J-043
GMDH-Based Autonomous Modeling and Compensation for Nonlinear Friction
Authors: Makoto Iwasaki, Tomohiro Shibata, and Nobuyuki Matsui
Affiliation: Nagoya Institute of Technology
Abstract
This paper presents a novel mathematical model-based compensation algorithm for the
nonlinear friction in table drive systems using the Group Method of Data Handling
(GMDH). In the proposed scheme, the nonlinear friction can be autonomously modeled
as a polynomial expression for appropriate control state variables according to the
process of GMDH and, as a result, the complicated structural modeling and its parameterization,
indispensable in conventional model-based strategies, can be completely eliminated.
In addition, the proposed GMDH-based model can achieve the generalization ability
for table drive condition and, as a result, the robust compensation for friction
can be attained against the change of drive conditions. Experimental results using
a table drive system of actual machine tools show the significant performance improvement
of the proposed algorithm in the trajectory control with velocity reversal motion.
Makoto Iwasaki
iwasaki@galaxy.elcom.nitech.ac.jp