Journal
IET CONTROL THEORY AND APPLICATIONS
Volume 14, Issue 7, Pages 972-981Publisher
INST ENGINEERING TECHNOLOGY-IET
DOI: 10.1049/iet-cta.2018.6446
Keywords
control system synthesis; robust control; learning systems; optimisation; adaptive control; iterative methods; nonlinear control systems; convex programming; frequency response; unmodelled dynamics; low-order parametric models; convex optimisation problem; learning filters; frequency response data; power converter control system; data-driven approach; learning control methodology
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A new data-driven iterative learning control methodology is presented which uses the frequency response data of a system in order to avoid the problem of unmodelled dynamics associated with low-order parametric models. A convex optimisation problem is formulated to design the learning filters such that the convergence criterion is minimised. Since the frequency response data of the system is used in obtaining these filters, robustness is ensured by eliminating the uncertainty in the modelling process. The effectiveness of the method is illustrated by considering a case study where the proposed design scheme is applied to a power converter control system for a specific accelerator requirement at CERN.
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