Multivariable system identification for integral controllability

Integral controllability is necessary and sufficient for a multivariable model to be usable in a decoupling controller with integral action that can be arbitrarily detuned without jeopardizing closed-loop robust stability. The design of experiments for identification of integral controllable models...

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Bibliographic Details
Published in:Automatica (Oxford) 2009-10, Vol.45 (10), p.2194-2204
Main Authors: Darby, Mark L., Nikolaou, Michael
Format: Article
Language:English
Subjects:
Applied sciences
Computer science
control theory
systems
Control relevant identification
Control system analysis
Control theory. Systems
Controllability
Decoupling
Design engineering
Design of experiments
Exact sciences and technology
Experiment design
Ill-conditioned systems
Integrals
Mathematical models
Modelling and identification
Multivariable
Multivariable systems
Stability
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Summary:Integral controllability is necessary and sufficient for a multivariable model to be usable in a decoupling controller with integral action that can be arbitrarily detuned without jeopardizing closed-loop robust stability. The design of experiments for identification of integral controllable models is challenging, because it must satisfy cumbersome eigenvalue inequalities involving a coupling between the real system and its model. To address this challenge, an optimization-based mathematical framework is developed that characterizes efficient identification experiments ensuring integral controllability. The proposed framework recovers well known experiment designs but also produces new ones of both theoretical and practical interest. Such designs are expressed either analytically or as a result of numerical optimization and are demonstrated in a number of examples. These designs can be easily implemented in industrial practice. By combining additional objectives or constraints of interest, the proposed framework can further serve as a basis for new experiment designs in future work.
ISSN:0005-1098
1873-2836
DOI:10.1016/j.automatica.2009.05.025