Causal inference predicts the transition from integration to segmentation in motion perception

Motion provides a powerful sensory cue for segmenting a visual scene into objects and inferring the causal relationships between objects. Fundamental mechanisms involved in this process are the integration and segmentation of local motion signals. However, the computations that govern whether local...

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Published in	Scientific reports Vol. 14; no. 1; pp. 27704 - 13
Main Authors	Penaloza, Boris, Shivkumar, Sabyasachi, Lengyel, Gabor, DeAngelis, Gregory C., Haefner, Ralf M.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 12.11.2024 Nature Publishing Group Nature Portfolio
Subjects	631/378/116 631/378/2613/1483 631/378/2613/2616 Adult Bayes Theorem Bayesian analysis Bias Female Humanities and Social Sciences Humans Hypotheses Male Motion detection Motion Perception - physiology multidisciplinary Perceptions Photic Stimulation - methods Science Science (multidisciplinary) Segmentation Sensory integration Velocity Visual perception Visual stimuli Young Adult
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ISSN	2045-2322 2045-2322
DOI	10.1038/s41598-024-78820-6

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Abstract	Motion provides a powerful sensory cue for segmenting a visual scene into objects and inferring the causal relationships between objects. Fundamental mechanisms involved in this process are the integration and segmentation of local motion signals. However, the computations that govern whether local motion signals are perceptually integrated or segmented remain unclear. Hierarchical Bayesian causal inference has recently been proposed as a model for these computations, yet a hallmark prediction of the model – its dependency on sensory uncertainty – has remained untested. We used a recently developed hierarchical stimulus configuration to measure how human subjects integrate or segment local motion signals while manipulating motion coherence to control sensory uncertainty. We found that (a) the perceptual transition from motion integration to segmentation shifts with sensory uncertainty, and (b) that perceptual variability is maximal around this transition point. Both findings were predicted by the model and challenge conventional interpretations of motion repulsion effects.
AbstractList	Motion provides a powerful sensory cue for segmenting a visual scene into objects and inferring the causal relationships between objects. Fundamental mechanisms involved in this process are the integration and segmentation of local motion signals. However, the computations that govern whether local motion signals are perceptually integrated or segmented remain unclear. Hierarchical Bayesian causal inference has recently been proposed as a model for these computations, yet a hallmark prediction of the model – its dependency on sensory uncertainty – has remained untested. We used a recently developed hierarchical stimulus configuration to measure how human subjects integrate or segment local motion signals while manipulating motion coherence to control sensory uncertainty. We found that (a) the perceptual transition from motion integration to segmentation shifts with sensory uncertainty, and (b) that perceptual variability is maximal around this transition point. Both findings were predicted by the model and challenge conventional interpretations of motion repulsion effects. Abstract Motion provides a powerful sensory cue for segmenting a visual scene into objects and inferring the causal relationships between objects. Fundamental mechanisms involved in this process are the integration and segmentation of local motion signals. However, the computations that govern whether local motion signals are perceptually integrated or segmented remain unclear. Hierarchical Bayesian causal inference has recently been proposed as a model for these computations, yet a hallmark prediction of the model – its dependency on sensory uncertainty – has remained untested. We used a recently developed hierarchical stimulus configuration to measure how human subjects integrate or segment local motion signals while manipulating motion coherence to control sensory uncertainty. We found that (a) the perceptual transition from motion integration to segmentation shifts with sensory uncertainty, and (b) that perceptual variability is maximal around this transition point. Both findings were predicted by the model and challenge conventional interpretations of motion repulsion effects. Motion provides a powerful sensory cue for segmenting a visual scene into objects and inferring the causal relationships between objects. Fundamental mechanisms involved in this process are the integration and segmentation of local motion signals. However, the computations that govern whether local motion signals are perceptually integrated or segmented remain unclear. Hierarchical Bayesian causal inference has recently been proposed as a model for these computations, yet a hallmark prediction of the model - its dependency on sensory uncertainty - has remained untested. We used a recently developed hierarchical stimulus configuration to measure how human subjects integrate or segment local motion signals while manipulating motion coherence to control sensory uncertainty. We found that (a) the perceptual transition from motion integration to segmentation shifts with sensory uncertainty, and (b) that perceptual variability is maximal around this transition point. Both findings were predicted by the model and challenge conventional interpretations of motion repulsion effects.Motion provides a powerful sensory cue for segmenting a visual scene into objects and inferring the causal relationships between objects. Fundamental mechanisms involved in this process are the integration and segmentation of local motion signals. However, the computations that govern whether local motion signals are perceptually integrated or segmented remain unclear. Hierarchical Bayesian causal inference has recently been proposed as a model for these computations, yet a hallmark prediction of the model - its dependency on sensory uncertainty - has remained untested. We used a recently developed hierarchical stimulus configuration to measure how human subjects integrate or segment local motion signals while manipulating motion coherence to control sensory uncertainty. We found that (a) the perceptual transition from motion integration to segmentation shifts with sensory uncertainty, and (b) that perceptual variability is maximal around this transition point. Both findings were predicted by the model and challenge conventional interpretations of motion repulsion effects.
ArticleNumber	27704
Author	Shivkumar, Sabyasachi Haefner, Ralf M. Lengyel, Gabor Penaloza, Boris DeAngelis, Gregory C.
Author_xml	– sequence: 1 givenname: Boris surname: Penaloza fullname: Penaloza, Boris email: b.penalozarojas@northeastern.edu organization: Department of Brain and Cognitive Sciences and Center for Visual Science, University of Rochester, Department of Psychology, Northeastern University – sequence: 2 givenname: Sabyasachi surname: Shivkumar fullname: Shivkumar, Sabyasachi organization: Department of Brain and Cognitive Sciences and Center for Visual Science, University of Rochester, Zuckerman Mind Brain Behavior Institute, Columbia University – sequence: 3 givenname: Gabor surname: Lengyel fullname: Lengyel, Gabor organization: Department of Brain and Cognitive Sciences and Center for Visual Science, University of Rochester – sequence: 4 givenname: Gregory C. surname: DeAngelis fullname: DeAngelis, Gregory C. organization: Department of Brain and Cognitive Sciences and Center for Visual Science, University of Rochester – sequence: 5 givenname: Ralf M. surname: Haefner fullname: Haefner, Ralf M. organization: Department of Brain and Cognitive Sciences and Center for Visual Science, University of Rochester
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Snippet	Motion provides a powerful sensory cue for segmenting a visual scene into objects and inferring the causal relationships between objects. Fundamental... Abstract Motion provides a powerful sensory cue for segmenting a visual scene into objects and inferring the causal relationships between objects. Fundamental...
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SubjectTerms	631/378/116 631/378/2613/1483 631/378/2613/2616 Adult Bayes Theorem Bayesian analysis Bias Female Humanities and Social Sciences Humans Hypotheses Male Motion detection Motion Perception - physiology multidisciplinary Perceptions Photic Stimulation - methods Science Science (multidisciplinary) Segmentation Sensory integration Velocity Visual perception Visual stimuli Young Adult
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Title	Causal inference predicts the transition from integration to segmentation in motion perception
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