E-025
Global Asymptotic Stabilization of Visually-Servoed Manipulators
Authors: Fabio Conticelli, Benedetto Allotta, Valentina Colla
Affiliation: Scuola Superiore Sant'Anna
Abstract
In this paper, the problem of controlling the relative pose between a robot camera
and a rigid object of interest is solved using nonlinear system theory. The camera-object
visual interaction model is derived in the state space form in terms of image points.
Then it is shown that the image-based visual system is completely controllable.
Moreover, as consequence of nonlinear controllability, global uniform asymptotic
stability of the image reference set-point is formally proved using Lyapunov's direct
method. Active contours are used to track the 2-D projection of the visible object's
surface in the image plane, and 3-D estimation procedure based on prediction errors
is used to cope with the unknown depth of the object. Experimental results with
a 6-DOF robot manipulator endowed with a camera on its wrist validate the framework.
Fabio Conticelli
CONTICE@sssup.it