Session and scheduling information are listed below. Select a session from the list and press "Go" to view the abstracts for that session.
Session
70
: Light-Field 3D Display |
Display Systems
|
Thursday, May 16 / 01:30 PM - 2:50 PM / San Jose Convention Center, LL21EF
Chair:
Jean-Pierre Guillou, Apple, Inc., Cupertino, CA US
Co-Chair:
Sam Phenix, Phenix Consulting, Newcastle, United Kingdom
70.1 - A New Approach to High-Resolution Light-Field Displays for Higher Realistic Expression (1:30 PM - 1:50 PM)
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Hoon Kang, MyungSoo Park, JuHoon Jang, DongYeon Kim, GyoHyun Koo, GyuSuk Jung, HeeCheol Kim, GiHong Kim, JoonYoung Yang, SooYoung Yoon
LG Display, Co. Ltd. Seoul South Korea
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A new approach to a high-resolution, eye-tracking light-field display system is introduced. The small, rectangular, light-field pixel improves resolution compared to the conventional approach.
70.2 - Viewing Zone Enhancement of Coarse Integral Imaging Using Eye Tracking (1:50 PM - 2:10 PM)
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Hiroto Omori, Hideki Kakeya
University of Tsukuba Ibaraki Japan
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A method to expand the viewing zone in coarse integral imaging with small interleaved elemental lenses and utilizing eye tracking is proposed. The method involves generating elemental images based on the observer's viewing position, where the elemental images are shifted to follow the motion of the viewer.
70.3 - Wide Field-of-View Flat-Panel Lightfield Display (2:10 PM - 2:30 PM)
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Hsin-You Hou, Cheng-Huan Chen
National Yang Ming Chiao Tung University Hsinchu Taiwan Roc
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The use of an isolated microlens array (i-MLA) in conjunction with an extended coding-pitch algorithm to address crosstalk issues in a lenticular-type flat-panel lightfield display is proposed. This solution reduces constraints on the minimum viewing distance and expands the field of view without increasing the thickness of the display panel.
70.4 Late-News Paper: Integral 3D Display Using 2D Image Time-Division Multiplexing and Eye-Tracking Technologies (2:30 PM - 2:50 PM)
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Hayato Watanabe, Naoto Okaichi, Masanori Kano, Hisayuki Sasaki, Jun Arai
NHK (Japan Broadcasting Corporation) Tokyo Japan
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The researchers propose an integral three-dimensional (3D) display method using time-division multiplexing and eye-tracking technologies for enhancing the maximum pixel density and viewing-zone angle of 3D images. They prototype a display system and confirm that 3D images with high pixel density and wide viewing-zone angle can be displayed.