Home /Research /Adaptive model-based hybrid control of geometrically constrained robot arms
OTHER

Adaptive model-based hybrid control of geometrically constrained robot arms

Louis L. Whitcomb, S. Arimoto, T. Naniwa, Fumio Ozaki

Year
1997
Citations
70

Abstract

This paper reports comparative experiments with a new model-based adaptive force control algorithm for robot arms. This controller provides simultaneous position and force trajectory tracking of a robot arm whose tool tip is in point contact with a smooth rigid surface. The algorithm is provably stable with respect to the commonly accepted rigid-body nonlinear dynamical model for robot arms. Comparative experiments show the new adaptive model-based controller to provide performance superior to that of both nonmodel-based controllers and nonadaptive controllers over a wide range of operating conditions.

Keywords

Control theory (sociology)TrajectoryRobotController (irrigation)Adaptive controlComputer scienceNonlinear systemPosition (finance)Control engineeringRange (aeronautics)

Related papers

Browse all OTHER papers