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Journal Article

Citation

Meteier Q, Capallera M, De Salis E, Widmer M, Angelini L, Abou Khaled O, Mugellini E, Sonderegger A. Physiol. Rep. 2022; 10(10): e15229.

Copyright

(Copyright © 2022, American Physiological Society and The Physiological Society, Publisher John Wiley and Sons)

DOI

10.14814/phy2.15229

PMID

35583049

Abstract

Drivers are often held responsible for road crashes. Previous research has shown that stressors such as carrying passengers in the vehicle can be a source of accidents for young drivers. To mitigate this problem, this study investigated whether the presence of a passenger behind the wheel can be predicted using machine learning, based on physiological signals. It also addresses the question whether relaxation before driving can positively influence the driver's state and help controlling the potential negative consequences of stressors. Sixty young participants completed a 10-min driving simulator session, either alone or with a passenger. Before their driving session, participants spent 10 min relaxing or listening to an audiobook. Physiological signals were recorded throughout the experiment.

RESULTS show that drivers experience a higher increase in skin conductance when driving with a passenger, which can be predicted with 90%-accuracy by a k-nearest neighbors classifier. This might be a possible explanation for increased risk taking in this age group. Besides, the practice of relaxation can be predicted with 80% accuracy using a neural network. According to the statistical analysis, the potential beneficial effect of relaxation did not carry out on the driver's physiological state while driving, although machine learning techniques revealed that participants who exercised relaxation before driving could be recognized with 70% accuracy. Analysis of physiological characteristics after classification revealed several relevant physiological indicators associated with the presence of a passenger and relaxation.


Language: en

Keywords

machine learning; stress; physiology; driver state; passenger; relaxation

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