Title :
Formation control of a large group of UAVs with safe path planning and obstacle avoidance
Author :
Regula, Gergely ; Lantos, Bela
Author_Institution :
MTA- BME Control Eng. Res. Group, Budapest, Hungary
Abstract :
In this article we propose a hierarchical control structure for multi-agent systems. The main objective is to perform formation change manoeuvres, with guaranteed safe distance between each two vehicles throughout the whole mission, even if motion is restricted to a limited space and static obstacles are present. The key components that ensure safety are a robust control algorithm that is capable of stabilising the group of vehicles in a desired formation and a higher level path generation method that provides all the vehicles with safe paths, based on graph theoretic considerations. The method can efficiently handle a large group of any type of vehicles. As an illustration, the results are applied to a group of 18 quadrotor UAVs, where 2 of the UAVs cannot receive information from the others.
Keywords :
autonomous aerial vehicles; collision avoidance; graph theory; hierarchical systems; multi-agent systems; robust control; rotors (mechanical); formation control; graph theory; hierarchical control structure; multiagent system; obstacle avoidance; path generation method; path planning; quadrotor UAV; robust control algorithm; Collision avoidance; Helicopters; Robust control; Safety; Silicon; Topology; Vehicles; UAVs; distributed control; formation control; multi-agent system; obstacle avoidance; quadrotor helicopters; robust control;
Conference_Titel :
Control Conference (ECC), 2014 European
Conference_Location :
Strasbourg
Print_ISBN :
978-3-9524269-1-3
DOI :
10.1109/ECC.2014.6862411
