Color constancy from blackbody illumination

Rei Kawakami; Jun Takamatsu; Katsushi Ikeuchi

doi:10.1364/JOSAA.24.001886

Journal of the Optical Society of America A
Vol. 24,
Issue 7,
pp. 1886-1893
(2007)
•https://doi.org/10.1364/JOSAA.24.001886

Color constancy from blackbody illumination

Rei Kawakami, Jun Takamatsu, and Katsushi Ikeuchi

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Rei Kawakami, Jun Takamatsu, and Katsushi Ikeuchi, "Color constancy from blackbody illumination," J. Opt. Soc. Am. A 24, 1886-1893 (2007)

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Abstract

We present a theoretical analysis of what we believe to be a new color constancy method that inputs two chromaticities of an identical surface taken under two blackbody illuminations. By using the Planck formula for modeling spectra of outdoor illumination and by assuming that a narrowband camera sensitivity function is sufficiently narrow, surface colors can be estimated mathematically. Experiments with simulation and real data have been conducted to evaluate the effectiveness of the method. The results showed that although this method is a perfect vehicle for simulation data, it produces significant errors with real data. A thorough investigation of the cause of errors indicates how important the assumptions on both blackbody illuminations and narrowband camera sensitivities are to the method. Finally, we discuss the robustness of our method and the limitation of solving color constancy using the illumination constraint.

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Equations (33)

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Method	$T_{1}$ Error (mired)	$T_{2}$ Error (mired)
Proposed method	$1.64 \times 10^{- 5}$	$1.74 \times 10^{- 5}$
Previous method	$5.11 \times 10$	$5.52 \times 10$

Parameter	$T_{1}$ Error (mired)	$T_{2}$ Error (mired)
Average	$3.53 \times 10^{- 6}$	$3.78 \times 10^{- 6}$
Standard deviation	$2.18 \times 10^{- 6}$	$2.35 \times 10^{- 6}$

Method	$T_{1}$ Error (mired)	$T_{2}$ Error (mired)
Proposed method	$3.67 \times 10^{3}$	$1.17 \times 10^{4}$
Previous method	$7.97 \times 10$	$8.43 \times 10$

Illuminants	$Δ e_{r}$ (%)	$Δ e_{g}$ (%)	Nearest T (K)
CIE A	0.0029	$- 0.0165$	2856
CIE B	2.6368	$- 4.6126$	5087
CIE C	5.5397	$- 6.1154$	7451
Judd D48	$- 1.0788$	2.0506	4818
Judd D55	$- 1.0617$	1.6286	5584
Judd D65	$- 0.9358$	1.1519	6698
Judd D75	$- 0.7690$	0.8096	7842
Judd D100	$- 0.4606$	0.3816	10852

Illuminants	$Δ e_{r}$ (%)	$Δ e_{g}$ (%)
CIE A	6.9829	$- 7.2289$
CIE B	$- 1.9758$	4.0070
CIE C	$- 1.1578$	2.7347
Judd D48	$- 0.6929$	1.3720
Judd D55	$- 0 .4382$	0.9421
Judd D65	$- 0.0239$	0.0553
Judd D75	0.3781	$- 0.9191$
Judd D100	1.0385	$- 2.6985$

Abstract

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Equations (33)

Journal of the Optical Society of America A