[2] Fairchild M D. Color Appearance Models. Reading, MA, Addison Wesley, 1997. 217
[3] Johnson A J. Methods for Characterising Colour Scanners and Digital Cameras, Displays Special Issue: To Achieve WYSIWYG Colours, 1996. 183~192
[4] Engeldrum P G, Ingraham J L. Analysis of white point and phosphor set differences of CRT displays. Color Research and Application, 1990, 15(3):151~155
[6] Hong Guowei, Luo M R, Rhodes P A. A study of digital camera colorimetric characterization based on polynomial modeling. Color Research and Application, 2001, 26(1): 76~84
[7] Simon F T, Frost J A. A new method for the conversion of CIE colorimetric data to munsell notations. Color Research and Application, 1987, 12(5): 256~260
[8] Tominaga S. Color notation conversion by neural networks. Color Research and Application, 1993, 18(5): 253~259
[9] Shiro Usui, Shigeki Nakauchi, Masac Nakano et al.. Reconstruction of munsell color space by a five-layer neural network. J. Opt. Soc. Am. (A), 1992, 9(4): 516~520
[10] Wyble D R, Fairchild M D. Prediction of munsell appearance scales using various color-appearance models. Color Research and Application, 2000, 25(2): 132~144
[14] Ram L Pandey Vimal. Spatial color contrast matching: broad-bandpass functions and the flattening effect. Vision Research, 2000, 40(23): 3231~3243
[15] Sueeprasan S, Luo M R, Rhodes P A et al.. Investigation of colour appearance models for illumination changes across media. Color Research and Application, 2001, 26(6): 428~435
[17] Braun K M, Fairchild M D, Lessi P J A et al.. Viewing techniques for cross-media image comparisons. Color Research and Application, 1996, 21(1): 6~17
[18] Newhall S M, Nicherson D, Judd D B. Final report of the OSA subcommittee on spacing of the munsell colors. J. Opt. Soc. Am., 1943, 33(7):385~418