A novel hybrid grey wolf optimizer algorithm for unmanned aerial vehicle (UAV) path planning
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摘要
Unmanned aerial vehicle (UAV) path planning problem is an important component of UAV mission planning system, which needs to obtain optimal route in the complicated field. To solve this problem, a novel hybrid algorithm called HSGWO-MSOS is proposed by combining simplified grey wolf optimizer (SGWO) and modified symbiotic organisms search (MSOS). In the proposed algorithm, the exploration and exploitation abilities are combined efficiently. The phase of the GWO algorithm is simplified to accelerate the convergence rate and retain the exploration ability of the population. The commensalism phase of the SOS algorithm is modified and synthesized with the GWO to improve the exploitation ability. In addition, the convergence analysis of the proposed HSGWO-MSOS algorithm is presented based on the method of linear difference equation. The cubic B-spline curve is used to smooth the generated flight route and make the planning path be suitable for the UAV. The simulation experimental results show that the HSGWO-MSOS algorithm can acquire a feasible and effective route successfully, and its performance is superior to the GWO, SOS and SA algorithm.
论文关键词:Hybrid meta-heuristic algorithm,Unmanned aerial vehicle (UAV),Path planning
论文评审过程:Received 16 May 2019, Revised 13 December 2019, Accepted 14 January 2020, Available online 28 January 2020, Version of Record 18 May 2020.
论文官网地址:https://doi.org/10.1016/j.knosys.2020.105530