TH29680B - Methods and equipment for displaying videos - Google Patents

Abstract

DC60 (04/05/41) When displaying a two-dimensional video, the feeling of being front/back and the feeling of three-dimensional appearance will be opened up to be expressed. The Sd detection signal is generated by the high pass filter 25 and the rectifier 26 according to the amount of Sd detection edge data is fed to the variable delay circuit 14 L. The Sd' detection signal is fed to the circuit. Variable delay 14R The variable delay 14L and 14R are controlled according to the amount of edge information so that the video image for the left eye and the video image for the right eye are shifted in opposite directions, so the image in the image is synthesized from the display plane to the front or back of the video image. The right and left vision are shown on CRTs 20 L and 20R. The projection light will pass through. Filter for horizontal polarity 21L and filter for horizontal polarity 21R and video right. The right and left video images are observed separately by glasses 23, which have filters for separating 24L and 24R, and a sense of the three-dimensional appearance is enhanced. When displaying a two-dimensional video, the feeling of being front/back, and the feeling of a three-dimensional appearance are opened up to be expressed. The Sd detection signal is generated by the high pass filter 25 and the rectifier 26. According to the amount of edge data the Sd detection signal is fed to the variable delay circuit 14 L, the Sd' detection signal is fed to the circuit. Variable delay 14R The variable delay 14L and 14 R are controlled according to the amount of edge information to provide a video image for left-hand side. and the video for the right eye is shifted in opposite direction Therefore, the imaginary image is synthesized from the display plane to the front. On or behind the right and left video footage is shown. On CRTs 20 L and 20R, the projection light passes through the 21 L horizontal polarization filter and the 21R vertical polarization filter and the image. right side video and the left will be superimposed on the screen. 22 Video footage on the right. The left and right side are separately observed by the 23 glasses, which have 24L and 24R polarizing filters, and the three-dimensional sense of appearance is enhanced.

Claims (9)

1.Video display method of input video reception and generation of video signals. Which will be displayed on the display device Which consists of steps of Detecting edge information of the input video signal By determining the maximum value of the three primary colors of the said input video signal and detecting the front / back relationship of the subject in the video image of the input video signal. Depending on the edge information being detected 2. Method of video display according to claim 1, which also includes additional steps of Controlling the position of the image so that it is shifted horizontally based on the detected front / rear relationship and the video display in which the right / left view is shifted. Was created because of that control 3. Method of video display according to claim 1, which also includes additional steps of Modulation of the three-dimensional depth information based on the detected anterior / posterior relationship and the visualization of video images containing information in the modulated depth as follows. say 4. Method of video display according to claim 1, where such edge information is the slope and edge amplitude in the said input video signal. 5. Video display method according to claim 1, where such information is detected by determining the maximum value among the high-frequency components of the three-color signal of the input video signal. 6. How to display videos according to Claim 5, the information above. It was detected by looking at the highest value among the rectified high frequency components of that three primary color signal. 7. How to display video according to claim 1, where such edge information will be detected by the luminance in the color video signal. 8. A video display device for receiving video signals and generating video signals that will be displayed on display devices. The edge information of the input video signal is detected by determining the highest value among the three primary colors of the input video signal and the relationship between the front. / The rear of the subject in the video image will be detected based on the said edge information 9. Equipment according to claim 8, the video display device is a projection type display device. Two cathode ray tubes (CRTs) were used for projectors 1 0. Device in accordance with claim 8, in which the video display device was a single cathode ray tube (CRT), where the process speed Two times the field was handled to the input video signal 1. 1. Device according to claim 8, the video display device is a glasses-type liquid crystal display device 1. 2. Video display device. For video reception And displaying video images on display devices including A sensing method for detecting edge information of such input video signals by determining the highest value among the three primary colors of that input video signal. And detects the relationship between the front / back of the subject in the video image depending on the said edge information; and A path for controlling the position of the image so that it is moved in a horizontal direction depending on the detected front / rear relationship. Where the right / left side view videos that are created due to the controls are displayed 1 3. Equipment according to claim 12, in which the video display device is a device. Displays a type of projection display using two cathode ray tubes (CRTs) for the projector 1 4. Device according to claim 12 in which the video display device is a single cathode ray tube (CRT). Where a field twice-speed process is performed to the input video signal 1 5. Device according to claim 12, the video display device is a glasses-type liquid crystal display device. 1 6.Video display equipment for video reception and for displaying video images on a display device consisting of A path for detecting edge information of such input video signals. By determining the maximum value among the three primary colors of the said input video signal and the path for modulating the depth information in the form of three-dimensional information based on the detectable edge information. Where the video with the modulated depth information is displayed 1 7. Device according to claim 16, which the video display device is a projection display device using a ray tube. Two-tube thodes (CRT) for projector 1 8. Device according to claim 16, in which the video display device is a cathode ray tube (CRT), where a field double speed process is performed to the input 1 video signal. 9. Equipment according to claim 16, the video display device is a type of glasses liquid crystal display device. It is a kind of glasses-type liquid crystal display device (13 claims, 3 pages, 15 photos).