Wake vortex hazards in en-route airspace and suspected hazard area identification using high fidelity simulation models
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hdl:2117/122860
Document typeConference lecture
Defense date2018
Rights accessRestricted access - publisher's policy
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Abstract
This paper presents a discussion about risks and
hazards of potential wake vortex encounters in the en-route
airspace. High-fidelity simulations under realistic conditions have
been analysed showing that the current en-route separation
standards may be overconservative in some cases –thus enabling
a potential reduction that may lead to additional airspace
capacity–, whereas may not protect enough in some specific
situations, thus requiring additional protection for flights. The
simulation framework developed in the R-WAKE project, a
SESAR 2020 Exploratory Research project, has been used to
identify and characterise the suspected hazard areas (SHA) that
flights should avoid under certain conditions if they are crossing
a piece of airspace after another flight. A large number of
simulations were performed to generate the SHAs, resulting
from the combination of different: a) separation distances; b)
aircraft types (including realistic masses and cruise speeds); c)
altitudes and atmospheric conditions; and d) relative encounter
geometries (horizontal and vertical). This study can support the
development of new separation standards aimed at increasing
airspace capacity and safety.
Description
Best of Session (ATM-I: Weather Impact Assessment) Award, 2018; Premi al millor article de la Sessió (ATM-I: Weather Impact Assessment) en el marc del 37th AIAA/IEEE Digital Avionics Systems Conference (DASC), atorgat per American Institute of Aeronautics and Astronautics i l'Institute of Electrical and Electronics Engineers
CitationMelgosa, M., Ruiz-Moreno, S., Busto, J., Steen, M., Rojas, J.I., Prats, X. Wake vortex hazards in en-route airspace and suspected hazard area identification using high fidelity simulation models. A: Digital Avionics Systems Conference. "Proceedings of 37th AIAA/IEEE Digital Avionics Systems Conference (DASC)". 2018, p. 843-852.
Award-winningAward-winning
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