Litcius/Paper detail

Predefined-Time Robust Hierarchical Inverse Dynamics on Torque-Controlled Redundant Manipulators

Jonathan Obregón-Flores, Gustavo Arechavaleta, Héctor M. Becerra, América Berenice Morales-Díaz

2021IEEE Transactions on Robotics40 citationsDOI

Abstract

In this article, we propose a robust hierarchical inverse dynamics control scheme for redundant manipulators, which guarantees both predefined-time convergence of regulation tasks and robustness against model uncertainties/disturbances. Predefined-time convergence of a robotic task means that the task error is regulated to the origin at a desired preset time, independently of the initial state of the robot. The strict hierarchy of tasks is ensured by the so-called dynamic consistency, which avoids conflicts between decoupled task constraints. Thus, it enables the robot with more dexterity for reaching targets in its workspace while overcoming obstacles and joint limits. Predefined-time convergence facilitates the design of a time schedule to execute sequential and simultaneous tasks. All these features are supported by a stability analysis and experiments with two torque-controlled mobile manipulators in pick-and-place applications.

Topics & Concepts

Inverse dynamicsWorkspaceControl theory (sociology)Computer scienceRobustness (evolution)Convergence (economics)RobotTorqueRobotic armRoboticsRobust controlControl engineeringArtificial intelligenceEngineeringControl systemControl (management)KinematicsEconomicsPhysicsChemistryGeneThermodynamicsEconomic growthClassical mechanicsBiochemistryElectrical engineeringRobot Manipulation and LearningRobotic Mechanisms and DynamicsTeleoperation and Haptic Systems