A Bayesian model of the memory colour effect
A Bayesian model of the memory colour effect
According to the memory colour effect, the colour of a colour-diagnostic object is not perceived independently of the object itself. Instead, it has been shown through an achromatic adjustment method that colour-diagnostic objects still appear slightly in their typical colour, even when they are colourimetrically grey. Bayesian models provide a promising approach to capture the effect of prior knowledge on colour perception and to link these effects to more general effects of cue integration. Here, we model memory colour effects using prior knowledge about typical colours as priors for the grey adjustments in a Bayesian model. This simple model does not involve any fitting of free parameters. The Bayesian model roughly captured the magnitude of the measured memory colour effect for photographs of objects. To some extent, the model predicted observed differences in memory colour effects across objects. The model could not account for the differences in memory colour effects across different levels of realism in the object images. The Bayesian model provides a particularly simple account of memory colour effects, capturing some of the multiple sources of variation of these effects.
Witzel, Christoph
dfb994f1-7007-441a-9e1a-ddb167f44166
Olkkonen, Maria
155968b5-89c9-4d34-9a0c-c82958b054f6
Gegenfurtner, Karl R.
fe690151-20ab-49f0-b82c-8c9c5f501540
2018
Witzel, Christoph
dfb994f1-7007-441a-9e1a-ddb167f44166
Olkkonen, Maria
155968b5-89c9-4d34-9a0c-c82958b054f6
Gegenfurtner, Karl R.
fe690151-20ab-49f0-b82c-8c9c5f501540
Witzel, Christoph, Olkkonen, Maria and Gegenfurtner, Karl R.
(2018)
A Bayesian model of the memory colour effect.
i-Perception.
Abstract
According to the memory colour effect, the colour of a colour-diagnostic object is not perceived independently of the object itself. Instead, it has been shown through an achromatic adjustment method that colour-diagnostic objects still appear slightly in their typical colour, even when they are colourimetrically grey. Bayesian models provide a promising approach to capture the effect of prior knowledge on colour perception and to link these effects to more general effects of cue integration. Here, we model memory colour effects using prior knowledge about typical colours as priors for the grey adjustments in a Bayesian model. This simple model does not involve any fitting of free parameters. The Bayesian model roughly captured the magnitude of the measured memory colour effect for photographs of objects. To some extent, the model predicted observed differences in memory colour effects across objects. The model could not account for the differences in memory colour effects across different levels of realism in the object images. The Bayesian model provides a particularly simple account of memory colour effects, capturing some of the multiple sources of variation of these effects.
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A Bayesian Modelwitzel
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Accepted/In Press date: 18 March 2018
Published date: 2018
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Local EPrints ID: 438906
URI: http://eprints.soton.ac.uk/id/eprint/438906
ISSN: 2041-6695
PURE UUID: 237e0878-9089-4cb7-88b0-21371402215e
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Date deposited: 26 Mar 2020 17:31
Last modified: 17 Mar 2024 04:00
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Author:
Maria Olkkonen
Author:
Karl R. Gegenfurtner
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