Variation of red-green dichromats' colour constancy in natural scenes

, , &
In Robert Schwartz (ed.), Perception. Malden Ma: Blackwell. pp. 44-44 (2004)
  Copy   BIBTEX

Abstract

The aim of this study was to test red - green dichromats' ability to discriminate between illuminant and surface-reflectance changes in natural scenes. Stimuli were simulations of natural scenes presented on a colour monitor with 10-bit resolution per gun. The natural scenes were obtained with a fast hyperspectral imaging system. Six different scenes (including rocks, foliage, and buildings) were tested. In each trial, two images were presented in sequence, each for 1 s, with no interval. The images differed in the phase of daylight on the scene: first with correlated colour temperature 25 000 K, then 6 700 K. The spectral reflectance of a region in the second image was changed randomly, consistent with a local change in daylight. The observer's task was to decide whether a particular surface in the successive images was the same (pure illuminant change) or different (illuminant change with a surface-reflectance change). The performance of four deuteranopes and five protanopes varied considerably across the scenes tested, with mean colour constancy indices (± 1 SEM) of 0.48 (± 0.13) and 0.19 (± 0.10), respectively (1.0 representing ideal performance). Deuteranopes seemed less disadvantaged than protanopes, performing close to normal with some scenes.

Categories

Keywords

Reprint years

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 91,349

External links

  • This entry has no external links. Add one.
Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Variation of surface-colour judgments in natural scenes.K. Amano, D. H. Foster & S. M. C. Nascimento - 2004 - In Robert Schwartz (ed.), Perception. Malden Ma: Blackwell. pp. 65-65.
Does colour constancy exist?David H. Foster - 2003 - Trends in Cognitive Sciences 7 (10):439-443.
Colour constancy as counterfactual.Jonathan Cohen - 2008 - Australasian Journal of Philosophy 86 (1):61 – 92.
Color Constancy.David H. Foster - 2011 - Vision Research 51:674-700.
Color constancy and the complexity of color.David Hilbert - 2005 - Philosophical Topics 33 (1):141-158.
Why do strawberries look red? Natural colour constancy in retina and cortex.T. Vladusich, F. W. Cornelissen & D. H. Foster - 2004 - In Robert Schwartz (ed.), Perception. Malden Ma: Blackwell. pp. 23-23.
Chromatic diversity of natural scenes.J. M. M. Linhares, S. M. C. Nascimento, D. H. Foster & K. Amano - 2004 - In Robert Schwartz (ed.), Perception. Malden Ma: Blackwell. pp. 65-65.
Color Constancy Reconsidered.Wayne Wright - 2013 - Acta Analytica 28 (4):435-455.
A realistic colour realism.Joshua Gert - 2006 - Australasian Journal of Philosophy 84 (4):565 – 589.
Color constancy and Russellian representationalism.Brad Thompson - 2006 - Australasian Journal of Philosophy 84 (1):75-94.
Colour perception may optimize biologically relevant surface discriminations – rather than type-I constancy.Nicola Bruno & Stephen Westland - 2001 - Behavioral and Brain Sciences 24 (4):658-659.
Colour constancy and Fregean representationalism.Boyd Millar - 2013 - Philosophical Studies 164 (1):219-231.
Background and illuminants: The yin and yang of colour constancy.R. O. Brown - 2003 - In Rainer Mausfeld & Dieter Heyer (eds.), Colour Perception: Mind and the Physical World. Oxford University Press. pp. 247--272.

Analytics

Added to PP
2014-01-30

Downloads
3 (#1,682,188)

6 months
1 (#1,533,009)

Historical graph of downloads
How can I increase my downloads?

Author's Profile

David H. Foster
University of Manchester

Citations of this work

No citations found.

Add more citations

References found in this work

No references found.

Add more references