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  1. Classification of Drivers' Workload Using Physiological Signals in Conditional Automation.Quentin Meteier, Marine Capallera, Simon Ruffieux, Leonardo Angelini, Omar Abou Khaled, Elena Mugellini, Marino Widmer & Andreas Sonderegger - 2021 - Frontiers in Psychology 12.
    The use of automation in cars is increasing. In future vehicles, drivers will no longer be in charge of the main driving task and may be allowed to perform a secondary task. However, they might be requested to regain control of the car if a hazardous situation occurs. Performing a secondary task might increase drivers' mental workload and consequently decrease the takeover performance if the workload level exceeds a certain threshold. Knowledge about the driver's mental state might hence be useful (...)
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  • A Review of Psychophysiological Measures to Assess Cognitive States in Real-World Driving. [REVIEW]Monika Lohani, Brennan R. Payne & David L. Strayer - 2019 - Frontiers in Human Neuroscience 13:392220.
    As driving functions become increasingly automated, motorists run the risk of becoming cognitively removed from the driving process. Psychophysiological measures may provide added value not captured through behavioral or self-report measures alone. This paper provides a selective review of the psychophysiological measures that can be utilized to assess cognitive states in real-world driving environments. First, the importance of psychophysiological measures within the context of traffic safety is discussed. Next, the most commonly used physiology-based indices of cognitive states are considered as (...)
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  • A Methodological Review of fNIRS in Driving Research: Relevance to the Future of Autonomous Vehicles.Stephanie Balters, Joseph M. Baker, Joseph W. Geeseman & Allan L. Reiss - 2021 - Frontiers in Human Neuroscience 15.
    As automobile manufacturers have begun to design, engineer, and test autonomous driving systems of the future, brain imaging with functional near-infrared spectroscopy can provide unique insights about cognitive processes associated with evolving levels of autonomy implemented in the automobile. Modern fNIRS devices provide a portable, relatively affordable, and robust form of functional neuroimaging that allows researchers to investigate brain function in real-world environments. The trend toward “naturalistic neuroscience” is evident in the growing number of studies that leverage the methodological flexibility (...)
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