A new adaptive control algorithm for mechanical systems with time-varying parameters and/or time-varying disturbances is proposed and investigated. The proposed method does not assume any structure to the time-varying parameter or disturbance. The method is based on the expansion of the time-varying parameter/disturbance using Taylor’s formula. This facilitates expanding a time-varying function as a finite length polynomial and a bounded residue. The coefficients of the finite-length polynomial are estimated in a small time interval so that they can be assumed to be constant within that interval. A gradient projection algorithm is used to estimate the parameters within each time interval. Stability of the proposed adaptive controller is shown and discussed. A novel experiment is designed using a two-link planar mechanical manipulator to investigate the proposed algorithm experimentally. Results of the proposed adaptive controller are compared with an ideal nonadaptive controller that assumes complete knowledge of the parameters and disturbances. A representative sample of the experimental results is shown and discussed.

Issue Section:
Technical Papers
Keywords:
adaptive control, time-varying systems, manipulators, nonlinear control systems, robust control, gradient methods, polynomial approximation
Topics:
Adaptive control, Algorithms, Control equipment, Dynamics (Mechanics), Manipulators, Polynomials, Inertia (Mechanics), Errors, Robust control
1.
Narendra, K. S., and Annaswamy, A. M., 1989, Stable Adaptive Control, Prentice-Hall, Englewood Cliffs, NJ.
2.
Song
,
Y. D.
, and
Middleton
,
R. H.
,
1992
, “
Dealing With the Time-Varying Parameter Problem of Robot Manipulators Performing Path Tracking Tasks
,”
IEEE Trans. Autom. Control
,
37
, pp.
1597
1601
.
3.
Reed
,
J. S.
, and
Ioannou
,
P. A.
,
1989
, “
Instability Analysis and Robust Adaptive Control of Robotic Manipulators
,”
IEEE Trans. Rob. Autom.
,
5
, pp.
381
386
.
4.
Yao
,
B.
, and
Tomizuka
,
M.
,
1996
, “
Smooth Robust Adaptive Sliding Mode Control of Robot Manipulators With Guaranteed Transient Performance
,”
ASME J. Dyn. Syst., Meas., Control
,
118
, pp.
764
775
.
5.
Tomei
,
P.
,
1999
, “
Robust Adaptive Control of Robots With Arbitrary Transient Performance and Disturbance Attenuation
,”
IEEE Trans. Autom. Control
,
44
, pp.
654
658
.
6.
Pagilla
,
P. R.
,
Yu
,
B.
, and
Pau
,
K. L.
,
2000
, “
Adaptive Control of Time-Varying Mechanical Systems: Analysis and Experiments
,”
Mechatronics
,
5
, pp.
410
418
.
7.
Tsakalis, K. S., and Ioannou, P. A., 1993, Linear Time-Varying Systems: Control and Adaptation, Prentice-Hall, Englewood Cliffs, NJ.
8.
Xianya
,
X.
, and
Evans
,
R. J.
,
1984
, “
Adaptive Control of Discrete-Time Time-Varying Systems With Unknown Deterministic Disturbances
,”
IEE Proc.-D: Control Theory Appl.
,
131, Pt. D
, pp.
81
84
.
9.
Zheng
,
L.
,
1988
, “
Discrete-Time Adaptive Control for Time-Varying Systems Subject to Unknown Fast Time-Varying Deterministic Disturbances
,”
IEE Proc.-D: Control Theory Appl.
,
135, Pt. D
, pp.
445
450
.
10.
Joensen
,
A.
,
Madsen
,
H.
,
Nielsen
,
H. A.
, and
Nielsen
,
T. S.
,
2000
, “
Tracking Time-Varying Parameters With Local Regression
,”
Automatica
,
36
, pp.
1199
1204
.
11.
Fan, J., and Gijbels, I., 1996, Local Polynomial Modelling and its Applications, Chapman and Hall, London.
12.
Dieudonne´, J., 1960, Foundations of Modern Analysis, Academic Press, New York.
13.
Greenwood, D. T., 1977, Classical Dynamics, Prentice-Hall, Englewood Cliffs, NJ.
14.
Pomet
,
J. B.
, and
Praly
,
L.
,
1992
, “
Adaptive Nonlinear Reguation: Estimation From the Lyapunov Equation
,”
IEEE Trans. Autom. Control
,
37
, pp.
729
740
.
15.
Leitmann
,
G.
,
1981
, “
On the Efficacy of Nonlinear Control in Uncertain Linear Systems
,”
ASME J. Dyn. Syst., Meas., Control
,
103
, pp.
95
102
.
16.
Ioannou, P. A., and Sun, J., 1996, Robust Adaptive Control, Prentice-Hall, Englewood Cliffs, NJ.
Copyright © 2004
 by ASME
You do not currently have access to this content.