Description
A psychophysical evaluation was performed to test the quality of several color gamut mapping algorithms. The task was to determine which mapping strategy produced the best matches to the original image. Observer preference was not considered. The algorithms consisted of both device dependent and image-dependent mappings. Three types of lightness scaling functions (linear compression, chroma weighted linear compression, and image dependent sigmoidal compression) and four types of chromatic mapping functions were tested (linear compression, knee-point compression, "sigmoidlike " compression, and clipping). The source and destination devices considered were a monitor and a plain-paper inkjet printer respectively. The results showed that, for all of the images tested, the algorithms that used image-dependent sigmoidal lightness remapping functions produced superior matches to those that utilized linear lightness scaling. In addition, the results support using chromatic compression functions that were closely related to chromatic clipping functions.
Date of creation, presentation, or exhibit
1999
Document Type
Conference Paper
Department, Program, or Center
Chester F. Carlson Center for Imaging Science (COS)
Recommended Citation
G.J. Braun and M.D. Fairchild, "Gamut Mapping for Pictorial Images," TAGA Proceedings, 645-660 (1999).
Campus
RIT – Main Campus
Comments
Presented at the Technical Association of the Graphic Arts Annual Technical Conference 1999.
Note: imported from RIT’s Digital Media Library running on DSpace to RIT Scholar Works in February 2014.