Gamut evaluation of an n‐colour printing process with the minimum number of measurements |
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| Authors: | Kiran Deshpande Phil Green Michael R Pointer |
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| Affiliation: | 1. London College of Communication, University of the Arts London, London, United Kingdom;2. Colour and Visual Computing Laboratory, Gj?vik University College, Gj?vik, Norway;3. Colour, Imaging and Design Centre, University of Leeds, Leeds, United Kingdom |
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| Abstract: | The aim of this study was to use a minimum number of measured colour patches to evaluate the colour gamut of an n‐colour printing process. Traditionally, the colour gamut of a printing system has been derived by printing and then measuring a gamut target for example, a profiling chart. For an n‐colour printing (printing with more than four process inks), it is desirable to know the colour gamut of the given set of inks without having to print a large number of test patches. Different spectral printer models were used to predict the gamut of a 7‐colour printing process. The colorant space was divided into sectors each containing four inks. For each printer model, the colour gamut of the each four‐ink sector was predicted. All sector‐gamuts were then combined to predict the overall colour gamut of the n‐colour process. This predicted gamut was then compared with the gamut obtained by measurement using a gamut comparison index (GCI). The Yule–Nielsen modified spectral Neugebauer (YNSN) model gave the best accuracy, at the cost of a larger number of input measurements, than other models. A combination of the Kubelka–Munk (KM) and YNSN models performed well with the fewest input measurements. © 2014 Wiley Periodicals, Inc. Col Res Appl, 40, 408–415, 2015 |
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| Keywords: | colour gamuts n‐colour printing spectral printer models colour reproduction printing |
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