Title :
Force and position tracking: parallel control with stiffness adaptation
Author :
Chiaverini, Stefano ; Siciliano, Bruno ; Villani, Luigi
Author_Institution :
Dipartimento di Inf. e Sistemistica, Naples Univ., Italy
fDate :
2/1/1998 12:00:00 AM
Abstract :
Force and position control strategies are aimed at handling the interaction of a robot manipulator with the environment. Among them, the parallel force/position control approach offers good performance in the face of uncertainty on the geometry of the contact surface. This article presents a new parallel control scheme which ensures tracking of end-effector position along the unconstrained directions and tracking of contact force along the constrained direction, in spite of uncertainty on the contact stiffness. The controller is of inverse dynamics type with a force feedforward action. Adaptation to the unknown stiffness coefficient is achieved by resorting to a suitable estimate update law driven by the force error. Experimental results on an industrial robot with open control architecture are reported
Keywords :
feedforward; force control; industrial manipulators; manipulator dynamics; position control; uncertain systems; constrained direction; contact stiffness; contact surface; end-effector position; estimate update law; force error; force feedforward action; force tracking; industrial robot; inverse dynamics controller; open control architecture; parallel control; position tracking; robot manipulator; stiffness adaptation; unconstrained directions; unknown stiffness coefficient; Feedback loop; Force control; Force feedback; Force sensors; Impedance; Orbital robotics; Position control; Robot sensing systems; Service robots; Uncertainty;
Journal_Title :
Control Systems, IEEE
