Abstract
The present book aimed to provide state-of-the-art overviews concerning the most important and studied mental states in aviation.
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References
Aricò P, Borghini G, Di Flumeri G, Babiloni F (2015) Metodo per stimare uno stato mentale, in particolare un carico di lavoro, e relativo apparato (A Method for the estimation of mental state, in particular of the mental workload and its device). P1108IT00
Aricò P, Borghini G, Di Flumeri G, Colosimo A, Bonelli S, Golfetti A, Pozzi S, Imbert J.-P, Granger G, Benhacene R, Babiloni F (2016) Adaptive Automation triggered by EEG-based mental workload index: a passive brain-computer interface application in realistic air traffic control environment. Front. Hum. Neurosci 539. doi:10.3389/fnhum.2016.00539
Borghini G, Aricò P, Di Flumeri G, Cartocci G, Colosimo A, Bonelli S, Golfetti A, Imbert J.-P, Granger G, Benhacene R, Pozzi S, Babiloni F (2017). EEG-based cognitive control behaviour assessment: an eco-logical study with professional air traffic controllers. Sci. Rep. - Nat. In press
Broach D (2013) Selection of the next generation of air traffic control specialists: aptitude requirements for the air traffic control tower cab in 2018. Aerospace Medicine Technical Reports No. DOT/FAA/AM-13/5. FAA Office of Aerospace Medicine Civil Aerospace Medical Institute
Byrne EA, Parasuraman R (1996) Psychophysiology and adaptive automation. Biol Psychol, Psychophysiology of Workload 42:249–268. doi:10.1016/0301-0511(95)05161-9
Parasuraman R, Bahri T, Deaton JE, Morrison JG, Barnes M (1992) Theory and Design of Adaptive Automation in Aviation Systems
Parasuraman R, Mouloua M, Molloy R (1996) Effects of adaptive task allocation on monitoring of automated systems. Hum Factors 38:665–679
Pawlak W, Brinton C, Crouch K, Lancaster K, (1996) A framework for the evaluation of air traffic control complexity. In: Guidance, navigation, and control conference. American Institute of Aeronautics and Astronautics
Uebbing-Rumke M, GĂĽrlĂĽk H, Schulze-Kissing D (2012) Adaptive automation support for time-based operations in ATC. IOS Press
Vicente KJ, Rasmussen J (1992) Ecological interface design: theoretical foundations. IEEE Trans Syst Man Cybern 22:589–606. doi:10.1109/21.156574
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Borghini, G., Aricò, P., Di Flumeri, G., Babiloni, F. (2017). General Conclusions. In: Industrial Neuroscience in Aviation. Biosystems & Biorobotics, vol 18. Springer, Cham. https://doi.org/10.1007/978-3-319-58598-7_8
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DOI: https://doi.org/10.1007/978-3-319-58598-7_8
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