Session and scheduling information are listed below. Select a session from the list and press "Go" to view the abstracts for that session.
Session
86
: Glasses-Free 3D Display |
Display Systems
|
Friday, May 17 / 09:00 AM - 10:00 AM / San Jose Convention Center, LL21EF
Chair:
David Eccles, Consultant, Salt Lake City, UT US
Co-Chair:
Zong Qin, Sun Yat-Sen University, Guangzhou, China
86.1 - An Eye-Tracking Method to Extend the Viewing Zone in Multiview 3D Displays (9:00 AM - 9:20 AM)
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Philip Surman, Xiao Wei Sun
SUSTech Shenzhen China
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Zhenwei Yao
Huawei Shenzhen China
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A multi-view 3D display with view numbers adjustable with eye tracking is proposed. A viewing angle of more than 60 degrees is demonstrated based on a 32-in. 8K panel and a simple eye tracker, enabling high resolution and smooth motion parallax for higher freedom of movement for viewers.
86.2 - Spatial Reality Display System Based on Eye Tracking and Pixel Interleaving Technology (9:20 AM - 9:40 AM)
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Xitong Ma, Tingting Wang, Xin Li, Shuguo Zhang, Ran Duan, Xing Zhou, Zheyuan Song, Xingqun Jiang
BOE Technology Group Co., Ltd. Beijing China
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A glasses-free 3D display system using a 31.5-in. 8K panel is presented. Raytracing accuracy is improved through eye tracking. The overall system latency is reduced by an in-house synchronization technology considering asynchronous delays between camera acquisition, eye tracking, and content generation. Specific optimizations are performed for mobile and wide-angle scenes.
86.3 - Binocular Camera Eye-Tracking Algorithm for Naked-Eye 3D Display (9:40 AM - 10:00 AM)
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Tingting Wang, Xiaojun Tang, Zhexi Li, Junmin Sun, Zeyu Shangguan, Congrui Wu, Darun Tang, Yuyu Liu, Xingqun Jiang
BOE Technology Group Co., Ltd. Beijing China
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An eye-tracking method based on binocular cameras is proposed for glasses-free 3D displays. Disparity-based inter-pupillary distances and the head posture acquired from facial landmark points determine pupils’ spatial coordinates. A collaborative filtering approach further mitigates the jitter in pupil position. The proposed method enhances eye-tracking performance compared with the monocular practice.