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Circadian effect on physiology and driving performance in semi-automated vehicles

Circadian effect on physiology and driving performance in semi-automated vehicles
Circadian effect on physiology and driving performance in semi-automated vehicles

Human performance and physiology undergo circadian changes. The safety of driving tends to decrease at night and during the afternoon, and these changes cannot be solely addressed to the decreased visibility. Previous literature reported that circadian rhythmicity plays a role in these changes. A similar phenomenon might occur in semi-automated driving. Also, as physiology undergoes circadian changes, it was suggested that systems of driver state monitoring might have different accuracy during the day and at night. This paper investigated the circadian effect on driving performance and physiology of the driver in simulated semi-automated driving. 53 participants participated in the experiment twice, once during the day and once at night. They drove a driving simulator in the semi-automated driving scenario. Following psychophysiological functions were measured during the experiment: electromyography, electrooculography, electrocardiography, respiration, pulse, blood oxygenation, electrodermal activity, voice, sleepiness, fatigue, readiness to take-over manual control of the vehicles, mental workload, cortisol, and alpha-amylase. There was a significant correlation between circadian phase and sleepiness, fatigue, readiness to take-over manual driving, physical demand, mean autocorrelation of voice, mean noise to harmonics ratio in voice, horizontal eye movements, frequency of frontalis, mean power in frontalis, peak power in frontalis, cortisol level, and driving performance.

Circadian, automated vehicles, driving, physiology, psychophysiology
1464-536X
Kaduk, S.I.
4faa8ddf-42f3-4f14-a5b6-a21e30eff0bd
Roberts, A.P.
96c4e46b-c3f3-4b2a-bf31-478de01ff265
Stanton, N.A.
351a44ab-09a0-422a-a738-01df1fe0fadd
Kaduk, S.I.
4faa8ddf-42f3-4f14-a5b6-a21e30eff0bd
Roberts, A.P.
96c4e46b-c3f3-4b2a-bf31-478de01ff265
Stanton, N.A.
351a44ab-09a0-422a-a738-01df1fe0fadd

Kaduk, S.I., Roberts, A.P. and Stanton, N.A. (2022) Circadian effect on physiology and driving performance in semi-automated vehicles. Theoretical Issues in Ergonomics Science. (doi:10.1080/1463922X.2022.2121440).

Record type: Article

Abstract

Human performance and physiology undergo circadian changes. The safety of driving tends to decrease at night and during the afternoon, and these changes cannot be solely addressed to the decreased visibility. Previous literature reported that circadian rhythmicity plays a role in these changes. A similar phenomenon might occur in semi-automated driving. Also, as physiology undergoes circadian changes, it was suggested that systems of driver state monitoring might have different accuracy during the day and at night. This paper investigated the circadian effect on driving performance and physiology of the driver in simulated semi-automated driving. 53 participants participated in the experiment twice, once during the day and once at night. They drove a driving simulator in the semi-automated driving scenario. Following psychophysiological functions were measured during the experiment: electromyography, electrooculography, electrocardiography, respiration, pulse, blood oxygenation, electrodermal activity, voice, sleepiness, fatigue, readiness to take-over manual control of the vehicles, mental workload, cortisol, and alpha-amylase. There was a significant correlation between circadian phase and sleepiness, fatigue, readiness to take-over manual driving, physical demand, mean autocorrelation of voice, mean noise to harmonics ratio in voice, horizontal eye movements, frequency of frontalis, mean power in frontalis, peak power in frontalis, cortisol level, and driving performance.

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More information

e-pub ahead of print date: 4 September 2022
Published date: 13 September 2022
Additional Information: Funding Information: This work was supported by Jaguar Land Rover and the UK-EPSRC grant EP/N011899/1 as part of the jointly funded Towards Autonomy: Smart and Connected Control (TASCC) Programme. Publisher Copyright: © 2022 Informa UK Limited, trading as Taylor & Francis Group.
Keywords: Circadian, automated vehicles, driving, physiology, psychophysiology

Identifiers

Local EPrints ID: 472526
URI: http://eprints.soton.ac.uk/id/eprint/472526
DOI: doi:10.1080/1463922X.2022.2121440
ISSN: 1464-536X
PURE UUID: 4513d781-b2c4-4364-b652-4dd75c757821
ORCID for N.A. Stanton: ORCID iD orcid.org/0000-0002-8562-3279

Catalogue record

Date deposited: 07 Dec 2022 17:50
Last modified: 17 Mar 2024 03:17

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Contributors

Author: S.I. Kaduk
Author: A.P. Roberts
Author: N.A. Stanton ORCID iD

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