机载合并与间隔研究的快速仿真环境

The 23rd Digital Avionics Systems Conference (IEEE Cat. No.04CH37576) Pub Date : 2004-10-24 DOI:10.1109/DASC.2004.1391288

F. Bussink, N. Doble, B. Barmore, S. Singer

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引用次数: 17

摘要

作为NASA分布式空中/地面交通管理(DAG-TM)工作的一部分，NASA兰利研究中心正在开发合并多架飞机到达流的概念和算法，并在跑道阈值上精确间隔飞机。为此目的，一种机载工具应运而生，称为航空归并和终端到达间隔(AMSTAR)。为了评估AMSTAR的性能并补充人在环实验，开发了一个仿真环境，可以快速研究AMSTAR的操作。该环境基于TMX, TMX是荷兰国家航空航天实验室(NLR)创建的一个多飞机桌面模拟程序。本文回顾了AMSTAR的概念，讨论了将AMSTAR算法集成到TMX中，并对TMX进行了增强以支持快速AMSTAR研究，并给出了初步的仿真结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A fast-time simulation environment for airborne merging and spacing research

As part of NASA's distributed air/ground traffic management (DAG-TM) effort, NASA Langley Research Center is developing concepts and algorithms for merging multiple aircraft arrival streams and precisely spacing aircraft over the runway threshold. An airborne tool has been created for this purpose, called airborne merging and spacing for terminal arrivals (AMSTAR). To evaluate the performance of AMSTAR and complement human-in-the-loop experiments, a simulation environment has been developed that enables fast-time studies of AMSTAR operations. The environment is based on TMX, a multiple-aircraft desktop simulation program created by the Netherlands National Aerospace Laboratory (NLR). This paper reviews the AMSTAR concept, discusses the integration of the AMSTAR algorithm into TMX and the enhancements added to TMX to support fast-time AMSTAR studies, and presents initial simulation results.

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The 23rd Digital Avionics Systems Conference (IEEE Cat. No.04CH37576)

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