6533b860fe1ef96bd12c2f67
RESEARCH PRODUCT
Colour and luminance contrasts predict the human detection of natural stimuli in complex visual environments.
Thomas E. WhiteJohanna MappesBibiana RojasDarrell J. KempPetri Rautialasubject
0106 biological sciencesvisionVisual perceptiongenetic structuresmedia_common.quotation_subjectColorBiologyperception010603 evolutionary biology01 natural sciencesLuminance050105 experimental psychologyPerceptionPsychophysicsPsychophysicsHumans0501 psychology and cognitive sciencesChromatic scalehumanSensory cueHuemedia_commonEvolutionary Biology05 social sciencesContrast (statistics)Agricultural and Biological Sciences (miscellaneous)sensory ecologyVisual Perceptionta1181CuesGeneral Agricultural and Biological SciencesCognitive psychologydescription
Much of what we know about human colour perception has come from psychophysical studies conducted in tightly-controlled laboratory settings. An enduring challenge, however, lies in extrapolating this knowledge to the noisy conditions that characterize our actual visual experience. Here we combine statistical models of visual perception with empirical data to explore how chromatic (hue/saturation) and achromatic (luminant) information underpins the detection and classification of stimuli in a complex forest environment. The data best support a simple linear model of stimulus detection as an additive function of both luminance and saturation contrast. The strength of each predictor is modest yet consistent across gross variation in viewing conditions, which accords with expectation based upon general primate psychophysics. Our findings implicate simple visual cues in the guidance of perception amidst natural noise, and highlight the potential for informing human vision via a fusion between psychophysical modelling and real-world behaviour.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2017-06-14 | Biology letters |