Page 112 - Adaptive Identification and Control of Uncertain Systems with Nonsmooth Dynamics
P. 112
Adaptive Control for Manipulation Systems 105
can be rigorously proved. Simulation studies demonstrate that the proposed
schemes can get better performance than PD control without friction com-
pensation.
REFERENCES
[1] Brian Armstrong-Hélouvry, Pierre Dupont, Carlos Canudas De Wit, A survey of mod-
els, analysis tools and compensation methods for the control of machines with friction,
Automatica 30 (7) (1994) 1083–1138.
[2] Henrik Olsson, Karl Johan Åström, C. Canudas De Wit, Magnus Gäfvert, Pablo
Lischinsky, Friction models and friction compensation, European Journal of Control
4 (3) (1998) 176–195.
[3] Brian Armstrong-Hélouvry, Control of Machines with Friction, Kluwer Academic
Publishers, 1991.
[4] C. Canudas De Wit, H. Olsson, K.J. Astrom, P. Lischinsky, A new model for control of
systems with friction, IEEE Transactions on Automatic Control 40 (3) (1995) 419–425.
[5] C. Canudas de Wit, P. Nol, A. Aubin, B. Brogliato, Adaptive friction compensation
in robot manipulators: low-velocities, in: IEEE International Conference on Robotics
and Automation, 1989. Proceedings, vol. 3, 1989, pp. 1352–1357.
[6] G.L. Wang, Y.F. Li, D.X. Bi, Support vector machine networks for friction modeling,
Mechatronics IEEE/ASME Transactions on 9 (3) (2004) 601–606.
[7] Yong Fu Wang, Dian Hui Wang, Tian-You Chai, Data mining and systems theory
based fuzzy modeling and control compensation for friction, Acta Automatica Sinica
36 (3) (2010) 412–420.
[8] Hongliu Du, S.S. Nair, Low velocity friction compensation, Control Systems IEEE
18 (2) (1998) 61–69.
[9] G.L. Wang, Y.F. Li, D.X. Bi, Support vector network enhanced adaptive friction com-
pensation, in: IEEE International Conference on Robotics and Automation, 2006,
pp. 3699–3704.
[10] Nidal Farhat, Vicente Mata, álvaro Page, Francisco Valero, Identification of dynamic
parameters of a 3-DOF RPS parallel manipulator, Mechanism and Machine Theory
43 (1) (2008) 1–17.
[11] Xuemei Ren, Frank L. Lewis, Jingliang Zhang, Neural network compensation control
for mechanical systems with disturbances, Automatica 45 (5) (2009) 1221–1226.
[12] F.L. Lewis, A. Yegildirek, Kai Liu, Multilayer Neural-Net Robot Controller with
Guaranteed Tracking Performance, IEEE Press, 1996.
[13] Shuning Wang, Xiaolin Huang, K.M. Khan Junaid, Configuration of continuous
piecewise-linear neural networks, IEEE Transactions on Neural Networks 19 (8) (2008)
1431–1445.
[14] Xiaohua Lv, Dongwu Li, Xuemei Ren, Discontinuous piecewise parametric modeling
and compensation control for manipulator systems with friction, in: Proceedings of the
31st Chinese Control Conference, 2011, pp. 506–511.
[15] Frank L. Lewis, D.M. Dawson, C.T. Abdallah, Robot Manipulator Control: Theory
and Practice, Marcel Dekker, 2003.
[16] R. Lozano, A. Valera, P. Albertos, S. Arimoto, T. Nakayama, Technical communique:
PD control of robot manipulators with joint flexibility, actuators dynamics and friction,
Automatica 35 (10) (1999) 1697–1700.
