Predicting Flight Trajectory in Convective Weather through Boosted Spatiotemporal Deep Learning Ensemble

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-29 DOI:10.1155/2024/6400839
Xi Zhu, Ke Zhang, Zhuxi Zhang, Lifei Tan
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Abstract

Flight trajectory prediction is one of the key issues in ensuring the safety of air traffic, providing the air traffic controller with the foresight of flight conflicts so that control instructions for pilots can be preconceived. In a complicated mechanism, flight trajectories can be severely affected by convective weather, making accurately predicting trajectories challenging. To address this problem, we propose a boosted spatiotemporal deep learning ensemble for mining the law of how convective weather affects flight trajectory stretching. Instead of conventionally representing trajectory data in a geographic coordinate system, we design a relative coordinate system for gaining new trajectory features which tangibly reflect trajectory’s relations with planned route and convective weather. Besides, we raise a boosted ensemble framework of spatiotemporal deep learning models, trained by the samples pairing sequential trajectory with graphical weather, dedicating to strengthen the mining of the high-value training samples that involve explicit flight deviations caused by convective weather. The experiments using actual flight and weather data demonstrate our method’s superiority in predicting flight trajectory affected by convective weather.

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通过提升时空深度学习集合预测对流天气中的飞行轨迹
飞行轨迹预测是确保空中交通安全的关键问题之一,它为空中交通管制员提供了飞行冲突的预见性,从而可以预先为飞行员提供控制指令。在复杂的机制中,飞行轨迹会受到对流天气的严重影响,因此准确预测轨迹具有挑战性。为解决这一问题,我们提出了一种提升时空深度学习集合,用于挖掘对流天气如何影响飞行轨迹拉伸的规律。我们没有采用传统的地理坐标系来表示轨迹数据,而是设计了一个相对坐标系来获得新的轨迹特征,从而切实反映轨迹与计划航线和对流天气的关系。此外,我们还提出了一个时空深度学习模型的提升集合框架,该框架通过将连续轨迹与图形天气配对的样本进行训练,致力于加强挖掘由对流天气引起的明确飞行偏差的高价值训练样本。利用实际飞行和天气数据进行的实验证明了我们的方法在预测受对流天气影响的飞行轨迹方面的优越性。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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