Title :
Efficient Two-phase 3D Motion Planning for Small Fixed-wing UAVs
Author :
Hwangbo, Myung ; Kuffner, James ; Kanade, Takeo
Author_Institution :
Robotics Inst., Carnegie Mellon Univ., Pittsburgh, PA
Abstract :
We present an efficient two-phase approach to motion planning for small fixed-wing unmanned aerial vehicles (UAVs) navigating in complex 3D air slalom environments. A coarse global motion planner first computes a kinematically feasible obstacle-free path in a discretized 3D workspace which roughly satisfies the kinematic constraints of the UAV. Given a coarse global path, a fine local motion planner is used to compute a more accurate trajectory for the UAV at a higher level of detail. The local planner is iterated as the vehicle traverses and refines the global path as needed up to its planning horizon. We also introduce a new planning heuristic for 3D motions of fixed-wing UAVs based on 2D Dubins curves, along with precomputed sets of motion primitives derived from the vehicle dynamics model in order to achieve high efficiency.
Keywords :
aerospace robotics; collision avoidance; mobile robots; remotely operated vehicles; robot dynamics; robot kinematics; tree searching; 2D Dubins curves; 3D air slalom environment; 3D motion planning; UAV trajectory; discretized 3D workspace; fixed-wing unmanned aerial vehicles; kinematic constraints; obstacle-free path; vehicle dynamics; Aircraft navigation; Kinematics; Mobile robots; Motion planning; Path planning; Remotely operated vehicles; Robotics and automation; USA Councils; Unmanned aerial vehicles; Vehicle dynamics;
Conference_Titel :
Robotics and Automation, 2007 IEEE International Conference on
Conference_Location :
Roma
Print_ISBN :
1-4244-0601-3
Electronic_ISBN :
1050-4729
DOI :
10.1109/ROBOT.2007.363121
