Home /Research /Cartesian impedance control of redundant robots: recent results with the DLR-light-weight-arms
MANIPULATION

Cartesian impedance control of redundant robots: recent results with the DLR-light-weight-arms

Alin Albu‐Schäffer, Christian Ott, Udo Frese, G. Hirzinger

Year
2004
Citations
277

Abstract

This paper addresses the problem of impedance control for flexible joint robots based on a singular perturbation approach. Some aspects of the impedance controller, which turned out to be of high practical relevance during applications are then addressed, such as the implementation of nullspace stiffness for redundant manipulators, the avoiding of mass matrix decoupling and the related design of the desired damping matrix. Finally, the proposed methods are validated through measurements on the DLR robot.

Keywords

Control theory (sociology)Impedance controlDecoupling (probability)Cartesian coordinate systemElectrical impedanceRobotStiffnessComputer scienceControl engineeringPerturbation (astronomy)

Related papers

Browse all MANIPULATION papers