Green trajectories in high traffic TMAs

2007 IEEE/AIAA 26th Digital Avionics Systems Conference Pub Date : 2007-12-04 DOI:10.1109/DASC.2007.4391823

A. Kuenz, V. Mollwitz, B. Korn

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引用次数: 29

Abstract

New conflicting future demands in air travel like gain of capacity and coexistent reduction of environmental impact necessitate new airborne functions and a better integration of these capabilities in air traffic management (ATM). DLR's Advanced Flight Management System proved a highly accurate predictability of 4D trajectories in flight trials with the A330-300 Full Flight Simulator of ZFB Berlin and DLR's test aircraft ATTAS, a VFW 614 twin engine jet transport aircraft modified for research purposes. Due to an inefficient air-ground integration current terminal manoeuvring area (TMA) concepts do not support 4D-capable aircraft in flying fuel efficient and noise abating profiles. A trajectory based TMA handling is necessary to combine aircraft optimized flight profiles with high airport efficiency. This paper presents results of advanced continuous descent approaches (CDA) flight trials with the research aircraft ATTAS and simulation trials with the A330 full flight simulator. Furthermore, a trajectory based TMA concept is introduced as a possible solution for the current trade-off between green trajectories and high airport capacity even in high traffic situations.

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高流量tma的绿色轨迹

未来航空旅行的新需求相互冲突，如容量的增加和环境影响的减少，需要新的机载功能，并在空中交通管理(ATM)中更好地整合这些功能。DLR的先进飞行管理系统在柏林ZFB的A330-300全飞行模拟器和DLR的测试飞机ATTAS(一架VFW 614双引擎喷气式运输机，用于研究目的)的飞行试验中证明了对4D轨迹的高度精确预测。由于低效的空地集成，当前终端机动区域(TMA)概念不支持具有4d能力的飞机飞行燃油效率和噪声消减剖面。基于轨迹的TMA处理是将飞机优化飞行剖面与机场高效率相结合的必要条件。本文介绍了先进连续下降进近(CDA)在研究飞机ATTAS上的飞行试验和在A330全飞行模拟器上的模拟试验结果。此外，引入了基于轨迹的TMA概念，作为当前在高流量情况下绿色轨迹和高机场容量之间权衡的可能解决方案。

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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2007 IEEE/AIAA 26th Digital Avionics Systems Conference

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