U-044
Position/Force Control with a Frequency-Based Switch for Robots Interacting with
a Compliant Environment
Authors: Erwin Satrya Budiman, Masayoshi Tomizuka
Affiliation: University of California at Berkeley, Department of Mechanical Engineering,
Berkeley, CA 94720, USA
Abstract
Position/force control coordination can be achieved in many ways. This paper looks
at different control coordination strategies, and the possible effects of transition
from free to constrained motion. In hybrid position/force controllers for example,
position and force controlled directions are separated and explicitly controlled.
A selection matrix switches position and force control modes accordingly. Another
approach based on the accommodation strategy allows for explicit position and force
control without using any sensor dependent switch. It can be seen that an element
in the accommodation control could be regarded as a frequency-based switch. A generalization
can be written for this class of controllers. A single link robot example is given
to illustrate the characteristics of this class of structure.
Erwin Satrya Budiman
satrya@newton.Berkeley.EDU