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YungKyung Park, M. Luo, Changjun Li, Y. Kwak (2015)
Refined CIECAM02 for bright surround conditionsColor Research and Application, 40
M. Luo, A. Clarke, P. Rhodes, A. Schappo, S. Scrivener, Chris Tait (1991)
Quantifying colour appearance. Part I. Lutchi colour appearance dataColor Research and Application, 16
(1986)
BFD(l:c) colour-difference formula. Part I – Development of the fomula
M. Luo, G. Cui, B. Rigg (2001)
The development of the CIE 2000 Colour Difference Formula
(1997)
New weighting functions for weighted CIELAB color difference formula
(1987)
International Lighting Vocabulary
M. Luo, A. Clarke, P. Rhodes, A. Schappo, S. Scrivener, Chris Tait (1991)
Quantifying colour appearance. Part II. Testing colour models performance using lutchi colour appearance dataColor Research and Application, 16
(1996)
Proceedings of the CIE Expert Symposium'96 Colour Standards for Imaging Technology
Chenyang Fu, Changjun Li, G. Cui, M. Luo, Robert Hunt, M. Pointer (2012)
An investigation of colour appearance for unrelated colours under photopic and mesopic visionColor Research and Application, 37
K. Witt (1999)
GEOMETRIC RELATIONS BETWEEN SCALES OF SMALL COLOUR DIFFERENCESColor Research and Application, 24
(1998)
The CIE 1997 Interim Colour Appearance Model (Simple Version)
K. Xiao, M. Luo, Changjun Li, G. Hong (2010)
Colour appearance of room coloursColor Research and Application, 35
(2006)
Fundamental Chromaticity Diagram with Physiological Axes, Part 1
K. Xiao, M. Luo, Changjun Li, G. Cui, Du-sik Park (2011)
Investigation of colour size effect for colour appearance assessmentColor Research and Application, 36
S. Choi, M. Luo, M. Pointer, Changjun Li, P. Rhodes (2010)
Changes in colour appearance of a large display in various surround ambient conditionsColor Research and Application, 35
M. Luo, G. Cui, Changjun Li (2006)
Uniform colour spaces based on CIECAM02 colour appearance modelColor Research and Application, 31
K. Xiao, M. Luo, Changjun Li (2012)
Colour size effect modellingColor Research and Application, 37
(2012)
Joint ISO/CIE Standard: Colorimetry, Part 6: CIEDE2000 colour‐difference formula
(2004)
A Colour Appearance Model for Colour Management Systems: CIECAM02
R. Berns, D. Alman, Lisa Reniff, Gregory Snyder, Mitchell Balonon-Rosen (1991)
Visual determination of suprathreshold color‐difference tolerances using probit analysisColor Research and Application, 16
MR Luo, GH Cui, B. Rigg (2001)
The development of the CIE 2000 colour‐difference formula: CIEDE2000, 26
CIE has recommended two previous appearance models, CIECAM97s and CIECAM02. However, these models are unable to predict the appearance of a comprehensive range of colours. The purpose of this study is to describe a new, comprehensive colour appearance model, which can be used to predict the appearance of colours under various viewing conditions that include a range of stimulus sizes, levels of illumination that range from scotopic through to photopic, and related and unrelated stimuli. In addition, the model has a uniform colour space that provides a colour‐difference formula in terms of colour appearance parameters. © 2016 Wiley Periodicals, Inc. Col Res Appl, 42, 293–304, 2017
Color Research & Application – Wiley
Published: Jun 1, 2017
Keywords: ; ; ; ;
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