Radiometric Compensation through Inverse Light Transport

Author

Wetzstein, Gordon ; Bimber, Oliver

Author_Institution

Univ. of British Columbia, Vancouver

fYear

2007

fDate

Oct. 29 2007-Nov. 2 2007

Firstpage

391

Lastpage

399

Abstract

Radiometric compensation techniques allow seamless projections onto complex everyday surfaces. Implemented with projector-camera systems they support the presentation of visual content in situations where projection-optimized screens are not available or not desired - as in museums, historic sites, air-plane cabins, or stage performances. We propose a novel approach that employs the full light transport between projectors and a camera to account for many illumination aspects, such as interreflections, refractions, shadows, and defocus. Precomputing the inverse light transport in combination with an efficient implementation on the GPU makes the real-time compensation of captured local and global light modulations possible.

Keywords

cameras; computer graphic equipment; computer graphics; optical projectors; GPU; complex everyday surfaces; global light modulation; illumination; inverse light transport; local light modulation; projector-camera systems; radiometric compensation; seamless projections; visual content; Application software; Calibration; Cameras; Computer graphics; Geometry; Layout; Lighting; Optical modulation; Optical refraction; Radiometry;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Graphics and Applications, 2007. PG '07. 15th Pacific Conference on

Conference_Location

Maui, HI

ISSN

1550-4085

Print_ISBN

978-0-7695-3009-3

Type

conf

DOI

10.1109/PG.2007.47

Filename

4392749