Set-up of an experimental protocol to analyse physiological signals during autonomous driving in a dynamic driving simulator

Set-up of an experimental protocol to analyse physiological signals during autonomous driving in a dynamic driving simulator

Advancements in autonomous vehicle technology continue to progress rapidly, but concerns regarding public acceptance persist. Traditional studies have used questionnaires to assess social acceptance, but these have limitations. To gather more reliable data, tracking physiological signals offers a pr...

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Bibliographic Details
Main Authors: Giulia Mengucci, Antonio Cioffi, Manuela Galli, Stefano Melzi, Gisella Tomasini
Format: Article
Language:English
Published: Elsevier 2025-09-01
Series:Transportation Research Interdisciplinary Perspectives
Subjects:
Physiological signals
Dynamic driving simulator
Autonomous driving
Experimental protocol
Online Access:http://www.sciencedirect.com/science/article/pii/S2590198225002258
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Summary:Advancements in autonomous vehicle technology continue to progress rapidly, but concerns regarding public acceptance persist. Traditional studies have used questionnaires to assess social acceptance, but these have limitations. To gather more reliable data, tracking physiological signals offers a promising alternative. This study aims to develop and test an experimental protocol to assess human acceptance of autonomous driving by using both objective measures - i.e.: Electroencephalogram (EEG), Electrocardiogram (ECG), Skin Potential Response (SPR), and Eye Tracking (ET) - and subjective measures, by means of surveys. The tests were conducted in a controlled yet realistic environment using the VI-Grade DiM400 dynamic driving simulator. The study involved 31 participants who acted as passengers in a vehicle driven either by a human driver or by different human-like driver models across three driving scenarios. Various indices were extracted from each biosignal, and a repeated measures ANOVA was performed to assess differences in participants’ emotional states between human and autonomous driving, as well as during specific driving events. The ANOVA results indicated that the setup effectively captured changes in emotional state during events, with ECG time domain indices being particularly sensitive. However, no significant differences were found in the cognitive state between human and autonomous driving, suggesting a consistently relaxed state across conditions — a finding also supported by the questionnaires. This study demonstrates the potential of using ECG signals to objectively measure emotional responses in driving scenarios, providing valuable insights into trust in autonomous vehicles and offering new possibilities for driving safety and monitoring applications.
ISSN:2590-1982

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