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arxiv: 1402.1746 · v2 · pith:SQD2KYAGnew · submitted 2014-02-06 · ⚛️ physics.flu-dyn

Adaptive and model-based control theory applied to convectively unstable flows

classification ⚛️ physics.flu-dyn
keywords adaptivecontrolmanymethodsmodel-basedtransitionactiveapplied
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Research on active control for the delay of laminar-turbulent transition in boundary layers has made a significant progress in the last two decades, but the employed strategies have been many and dispersed. Using one framework, we review model-based techniques, such as linear-quadratic regulators, and model-free adaptive methods, such as least-mean square filters. The former are supported by a elegant and powerful theoretical basis, whereas the latter may provide a more practical approach in the presence of complex disturbance environments, that are difficult to model. We compare the methods with a particular focus on efficiency, practicability and robustness to uncertainties. Each step is exemplified on the one-dimensional linearized Kuramoto-Sivashinsky equation, that shows many similarities with the initial linear stages of the transition process of the flow over a flat plate. Also, the source code for the examples are provided.

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