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Mind over motor mapping: Driver response to changing vehicle dynamics

Improvements in vehicle safety require understanding of the neural systems that support the complex, dynamic task of real‐world driving. We used functional near infrared spectroscopy (fNIRS) and pupilometry to quantify cortical and physiological responses during a realistic, simulated driving task i...

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Published in:	Human brain mapping 2018-10, Vol.39 (10), p.3915-3927
Main Authors:	Bruno, Jennifer L., Baker, Joseph M., Gundran, Andrew, Harbott, Lene K., Stuart, Zachary, Piccirilli, Aaron M., Hosseini, S. M. Hadi, Gerdes, J. Christian, Reiss, Allan L.
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Language:	English
Subjects:	Activation Adolescent Adult Automobile Driving Brain Cerebral Cortex - diagnostic imaging Cerebral Cortex - physiology Cortex Driver behavior drviving Female functional near infrared spectroscopy Functional Neuroimaging - methods Humans In vehicle Infrared spectroscopy Learning - physiology Male Man-Machine Systems Motor skill learning Motors Near infrared radiation personality Personality - physiology Physiological responses Physiology Psychomotor Performance - physiology Pupil - physiology pupilometry Safety systems Spectroscopy, Near-Infrared - methods steering control Traffic accidents & safety Vehicle safety Young Adult
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creator	Bruno, Jennifer L. Baker, Joseph M. Gundran, Andrew Harbott, Lene K. Stuart, Zachary Piccirilli, Aaron M. Hosseini, S. M. Hadi Gerdes, J. Christian Reiss, Allan L.
description	Improvements in vehicle safety require understanding of the neural systems that support the complex, dynamic task of real‐world driving. We used functional near infrared spectroscopy (fNIRS) and pupilometry to quantify cortical and physiological responses during a realistic, simulated driving task in which vehicle dynamics were manipulated. Our results elucidate compensatory changes in driver behavior in response to changes in vehicle handling. We also describe associated neural and physiological responses under different levels of mental workload. The increased cortical activation we observed during the late phase of the experiment may indicate motor learning in prefrontal–parietal networks. Finally, relationships among cortical activation, steering control, and individual personality traits suggest that individual brain states and traits may be useful in predicting a driver's response to changes in vehicle dynamics. Results such as these will be useful for informing the design of automated safety systems that facilitate safe and supportive driver–car communication.
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subjects	Activation Adolescent Adult Automobile Driving Brain Cerebral Cortex - diagnostic imaging Cerebral Cortex - physiology Cortex Driver behavior drviving Female functional near infrared spectroscopy Functional Neuroimaging - methods Humans In vehicle Infrared spectroscopy Learning - physiology Male Man-Machine Systems Motor skill learning Motors Near infrared radiation personality Personality - physiology Physiological responses Physiology Psychomotor Performance - physiology Pupil - physiology pupilometry Safety systems Spectroscopy, Near-Infrared - methods steering control Traffic accidents & safety Vehicle safety Young Adult
title	Mind over motor mapping: Driver response to changing vehicle dynamics
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