Depth perception for moving images shown on a large LED display with an aperture grille

Yamamoto, Hirotsugu; Nishimura, H.; Uchida, Keigo; Ono, Kasai; Hayasaki, Yoshio; Suyama, Shiro

doi:10.1889/jsid17.12.1031

Cited by 7 publications

(7 citation statements)

References 18 publications

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“…A device used for the experiment a high-speed LED display system ( Fig. 7) that capable of displaying full color images at an arbitrary frame rate of 960/k fps where k is a positive integer representing consecutive repeated frame number [23]. In order to input display data numerically and output it, experiment was carried out under the condition that γ = 1.0 and gamma inverse correction is not performed.…”

Section: Experiments On Our Proposed Micro-rotation Subsamplingmentioning

confidence: 99%

Subjective Super-Resolution Model on Coarse High-Speed LED Display in Combination with Pseudo Fixation Eye Movements

Tokimoto

Tokimoto²,

Fujii

et al. 2019

IEICE Trans. Electron.

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Section: Experiments On Our Proposed Micro-rotation Subsamplingmentioning

confidence: 99%

Subjective Super-Resolution Model on Coarse High-Speed LED Display in Combination with Pseudo Fixation Eye Movements

Tokimoto

Tokimoto²,

Fujii

et al. 2019

IEICE Trans. Electron.

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“…We have also investigated variation of parallax barrier patterns: by rotating the parallax barrier, multiple images are provided according to the viewing distance [8] . Furthermore, we have discovered a new depth perception that was given by viewing LEDs through apertures [9] .…”

Section: Introductionmentioning

confidence: 99%

Large stereoscopic LED display by use of parallax barrier of aperture grille type (Invited Paper)

Yamamoto¹,

Nishimura²,

T³

et al. 2014

中国光学快报

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We propose a large parallax barrier by use of aperture grille. Main advantages of using aperture grille include no reflection and no absorption in apertures, as well as wide viewing angle. These advantages are investigated with theoretical calculations and experiments by use of several kinds of LED panels, such as a fine-pitch LED panel and a 140-inch large LED panel. Limitations of viewing angle by parallax barrier are analyzed in conventional black stripes on a transparent substrate type and in aperture grille type. Experimental results show use of aperture grille increases contrast and reduce reflection on the aperture surface.

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“…Parallax barrier enables stereoscopic large LED display without eyewear 1,2 and depth perception for a moving picture that is taken with a monocular camera. 3 Viewer's movements are induced by changing the stereoscopic viewing zones. 4 Recently, a high-frame-rate LED display has been developed to interpolate black regions masked by the parallax barrier.…”

Section: Introductionmentioning

confidence: 99%

Aerial 3D LED display by use of retroreflective sheeting

Yamamoto

Suyama

2013

SPIE Proceedings

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We propose a new optical configuration to form aerial 3D LEDs by use of retroreflective sheeting. The proposed configuration is composed of LEDs, a half mirror, and retroreflective sheeting. A half of the LED lights are reflected by the half mirror and impinge on the retroreflective sheeting. The retroreflective sheeting reflects the lights back to their sources. On the way to the sources, a half of the lights transmit through the half mirror and form the real images of LEDs. Although less than 25 % of the output lights are contributed to the aerial image, recent LED panels have enough luminance to enjoy the aerial image with a quarter of the luminance. We have made a prototype of the proposed aerial LED display. An aerial image of the LED panel has been successfully formed in free space. Its viewing angle was significantly improved compared to the aerial display by use of crossed mirrors, which limit the viewing angle by aperture size and height of mirror walls. The viewing angle in the proposed configuration is mainly limited by the size of the retroreflective sheeting. Furthermore, by using LEDs in different depths, we realized an aerial 3D display in free space.

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Depth perception for moving images shown on a large LED display with an aperture grille

Cited by 7 publications

References 18 publications

Subjective Super-Resolution Model on Coarse High-Speed LED Display in Combination with Pseudo Fixation Eye Movements

Subjective Super-Resolution Model on Coarse High-Speed LED Display in Combination with Pseudo Fixation Eye Movements

Large stereoscopic LED display by use of parallax barrier of aperture grille type (Invited Paper)

Aerial 3D LED display by use of retroreflective sheeting

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