Gray scale and achromatic color difference

Robert Carter

doi:10.1364/JOSAA.10.001380

Journal of the Optical Society of America A
Vol. 10,
Issue 6,
pp. 1380-1391
(1993)
•https://doi.org/10.1364/JOSAA.10.001380

Gray scale and achromatic color difference

Robert Carter

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Robert Carter, "Gray scale and achromatic color difference," J. Opt. Soc. Am. A 10, 1380-1391 (1993)

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Abstract

Gray scale is a preferred method for information display, yet existing techniques for constructing a gray scale rely on mathematical formulas that are ambiguous and inconsistent with known phenomena of suprathreshold achromatic perception. To improve this situation, problems are discussed, literature on suprathreshold achromatic perception is reviewed, existing gray-scale formulas are compared with human-performance data, and a new approach is examined. The new approach takes into account the luminances of the surround, the targets, and the distractors that are to be rendered in a gray scale. It is theory based, is consistent with known phenomena of suprathreshold achromatic perception, and fits human-performance data at least as well as any other formula.

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Source	SS^b	DF^c	Mean Square
Regression	91.186	3
Model^d	19.000	2	9.5
Residual	33.694	484	0.07

Term in W′	Increase to SS	MS_err (DF)	F(1, DF)	R² (%)	Final Value (95% CI)
W₀	16.764	0.035	239.49^c	67.93	0.379
		(483)			(0.285,0.473)
Additive 1 inside natural log	1.395	0.032	43.59^c	70.58	1
		(482)			(0.85, 1.237)
Incremental slope for positive contrast c	0.605	0.031	19.52^c	71.73	0.132
		(481)			(0.016,0.247)
L_dk	0.211	0.031	6.81^c	72.13	1.457
		(480)			(0.245,2.67)
k₁	0.08	0.030	2.67	72.28	0
		(479)			(−0.004,0.056)
k₂	0.017	0.031	0.55	72.16	0
		(479)			(−0.018,0.008)

Source	SS^b	DF^c	Mean Square
Regression	91.186	3
Model^d	19.000	2	9.5
Residual	33.694	484	0.07

Term in W′	Increase to SS	MS_err (DF)	F(1, DF)	R² (%)	Final Value (95% CI)
W₀	16.764	0.035	239.49^c	67.93	0.379
		(483)			(0.285,0.473)
Additive 1 inside natural log	1.395	0.032	43.59^c	70.58	1
		(482)			(0.85, 1.237)
Incremental slope for positive contrast c	0.605	0.031	19.52^c	71.73	0.132
		(481)			(0.016,0.247)
L_dk	0.211	0.031	6.81^c	72.13	1.457
		(480)			(0.245,2.67)
k₁	0.08	0.030	2.67	72.28	0
		(479)			(−0.004,0.056)
k₂	0.017	0.031	0.55	72.16	0
		(479)			(−0.018,0.008)

Abstract

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Equations (7)

Journal of the Optical Society of America A