A neuroergonomics approach to driver’s cooperation with Lane Departure Warning Systems

Lane Departure Warning Systems (LDWS) are automation that warn drivers in case of immediate lane departure. While LDWS are associated with increased road safety, little is known about the neural aspects of the cooperation between an LDWS and the driver behind the wheel. The present study addresses t...

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Bibliographic Details
Published in:Behavioural brain research 2024-01, Vol.456, p.114699-114699, Article 114699
Main Authors: Schnebelen, Damien, Reynaud, Emanuelle, Ouimet, Marie Claude, Seguin, Perrine, Navarro, Jordan
Format: Article
Language:English
Subjects:
Car driving
Cognitive science
FMRI
Human-machine cooperation
Lane departure warning
Neuroergonomics
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Summary:Lane Departure Warning Systems (LDWS) are automation that warn drivers in case of immediate lane departure. While LDWS are associated with increased road safety, little is known about the neural aspects of the cooperation between an LDWS and the driver behind the wheel. The present study addresses this issue by combining fMRI and driving simulation for experienced and novice drivers. The results reveal brain areas activated immediately after warning: it involves areas linked to the alertness network (midbrain, thalamus, anterior cingulate cortex), to motor actions and planning (motor and premotor cortexes; BA4/6 -cerebellum) and to attentional redirection (superior frontal cortex; BA10). There were no differences between experienced and novice drivers in this network of cerebral areas. However, prior driving experience mediates the number of lane departures. The results allow for refining a model of cooperation proposed earlier in the literature, by adding a cerebral dimension. •A driving simulator was combined with fMRI to assess brain areas involved in the processing of lane departure warnings.•Warnings recruited brain areas in the alertness network, the motor and premotor cortexes and the superior frontal cortex.•No differences were found between experienced and novice drivers based on their cerebral activations.•Driving experience modulated the number of lane departures.
ISSN:0166-4328
1872-7549
DOI:10.1016/j.bbr.2023.114699