Article Title,Year,Volume,Issue,Page Range,Author
Driver's turning intent recognition model based on brain activation and contextual information,2022,3,,e956863,Lüdtke
Associations of visual functions with attitudes about motor vehicle dashboards among older drivers,2022,3,,e918781,Owsley
Predicting the degree of distracted driving based on fNIRS functional connectivity: a pilot study,2022,3,,e864938,Ogihara
Opportunities and limitations of a gaze-contingent display to simulate visual field loss in driving simulator studies,2022,3,,e916169,Bengler
Generating flight illusions using galvanic vestibular stimulation in virtual reality flight simulations,2022,3,,e883962,Cevette
Editorial: Cognitive mechanisms for safe road traffic systems,2022,3,,e897659,Ahlstrom
Investigating differences in behavior and brain in human-human and human-autonomous vehicle interactions in time-critical situations,2022,3,,e836518,Bengler
Sensitivity of physiological measures of acute driver stress: a meta-analytic review,2021,2,,e756473,Navarro
Eye tracking in driver attention research--how gaze data interpretations influence what we learn,2021,2,,e778043,Kircher
Hybrid systems to boost EEG-based real-time action decoding in car driving scenarios,2021,2,,e784827,Vecchiato
Risk assessment by a passenger of an autonomous vehicle among pedestrians: relationship between subjective and physiological measures,2021,2,,e682119,Mars
European NCAP Program developments to address driver distraction drowsiness and sudden sickness,2021,2,,e786674,Fredriksson
Measuring correlates of mental workload during simulated driving using cEEGrid electrodes: a test-retest reliability analysis,2021,2,,e729197,Wascher
Let complexity bring clarity: a multidimensional assessment of cognitive load using physiological measures,2022,3,,e787295,Matthews
Eyes on the road: brain computer interfaces and cognitive distraction in traffic,2023,4,,e1171910,Mecacci
Attempting to counteract vigilance decrement in older adults with brain stimulation,2023,4,,e1201702,Herrmann
An investigation of cardiac vagal tone over time and its relation to vigilance performance: a growth curve modeling approach,2023,4,,e1244658,Klein
A narrative review of the interconnection between pilot acute stress startle and surprise effects in the aviation context: contribution of physiological measurements,2023,4,,e1059476,Baccino
A map of evidence using transcranial direct current stimulation (tDCS) to improve cognition in adults with traumatic brain injury (TBI),2023,4,,e1170473,Madhavan
Physiological synchrony in electrodermal activity predicts decreased vigilant attention induced by sleep deprivation,2023,4,,e1199347,van Erp
The WACDT a modern vigilance task for network defense,2023,4,,e1215497,Guidetti
Human premotor corticospinal projections are engaged in motor preparation at discrete time intervals: a TMS-induced virtual lesion study,2021,2,,e678906,Brandt
Inattention and uncertainty in the predictive brain,2021,2,,e718699,Kujala
The origins of passive active and sleep-related fatigue,2021,2,,e765322,Baldwin
Task-related hemodynamic response alterations during slacklining: an fNIRS study in advanced slackliners,2021,2,,e644490,Carius
Mind wandering influences EEG signal in complex multimodal environments,2021,2,,e625343,Berberian