E-027
Joint Torque Based Cartesian Impedance Control for the DLR Hand
Authors: H. Liu, G. Hirzinger
Affiliation: German Aerospace Center, Institute of Robotics and System Dynamics,
Germany
Abstract
This paper presents a novel joint torque based Cartesian impedance control for the
DLR (German Aerospace Center) Hand. The fingertip appears as mechanical impedance
when it contacts with an unknown obstacle. The impedance parameters can be adjusted
in a certain range as needed in any Cartesian coordinate system. There is no any
switching mode between the motions in the free space and in the constraint environment.
The paper also gives a detail analysis about the finger's kinematics and dynamics
model. Experimental results have verified the effectiveness and robustness of the
proposed scheme
Dr. Hong Liu
DLR, German Aerospace Center(DLR)
Institute of Robotics and System Dynamics
Postfach 1116, D-82230 Wessling, Germany
Tel: +49-8153-281616
Fax: +49-8153-281134
Hong.Liu@dlr.de