Motion tasks for robot manipulators on embedded 2-D manifolds
Date Issued
2006
Author(s)
DOI
10.1109/ISIC.2006.285556
Abstract
In this paper we present a methodology to drive the end effector of a robotic manipulator across the surface of an object in the workspace. Three typical tasks are considered, namely stabilization of the end effector over the object's surface, motion planning and eventually trajectory tracking of the end effector across the object's surface. The proposed controllers utilize navigation functions and are based on the belt zone vector fields concept. The derived dynamic controllers are realized using an integrator backstepping methodology. The derived feedback based controllers guarantee global convergence and collision avoidance. The closed form solution provides fast feedback rendering the methodology particularly suitable for implementation on real time systems. The properties of the proposed methodology are verified through non-trivial computer simulations.