Effects of platooning on signal-detection performance, workload, and stress: a driving simulator study
Effects of platooning on signal-detection performance, workload, and stress: a driving simulator study
Platooning, whereby automated vehicles travel closely together in a group, is attractive in terms of safety and efficiency. However, concerns exist about the psychological state of the platooning driver, who is exempted from direct control, yet remains responsible for monitoring the outside environment to detect potential threats. By means of a driving simulator experiment, we investigated the effects on recorded and self-reported measures of workload and stress for three task-instruction conditions: (1) No Task, in which participants had to monitor the road, (2) Voluntary Task, in which participants could do whatever they wanted, and (3) Detection Task, in which participants had to detect red cars. Twenty-two participants performed three 40-min runs in a constant-speed platoon, one condition per run in counterbalanced order. Contrary to some classic literature suggesting that humans are poor monitors, in the Detection Task condition participants attained a high mean detection rate (94.7%) and a low mean false alarm rate (0.8%). Results of the Dundee Stress State Questionnaire indicated that automated platooning was less distressing in the Voluntary Task than in the Detection Task and No Task conditions. In terms of heart rate variability, the Voluntary Task condition yielded a lower power in the low-frequency range relative to the high-frequency range (LF/HF ratio) than the Detection Task condition. Moreover, a strong time-on-task effect was found, whereby the mean heart rate dropped from the first to the third run. In conclusion,participants are able to remain attentive for a prolonged platooning drive, and the type of monitoring task has effects on the driver's psychological state.
Heikoop, Daniel D.
d4598c35-c8a9-4d0f-82d1-d956d5793d7d
de Winter, Joost C.F.
59ebe174-7c3e-4b83-937e-f36a9a9c106a
van Arem, Bart
95291aab-bdc1-40ba-8c2a-6149e4a7238a
Stanton, Neville A.
351a44ab-09a0-422a-a738-01df1fe0fadd
Heikoop, Daniel D.
d4598c35-c8a9-4d0f-82d1-d956d5793d7d
de Winter, Joost C.F.
59ebe174-7c3e-4b83-937e-f36a9a9c106a
van Arem, Bart
95291aab-bdc1-40ba-8c2a-6149e4a7238a
Stanton, Neville A.
351a44ab-09a0-422a-a738-01df1fe0fadd
Heikoop, Daniel D., de Winter, Joost C.F., van Arem, Bart and Stanton, Neville A.
(2016)
Effects of platooning on signal-detection performance, workload, and stress: a driving simulator study.
Applied Ergonomics.
(doi:10.1016/j.apergo.2016.10.016).
(In Press)
Abstract
Platooning, whereby automated vehicles travel closely together in a group, is attractive in terms of safety and efficiency. However, concerns exist about the psychological state of the platooning driver, who is exempted from direct control, yet remains responsible for monitoring the outside environment to detect potential threats. By means of a driving simulator experiment, we investigated the effects on recorded and self-reported measures of workload and stress for three task-instruction conditions: (1) No Task, in which participants had to monitor the road, (2) Voluntary Task, in which participants could do whatever they wanted, and (3) Detection Task, in which participants had to detect red cars. Twenty-two participants performed three 40-min runs in a constant-speed platoon, one condition per run in counterbalanced order. Contrary to some classic literature suggesting that humans are poor monitors, in the Detection Task condition participants attained a high mean detection rate (94.7%) and a low mean false alarm rate (0.8%). Results of the Dundee Stress State Questionnaire indicated that automated platooning was less distressing in the Voluntary Task than in the Detection Task and No Task conditions. In terms of heart rate variability, the Voluntary Task condition yielded a lower power in the low-frequency range relative to the high-frequency range (LF/HF ratio) than the Detection Task condition. Moreover, a strong time-on-task effect was found, whereby the mean heart rate dropped from the first to the third run. In conclusion,participants are able to remain attentive for a prolonged platooning drive, and the type of monitoring task has effects on the driver's psychological state.
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Effects of Platooning on Signal-Detection Rev.2 no highlight.docx
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Accepted/In Press date: 31 October 2016
Organisations:
Transportation Group
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Local EPrints ID: 402973
URI: http://eprints.soton.ac.uk/id/eprint/402973
ISSN: 0003-6870
PURE UUID: e570f8bd-0942-419f-adda-a2fb4f33f4c1
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Date deposited: 21 Nov 2016 12:10
Last modified: 15 Mar 2024 06:04
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Author:
Daniel D. Heikoop
Author:
Joost C.F. de Winter
Author:
Bart van Arem
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