Exploring the conflict risk characteristics of air weaving sections in Metroplex terminal areas with flight trajectory data and adaptive graph spatial-temporal transformer

IF 3.9 2区 工程技术 Q2 TRANSPORTATION Journal of Air Transport Management Pub Date : 2024-08-24 DOI:10.1016/j.jairtraman.2024.102667
Jie Bao, Zijie Zhang, Junfeng Zhang, Yixuan Chen, Xuhao Gui
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Abstract

Metroplex terminal areas is involved with numerous air weaving sections, where various types of arrival and departure traffic flows intersect or converge, leading to high-risk aircraft conflicts and inefficient Metroplex operation. The primary objective of this study is to explore the conflict risk characteristics of operational interactions between airports in Metroplex terminal areas with large-scale trajectory data, including risk evaluation, risk propagation and risk prediction. One complete month of ADS-B trajectory data is collected from a representative multi-airport system in Central and South China to illustrate the procedure. Specifically, flight trajectories are firstly clustered within Metroplex terminal areas, and a trajectory-tube model is then built to characterize the airport flows within the same cluster. Then, a clustering-based collision probability calculation method is proposed to evaluate the risk of air weaving sections. The spatial patterns of risks in air weaving sections reveal that operational interactions among Metroplex airports are quite different under various runway configurations. Furthermore, an adaptive graph spatial-temporal transformer (ASTT) network is developed to predict the future risk of each air weaving section in Metroplex terminal areas. The results indicate that the developed ASTT network can collaboratively encode the spatiotemporal characteristics in the air weaving section risk data, which achieves more accurate and robust prediction performance than other compared models during multiple look-ahead time steps. Moreover, the adaptive spatial graph technique designed in the ASTT can also reveal the hidden risk propagation effects among air weaving sections. The results of this study could provide insightful suggestions to air traffic authorities for developing effective coordination and conflict mitigation strategies, such as redesigning flight procedures, reallocating routes, and optimizing aircraft sequences to enhance the efficiency and safety of Metroplex operations.

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利用飞行轨迹数据和自适应图时空变换器探索大都会航站区空中交织路段的冲突风险特征
城市综合体航站区涉及众多空中交织路段,各类到达和出发交通流在此交汇或汇合,导致飞机冲突风险高,城市综合体运行效率低下。本研究的主要目的是利用大规模轨迹数据,探索大都会航站区机场间运行互动的冲突风险特征,包括风险评估、风险传播和风险预测。本研究从华中和华南地区具有代表性的多机场系统中收集了一个月完整的 ADS-B 航迹数据,以说明研究过程。具体来说,首先在都会航站区内对飞行轨迹进行聚类,然后建立轨迹管模型来描述同一聚类内的机场流。然后,提出一种基于聚类的碰撞概率计算方法来评估空中穿梭路段的风险。空中穿梭路段风险的空间模式揭示了在不同的跑道配置下,大都会区机场之间的运行互动存在很大差异。此外,还开发了自适应图时空变换器(ASTT)网络,用于预测大都会综合体航站区各空中穿梭路段的未来风险。结果表明,所开发的 ASTT 网络能够协同编码空中编队航段风险数据中的时空特征,在多个前瞻时间步长内比其他比较模型获得更准确、更稳健的预测性能。此外,ASTT 设计的自适应空间图技术还能揭示织空区段间隐藏的风险传播效应。本研究的结果可为空中交通管理部门提供有见地的建议,帮助其制定有效的协调和冲突缓解策略,如重新设计飞行程序、重新分配航线、优化飞机序列等,以提高地铁运行的效率和安全性。
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来源期刊
CiteScore
12.40
自引率
11.70%
发文量
97
期刊介绍: The Journal of Air Transport Management (JATM) sets out to address, through high quality research articles and authoritative commentary, the major economic, management and policy issues facing the air transport industry today. It offers practitioners and academics an international and dynamic forum for analysis and discussion of these issues, linking research and practice and stimulating interaction between the two. The refereed papers in the journal cover all the major sectors of the industry (airlines, airports, air traffic management) as well as related areas such as tourism management and logistics. Papers are blind reviewed, normally by two referees, chosen for their specialist knowledge. The journal provides independent, original and rigorous analysis in the areas of: • Policy, regulation and law • Strategy • Operations • Marketing • Economics and finance • Sustainability
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