Abstract
Autonomous unmanned aerial vehicle (UAV) swarm flights have been investigated widely. In the presence of a high airspace density and increasingly complex flight conditions, collision avoidance between UAV swarms is very important; however, this problem has not been fully addressed, particularly among self-organizing flight clusters. In this paper, we developed a method for avoiding collisions between different types of self-organized UAV clusters in various flight situations. The Reynolds rules were applied to self-organized flights of UAVs and a parameter optimization framework was used to optimize their organization, before developing a collision avoidance solution for UAV swarms. The proposed method can self-organize the flight of each UAV swarm during the overall process and the UAV swarm can continue to fly according to the self-organizing rules in the collision avoidance process. The UAVs in the airspace all make decisions according to their individual type. The UAVs in different UAV swarms can merge in the same space while avoiding collisions, where the UAV’s self-organized flight process and collision avoidance process are very closely linked, and the trajectory is smooth to satisfy the actual operational needs. The numerical and experimental tests were conducted to demonstrate the effectiveness of the proposed algorithm. The results confirmed the effectiveness of this approach where self-organized flight cluster collision avoidance was successfully achieved by the UAV swarms.
Highlights
Owing to scientific and technological development, the roles of unmanned aerial vehicles (UAVs) have become increasingly important in both military and civilian fields
Each UAV swarm was assumed to be heading toward its own target position along a straight line at 5 m/s
WORK In this study, the self-organized flight of UAV swarms was optimized based on the Reynolds rules
Summary
Owing to scientific and technological development, the roles of unmanned aerial vehicles (UAVs) have become increasingly important in both military and civilian fields. To facilitate collision avoidance in self-organizing UAV flights in practical applications, we developed a method by optimizing the parameters of the force formula used in the Reynolds rules. Vásárhelyi et al [25] solved the problem of seamless navigation by a UAV swarm in a narrow space by addressing and resolving issues in terms of constrained motion and communication capabilities, delays, disturbances, or obstacles They proposed carefully selected sequence parameters and an evolutionary optimization framework for a fitness function, and they used 30 self-organizing UAVs in field experiments.
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