Performance comparison of guidance strategies to accomplish RTAs during a CDO

2017 IEEE/AIAA 36th Digital Avionics Systems Conference (DASC) Pub Date : 2017-09-01 DOI:10.1109/DASC.2017.8102096

Ramon Dalmau, X. Prats, R. Verhoeven, F. Bussink, B. Heesbeen

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引用次数: 8

Abstract

Continuous Descent Operations with Controlled Times of Arrival (CTA) at one or several metering fixes could enable environmentally friendly procedures without compromising capacity. This type of flight operation requires advanced on-board systems not only able to compute a plan satisfying Required Times of Arrival (RTAs), but also to safely and efficiently guide the aircraft during the execution of the descent such that RTAs are accurately accomplished. The primary aim of this paper is to compare the performance (in terms of environmental impact mitigation and ability to fulfill operational constraints) of four guidance strategies: tactical, strategic, hybrid and Model Predictive Control (MPC). A high fidelity flight simulator has been configured, and several descents to Barcelona-El Prat airport (Spain) have been simulated in presence of weather forecast and aircraft performance modeling errors. Results show that MPC is the most robust in terms of energy and time deviation, providing at the same time excellent environmental impact mitigation.

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CDO过程中完成rta的引导策略的性能比较

控制到达时间(CTA)的连续下降操作在一个或几个计量固定点可以实现环保程序，而不会影响容量。这种类型的飞行操作需要先进的机载系统，不仅能够计算出满足要求到达时间(RTAs)的计划，而且在执行下降过程中安全有效地引导飞机，以准确完成RTAs。本文的主要目的是比较四种制导策略的性能(在减轻环境影响和满足操作约束的能力方面):战术、战略、混合和模型预测控制(MPC)。已经配置了一个高保真度飞行模拟器，并在天气预报和飞机性能建模错误的情况下模拟了几次降落到巴塞罗那-埃尔普拉特机场(西班牙)。结果表明，MPC在能量和时间偏差方面是最稳健的，同时提供了出色的环境影响缓解。

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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2017 IEEE/AIAA 36th Digital Avionics Systems Conference (DASC)

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