基于状态变化的复杂环境下无人机路径规划算法

2020 International Conference on Intelligent Computing and Human-Computer Interaction (ICHCI) Pub Date : 2020-12-01 DOI:10.1109/ICHCI51889.2020.00073

Qijie Chen, Tinglong Yan, Taoyu Wang, Tong Zhang

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引用次数: 0

摘要

基于电路中理想电感元件两端电压随理想电源电压变化的物理现象，提出了一种新的无人机复杂环境下的路径规划算法。针对动态目标的跟踪问题，提出了一种状态转移矩阵实现动态目标的跟踪;对于动态障碍物的避障问题，利用无人机的状态变化来定义实现动态避障的状态变化量;利用状态叠加，实现复杂环境下动态目标的避障和跟踪。仿真结果表明，该方法能够有效地避开障碍物和跟踪动态目标，计算复杂度低，实时性强。

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Path Planning Algorithm for UAV in Complex Environment Based on State Change

Based on the physical phenomenon that the voltage across the ideal inductance element changes with the ideal power supply voltage in the circuit, a new path planning algorithm in the complex environment of UAVs is proposed. Aiming at the tracking problem of dynamic targets, a state transition matrix is proposed to realize the tracking of dynamic targets; for the obstacle avoidance problem of dynamic obstacles, the state change of the UAV is used to define the amount of state change to achieve dynamic obstacle avoidance; using state superposition, to achieve obstacle avoidance and tracking of dynamic targets in complex environments. The simulation results show that this method can effectively avoid obstacles and track dynamic targets, with low computational complexity and strong real-time performance.

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2020 International Conference on Intelligent Computing and Human-Computer Interaction (ICHCI)

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