Title :
Robust ladder-climbing with a humanoid robot with application to the DARPA Robotics Challenge
Author :
Jingru Luo ; Yajia Zhang ; Hauser, Kris ; Park, H. Andy ; Paldhe, Manas ; Lee, C. S. George ; Grey, Michael ; Stilman, Mike ; Jun Ho Oh ; Jungho Lee ; Inhyeok Kim ; Oh, P.
Author_Institution :
Sch. of Inf. & Comput., Indiana Univ. Bloomington, Bloomington, IN, USA
fDate :
May 31 2014-June 7 2014
Abstract :
This paper presents an autonomous planning and control framework for humanoid robots to climb general ladder- and stair-like structures. The approach consists of two major components: 1) a multi-limbed locomotion planner that takes as input a ladder model and automatically generates a whole-body climbing trajectory that satisfies contact, collision, and torque limit constraints; 2) a compliance controller which allows the robot to tolerate errors from sensing, calibration, and execution. Simulations demonstrate that the robot is capable of climbing a wide range of ladders and tolerating disturbances and errors. Physical experiments demonstrate the DRC-Hubo humanoid robot successfully mounting, climbing, and dismounting an industrial ladder similar to the one intended to be used in the DARPA Robotics Challenge Trials.
Keywords :
humanoid robots; mobile robots; path planning; robust control; torque control; trajectory control; DARPA Robotics Challenge; DRC-Hubo humanoid robot; autonomous planning; climbing trajectory; compliance controller; ladder model; multilimbed locomotion planner; robust ladder-climbing; torque limit constraint; Collision avoidance; Foot; Joints; Planning; Robot kinematics; Robot sensing systems;
Conference_Titel :
Robotics and Automation (ICRA), 2014 IEEE International Conference on
Conference_Location :
Hong Kong
DOI :
10.1109/ICRA.2014.6907259
