Whole-body control with disturbance rejection through a momentum-based observer for quadruped robots☆
Mechanism and Machine Theory, 2021•Elsevier
This paper presents an estimator of external disturbances for legged robots, based on the
system's momentum. The estimator, along with a suitable motion planner for the trajectory of
the robot's center of mass and an optimization problem based on the modulation of ground
reaction forces, devises a whole-body controller for the robot. The designed solution is
tested on a quadruped robot within a dynamic simulation environment. The quadruped is
stressed by external disturbances acting on stance and swing legs indifferently. The …
system's momentum. The estimator, along with a suitable motion planner for the trajectory of
the robot's center of mass and an optimization problem based on the modulation of ground
reaction forces, devises a whole-body controller for the robot. The designed solution is
tested on a quadruped robot within a dynamic simulation environment. The quadruped is
stressed by external disturbances acting on stance and swing legs indifferently. The …
Abstract
This paper presents an estimator of external disturbances for legged robots, based on the system’s momentum. The estimator, along with a suitable motion planner for the trajectory of the robot’s center of mass and an optimization problem based on the modulation of ground reaction forces, devises a whole-body controller for the robot. The designed solution is tested on a quadruped robot within a dynamic simulation environment. The quadruped is stressed by external disturbances acting on stance and swing legs indifferently. The proposed approach is also evaluated through a comparison with two state-of-the-art solutions.
Elsevier
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