Sleep inertia in automated driving: Post-sleep take-over and driving performance

•Take-over performance and manual driving behavior are investigated in drivers after electroencephalography-confirmed stable sleep..•After sleep, take-over performance is impaired yielding “driving errors” in the Take-Over Controllability-Rating.•Manual driving performance after sleep yields impairm...

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Veröffentlicht in:	Accident analysis and prevention 2021-02, Vol.150, p.105918-105918, Article 105918
Hauptverfasser:	Wörle, Johanna, Metz, Barbara, Baumann, Martin
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Sprache:	eng
Schlagworte:	Automated driving Driver state Driving performance Sleep Sleep inertia Take-over performance
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container_title	Accident analysis and prevention
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creator	Wörle, Johanna Metz, Barbara Baumann, Martin
description	•Take-over performance and manual driving behavior are investigated in drivers after electroencephalography-confirmed stable sleep..•After sleep, take-over performance is impaired yielding “driving errors” in the Take-Over Controllability-Rating.•Manual driving performance after sleep yields impairments in lane and speed keeping and drivers chose lower speeds.•Sleep inertia has a serious impact on driving behavior and has to be accounted for in the development of automated vehicles. Sleep is emerging as a new driver state in automated driving. Post-sleep performance impairments due to sleep inertia, the transitional phase from sleep to wakefulness that can take up to 30 min, are a potential safety issue. Take-over performance immediately after sleep is impaired and drivers perceive the take-over as critical. The aim of the presented study was to assess take-over behavior immediately after sleep and driving behavior during the 10 min after sleep. A study with N = 31 drivers was conducted in a high-fidelity driving simulator. Take-over performance and driving performance were assessed a) under alert baseline conditions and b) after awakening from electroencephalography-confirmed stable sleep. Take-over performance 15 s after awakening was impaired resulting in more driving errors compared to the alert baseline. Lane keeping was dramatically impaired in the first 3 min after sleep and recovered rapidly. Drivers drove slower after sleep and speed keeping was less stable for at least 10 min. The results suggest that human-machine interaction design should account for the drivers’ impaired post-sleep driving performance.
doi_str_mv	10.1016/j.aap.2020.105918
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source	Elsevier ScienceDirect Journals
subjects	Automated driving Driver state Driving performance Sleep Sleep inertia Take-over performance
title	Sleep inertia in automated driving: Post-sleep take-over and driving performance
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