Abstract
Today, scanners are often promoted for color measurement applications. With a color scanner, it is possible, to some extent, to measure the color of objects if they are properly calibrated and characterized. The object of the present work is to study concentration estimation in single-component dyeing systems using a scanner. A new method is presented based on Cohen and Kappauf and single-constant Kubelka–Munk theories. The results showed a nonlinear transformation of the fundamental color stimulus that benefits from a good scalability could be applied for the aims of this study in specified illumination and viewing conditions with an adequate error range.
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