We present different computational strategies for colorimetric characterization of scanners using multidimensional polynomials. The designed strategies allow us to determine the coefficients of an a priori fixed polynomial, taking into account different color error statistics. Moreover, since there is no clear relationship between the polynomial chosen for the characterization and the intrinsic characteristics of the scanner, we show how genetic programming could be used to generate the best polynomial. Experimental results on different devices are reported to confirm the effectiveness of our methods with respect to others in the state of the art.
Bianco, S., Gasparini, F., Schettini, R., Vanneschi, L. (2008). Polynomial modeling and optimization for colorimetric characterization of scanners. JOURNAL OF ELECTRONIC IMAGING, 17(4) [10.1117/1.2982004].
Polynomial modeling and optimization for colorimetric characterization of scanners
BIANCO, SIMONE;GASPARINI, FRANCESCA;SCHETTINI, RAIMONDO;VANNESCHI, LEONARDO
2008
Abstract
We present different computational strategies for colorimetric characterization of scanners using multidimensional polynomials. The designed strategies allow us to determine the coefficients of an a priori fixed polynomial, taking into account different color error statistics. Moreover, since there is no clear relationship between the polynomial chosen for the characterization and the intrinsic characteristics of the scanner, we show how genetic programming could be used to generate the best polynomial. Experimental results on different devices are reported to confirm the effectiveness of our methods with respect to others in the state of the art.
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