Coverage path planning of heterogeneous unmanned aerial vehicles based on ant colony system

Jinchao Chen, Fuyuan Ling, Ying Zhang, Tao You, Yifan Liu, Xiaoyan Du

Research output: Contribution to journalArticlepeer-review

205 Scopus citations

Abstract

Unmanned aerial vehicle (UAV) has been extensively studied and widely adopted in practical systems owing to its effectiveness and flexibility. Although heterogeneous UAVs have an enormous advantage in improving performance and conserving energy with respect to homogeneous ones, they give rise to a complex path planning problem. Especially in large-scale cooperative search systems with multiple separated regions, coverage path planning which seeks optimal paths for UAVs to completely visit and search all of regions of interest, has a NP-hard computation complexity and is difficult to settle. In this work, we focus on the coverage path planning problem of heterogeneous UAVs, and present an ant colony system (ACS)-based algorithm to obtain good enough paths for UAVs and fully cover all regions efficiently. First, models of UAVs and regions are built, and a linear programming-based formulation is presented to exactly provide the best point-to-point flight path for each UAV. Then, inspired by the foraging behaviour of ants that they can obtain the shortest path between their nest and food, an ACS-based heuristic is presented to seek approximately optimal solutions and minimize the time consumption of tasks in the cooperative search system. Experiments on randomly generated regions have been organized to evaluate the performance of the new heuristic in terms of execution time, task completion time and deviation ratio.

Original languageEnglish
Article number101005
JournalSwarm and Evolutionary Computation
Volume69
DOIs
StatePublished - Mar 2022

Keywords

  • Ant colony system
  • Coverage path planning
  • Heterogeneous UAVs
  • Multiple regions
  • Unmanned aerial vehicle

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