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Ralph Evans, B. Swenholt (1967)
Chromatic strength of colors: dominant wavelength and purity.Journal of the Optical Society of America, 57 11
Y. Nayatani (1995)
Revision of the chroma and hue scales of a nonlinear color‐appearance modelColor Research and Application, 20
Y. Nayatani, Hideki Sakai (2008)
A relationship between zero‐grayness luminance by Evans and perceived brightness of spectrum colorsColor Research and Application, 33
K. Ikeda (2001)
Non-linear Uniform Colour Space Considering Non-linearity and Non-symmetry in Opponent Colour Response MechanismsJournal of Light & Visual Environment, 25
Y. Nayatani, Hitoshi Komatsubara (2005)
Relationships among chromatic tone, perceived lightness, and degree of vividnessColor Research and Application, 30
Y. Nayatani (2004)
Proposal of an opponent‐colors system based on color‐appearance and color‐vision studiesColor Research and Application, 29
Hideki Sakai, Y. Nayatani (2007)
A comment about the chroma scale of Nayatani-theoretical color order systemColor Research and Application, 32
Y. Nayatani, Hideki Sakai (2008)
An integrated color-appearance model using CIELUV and its applicationsColor Research and Application, 33
Y. Nayatani (2003)
A modified opponent‐colors theory considering chromatic strengths of various huesColor Research and Application, 28
R. Hunt (1982)
A model of colour vision for predicting colour appearanceColor Research and Application, 7
Y. Nayatani (2005)
Why two kinds of color order systems are necessaryColor Research and Application, 30
Y. Nayatani, H. Sobagaki, Kenjiro Hashimoto (1994)
Existence of two kinds of representations of the helmholtz‐kohlrausch effect. I. the experimental confirmationColor Research and Application, 19
Y. Nayatani (2005)
Differences in attributes between color difference and color appearance (chroma and hue) for near‐neutral colorsColor Research and Application, 30
Y. Nayatani, Hideki Sakai (2007)
Proposal of a new concept for color‐appearance modelingColor Research and Application, 32
A. Hård, L. Sivik, G. Tonnquist (1996)
NCS, natural color system—From concept to research and applications. Part IIColor Research and Application, 21
R. Kuehni (2000)
A structural comparison of the Munsell renotation and the OSA–UCS uniform color systemsColor Research and Application, 25
Y. Nayatani (1997)
Simple estimation methods for the Helmholtz—Kohlrausch effectColor Research and Application, 22
Simple formulas are proposed for predicting the Munsell value of colors with the same tone (the same values for whiteness‐blackness, perceived lightness, and chroma irrespective of hue). The formulas can be used for any tone. In other words, the method can determine the Munsell value with the same perceived lightness at any specified chroma irrespective of hue. The chromatic strength (CS) function is only used for the derivations. The formulas are very simple, and can be used not only in the colorimetry but also in the color design field. The concept described in this study is that a common CS function can be used for transforming each of the three color attributes (hue, lightness, and chroma) from their uniform color space metric to their corresponding color appearance space attribute. © 2010 Wiley Periodicals, Inc. Col Res Appl, 2011
Color Research & Application – Wiley
Published: Apr 1, 2011
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