Abstract
The theory of the recognized visual space of illumination (RVSI) is that the color appearance of objects in a space is determined in relation to its recognition axis RX whose direction is determined by the brain action to adapt to the illumination in the space. Thus the color constancy holds. RX is applicable to objects in the space but not to an object or a portion that does not belong in the space in terms of illumination, that is to say, the luminance of which is too high based on the illumination for that space. In that case the color appearance would be determined in relation to the fundamental axis FX and the color constancy would not hold. In the present paper the chromaticity points were measured for a test patch that appeared achromatic for various luminance of the patch. The points were close to the color of illumination to indicate the color constancy when the luminance was low enough to assure its appearance as the object color, but they departed from the color of illumination and approached the colorimetrically achromatic color. The color constancy gradually failed for the test patch with the high luminance when the color mode became an unnatural object color and then a light color.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
M. Ikeda: Opt. Rev.11 (2004) 217.
Y. Mizokami, M. Ikeda, and H. Shinoda: Opt. Rev.11 (2004) 288.
P. Pungrassamee, M. Ikeda, P. Katemake, and A. Hansuebsai: Opt. Rev.12 (2005) 211.
M. Ikeda, P. Pungrassamee, P. Katemake, and A. Hansuebsai: Opt. Rev.13 (2006) 388.
P. Cunthasaksiri, H. Shinoda, and M. Ikeda: Col. Res. Appl.29 (2004) 255.
Y. Thiangthangtum, M. Ikeda, and H. Shinoda: Opt. Rev.11 (2004) 235.
M. Ikeda, Y. Mizokami, S. Nakane, and H. Shinoda: Opt. Rev.9 (2002) 132.
D. H. Brainard: J. Opt. Soc. Am. A15 (1998) 307.
I. Kuriki and K. Uchikawa: J. Illum. Eng. Inst. Jpn.81 (1997) 125 [in Japanese].
D. H. Brainard and B. A. Wandell: InComputational Models of Visual Processing, ed. M. S. Landy and J. A. Movshon (MIT Press, Cambridge, MA, 1991) p. 171.
M. D. Fairchild and P. Lennie: Vision Res.32 (1992) 2077.
M. Ikeda, H. Shinoda, and Y. Mizokami: Opt. Rev.5 (1998) 380.
M. Ikeda, R. Yamauchi, and H. Shinoda: Opt. Rev.10 (2003) 382.
A. Kusumi, M. Ikeda, and H. Shinoda: J. Col. Sci. Assoc. Jpn.26 (2002) 4 [in Japanese].
A. Kusumi, M. Ikeda, and H. Shinoda: Proc. AIC International Color Assoc., 2003, p. 422.
T. Obama, H. Uozato, H. Terauchi, and M. Matsuoka: J. Col. Sci. Assoc. Jpn.28 (2004) 245 [in Japanese].
M. Ikeda, P. Pungrassamee, and A. Hansuebsai: J. Col. Sci. Assoc. Jpn.30 (2006) 28 [in Japanese].
M. Wakita, R. Yamauchi, and H. Shinoda: J. Col. Sci. Assoc. Jpn.30 (2006) 42 [in Japanese].
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Pungrassamee, P., Ikeda, M. & Hansuebsai, A. Failure of color constancy for high luminance of a test patch that appears unnatural as an object in a space. Optical Review 14, 139–144 (2007). https://doi.org/10.1007/BF02919414
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02919414