Numerical Verification on Collision Avoidance of Multiple Quadrotors Using Voronoi Division

Numerical Verification on Collision Avoidance of Multiple Quadrotors Using Voronoi Division

In this paper, we assume a situation that multiple quadrotors are flying autonomously in the same space for the purpose of aerial photographing, surveillance, home delivery and so on. In such a situation, an algorithm to avoid mutual collision is needed. D. Zhou et al. proposed an algorithm based on...

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Veröffentlicht in:Keisoku Jidō Seigyo Gakkai ronbunshū 2020, Vol.56(1), pp.31-36
Hauptverfasser: NAKAGAWA, Kento, KWON, Yuhwan, MOTONAKA, Kimiko, MIYOSHI, Seiji
Format: Artikel
Sprache:eng ; jpn
Schlagworte:
collision avoidance
motion and path planning
quadrotor
Voronoi cell
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Zusammenfassung:In this paper, we assume a situation that multiple quadrotors are flying autonomously in the same space for the purpose of aerial photographing, surveillance, home delivery and so on. In such a situation, an algorithm to avoid mutual collision is needed. D. Zhou et al. proposed an algorithm based on the buffered Voronoi cells (BVC) to reach each target position without mutual collision when the multiple quadrotors fly and confirmed its operation by some simulations. In this research, we verified the performance of the method by numerical simulations using MATLAB. In addition, we confirmed the algorithm by dynamic simulations with four quadrotors using the dynamic simulator V-REP.
ISSN:0453-4654
1883-8189
DOI:10.9746/sicetr.56.31