References

BB88

K. T. Blackwell and G. Buchsbaum. Quantitative studies of color constancy. Journal of the Optical Society of America, 5(10):1772-1780, 1988.

Boy89

Robert M. Boynton. Eleven Colors That Are Almost Never Confused. In SPIE Proc. #1077 - Human Vision, Visual Processing, and Digital Display, pages 322-332, Bellingham, WA, 1989. SPIE.

BW92

D. H. Brainard and Brian A. Wandell. Asymetric color matching: How color appearance depends on the illuminant. J. of the Optical Society of America, 9:1433-1448, 1992. QC.0622 in MIT Humanities Lib.

FD93

Brian V. Funt and Mark S. Drew. Color space analysis of mutual illumination. IEEE Transactions on Pattern Analysis and Machine Intelligence, 15(12), December 1993.

FDB92

Brian V. Funt, Mark S. Drew, and M. Brockington. Recovering shading from color images. In G. Sandini, editor, Proc. European Conference on Computer Vision (ECCV `92), pages 124-132. Springer-Verlag, May 1992.

FDF93

Graham D. Finlayson, Mark S. Drew, and Brian V. Funt. Diagonal transforms suffice for color constancy. In IEEE Proceedings: International Conference on Computer Vision, pages 164-171, Berlin, May 1993.

FF95

Brian V. Funt and Graham D. Finlayson. Color Constant Color Indexing. IEEE Trans. on Pattern Recognition and Machine Intelligence, PAMI-17(5), May 1995.

For90

D. A. Forsyth. A Novel Algorithm for Color Constancy. Int'l. Journal of Computer Vision, 5(1):5-36, 1990.

Har93

C. L. Hardin. Color for philosophers : unweaving the rainbow, pages 187-193. Hackett Pub. Co., Indianapolis, Ind., expanded edition, 1993. B105.C455.H37 in MIT Rotch Library (on Reserve).

Hel38

H. Helson. Fundamental principles in color vision, i - the principle governing changes in hue, saturation, and lightness of non-selective samples in chromatic illumination. Journal of Experimental Psychology, 23:439-471, 1938.

HJ36

H. Helson and D. B. Judd. An experimental and theoretical study of changes in surface colors under changing illuminations. Psychology Bulletin, 33:740-741, 1936.

Hur89

Anya C. Hurlbert. The Computation of Color. PhD thesis, Massachusetts Institute of Technology, Sept. 1989. Also MIT Artificial Intelligence Lab Technical Report No. 1154, avail. as Q335.M41.A79 no. 1154 in Barker Library.

Jud40

D. B. Judd. Hue saturation and lightness of surface colors with chromatic illumination. Journal of the Optical Society of America, 30:2-32, 1940.

Lee86

Hsien-Che Lee. Methods for computing the scene-illuminant chromaticity from specular highlights. Journal of the Optical Society of America, 3:1694-1699, 1986.

LM71

E. H. Land and J. J. McCann. Lightness and the retinex theory. Journal of the Optical Society of America, 61(1):1-11, 1971.

Mar82

David Marr. Vision, pages 250-258. W.H. Freeman and Co., New York, 1982.

MW86

Lawrence T. Maloney and Brian A. Wandell. Color constancy: A method for recovering surface spectral reflectance. Journal of the Optical Society of America A, 3(1):29-33, 1986. QC.0622 in MIT Humanities Lib.

Ric72

Whitman Richards. One-stage model for color conversion. J. of the Optical Society of America, 62(5), May 1972. QC.0622 in MIT Humanities Lib.

RP71

Whitman Richards and Edward A. Parks. Model for color conversion. J. of the Optical Society of America, 61(7), July 1971. QC.0622 in MIT Humanities Lib.

SKK85

Steven A. Shafer, G. Klinker, and T. Kanade. Using color to separate reflection components. Color Research and Applications, 10(4):210-218, 1985.

vK78

J. von Kries. Beitrag zur physiologie der gesichtsempfindung. Arch. Anat. Physiol., 2:505-524, 1878.

Wan95

Brian A. Wandell. Foundations of Vision. Sinauer Associates, Sunderland, MA, 1995. QP475.W32 1995 in MIT Schering-Plough Library.

WB82

G. West and M.H. Brill. Necessary and sufficient conditions for von Kries chromatic adaptation to give colour constancy. Journal of Mathematical Biology, 15:249-258, 1982. QH.J8413 in MIT Science Library.

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