Title :
Practical Non-linear Photometric Projector Compensation
Author :
Grundhofer, Anselm
Author_Institution :
Disney Res. Zυrich, Zϋrich, Switzerland
Abstract :
We propose a novel approach to generate a high quality photometric compensated projection which, to our knowledge, is the first one, which does not require a radiometrical pre-calibration of cameras or projectors. This improves the compensation quality using devices which cannot be easily linearized, such as single chip DLP projectors with complex color processing. In addition, the simple workflow significantly simplifies the compensation image generation. Our approach consists of a sparse sampling of the projector´s color gamut and a scattered data interpolation to generate the per-pixel mapping from projector to camera colors in real-time. To avoid out-of-gamut artifacts, the input image is automatically scaled locally in an optional off-line optimization step maximizing the achievable luminance and contrast while still preserving smooth input gradients without significant clipping errors.
Keywords :
brightness; cameras; compensation; image colour analysis; image sampling; interpolation; optical projectors; optimisation; photometry; camera; clipping error; complex color gamut processing; image generation; luminance; nonlinear photometric projector compensation; optional off-line optimization step maximization; out-of-gamut artifact; per-pixel mapping generation; photometric compensated projection; radiometrical pre-calibration; scattered data interpolation; single chip DLP projector; smooth input gradient preservation; sparse sampling; Calibration; Cameras; Image color analysis; Interpolation; Optimization; Radiometry; Real-time systems;
Conference_Titel :
Computer Vision and Pattern Recognition Workshops (CVPRW), 2013 IEEE Conference on
Conference_Location :
Portland, OR
DOI :
10.1109/CVPRW.2013.136
