降低城市空中交通运营成本的产前飞行计划

Q2 Social Sciences
Hualong Tang, Yu Zhang, J. Post
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引用次数: 1

摘要

城市空中机动(UAM)有望在未来向低海拔城市空域的高度自动化和高密度操作过渡。UAM(PSU)的服务提供商,而不是传统的空中交通管制,预计将为运营商提供运营规划、飞机消除冲突、合规性监测和紧急信息传播方面的支持。只有通过自动化系统才能实现在受限空域同时进行数百至数千次无人机操作的此类服务。在这项研究中,提出了用于生成产前无冲突四维(4-D)飞行轨迹的空域和消除冲突模型,该模型可以进一步发展为PSU的自动化飞行规划工具。提出了一种适用于未来无人机的半结构可扩展空域设计(即分层空域拓扑结构,垂直起降机场之间有直接路线,避免建筑物、障碍物和受限空域等物理障碍),使用可见性图方法。基于所提出的空域设计,通过求解一个混合整数规划问题,应用去冲突策略(如飞行高度分配和起飞延迟)来获得无人机运行的无冲突4-D轨迹,目标函数是使无人机运行成本最小化。此外,还进行了敏感性分析,以调查三个关键成本参数(电价、机组人员小时费率和维护小时费率)的影响。考察了发车延误界限(允许的最大发车延误)与运营成本节约的关系以及发车延误界限与乘客延误成本的关系,以及运营成本节约和乘客延误成本之间的权衡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Predeparture Flight Planning to Minimize Operating Cost for Urban Air Mobility
Urban air mobility (UAM) is envisioned to move to highly automated and high-density operations in low-altitude urban airspace in the future. Providers of services for UAM (PSU), rather than the legacy air traffic control, are anticipated to support operators with operational planning, aircraft deconfliction, conformance monitoring, and emergency information dissemination. Such services, for hundreds to thousands of simultaneous UAM operations in constrained airspace, can only be realized with automated systems. In this study, airspace and deconfliction models for generating predeparture conflict-free four-dimensional (4-D) flight trajectories are proposed, which can be further developed into an automated flight planning tool for PSU. A semistructured scalable airspace design for future UAM is proposed (i.e., a layered airspace topology with direct routes between vertiports, avoiding physical obstacles, such as buildings, obstructions, and restricted airspace) using the visibility graph method. Based on the proposed airspace design, deconfliction strategies (e.g., flight-level assignment and departure delay) are applied to obtain predeparture conflict-free 4-D trajectories of UAM operations by solving a mixed-integer programming problem, with the objective function to minimize the operating cost of UAM operations. Furthermore, sensitivity analysis is performed to investigate the impacts of three key cost parameters (electricity price, crew hourly rate, and maintenance hourly rate). The relationships of departure delay bound (maximum departure delay allowed) vs operating cost saving and departure delay bound vs delay cost to passengers are examined, as is the tradeoff between operating cost saving and passenger delay cost.
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来源期刊
Journal of Air Transportation
Journal of Air Transportation Social Sciences-Safety Research
CiteScore
2.80
自引率
0.00%
发文量
16
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