Machine learning based dimension reduction for a stable modeling of periodic flow phenomena

Hiroshi OmichiTakeru IshizeKoji Fukagata

Hiroshi OmichiTakeru IshizeKoji Fukagata

Nov 2023

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摘要原文

In designing efficient feedback control laws for fluid flow, the modern control theory can serve as a powerful tool if the model can be represented by a linear ordinary differential equation (ODE). However, it is generally difficult to find such a linear model for strongly nonlinear and high-dimensional fluid flow phenomena. In this study, we propose an autoencoder which maps the periodic flow phenomena into a latent dynamics governed by a linear ODE, referred to as a pseudo-symplectic Linear system Extracting AutoEncoder (LEAE). In addition to the normal functionality of autoencoder, pseudo-symplectic LEAE emulates a symplectic time integration scheme so that the Hamiltonian (i.e., the pseudo-energy) of the latent variables is conserved. We demonstrate that the stability of the derived ODE is improved by considering the integration stepping forward and backward at the same time. Here, we consider the circular cylinder wake at $Re_D=100$ as a typical periodic flow phenomenon.