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Estimation and Control of Fluid Flows Using Sparsity-Promoting Dynamic Mode Decomposition

Alexandros Tsolovikos, Efstathios Bakolas, Saikishan Suryanarayanan, D. Goldstein

2020IEEE Control Systems Letters27 citationsDOI

Abstract

Control and estimation of fluid systems is a challenging problem that requires approximating high-dimensional, nonlinear dynamics with computationally tractable models. A number of techniques, such as proper orthogonal decomposition (POD) and dynamic mode decomposition (DMD) have been developed to derive such reduced-order models. In this letter, the problem of selecting the dynamically important modes of dynamic mode decomposition with control (DMDc) is addressed. Similar to sparsity-promoting DMD, the method described in this letter solves a convex optimization problem in order to determine the most important modes. The proposed algorithm produces sparse dynamical models for systems with inputs by solving a regularized least-squares problem that minimizes the reweighted L <sub xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">1</sub> norm of the relative mode weights and can work even with snapshot data that are not sequential. In addition, the process of estimating the modeling errors and designing a Kalman filter for flow estimation from limited measurements is presented. The method is demonstrated in the feedback control and estimation of the unsteady wake past an inclined flat plate in a high-fidelity direct numerical simulation.

Topics & Concepts

Dynamic mode decompositionKalman filterComputer scienceAlgorithmConvex optimizationMathematical optimizationNorm (philosophy)Control theory (sociology)MathematicsRegular polygonArtificial intelligenceMachine learningControl (management)Political scienceGeometryLawModel Reduction and Neural NetworksProbabilistic and Robust Engineering DesignStructural Health Monitoring Techniques
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