The Wake Vortex Prediction and Monitoring System WSVBS Part II: Performance and ATC Integration at Frankfurt Airport

Air traffic control quarterly Pub Date : 2009-10-01 DOI:10.2514/ATCQ.17.4.323

T. Gerz, F. Holzäpfel, Wilfried Gerlling, A. Scharnweber, M. Frech, K. Kober, K. Dengler, S. Rahm

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引用次数: 43

Abstract

The performance and ATC integration of DLRA¢Â�Â�s wake vortex advisory system A¢Â�Â�WSVBSA¢Â�Â� (Wirbelschleppen-Vorhersage- und -Beobachtungssystem) for the dependent parallel runway system 25L and 25R at Frankfurt Airport are described. WSVBS has compo-nents to forecast and monitor the local weather and to predict and monitor wake trans-port and decay along the glide paths. It is integrated in the arrival manager AMAN of DLR. Each 10 minutes it delivers minimum safe aircraft separation times for the next hour to air traffic control. These times are translated into operational modes for runways 25L/R aiming at improving the capacity. From 66 days of a performance test at Frank-furt it was found that the system ran stable and the predicted minimum separation times were safe. The capacity improving concepts of operation could have been used in 75% of the time and continuously applied for at least several tens of minutes. From fast-time simulations the eventual capacity gain for Frankfurt was estimated to be 3% taking into account the real traffic mix and operational constraints in the period of one month.

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法兰克福机场尾流预报与监测系统WSVBS第二部分:性能与ATC集成

介绍了法兰克福机场25L和25R独立平行跑道系统DLRA™Â - Â尾流预警系统A™Â - Â - WSVBSA™Â - Â (Wirbelschleppen-Vorhersage- und - beobachtungssystem)的性能和ATC集成情况。WSVBS有预测和监测当地天气的组件，也有预测和监测尾流在滑翔路径上的传输和衰减的组件。它集成在DLR的到达管理AMAN中。每隔10分钟，它就会向空中交通管制部门提供接下来一个小时的最低安全飞机间隔时间。这些时间转化为25L/R跑道的运行模式，旨在提高运力。在Frank-furt进行了66天的性能测试，发现该系统运行稳定，预测的最小分离时间是安全的。容量提升的操作概念可以在75%的时间内使用，并且连续应用至少几十分钟。根据快速模拟，考虑到一个月期间的实际交通组合和运营限制，法兰克福的最终运力增长估计为3%。

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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Air traffic control quarterly

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