Abstract
The authors interest in this work is to perform a precise real-time flocking of multiple unmanned aerial vehicles (UAVs). A consensus-based flocking algorithm that ensures a precise security distance between UAVs is proposed. By using Lyapunov theoretical analysis, the authors propose a flocking algorithm that ensures the ultimate boundedness of multiple-UAV system solutions. Moreover, this algorithm is enhanced by a distributed integral control that renders the inter-distances between UAVs more precise. Finally, experimental results are provided to prove and show the efficiency of these algorithms.
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