An improved dung beetle optimizer for UAV 3D path planning

Qi Chen, Yajie Wang, Yunfei Sun
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Abstract

UAV path planning poses the challenge of determining the most efficient route from an initial location to a desired destination, while considering mission objectives and adhering to various flight restrictions. This is a challenging optimization problem with high dimensionality that demands efficient path planning methods. To tackle the intricate UAV path planning problem within complex 3D environments, we propose an improved dung beetle optimizer (IDBO) for UAV path planning. Firstly, we formulate a cost function that converts the UAV path planning problem into a multidimensional function optimization problem, considering both trajectory restrictions and safety restrictions of the UAV. This enables us to effectively search for the optimal path. Secondly, we introduce a chaotic strategy to initialize the population, ensuring a comprehensive exploration of the solution space and enhancing population diversity. Additionally, we incorporate exponentially decreasing inertia weights into the algorithm, which improves convergence speed and exploration capability. Furthermore, to tackle the issue of decreasing population diversity during the late stages of convergence, we employ an adaptive Cauchy mutation strategy to enhance population diversity. Through simulation results, we demonstrate that IDBO achieves faster convergence and generates better paths compared to existing approaches in the same environment. These results demonstrate the remarkable efficacy of the proposed improved algorithm in effectively tackling the UAV path planning problem.

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用于无人机 3D 路径规划的改进型蜣螂优化器
无人机路径规划面临的挑战是,在考虑任务目标和遵守各种飞行限制的同时,确定从初始位置到所需目的地的最有效路径。这是一个具有挑战性的高维优化问题,需要高效的路径规划方法。为了解决复杂三维环境中错综复杂的无人机路径规划问题,我们提出了一种用于无人机路径规划的改进蜣螂优化器(IDBO)。首先,我们制定了一个成本函数,将无人机路径规划问题转化为一个多维函数优化问题,同时考虑无人机的轨迹限制和安全限制。这使我们能够有效地搜索最优路径。其次,我们引入了混沌策略来初始化种群,确保全面探索解空间并提高种群多样性。此外,我们在算法中加入了指数递减惯性权重,从而提高了收敛速度和探索能力。此外,为了解决收敛后期种群多样性下降的问题,我们采用了自适应考奇突变策略来增强种群多样性。通过模拟结果,我们证明了在相同环境下,与现有方法相比,IDBO 实现了更快的收敛速度,并生成了更好的路径。这些结果证明了所提出的改进算法在有效解决无人机路径规划问题方面的显著功效。
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