Title :
3D modeling, distance and gradient computation for motion planning: A direct GPGPU approach
Author :
Wagner, Rene ; Frese, Udo ; Bauml, Berthold
Author_Institution :
DLR Inst. of Robot. & Mechatron., Wessling, Germany
Abstract :
The Kinect sensor and KinectFusion algorithm have revolutionized environment modeling. We bring these advances to optimization-based motion planning by computing the obstacle and self-collision avoidance objective functions and their gradients directly from the KinectFusion model on the GPU without ever transferring any model to the CPU. Based on this, we implement a proof-of-concept motion planner which we validate in an experiment with a 19-DOF humanoid robot using real data from a tabletop work space. The summed-up time from taking the first look at the scene until the planned path avoiding an obstacle on the table is executed is only three seconds.
Keywords :
general purpose computers; graphics processing units; humanoid robots; path planning; sensor fusion; 19-DOF humanoid robot; 3D modeling; Kinect sensor; KinectFusion algorithm; direct GPGPU approach; distance computation; gradient computation; obstacle avoidance objective functions; optimization-based motion planning; revolutionized environment modeling; self-collision avoidance objective functions; tabletop workspace; Computational modeling; Graphics processing units; Instruction sets; Planning; Robot sensing systems; Three-dimensional displays;
Conference_Titel :
Robotics and Automation (ICRA), 2013 IEEE International Conference on
Conference_Location :
Karlsruhe
Print_ISBN :
978-1-4673-5641-1
DOI :
10.1109/ICRA.2013.6631080
