Title :
Optimization based full body control for the atlas robot
Author :
Siyuan Feng ; Whitman, Eric ; Xinjilefu, X. ; Atkeson, Christopher G.
Author_Institution :
Robot. Inst., Carnegie Mellon Univ., Pittsburgh, PA, USA
Abstract :
One popular approach to controlling humanoid robots is through inverse kinematics (IK) with stiff joint position tracking. On the other hand, inverse dynamics (ID) based approaches have gained increasing acceptance by providing compliant motions and robustness to external perturbations. However, the performance of such methods is heavily dependent on high quality dynamic models, which are often very difficult to produce for a physical robot. IK approaches only require kinematic models, which are much easier to generate in practice. In this paper, we supplement our previous work with ID-based controllers by adding IK, which helps compensate for modeling errors. The proposed full body controller is applied to three tasks in the DARPA Robotics Challenge (DRC) Trials in Dec. 2013.
Keywords :
humanoid robots; mobile robots; motion control; optimisation; perturbation techniques; position control; robot dynamics; robot kinematics; robust control; DARPA Robotics Challenge trials; DRC trials; ID-based controllers; IK; atlas robot; compliant motions; external perturbations; high quality dynamic models; humanoid robots control; inverse dynamics; inverse kinematics; kinematic models; optimization based full body control; physical robot; robustness; stiff joint position tracking; Dynamics; Foot; Jacobian matrices; Joints; Kinematics; Robots; Torque;
Conference_Titel :
Humanoid Robots (Humanoids), 2014 14th IEEE-RAS International Conference on
Conference_Location :
Madrid
DOI :
10.1109/HUMANOIDS.2014.7041347
