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Proceedings Paper

Interpolating vertical parallax for an autostereoscopic 3D projector array
Author(s): Andrew Jones; Koki Nagano; Jing Liu; Jay Busch; Xueming Yu; Mark Bolas; Paul Debevec
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Paper Abstract

We present a technique for achieving tracked vertical parallax for multiple users using a variety of autostereoscopic projector array setups, including front- and rear- projection, and curved display surfaces. This hybrid parallax approach allows for immediate horizontal parallax as viewers move left and right and tracked parallax as they move up and down, allowing cues such as 3D perspective and eye contact to be conveyed faithfully. We use a low-cost RGB-depth sensor to simultaneously track multiple viewer head positions in 3D space, and we interactively update the imagery sent to the array so that imagery directed to each viewer appears from a consistent and correct vertical perspective. Unlike previous work, we do not assume that the imagery sent to each projector in the array is rendered from a single vertical perspective This lets us apply hybrid parallax to displays where a single projector forms parts of multiple viewers’ imagery. Thus, each individual projected image is rendered with multiple centers of projection, and might show an object from above on the left and from below on the right. We demonstrate this technique using a dense horizontal array of pico-projectors aimed into an anisotropic vertical diffusion screen, yielding 1.5° angular resolution over 110° field of view. To create a seamless viewing experience for multiple viewers, we smoothly interpolate the set of viewer heights and distances on a per-vertex basis across the array’s field of view, reducing image distortion, crosstalk, and artifacts from tracking errors.

Paper Details

Date Published:
Proc. SPIE 9011, Stereoscopic Displays and Applications XXV, 901107; doi: 10.1117/12.2042579
Show Author Affiliations
Andrew Jones, USC Institute for Creative Technologies (United States)
Koki Nagano, USC Institute for Creative Technologies (United States)
Jing Liu, USC Institute for Creative Technologies (United States)
Univ. of California, Santa Cruz (United States)
Jay Busch, USC Institute for Creative Technologies (United States)
Xueming Yu, USC Institute for Creative Technologies (United States)
Mark Bolas, USC Institute for Creative Technologies (United States)
Paul Debevec, USC Institute for Creative Technologies (United States)

Published in SPIE Proceedings Vol. 9011:
Stereoscopic Displays and Applications XXV
Andrew J. Woods; Nicolas S. Holliman; Gregg E. Favalora, Editor(s)

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