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document
Mulder, M. (author), Van Paassen, M.M. (author), Tielrooij, M. (author), In 't Veld, A.C. (author)
book chapter 2010
document
De Jong, P.M.A. (author), In 't Veld, A.C. (author), De Leege, A.M.P. (author), Van Paassen, M.M. (author), Mulder, M. (author)
Amsterdam Schiphol Airport currently uses a Continuous Descent Approach during night time operations only, due to reduced runway capacity caused by unpredictable individual aircraft behavior. The Three-Degree Decelerating Approach (TDDA) has been developed to increase predictability and runway capacity by switching the sepa- ration task from Air...
conference paper 2010
document
De Leege, A.M.P. (author), In 't Veld, A.C. (author), Mulder, M. (author), Van Paassen, M.M. (author)
Tactical control during a closed-path Continuous Descent Operation stops the aircraft from following its optimized descent. To mitigate tactical control, air traffic controllers apply arbitrary large spacing buffers to account for the unpredictability of the aircraft trajectory from the controller’s point of view. A controller support tool is...
conference paper 2011
document
In 't Veld, A.C. (author), De Jong, P.M.A. (author), Van Paassen, M.M. (author), Mulder, M. (author)
Wind is one of the major contributors to uncertainty in continuous descent approach operations. Especially when aircraft that are flying low or idle thrust approaches are issued a required time of arrival over the runway threshold, as is foreseen in some of the future ATC scenarios, the on-board availability of both dependable and accurate wind...
conference paper 2011
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