Time-lapse ratios of cone excitations in natural scenes

David H. Foster; Kinjiro Amano; Sergio M. C. Nascimento

doi:10.1016/j.visres.2015.03.012

Time-lapse ratios of cone excitations in natural scenes

David H. Foster, Kinjiro Amano, Sergio M. C. Nascimento

Division of Dentistry (L5)

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Abstract

The illumination in natural environments varies through the day. Stable inferences about surface color might be supported by spatial ratios of cone excitations from the reflected light, but their invariance has been quantified only for global changes in illuminant spectrum. The aim here was to test their invariance under natural changes in both illumination spectrum and geometry, especially in the distribution of shadows. Time-lapse hyperspectral radiance images were acquired from five outdoor vegetated and nonvegetated scenes. From each scene, 10,000 pairs of points were sampled randomly and ratios measured across time. Mean relative deviations in ratios were generally large, but when sampling was limited to short distances or moderate time intervals, they fell below the level for detecting violations in ratio invariance. When illumination changes with uneven geometry were excluded, they fell further, to levels obtained with global changes in illuminant spectrum alone. Within sampling constraints, ratios of cone excitations, and also of opponent-color combinations, provide an approximately invariant signal for stable surface-color inferences, despite spectral and geometric variations in scene illumination.

Original language	English
Pages (from-to)	45-60
Journal	Vision Research
Volume	120
Early online date	3 Apr 2015
DOIs	https://doi.org/10.1016/j.visres.2015.03.012
Publication status	Published - Mar 2016

Keywords

Natural scenes, Optical environment, Shadows, Spatial cone-excitation ratios, Color constancy, Illumination geometry

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10.1016/j.visres.2015.03.012Licence: CC BY

POST-PEER-REVIEW-PUBLISHERS.PDFFinal published version, 4.1 MBLicence: CC BY

http://personalpages.manchester.ac.uk/staff/d.h.foster/Time-Lapse_HSIs/Time-Lapse_HSIs_2015.htmlLicence: CC BY

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title = "Time-lapse ratios of cone excitations in natural scenes",

abstract = "The illumination in natural environments varies through the day. Stable inferences about surface color might be supported by spatial ratios of cone excitations from the reflected light, but their invariance has been quantified only for global changes in illuminant spectrum. The aim here was to test their invariance under natural changes in both illumination spectrum and geometry, especially in the distribution of shadows. Time-lapse hyperspectral radiance images were acquired from five outdoor vegetated and nonvegetated scenes. From each scene, 10,000 pairs of points were sampled randomly and ratios measured across time. Mean relative deviations in ratios were generally large, but when sampling was limited to short distances or moderate time intervals, they fell below the level for detecting violations in ratio invariance. When illumination changes with uneven geometry were excluded, they fell further, to levels obtained with global changes in illuminant spectrum alone. Within sampling constraints, ratios of cone excitations, and also of opponent-color combinations, provide an approximately invariant signal for stable surface-color inferences, despite spectral and geometric variations in scene illumination.",

keywords = "Natural scenes, Optical environment, Shadows, Spatial cone-excitation ratios, Color constancy, Illumination geometry",

author = "Foster, \{David H.\} and Kinjiro Amano and Nascimento, \{Sergio M. C.\}",

note = "The hyperspectral radiance images used in this study are available from the first author{\~A}ƒ{\^A}¢{\~A}‚{\^A}€{\~A}‚{\^A}{\texttrademark}s web site, http://personalpages.manchester.ac.uk/staff/d.h.foster/.",

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doi = "10.1016/j.visres.2015.03.012",

language = "English",

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publisher = "Elsevier BV",

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T1 - Time-lapse ratios of cone excitations in natural scenes

AU - Foster, David H.

AU - Amano, Kinjiro

AU - Nascimento, Sergio M. C.

N1 - The hyperspectral radiance images used in this study are available from the first authorÃƒÂ¢Ã‚Â€Ã‚Â™s web site, http://personalpages.manchester.ac.uk/staff/d.h.foster/.

PY - 2016/3

Y1 - 2016/3

N2 - The illumination in natural environments varies through the day. Stable inferences about surface color might be supported by spatial ratios of cone excitations from the reflected light, but their invariance has been quantified only for global changes in illuminant spectrum. The aim here was to test their invariance under natural changes in both illumination spectrum and geometry, especially in the distribution of shadows. Time-lapse hyperspectral radiance images were acquired from five outdoor vegetated and nonvegetated scenes. From each scene, 10,000 pairs of points were sampled randomly and ratios measured across time. Mean relative deviations in ratios were generally large, but when sampling was limited to short distances or moderate time intervals, they fell below the level for detecting violations in ratio invariance. When illumination changes with uneven geometry were excluded, they fell further, to levels obtained with global changes in illuminant spectrum alone. Within sampling constraints, ratios of cone excitations, and also of opponent-color combinations, provide an approximately invariant signal for stable surface-color inferences, despite spectral and geometric variations in scene illumination.

AB - The illumination in natural environments varies through the day. Stable inferences about surface color might be supported by spatial ratios of cone excitations from the reflected light, but their invariance has been quantified only for global changes in illuminant spectrum. The aim here was to test their invariance under natural changes in both illumination spectrum and geometry, especially in the distribution of shadows. Time-lapse hyperspectral radiance images were acquired from five outdoor vegetated and nonvegetated scenes. From each scene, 10,000 pairs of points were sampled randomly and ratios measured across time. Mean relative deviations in ratios were generally large, but when sampling was limited to short distances or moderate time intervals, they fell below the level for detecting violations in ratio invariance. When illumination changes with uneven geometry were excluded, they fell further, to levels obtained with global changes in illuminant spectrum alone. Within sampling constraints, ratios of cone excitations, and also of opponent-color combinations, provide an approximately invariant signal for stable surface-color inferences, despite spectral and geometric variations in scene illumination.

KW - Natural scenes, Optical environment, Shadows, Spatial cone-excitation ratios, Color constancy, Illumination geometry

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DO - 10.1016/j.visres.2015.03.012

M3 - Article

SN - 1878-5646

VL - 120

SP - 45

EP - 60

JO - Vision Research

JF - Vision Research

ER -

Time-lapse ratios of cone excitations in natural scenes

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Keywords

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