Page 82 - Adaptive Identification and Control of Uncertain Systems with Nonsmooth Dynamics
P. 82
APPC of Servo Systems With Continuously Differentiable Friction Model 73
[16] Charu Makkar, Guoqiang Hu, W. Gregory Sawyer, Warren E. Dixon, Lyapunov-based
tracking control in the presence of uncertain nonlinear parameterizable friction, IEEE
Transactions on Automatic Control 52 (10) (2007) 1988–1994.
[17] Jayesh Amin, Bernard Friedland, Avraham Harnoy, Implementation of a friction esti-
mation and compensation technique, in: Control Applications, 1996, Proceedings of
the 1996 IEEE International Conference on, IEEE, 1996, pp. 804–808.
[18] Phil R. Dahl, A Solid Friction Model, Technical report, DTIC Document, 1968.
[19] C. Canudas De Wit, Hans Olsson, Karl Johan Astrom, Pablo Lischinsky, A new model
for control of systems with friction, IEEE Transactions on Automatic Control 40 (3)
(1995) 419–425.
[20] Elias B. Kosmatopoulos, Marios M. Polycarpou, Manolis A. Christodoulou, Petros A.
Ioannou, High-order neural network structures for identification of dynamical systems,
IEEE Transactions on Neural Networks 6 (2) (1995) 422–431.
[21] Jing Na, Qiang Chen, Xuemei Ren, Yu Guo, Adaptive prescribed performance mo-
tion control of servo mechanisms with friction compensation, IEEE Transactions on
Industrial Electronics 61 (1) (2014) 486–494.
[22] Chow Yin Lai, Frank L. Lewis, Venkatakrishnan Venkataramanan, Xuemei Ren,
Shuzhi Sam Ge, Thomas Liew, Disturbance and friction compensations in hard disk
drives using neural networks, IEEE Transactions on Industrial Electronics 57 (2) (2010)
784–792.
[23] Liangyong Wang, Tianyou Chai, Lianfei Zhai, Neural-network-based terminal sliding-
mode control of robotic manipulators including actuator dynamics, IEEE Transactions
on Industrial Electronics 56 (9) (2009) 3296–3304.
