Presented in this paper is a procedure for selecting the H performance weights for a class of nonlinear feedback systems modeled by a truncated Volterra series. The performance weight selection addresses the trade-offs between closed-loop performance and closed-loop stability. The class of feedback systems considered are regulating systems subject to step disturbances. The methodology is based on two recent results concerning closed loop stability for this class of nonlinear feedback systems. These stability conditions can be formulated as an H problem where the performance weights are systematically identified. This synthesis procedure is applied to the idle speed control of a Ford 4.6L V-8 fuel injection engine. Through this application, the design trade-off between closed-loop performance and stability is illustrated.

Issue Section:
Technical Papers
Keywords:
nonlinear systems, feedback, closed loop systems, optimal control, stability, step response, identification, control system synthesis, internal combustion engines, Volterra series
Topics:
Design, Feedback, Stability, Weight (Mass), Control equipment, Volterra series, Nonlinear systems, Closed loop systems
1.
Lu
,
Wei-Min
, and
Doyle
,
John C.
,
1994
, “
H∞ Control of Nonlinear Systems Via Output Feedback: Controller Parameterization
,”
IEEE Trans. Autom. Control
,
39
(
12
), pp.
2517
2521
.
2.
Ball
,
Joseph A.
,
Helton
,
J. William
, and
Walker
,
Michael L.
,
1993
, “
H∞ Control for Nonlinear Systems With Output Feedback
,”
IEEE Trans. Autom. Control
,
38
(
4
), pp.
546
559
.
3.
Ball
,
Joseph A.
,
Kachroo
,
Pushkin
, and
Kerner
,
Arthur J.
,
1999
, “
H∞ Tracking Control for a Class of Nonlinear Systems
,”
IEEE Trans. Autom. Control
,
44
(
6
), June, pp.
1202
1206
.
4.
Yung
,
Chee-Fai
,
Wu
,
Jenq-Lang
, and
Lee
,
Tsu-Tian
,
1998
, “
H∞ Control for More General Nonlinear Systems
,”
IEEE Trans. Autom. Control
,
43
(
12
), Dec., pp.
1724
1727
.
5.
Isidori
,
Alberto
, and
Kang
,
Wei
,
1995
, “
H∞ Control Via Measurement Feedback for General Nonlinear Systems
,”
IEEE Trans. Autom. Control
,
40
(
3
), Mar., pp.
466
471
.
6.
Hardt
,
Micheal
,
Helton
,
J. William
, and
Kreutz-Delgado
,
Kenneth
,
2000
, “
Numerical Solution of Nonlinear H2 and H∞ Control Problems With Application to Jet Engine Compressors
,”
IEEE Trans. Autom. Control
,
8
(
1
), Jan., pp.
98
111
.
7.
James
,
M. R.
, and
Yuliar
,
S.
,
1995
, “
Numerical Approximation of the H∞ Norm for Nonlinear Systems
,”
Automatica
,
31
(
8
), pp.
1075
1086
.
8.
Camilli
,
Fabio
,
1998
, “
Computation of the H∞ Norm for Nonlinear Systems: A Convergence Result
,”
Syst. Control Lett.
,
28
, pp.
139
150
.
9.
Tuan, H. D., Hosoe, S., Ono, E., and Apkarian, P., 1999, “Nonlinear H∞ Control for an Integrated Suspension Via Parameterized Linear Matrix Inequality Characterizations,” Proceedings of the American Control Conference, June, pp. 3173–3176.
10.
Corless, Martin, 1998, “Lyapunov Based Analysis and Control Design,” Proceedings of the ASME Dynamic Systems and Control Division, Nov., pp. 555–561.
11.
Bendat, J. S., 1990, Nonlinear System Analysis and Identification From Random Data, Wiley, New York.
12.
Shah
,
M.
, and
Franchek
,
M. A.
,
1999
, “
Frequency Based Controller Design for a Class of Hammerstein Type Nonlinear Systems
,”
Int. J. Robust Nonlinear Control
,
9
(
12
), pp.
825
840
.
13.
Glass
,
John W.
, and
Franchek
,
Matthew A.
,
2000
, “
Stability of Nonlinear Feedback Systems in a Volterra Representation
,”
Int. J. Robust Nonlinear Control
,
10
(
10
), Aug., pp.
799
819
.
14.
Schetzen, D. K., 1980, Volterra and Wiener Theory of Nonlinear Systems, Wiley, New York.
15.
Franchek
,
Matthew A.
,
1996
, “
Selecting the Performance Weightes for the μ and H∞ Synthesis Methods for SISO Regulating Systems
,”
ASME J. Dyn. Syst., Meas., Control
,
118
, Mar., pp.
126
131
.
16.
Herman
,
P.
, and
Franchek
,
M. A.
,
1998
, “
Direct Connection Between Time-Domain and Performance and Frequency-Domain Characteristics
,”
Journal of Robust and Nonlinear Control
,
8
(
12
), Oct., pp.
1021
1042
.
17.
Jayasuria
,
S.
, and
Song
,
J. W.
,
1996
, “
On the Synthesis of Compensators for Nonovershooting Step Response
,”
ASME J. Dyn. Syst., Meas., Control
,
118
, pp.
757
763
.
18.
Doyle, J. C., Francis, B. A., and Tannenbaum, A. R., 1992, Feedback Control Theory, Macmillan, New York.
19.
Green, Micheal, and Limebeer, David J. N., 1995, Linear Robust Control, Prentice Hall, Englewood Cliffs, NJ.
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