Effect before cause: supramodal recalibration of sensorimotor timing

Our motor actions normally generate sensory events, but how do we know which events were self generated and which have external causes? Here we use temporal adaptation to investigate the processing stage and generality of our sensorimotor timing estimates. Adaptation to artificially-induced delays b...

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Veröffentlicht in:	PloS one 2009-11, Vol.4 (11), p.e7681-e7681
Hauptverfasser:	Heron, James, Hanson, James V M, Whitaker, David
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptation Attention Auditory Perception Brain Mapping Calibration Cognition & reasoning Consciousness Decision theory Feedback Humans Motor Neurons Movement Nervous system Neuroscience/Behavioral Neuroscience Neuroscience/Cognitive Neuroscience Neuroscience/Experimental Psychology Neuroscience/Motor Systems Neuroscience/Psychology Neuroscience/Sensory Systems Optometry Perceptions Personality traits Psychiatry Psychometrics Psychomotor Performance Quantitative psychology Reaction Time Reproducibility of Results Schizophrenia Self image Sensorimotor system Time Perception Transcranial magnetic stimulation Trends User-Computer Interface Vision, Ocular Visual Perception
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creator	Heron, James Hanson, James V M Whitaker, David
description	Our motor actions normally generate sensory events, but how do we know which events were self generated and which have external causes? Here we use temporal adaptation to investigate the processing stage and generality of our sensorimotor timing estimates. Adaptation to artificially-induced delays between action and event can produce a startling percept--upon removal of the delay it feels as if the sensory event precedes its causative action. This temporal recalibration of action and event occurs in a quantitatively similar manner across the sensory modalities. Critically, it is robust to the replacement of one sense during the adaptation phase with another sense during the test judgment. Our findings suggest a high-level, supramodal recalibration mechanism. The effects are well described by a simple model which attempts to preserve the expected synchrony between action and event, but only when causality indicates it is reasonable to do so. We further demonstrate that this model successfully characterises related adaptation data from outside the sensorimotor domain.
doi_str_mv	10.1371/journal.pone.0007681
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subjects	Adaptation Attention Auditory Perception Brain Mapping Calibration Cognition & reasoning Consciousness Decision theory Feedback Humans Motor Neurons Movement Nervous system Neuroscience/Behavioral Neuroscience Neuroscience/Cognitive Neuroscience Neuroscience/Experimental Psychology Neuroscience/Motor Systems Neuroscience/Psychology Neuroscience/Sensory Systems Optometry Perceptions Personality traits Psychiatry Psychometrics Psychomotor Performance Quantitative psychology Reaction Time Reproducibility of Results Schizophrenia Self image Sensorimotor system Time Perception Transcranial magnetic stimulation Trends User-Computer Interface Vision, Ocular Visual Perception
title	Effect before cause: supramodal recalibration of sensorimotor timing
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