Feature-based interaction between masks and target in continuous flash suppression
Feature-based interaction between masks and target in continuous flash suppression
Continuous flash suppression (CFS) has become one of the most popular tools in the study of visual processing in the absence of conscious awareness. Studies use different kinds of masks, like colorful Mondrians or random noise. Even though the use of CFS is widespread, little is known about some of the underlying neuronal mechanisms, such as the interactions between masks and stimuli. We designed a b-CFS experiment with feature-reduced targets and masks in order to investigate possible effects of feature-similarity or -orthogonality between masks and targets. Masks were pink noise patterns filtered with an orientation band pass to generate a strong directionality. Target stimuli were Gabors varying systematically in their orientational alignment with the masks. We found that stimuli whose orientational alignment was more similar to that of the masks are suppressed significantly longer. This feature-similarity (here: orientation) based enhancement of suppression duration can be overcome by feature orthogonality in another feature dimension (here: color). We conclude that mask–target interactions exist in continuous flash suppression, and the human visual system can use orthogonality within a feature dimension or across feature dimensions to facilitate the breaking of the CFS.
Drewes, Jan
7b4d8e2e-a57b-4f5b-aa5f-7468d1cd98c7
Witzel, Christoph
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Zhu, Weina
446ad4f4-77b1-4c75-b595-e01c5ffc3af5
22 March 2023
Drewes, Jan
7b4d8e2e-a57b-4f5b-aa5f-7468d1cd98c7
Witzel, Christoph
dfb994f1-7007-441a-9e1a-ddb167f44166
Zhu, Weina
446ad4f4-77b1-4c75-b595-e01c5ffc3af5
Drewes, Jan, Witzel, Christoph and Zhu, Weina
(2023)
Feature-based interaction between masks and target in continuous flash suppression.
Scientific Reports, 13, [4696].
(doi:10.1038/s41598-023-31659-9).
Abstract
Continuous flash suppression (CFS) has become one of the most popular tools in the study of visual processing in the absence of conscious awareness. Studies use different kinds of masks, like colorful Mondrians or random noise. Even though the use of CFS is widespread, little is known about some of the underlying neuronal mechanisms, such as the interactions between masks and stimuli. We designed a b-CFS experiment with feature-reduced targets and masks in order to investigate possible effects of feature-similarity or -orthogonality between masks and targets. Masks were pink noise patterns filtered with an orientation band pass to generate a strong directionality. Target stimuli were Gabors varying systematically in their orientational alignment with the masks. We found that stimuli whose orientational alignment was more similar to that of the masks are suppressed significantly longer. This feature-similarity (here: orientation) based enhancement of suppression duration can be overcome by feature orthogonality in another feature dimension (here: color). We conclude that mask–target interactions exist in continuous flash suppression, and the human visual system can use orthogonality within a feature dimension or across feature dimensions to facilitate the breaking of the CFS.
Text
s41598-023-31659-9
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Accepted/In Press date: 15 March 2023
Published date: 22 March 2023
Additional Information:
Funding Information:
WZ was supported by the National Natural Science Foundation of China (61263042, 61563056). The authors would like to thank Zhou Ji and Li Meng for their help with data collection.
Publisher Copyright:
© 2023, The Author(s).
Identifiers
Local EPrints ID: 477014
URI: http://eprints.soton.ac.uk/id/eprint/477014
ISSN: 2045-2322
PURE UUID: a38d644b-f5e7-44ea-b9c8-0a6ec4116587
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Date deposited: 23 May 2023 16:48
Last modified: 17 Mar 2024 04:00
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Author:
Jan Drewes
Author:
Weina Zhu
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