Code for: Representational Momentum in vision and touch: Visual motion information biases tactile spatial localization
Author(s) / Creator(s)
Merz, Simon
Meyerhoff, Hauke S.
Frings, Christian
Spence, Charles
Abstract / Description
Code for the study "Representational Momentum in vision and touch: Visual motion information biases tactile spatial localization", to-be-published in Attention, Perception, & Psychophysics. For further information please refer to the aforementioned paper. The SPSS-Syntax can be executed on the respective aggregated dataset available under "Dataset for: Representational Momentum in vision and touch: Visual motion information biases tactile spatial localization".
After an object disappears, the vanishing point is shifted in the direction of motion, a phenomenon known as representational momentum. The present study focused on the relationship between motion information and spatial location in a crossmodal setting. In two visuotactile experiments, we studied how motion information in one sensory modality affects the perceived final location of a motion signal (congruent vs. incongruent left-right motion direction) in another modality. The results revealed a unidirectional crossmodal influence of motion information on spatial localization performance. While visual motion information influenced the perceived final location of the tactile stimulus, tactile motion information had no influence on visual localization. These results therefore extend the existing literature on crossmodal influences on spatial location and are discussed in relation to current theories of multisensory perception.
Code for: Merz, S., Meyerhoff, H. S., Frings, C., & Spence, C. (2020). Representational momentum in vision and touch: Visual motion information biases tactile spatial localization. Attention, Perception, & Psychophysics, 82(5), 2618–2629. https://doi.org/10.3758/s13414-020-01989-1
Keyword(s)
Crossmodal dynamic capture Crossmodal perception Localization Vision Touch Representational momentumPersistent Identifier
Date of first publication
2020
Publisher
PsychArchives
Is referenced by
Citation
Merz, S., Meyerhoff, H. S., Frings, C., & Spence, C. (2020). Code for: Representational Momentum in vision and touch: Visual motion information biases tactile spatial localization. PsychArchives. https://doi.org/10.23668/PSYCHARCHIVES.2740
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Experiment 1_syntax.spsSPSS syntax file - 6.23KBMD5: d8a50e35ebc632ae2d00208dfdb23530
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Experiment 2_syntax.spsSPSS syntax file - 12.09KBMD5: 1266a623188508f90e850a8f5ddfe8ac
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There are no other versions of this object.
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Author(s) / Creator(s)Merz, Simon
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Author(s) / Creator(s)Meyerhoff, Hauke S.
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Author(s) / Creator(s)Frings, Christian
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Author(s) / Creator(s)Spence, Charles
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PsychArchives acquisition timestamp2020-01-29T13:18:13Z
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Made available on2020-01-29T13:18:13Z
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Date of first publication2020
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Abstract / DescriptionCode for the study "Representational Momentum in vision and touch: Visual motion information biases tactile spatial localization", to-be-published in Attention, Perception, & Psychophysics. For further information please refer to the aforementioned paper. The SPSS-Syntax can be executed on the respective aggregated dataset available under "Dataset for: Representational Momentum in vision and touch: Visual motion information biases tactile spatial localization".en
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Abstract / DescriptionAfter an object disappears, the vanishing point is shifted in the direction of motion, a phenomenon known as representational momentum. The present study focused on the relationship between motion information and spatial location in a crossmodal setting. In two visuotactile experiments, we studied how motion information in one sensory modality affects the perceived final location of a motion signal (congruent vs. incongruent left-right motion direction) in another modality. The results revealed a unidirectional crossmodal influence of motion information on spatial localization performance. While visual motion information influenced the perceived final location of the tactile stimulus, tactile motion information had no influence on visual localization. These results therefore extend the existing literature on crossmodal influences on spatial location and are discussed in relation to current theories of multisensory perception.en
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Abstract / DescriptionCode for: Merz, S., Meyerhoff, H. S., Frings, C., & Spence, C. (2020). Representational momentum in vision and touch: Visual motion information biases tactile spatial localization. Attention, Perception, & Psychophysics, 82(5), 2618–2629. https://doi.org/10.3758/s13414-020-01989-1en
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SponsorshipOpen Access funding provided by Projekt DEAL.en
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CitationMerz, S., Meyerhoff, H. S., Frings, C., & Spence, C. (2020). Code for: Representational Momentum in vision and touch: Visual motion information biases tactile spatial localization. PsychArchives. https://doi.org/10.23668/PSYCHARCHIVES.2740en
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Persistent Identifierhttps://hdl.handle.net/20.500.12034/2354
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Persistent Identifierhttps://doi.org/10.23668/psycharchives.2740
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Language of contenteng
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PublisherPsychArchivesen
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Is referenced byhttps://doi.org/10.3758/s13414-020-01989-1
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Is related tohttps://doi.org/10.23668/psycharchives.2739
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Is related tohttps://doi.org/10.3758/s13414-020-01989-1
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Keyword(s)Crossmodal dynamic captureen
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Keyword(s)Crossmodal perceptionen
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Keyword(s)Localizationen
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Keyword(s)Visionen
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Keyword(s)Touchen
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Keyword(s)Representational momentumen
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Dewey Decimal Classification number(s)150
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TitleCode for: Representational Momentum in vision and touch: Visual motion information biases tactile spatial localizationen
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DRO typecodeen