An Efficient Aircraft Conflict Detection and Resolution Method Based on an Improved Reinforcement Learning Framework

IF 1.1 4区工程技术 Q3 ENGINEERING, AEROSPACE

International Journal of Aerospace Engineering Pub Date : 2023-09-16 DOI:10.1155/2023/6643903

Qiucheng Xu, Zhangqi Chen, Fangfang Li, Zhiyuan Shen, Wenbin Wei

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引用次数: 0

Abstract

With the steady increase of air traffic column, an auxiliary decision tool is required to compensate the operation redundancy deficiency of more sectors of air traffic control. To solve the problem of nonconflict high-density departure and arrival traffic flow, this method is expected to rapidly establish and maintain safe separation with more flexible changing strategies for aircraft heading and speed. This paper proposes an improved reinforcement learning framework to achieve conflict detection and resolution. The proposed framework includes the first development of an air traffic flow model based on a multiagent Markov decision process. The goal reward function was then maximized by improved Monte-Carlo tree search combined with an upper confidence bound tree. Three simulation scenarios were designed for illustrating the improvements of the proposed algorithm, with the results indicating that the algorithm could establish and maintain safe separation between 20 agents in the simplified hexagon-shaped airspace of Huadong, China. Furthermore, the proposed method was demonstrated to reduce the number of conflicts between aircraft agents by up to 26.32% compared to previous research.

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一种基于改进强化学习框架的飞机冲突检测与解决方法

随着空管航段的不断增加，需要一种辅助决策工具来弥补更多航段空管运行冗余的不足。为了解决非冲突高密度离港交通流问题，该方法期望能够快速建立并保持安全间隔，并具有更灵活的航向和速度变化策略。本文提出了一种改进的强化学习框架来实现冲突检测和解决。提出的框架包括基于多智能体马尔可夫决策过程的空中交通流模型的首次开发。然后通过改进的蒙特卡罗树搜索结合上置信度界树实现目标奖励函数的最大化。设计了三个仿真场景来说明所提出算法的改进，结果表明该算法可以在中国华东简化六边形空域中建立并保持20个agent之间的安全隔离。此外，与以往的研究相比，该方法可将飞机代理之间的冲突次数减少26.32%。

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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来源期刊

International Journal of Aerospace Engineering ENGINEERING, AEROSPACE-

CiteScore

2.70

自引率

7.10%

发文量

195

审稿时长

22 weeks

期刊介绍： International Journal of Aerospace Engineering aims to serve the international aerospace engineering community through dissemination of scientific knowledge on practical engineering and design methodologies pertaining to aircraft and space vehicles. Original unpublished manuscripts are solicited on all areas of aerospace engineering including but not limited to: -Mechanics of materials and structures- Aerodynamics and fluid mechanics- Dynamics and control- Aeroacoustics- Aeroelasticity- Propulsion and combustion- Avionics and systems- Flight simulation and mechanics- Unmanned air vehicles (UAVs). Review articles on any of the above topics are also welcome.