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IMAGING
2004

Extending Printing Color Gamut by Optimizing the Spectral Reflectance of Inks

14 years 25 days ago
Extending Printing Color Gamut by Optimizing the Spectral Reflectance of Inks
A computer simulation was performed to investigate the optimum combinations of three- and four-chromatic inks in order to maximize the color gamut for halftone printing. A virtual printing model was created based on the YuleNielsen-spectral-Neugebauer equations and Kubelka-Munk turbid media theory and was used to predict the spectral reflectances and colorimetric coordinates of prints. In this manner, the spectral properties of a printer's entire color gamut were predicted from the spectral properties of ink and paper. A new method was developed to derive plausible ink spectral properties based on two Gaussian functions. The results showed that the optimum three-chromatic inks, as expected, were cyan, magenta and yellow. For four chromatic inks, several optimal results were found.
Yongda Chen, Roy S. Berns, Lawrence A. Taplin
Added 31 Oct 2010
Updated 31 Oct 2010
Type Conference
Year 2004
Where IMAGING
Authors Yongda Chen, Roy S. Berns, Lawrence A. Taplin
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