Perceptual distortions of speed at low luminance: evidence inconsistent with a Bayesian account of speed encoding
Perceptual distortions of speed at low luminance: evidence inconsistent with a Bayesian account of speed encoding
Our perception of speed has been shown to be distorted under a number of viewing conditions. Recently the well-known reduction of perceived speed at low contrast has led to Bayesian models of speed perception that account for these distortions with a slow speed ‘prior’. To test the predictive, rather than the descriptive, power of the Bayesian approach we have investigated perceived speed at low luminance. Our results indicate that, for the mesopic and photopic range (0.13–30 cd m?2) the perceived speed of lower luminance patterns is virtually unaffected at low speeds (<4 deg s?1) but is over-estimated at higher speeds (>4 deg s?1). We show here that the results can be accounted for by an extension to a simple ratio model of speed encoding [Hammett, S. T., Champion, R. A., Morland, A. & Thompson, P. G. (2005). A ratio model of perceived speed in the human visual system. Proceedings of Royal Society B, 262, 2351–2356.] that takes account of known changes in neural responses as a function of luminance, contrast and temporal frequency. The results are not consistent with current Bayesian approaches to modelling speed encoding that postulate a slow speed prior
human vision, speed encoding, computational models
564-568
Hammett, Stephen T.
3dce0fd8-a584-4f0a-bd1c-77a23366fe98
Champion, Rebecca A.
cc00ecfc-1961-41b2-90e4-c6876caa679e
Thompson, Peter G.
64939c51-c27a-4b07-8161-f9f9ec6cb410
Morland, Antony B.
e9f73423-1da6-4de8-93ac-82072f490944
2007
Hammett, Stephen T.
3dce0fd8-a584-4f0a-bd1c-77a23366fe98
Champion, Rebecca A.
cc00ecfc-1961-41b2-90e4-c6876caa679e
Thompson, Peter G.
64939c51-c27a-4b07-8161-f9f9ec6cb410
Morland, Antony B.
e9f73423-1da6-4de8-93ac-82072f490944
Hammett, Stephen T., Champion, Rebecca A., Thompson, Peter G. and Morland, Antony B.
(2007)
Perceptual distortions of speed at low luminance: evidence inconsistent with a Bayesian account of speed encoding.
Vision Research, 47 (4), .
(doi:10.1016/j.visres.2006.08.013).
Abstract
Our perception of speed has been shown to be distorted under a number of viewing conditions. Recently the well-known reduction of perceived speed at low contrast has led to Bayesian models of speed perception that account for these distortions with a slow speed ‘prior’. To test the predictive, rather than the descriptive, power of the Bayesian approach we have investigated perceived speed at low luminance. Our results indicate that, for the mesopic and photopic range (0.13–30 cd m?2) the perceived speed of lower luminance patterns is virtually unaffected at low speeds (<4 deg s?1) but is over-estimated at higher speeds (>4 deg s?1). We show here that the results can be accounted for by an extension to a simple ratio model of speed encoding [Hammett, S. T., Champion, R. A., Morland, A. & Thompson, P. G. (2005). A ratio model of perceived speed in the human visual system. Proceedings of Royal Society B, 262, 2351–2356.] that takes account of known changes in neural responses as a function of luminance, contrast and temporal frequency. The results are not consistent with current Bayesian approaches to modelling speed encoding that postulate a slow speed prior
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Published date: 2007
Keywords:
human vision, speed encoding, computational models
Identifiers
Local EPrints ID: 45138
URI: http://eprints.soton.ac.uk/id/eprint/45138
ISSN: 0042-6989
PURE UUID: 9aed6991-a1fd-44c4-bb2e-18f63783649b
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Date deposited: 20 Mar 2007
Last modified: 15 Mar 2024 09:09
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Contributors
Author:
Stephen T. Hammett
Author:
Rebecca A. Champion
Author:
Peter G. Thompson
Author:
Antony B. Morland
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