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Optimization Methods for Dynamic Mode Decomposition of Nonlinear Partial Differential Equations

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Date

2021-06-14

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Virginia Tech

Abstract

Reduced-order models have long been used to understand the behavior of nonlinear partial differential equations. Naturally, reduced-order modeling techniques come at the price of either computational accuracy or computation time. Optimization techniques are studied to improve either or both of these objectives and decrease the total computational cost of the problem. This thesis focuses on the dynamic mode decomposition (DMD) applied to nonlinear PDEs with periodic boundary conditions. It provides one study of an existing optimization framework for the DMD method known as the Optimized DMD and provides another study of a newly proposed optimization framework for the DMD method called the Split DMD.

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Keywords

Optimization, Model Order Reduction, Partial Differential Equations

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