J. Alipio, P. Castro, H. Kaing, N. Shahid, Omar Sherzai, George L. Donohue, K. Grundmann
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引用次数: 34
摘要
我们对一种名为动态空域超级扇区(DASS)的新扇区设计进行了评估。动态空域超级扇区可被视为空中单向高密度高速公路网络,就像在美国上空延伸并连接主要机场的细长空域带。DASS 是对空域结构的简化,可减少空中交通管制员 (ATC) 的工作量,并允许对更高密度的飞机进行安全监控。DASS 还有可能减少使用 DASS 的飞机的延误。研究小组利用工作量和延误这两个因素来衡量 DASS 替代方案的有效性。我们使用机场和空域总体建模器(TAAM)和 Arena 仿真环境模拟了替代设计方案的两个方面:改变 DASS 出入口数量的影响,首先是对 DASS 外部交通的影响,其次是对 DASS 内部交通的影响。
Dynamic airspace super sectors (DASS) as high-density highways in the sky for a new US air traffic management system
We evaluate a new sector design called dynamic airspace super sectors (DASS). DASS may be thought of as a network of one-directional, high density highways in the sky, like thin ribbons of airspace stretching over the U.S. and connecting major airports. DASS is a simplification of airspace structure that may decrease air traffic controller (ATC) workload and allow higher densities of aircraft to be safely monitored. DASS would also potentially reduce delay for aircraft using DASS. The team used these two factors, workload and delay, to measure the effectiveness of the DASS Alternatives. We uses total airport and airspace modeller (TAAM) and Arena simulation environments to simulate two aspects of the design alternatives: the effect of varying the number of entrance/exit points to DASS, first, on traffic outside and second, on traffic inside of DASS.
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