Air Traffic Control (ATC) has been classified as the fourth most stressful job. In this regard, sixteen controllers were asked to perform ecological ATC simulation during which behavioral (Radio Communications with pilots - RCs), subjective (stress perception) and neurophysiological signals (brain activity and skin conductance - SC) were collected. All the considered parameters reported significant changes under high stress conditions. In particular, the theta, alpha, and beta brain rhythms increased significantly (all p<0.05) all over the brain areas, and both the SC components exhibited higher values (p<0.01). Additionally, the number of speech under high stress decreased significantly (p<10-4) while both the mean and median value of the F0 component of the RC increased (p<0.01). The results can be employed to objectively measure and track the controller's stress level while dealing with ATC activities to better tailoring the workshift and maintaining high safety levels.
Stress Assessment by Combining Neurophysiological Signals and Radio Communications of Air Traffic Controllers / Borghini, G.; Bandini, A.; Orlandi, S.; Di Flumeri, G.; Arico, P.; Sciaraffa, N.; Ronca, V.; Bonelli, S.; Ragosta, M.; Tomasello, P.; Turhan, U.; Acikel, B.; Ozan, A.; Imbert, J. P.; Granger, G.; Benhacene, R.; Drogoul, F.; Babiloni, F.. - 2020-:(2020), pp. 851-854. ( 42nd Annual International Conferences of the IEEE Engineering in Medicine and Biology Society, EMBC 2020 Montreal, CANADA JUL 20-24, 2020) [10.1109/EMBC44109.2020.9175958].
Stress Assessment by Combining Neurophysiological Signals and Radio Communications of Air Traffic Controllers
Bandini A.;
2020
Abstract
Air Traffic Control (ATC) has been classified as the fourth most stressful job. In this regard, sixteen controllers were asked to perform ecological ATC simulation during which behavioral (Radio Communications with pilots - RCs), subjective (stress perception) and neurophysiological signals (brain activity and skin conductance - SC) were collected. All the considered parameters reported significant changes under high stress conditions. In particular, the theta, alpha, and beta brain rhythms increased significantly (all p<0.05) all over the brain areas, and both the SC components exhibited higher values (p<0.01). Additionally, the number of speech under high stress decreased significantly (p<10-4) while both the mean and median value of the F0 component of the RC increased (p<0.01). The results can be employed to objectively measure and track the controller's stress level while dealing with ATC activities to better tailoring the workshift and maintaining high safety levels.
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