Influences of lighting time course and background on categorical colour constancy with RGB‐LED light sources

Influences of lighting time course and background on categorical colour constancy with RGB‐LED light sources

Some previous studies have investigated the influence of the lighting time course and viewing background on the colour constancy using two‐dimensional flat stimuli simulated on a monitor. In the present study, we investigated the categorical colour constancy in real scenes by manipulating (a) the li...

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Bibliographic Details
Published in:Color research and application Vol. 44; no. 5; pp. 694 - 708
Main Authors: Ma, Ruiqing, Liao, Ningfang, Yan, Pengfei, Shinomori, Keizo
Format: Journal Article
Language:English
Published: Hoboken, USA John Wiley & Sons, Inc 01-10-2019
Wiley Subscription Services, Inc
Subjects:
Adaptation
Color
colour categorization
colour constancy
colour vision
Computer simulation
Illumination
LED light source
Light emitting diodes
Light sources
Lighting
real scenes
Reflectance
Spectral reflectance
Viewing
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Summary:Some previous studies have investigated the influence of the lighting time course and viewing background on the colour constancy using two‐dimensional flat stimuli simulated on a monitor. In the present study, we investigated the categorical colour constancy in real scenes by manipulating (a) the lighting time course, that is, adaptation period to the illuminant (brief adaptation or complete adaptation) and (b) the background structure of a stimulus (a uniform gray background with an approximately 25% spectral reflectance or a multicolour background consisting of the Macbeth ColorChecker and some fruit models). The neutral (u′ = 0.1994, v′ = 0.4671), red (u′ = 0.2433, v′ = 0.4622), green (u′ = 0.1525, v′ = 0.4697), blue (u′ = 0.2049, v′ = 0.4198), and yellow (u′ = 0.1892, v′ = 0.5112) illuminants were produced by an RGB‐LED lamp. For each chromatic illumination condition, subjects categorized 240 surfaces with Munsell Value 5/ in four viewing conditions with different combinations of the lighting time course and the background structure. A total of seven subjects participated in experiments with red and green illuminants and five subjects with blue and yellow illuminants. The results showed that the constancy index was the lowest (0.66) in the brief adaptation and gray background condition and the highest (0.74) in the complete adaptation and multicolour background condition. The results suggest that increasing the adaptation period alone or adding chromatic cues in the background with a brief adaptation can help to improve the colour constancy, and a time‐taking reference to surrounding coloured objects with the long presentation of the illuminant may also contribute to obtaining colour constancy.
Bibliography:Funding information
National Natural Science Foundation of China, Grant/Award Numbers: 61705011, 61575020; Grant‐in‐Aid for Specific Research to Vision and Affective Science Integrated Research Laboratory, Research Institute from Kochi University of Technology to KS
ISSN:0361-2317
1520-6378
DOI:10.1002/col.22392