 recognizes information on an image or a video among various information transmitted to the monitor 30 in real time, and stores the image or video displayed on the 3D image DB 20. . For example, it detects the operation of an image viewer or a media player such as ACDC, which displays an image, or a media player that displays a video, recognizes information about the displayed image or video, and also displays an image or video displayed in Explorer over the Internet. Recognize information about and save temporarily.

When the image positioning unit 12 recognizes the image or video displayed on the image recognition unit 11, the image position receiving unit 12 receives the position coordinates of the displayed image or video, stores it in the image position DB 21, and transmits it to the monitor. Generate a position signal. For example, when an image viewer or a media player on which an image or a video is displayed is displayed, it provides its own location information, thereby storing the received location information and generating a location signal for transmission to a monitor.

The 3D image pattern checking unit 13 is a pattern of any one of the image recognized by the image recognition unit 11, the image of the left / right stereo system, the upper / lower stereo system, and the frame sequential stereo system and interlaced stereo 3D image Check if it applies to

The 3D image pattern checker 13 includes a left / right image checker 16, an upper / lower image checker 17, and an interlace image checker 18.
The left / right image checking unit 16 of the 3D image pattern checking unit 13 extracts only the brightness value of the image and regards the left and right regions as the respective images, and determines the difference image between the two images. In this case, when the left and right images are mixed, the brightness values for each position of the left and right regions are similar, so when the average value of the difference of each pixel is less than 30%, it is recognized as a 3D image of the left and right stereo system. Can be.

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The upper / lower image checking unit 17 regards the top area and the bottom area of the image as the respective images and obtains the difference image between pixels, similarly to the left / right image checking unit 16. In the case where the upper and lower images are mixed, the average value of the difference of each pixel is lowered due to the similar brightness difference between the positions, and thus, when the average value is 30% or less, it can be recognized as the 3D image of the upper and lower stereo methods.

The interlaced image checking unit 18 arranges the video image in the form of a left / right type image. The odd lines are arranged in the left area from the top to the bottom, and the even lines are arranged in the right area. After extracting the brightness value of each image, the edge of the left region is the result of Canny Edge detection, which is an edge detection algorithm with thin edge and directionality. When the degree of matching of each edge is less than or equal to 32%, it may be recognized as an interlaced stereoscopic 3D image.

Accordingly, whether the image or video displayed in real time while passing through the image pattern recognition unit 13 has a left / right stereo type 3D image pattern, or has an up / down stereo type 3D image pattern and an interlaced stereo type. It is easy to check whether the 3D image pattern of.

The video signal generator 14 generates a pattern signal suitable for the displayed 3D video pattern when the 3D video pattern for the image or video displayed in real time is confirmed by the 3D video pattern checker 13. For example, left / right stereo type 3D video generates left / right pattern signals, and up / down stereo type 3D video generates up / down pattern signals, and interlaced stereo type 3D video generates interlaced pattern signals. Generates. In this case, the pattern signal generated by the image signal generator 14 may be temporarily stored in the image signal DB 22.

The signal transmitting unit 15 stores the pattern signal generated by the image signal generating unit 14 and the above-mentioned signal generated by the image positioning unit 12 in the 3D image DB 20 of the image recognition unit 11. And transmits to the monitor 30 while matching corresponding to.

And the control part 19 controls the data flow in each part.

As shown in FIG. 3, the monitor 30 of the present invention includes a stereoscopic image converting unit 31, a stereoscopic image output unit 32, and a stereoscopic panel driver 33.

The stereoscopic image conversion unit 31 operates the stereoscopic panel of the monitor according to the pattern signal of the signal transmission unit 15 received through the clock line SCL and the signal line SDA of the DDC line connected to the PC main body 10. Convert 2D video to 3D video. For example, when the left / right pattern signal is transmitted from the stereoscopic image converting unit 31, the stereoscopic panel is operated to be suitable for the left / right stereo system, and when the up / down pattern signal is transmitted, the stereoscopic panel is adapted to the up / down stereo system. The three-dimensional panel is operated. When the interlaced pattern signal is transmitted, the three-dimensional panel is operated to be suitable for the interlaced stereo system.

The stereoscopic image output unit 32 corresponds to the size and position corresponding to the position signal generated by the image positioning unit 12 for the image converted into the 3D image by the stereoscopic panel converted by the stereoscopic image conversion unit 31. Output in size. Accordingly, an image or a video output in 3D can be accurately displayed on an output screen of an image viewer or a media player that is displayed.

