Title :
HRA∗: Hybrid randomized path planning for complex 3D environments
Author :
Teniente, Ernesto H. ; Andrade-Cetto, Juan
Author_Institution :
Inst. de Robot. i Inf. Ind., UPC, Barcelona, Spain
Abstract :
We propose HRA*, a new randomized path planner for complex 3D environments. The method is a modified A* algorithm that uses a hybrid node expansion technique that combines a random exploration of the action space meeting vehicle kinematic constraints with a cost to goal metric that considers only kinematically feasible paths to the goal. The method includes also a series of heuristics to accelerate the search time. These include a cost penalty near obstacles, and a filter to prevent revisiting configurations. The performance of the method is compared against A*, RRT and RRT* in a series of challenging 3D outdoor datasets. HRA* is shown to outperform all of them in computation time, and delivering shorter paths than A* and RRT.
Keywords :
mobile robots; off-road vehicles; path planning; robot kinematics; vehicle dynamics; 3D outdoor datasets; HRA*; RRT algorithm; RRT* algorithm; action space meeting vehicle kinematic constraints; complex 3D environments; computation time; cost penalty; goal metric; hybrid node expansion technique; hybrid randomized path planning; modified A* algorithm; random exploration; randomized path planner; revisiting configurations; search time; Monte Carlo methods; Robot kinematics; Three-dimensional displays; Trajectory; Vehicles;
Conference_Titel :
Intelligent Robots and Systems (IROS), 2013 IEEE/RSJ International Conference on
Conference_Location :
Tokyo
DOI :
10.1109/IROS.2013.6696588
