PPSwarm: Multi-UAV Path Planning Based on Hybrid PSO in Complex Scenarios

Drones Pub Date : 2024-05-11 DOI:10.3390/drones8050192

Qicheng Meng, Kai Chen, Qingjun Qu

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Abstract

Evolutionary algorithms exhibit flexibility and global search advantages in multi-UAV path planning, effectively addressing complex constraints. However, when there are numerous obstacles in the environment, especially narrow passageways, the algorithm often struggles to quickly find a viable path. Additionally, collaborative constraints among multiple UAVs complicate the search space, making algorithm convergence challenging. To address these issues, we propose a novel hybrid particle swarm optimization algorithm called PPSwarm. This approach initially employs the RRT* algorithm to generate an initial path, rapidly identifying a feasible solution in complex environments. Subsequently, we adopt a priority planning method to assign priorities to UAVs, simplifying collaboration among them. Furthermore, by introducing a path randomization strategy, we enhance the diversity of the particle swarm, thereby avoiding local optimum solutions. The experimental results show that, in comparison to algorithms such as DE, PSO, ABC, GWO, and SPSO, the PPSwarm algorithm demonstrates significant advantages in terms of path quality, convergence speed, and runtime when addressing path planning issues for 40 UAVs across four different scenarios. In larger-scale experiments involving 500 UAVs, the proposed algorithm also exhibits excellent processing capability and scalability.

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PPSwarm：复杂场景中基于混合 PSO 的多无人机路径规划

进化算法在多无人飞行器路径规划中表现出灵活性和全局搜索优势，能有效解决复杂的约束条件。然而，当环境中存在大量障碍物，尤其是狭窄通道时，算法往往难以快速找到可行路径。此外，多架无人飞行器之间的协作约束也使搜索空间变得复杂，从而使算法收敛面临挑战。为了解决这些问题，我们提出了一种名为 PPSwarm 的新型混合粒子群优化算法。这种方法最初采用 RRT* 算法生成初始路径，从而在复杂环境中快速确定可行的解决方案。随后，我们采用优先级规划方法为无人机分配优先级，简化了无人机之间的协作。此外，通过引入路径随机化策略，我们增强了粒子群的多样性，从而避免了局部最优解。实验结果表明，与 DE、PSO、ABC、GWO 和 SPSO 等算法相比，PPSwarm 算法在解决 40 架无人机在四种不同场景下的路径规划问题时，在路径质量、收敛速度和运行时间方面都具有显著优势。在涉及 500 架无人机的更大规模实验中，所提出的算法也表现出卓越的处理能力和可扩展性。

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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Drones

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