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Citation |
Aricò P, Borghini G, Di Flumeri G, Colosimo A, Bonelli S, Golfetti A, Pozzi S, Imbert JP, Granger G, Benhacene R, Babiloni F. Front. Hum. Neurosci. 2016; 10: E539. |
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Affiliation |
Department of Molecular Medicine, Sapienza University of RomeRome, Italy; BrainSigns Co. Ltd, Spin-off Company from Sapienza University of RomeRome, Italy. |
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Copyright |
(Copyright © 2016, Frontiers Research Foundation) |
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DOI |
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PMID |
27833542 |
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Abstract |
Adaptive Automation (AA) is a promising approach to keep the task workload demand within appropriate levels in order to avoid both the under- and over-load conditions, hence enhancing the overall performance and safety of the human-machine system. The main issue on the use of AA is how to trigger the AA solutions without affecting the operative task. In this regard, passive Brain-Computer Interface (pBCI) systems are a good candidate to activate automation, since they are able to gather information about the covert behavior (e.g., mental workload) of a subject by analyzing its neurophysiological signals (i.e., brain activity), and without interfering with the ongoing operational activity. We proposed a pBCI system able to trigger AA solutions integrated in a realistic Air Traffic Management (ATM) research simulator developed and hosted at ENAC (École Nationale de l'Aviation Civile of Toulouse, France). Twelve Air Traffic Controller (ATCO) students have been involved in the experiment and they have been asked to perform ATM scenarios with and without the support of the AA solutions. Language: en |