John J. McCann scite author profile

Sensations of color show a strong correlation with reflectance, even though the amount of visible light reaching the eye depends on the product of reflectance and illumination. The visual system must achieve this remarkable result by a scheme that does not measure flux. Such a scheme is described as the basis of retinex theory. This theory assumes that there are three independent cone systems, each starting with a set of receptors peaking, respectively, in the long-, middle-, and short-wavelength regions of the visible spectrum. Each system forms a separate image of the world in terms of lightness that shows a strong correlation with reflectance within its particular band of wavelengths. These images are not mixed, but rather are compared to generate color sensations. The problem then becomes how the lightness of areas in these separate images can be independen t of flux. This article describes the mathematics of a lightness scheme that generates lightness numbers, the biologic correlate of reflectance, independent of the flux from objects INDEX HEADINGS: Vision; Color.

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Retinex in MATLAB™

Funt

Ciurea

McCann

2004

J. Electron. Imaging

303

194

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The Art and Science of HDR Imaging

McCann¹,

Rizzi²

2011

122

155

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Perianal findings in prepubertal children selected for nonabuse: A descriptive study

McCann

Voris

Simon

et al. 1989

Child Abuse & Neglect

197

144

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Quantitative studies in retinex theory a comparison between theoretical predictions and observer responses to the “color mondrian” experiments

1976

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John J. McCann

Lightness and Retinex Theory

Retinex in MATLAB™

The Art and Science of HDR Imaging

Perianal findings in prepubertal children selected for nonabuse: A descriptive study

Quantitative studies in retinex theory a comparison between theoretical predictions and observer responses to the “color mondrian” experiments

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