Convective weather avoidance with uncertain weather forecasts

2009 IEEE/AIAA 28th Digital Avionics Systems Conference Pub Date : 2009-12-04 DOI:10.1109/DASC.2009.5347511

R. Windhorst, M. Refai, S. Karahan

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引用次数: 15

Abstract

This paper describes simulations of an automated planning system that routes flights around airspace impacted by forecasted convective weather. If the system predicts that a flight will enter a weather-impacted airspace within a predefined time horizon, it generates a new route. Because the forecasts are uncertain, the system periodically generates, using updates of the weather forecasts and radar tracks, new reroutes. The simulations included convective weather in the northeastern quadrant of the United States over a 24-hr period. Multiple simulations investigated the system performance as the planning horizon and planning frequency varied. As the planning horizon and frequency increased, the system successfully routed more traffic around weather but with more route changes. For a planning horizon of 20 to 120 minutes and a planning frequency of four cycles per hour, the reroutes increased flight time by 3.3% and avoided 79% of the weather-impacted airspaces that were detected. Most flights required one to three reroutes to pass by a weather-impacted airspace, while the worst case flights required six reroutes.

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在不确定的天气预报下避免对流天气

本文描述了一个自动规划系统的模拟，该系统可以绕过受预报对流天气影响的空域进行飞行。如果系统预测航班将在预定的时间范围内进入受天气影响的空域，它就会生成一条新航线。由于预报是不确定的，系统定期生成，利用更新的天气预报和雷达轨迹，新的路线。模拟包括美国东北部24小时内的对流天气。多次仿真研究了规划范围和规划频率变化时系统的性能。随着规划范围和频率的增加，该系统成功地使更多的交通绕过天气，但路线变化更多。在20 - 120分钟的规划周期和每小时4个周期的规划频率下，改道将飞行时间增加了3.3%，并避免了79%被检测到的受天气影响的空域。大多数航班需要一到三条航线才能通过受天气影响的空域，而最糟糕的航班需要六条航线。

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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2009 IEEE/AIAA 28th Digital Avionics Systems Conference

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