Optimal inversion-based control for the set-point regulation of nonminimum-phase uncertain scalar systems

We propose an optimal inversion-based control for the set-point constrained regulation of nonminimum-phase uncertain scalar systems. This approach is based on a new control architecture where the main purpose of the feedback is to reduce the sensitivity to parametric plant uncertainties permitting i...

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Bibliographic Details
Published in:IEEE transactions on automatic control 2001-10, Vol.46 (10), p.1654-1659
Main Authors: Piazzi, A., Visioli, A.
Format: Article
Language:English
Subjects:
Adaptive control
Architecture
Control
Control systems
Control theory
Feedback
Genetic algorithms
Methodology
Optimal control
Optimization
Polynomials
Scalars
Shape control
Signal design
Signal synthesis
Studies
Uncertainty
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Summary:We propose an optimal inversion-based control for the set-point constrained regulation of nonminimum-phase uncertain scalar systems. This approach is based on a new control architecture where the main purpose of the feedback is to reduce the sensitivity to parametric plant uncertainties permitting in such a way the effective use of a feedforward action determined via a stable dynamic inversion. Essential constituents of the architecture are a parameterized family of "transition" polynomials to shape ideal output transfers and a parameterized controller ensuring the internal model principle. The methodology is then centered on the optimal combined design of the feedback controller and of the inversion-based command signal in order to minimize the worst-case settling time subject to an amplitude constraint on the control variable and to arbitrarily assigned overshoot and undershoot bounds. Finally, an approximate or suboptimal solution to the resulting nonlinear optimization problem can be obtained by genetic algorithms. A worked example highlights the effectiveness of the overall methodology.
ISSN:0018-9286
1558-2523
DOI:10.1109/9.956067