Title :
Figures of merit for color scanners
Author :
Sharma, Gaurav ; Trussell, H. Joel
Author_Institution :
Xerox Corp., Webster, NY, USA
fDate :
7/1/1997 12:00:00 AM
Abstract :
In the design and evaluation of color scanners and cameras, it is useful to have a single figure of merit that closely agrees with perceived color accuracy. In the past, several measures of goodness for color scanning filters have been proposed to fulfil such a requirement. Most of the proposed measures have had shortcomings in that they are either based on error metrics in color spaces that are not perceptually uniform, or in that they do not take into account the effects of measurement noise. An extension of the most promising measure, based on linearized CIELAB space, is proposed to obtain a new figure of merit that has a high degree of perceptual relevance and also accounts for the varying noise performance of different filters. The paper also provides a common framework for the different figures of merit and a comprehensive comparison of their computational complexity and reliability
Keywords :
cameras; colorimetry; computational complexity; error analysis; image colour analysis; image scanners; noise; optical filters; visual perception; color cameras; color scanners; color scanning filters; color spaces; computational complexity; error metrics; figures of merit; human visual system; linearized CIELAB space; measurement noise; noise performance; perceived color accuracy; reliability; visual perception; Cameras; Colored noise; Extraterrestrial measurements; Filters; Humans; Magneto electrical resistivity imaging technique; Noise figure; Noise measurement; Q factor; Visual system;
Journal_Title :
Image Processing, IEEE Transactions on
