EEG alpha spindles and prolonged brake reaction times during auditory distraction in an on-road driving study
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EEG alpha spindles and prolonged brake reaction times during auditory distraction in an on-road driving study. / Sonnleitner, Andreas; Treder, Matthias Sebastian; Simon, Michael; Willmann, Sven; Ewald, Arne; Buchner, Axel; Schrauf, Michael.
In: ACCIDENT ANAL PREV, Vol. 62, 2014, p. 110-8.Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review
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TY - JOUR
T1 - EEG alpha spindles and prolonged brake reaction times during auditory distraction in an on-road driving study
AU - Sonnleitner, Andreas
AU - Treder, Matthias Sebastian
AU - Simon, Michael
AU - Willmann, Sven
AU - Ewald, Arne
AU - Buchner, Axel
AU - Schrauf, Michael
N1 - Copyright © 2013 Elsevier Ltd. All rights reserved.
PY - 2014
Y1 - 2014
N2 - Driver distraction is responsible for a substantial number of traffic accidents. This paper describes the impact of an auditory secondary task on drivers' mental states during a primary driving task. N=20 participants performed the test procedure in a car following task with repeated forced braking on a non-public test track. Performance measures (provoked reaction time to brake lights) and brain activity (EEG alpha spindles) were analyzed to describe distracted drivers. Further, a classification approach was used to investigate whether alpha spindles can predict drivers' mental states. Results show that reaction times and alpha spindle rate increased with time-on-task. Moreover, brake reaction times and alpha spindle rate were significantly higher while driving with auditory secondary task opposed to driving only. In single-trial classification, a combination of spindle parameters yielded a median classification error of about 8% in discriminating the distracted from the alert driving. Reduced driving performance (i.e., prolonged brake reaction times) during increased cognitive load is assumed to be indicated by EEG alpha spindles, enabling the quantification of driver distraction in experiments on public roads without verbally assessing the drivers' mental states.
AB - Driver distraction is responsible for a substantial number of traffic accidents. This paper describes the impact of an auditory secondary task on drivers' mental states during a primary driving task. N=20 participants performed the test procedure in a car following task with repeated forced braking on a non-public test track. Performance measures (provoked reaction time to brake lights) and brain activity (EEG alpha spindles) were analyzed to describe distracted drivers. Further, a classification approach was used to investigate whether alpha spindles can predict drivers' mental states. Results show that reaction times and alpha spindle rate increased with time-on-task. Moreover, brake reaction times and alpha spindle rate were significantly higher while driving with auditory secondary task opposed to driving only. In single-trial classification, a combination of spindle parameters yielded a median classification error of about 8% in discriminating the distracted from the alert driving. Reduced driving performance (i.e., prolonged brake reaction times) during increased cognitive load is assumed to be indicated by EEG alpha spindles, enabling the quantification of driver distraction in experiments on public roads without verbally assessing the drivers' mental states.
U2 - 10.1016/j.aap.2013.08.026
DO - 10.1016/j.aap.2013.08.026
M3 - SCORING: Journal article
C2 - 24144496
VL - 62
SP - 110
EP - 118
JO - ACCIDENT ANAL PREV
JF - ACCIDENT ANAL PREV
SN - 0001-4575
ER -