Title :
Linear model predictive control of the locomotion of Pepper, a humanoid robot with omnidirectional wheels
Author :
Lafaye, Jory ; Gouaillier, David ; Wieber, Pierre-Brice
Abstract :
The goal of this paper is to present a new real-time controller based on linear model predictive control for an omnidirectionnal wheeled humanoid robot. It is able to control both the mobile base of the robot and its body, while taking into account dynamical constraints. It makes it possible to have high velocity and acceleration motions by predicting the dynamic behavior of the robot in the future. Experimental results are proposed on the robot Pepper made by Aldebaran, showing good performance in terms of robustness and tracking control, efficiently managing kinematic and dynamical constraints.
Keywords :
acceleration control; humanoid robots; linear systems; mobile robots; motion control; predictive control; robot dynamics; robot kinematics; robust control; velocity control; Aldebaran; Pepper locomotion; acceleration motions; dynamical constraints; kinematic constraints; linear model predictive control; mobile base control; omnidirectionnal wheeled humanoid robot; real-time controller; robot dynamic behavior; robustness; tracking control; velocity; Acceleration; Legged locomotion; Mobile communication; Trajectory; Wheels; Aldebaran Pepper Robot; Balance Control; Humanoid Robotics; Linear Model Predictive Control; Mobile Robotics; Omnidirectional Wheeled Robot; Quadratic Programming;
Conference_Titel :
Humanoid Robots (Humanoids), 2014 14th IEEE-RAS International Conference on
Conference_Location :
Madrid
DOI :
10.1109/HUMANOIDS.2014.7041381
