Title :
UAV formation flight using 3D potential field
Author :
Paul, Tobias ; Krogstad, Thomas R. ; Gravdahl, Jan Tommy
Author_Institution :
Logistik GmbH, Furstenfeldbruck
Abstract :
The paper presents a solution for formation flight and formation reconfiguration of unmanned aerial vehicles (UAVs). Based on a virtual leader approach, combined with an extended local potential field, it is universal applicable by driving the vehiclepsilas auto pilot. The solution is verified, using a group of UAVs based on a simplified small-scale helicopter, which is simulated in MATLABtrade/Simulinktrade. As necessary for helicopters, the potential field approach is realized in 3D including obstacle and collision avoidance. The collision avoidance strategy could be used separately for the sense and avoid problem.
Keywords :
aerospace computing; aerospace robotics; control engineering computing; helicopters; mobile robots; remotely operated vehicles; 3D potential field; MATLAB/Simulink; UAV formation flight; collision avoidance; extended local potential field; formation reconfiguration; obstacle avoidance; potential field approach; simplified small-scale helicopter; unmanned aerial vehicles; virtual leader approach; Automatic control; Collision avoidance; Helicopters; Marine vehicles; Mathematical model; Military aircraft; Riccati equations; Robustness; Unmanned aerial vehicles; Vehicle dynamics; Unmanned systems; aerospace control; modelling and simulation;
Conference_Titel :
Control and Automation, 2008 16th Mediterranean Conference on
Conference_Location :
Ajaccio
Print_ISBN :
978-1-4244-2504-4
Electronic_ISBN :
978-1-4244-2505-1
DOI :
10.1109/MED.2008.4601984