The three-dimensional panel driver 33 operates the three-dimensional panel when the pattern signal is received from the signal transmission unit 15. That is, since the stereoscopic panel driver 33 operates the stereoscopic panel in conjunction with the pattern signal transmitted when the 3D image is transmitted to the monitor, the user does not need to operate the stereoscopic panel through a separate button as in the conventional monitor.

Although the preferred embodiments of the present invention have been described in detail above, those of ordinary skill in the art to which the present invention pertains may implement the present invention by various modifications or design changes without departing from the scope of the claims. In case it is regarded as the scope of the present invention.

As described above, the 3D LCD monitor control system according to the present invention analyzes a 3D image pattern of an image or a video output from a PC main body and provides the monitor to a 3D panel corresponding to the 3D image pattern on the monitor. It can be used to display 3D images even if the pattern is automatically changed.

In addition, there is an advantage that can match the 3D image by extracting and matching the edge information by applying Canny Edge Detection to the image without any display.

In addition, since the size and position information when the 2D image is displayed is provided, there is an advantage that the size and position of the image or video converted to the 3D image can be displayed in the same manner as the 2D image.

Claims (6)

delete delete It includes a monitor connected to the PC main body and the DDC line through the clock line (SCL) and the signal line (SDA), the three-dimensional panel formed on the surface, The PC body An image recognizing unit recognizing information on an image displayed among information provided to the monitor; An image position checking unit which checks a display position of an image recognized by the image recognition unit, recognizes coordinate information about the display position, and generates and stores a position signal for a position output to the monitor; A 3D image pattern checking unit which checks whether the image recognized by the image recognition unit corresponds to any one of a left / right stereo type image, an up / down stereo type, and an interlace stereo type 3D image; An image signal generator for generating a pattern signal suitable for the pattern of the 3D image identified by the 3D image pattern checker, and generating a position signal of the image recognized by the image position checker; And a signal transmitter configured to match the pattern signal generated by the image signal generator and the position signal to correspond to the 3D image and transmit the pattern signal to the monitor. The monitor A stereoscopic image converting unit configured to operate the stereoscopic panel of the monitor according to the 3D image system according to the pattern signal provided from the signal transmitting unit of the PC main body; A stereoscopic image output unit configured to output the 3D image converted by the stereoscopic image converting unit to a size corresponding to a position and a size corresponding to a position signal of the image signal generating unit; And a three-dimensional panel driver for operating a three-dimensional panel when the pattern signal is received from the signal transmission unit. The 3D image pattern check unit By extracting only the brightness value of the image from the image recognized by the image recognition unit, the left region and the right region are regarded as the respective images, and the difference image is obtained. The left region and the right region are obtained. A left / right image identification unit for recognizing a 3D image of left / right stereo system when the brightness value of each region of the region becomes similar and the average value of each pixel difference is less than 30%; From the image recognized by the image recognition unit, the top region and the bottom region of the image are regarded as respective images, and a difference image between pixels is obtained by obtaining a difference image between pixels. An upper / lower image identification unit for recognizing an image having an average value of less than or equal to 3D image of an up / down stereo system; And From the image recognized by the image recognition unit, odd lines of the image are arranged in the left area in the order of top to bottom, and even lines are arranged in the right area of the image, and then brightness values of the respective images are arranged. After edge extraction, the edge of the left region of the right region is 32 matching the result of Canny Edge detection, which is an edge detection algorithm with thin edge thickness and directionality. If less than% 3D LCD monitor control system, characterized in that it comprises any one of the interlaced video identification unit to recognize the interlaced stereoscopic 3D video. The 3D LCD monitor control system of claim 3, wherein the 3D image is a 3D image or a 3D video. The stereoscopic image converter of claim 3, wherein the stereoscopic image converting unit operates the stereoscopic panel so that the left and right patterns are converted to the 3D image when the 3D image is a left / right stereo pattern, and the 3D image is an up / down stereo system. 3D LCD characterized in that the three-dimensional panel is operated so that the upper and lower patterns are converted to the 3D image in the case of the pattern, and the interlaced stereo pattern is converted into the 3D image when the 3D image is an interlaced stereo pattern. Monitor control system. The 3D LCD monitor control system of claim 3, wherein the 3D image output unit outputs the 3D image in the same size as the image before conversion.

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