Reduced order modeling of parametrized systems through autoencoders and SINDy approach: continuation of periodic solutions

继续 计算机科学 动力系统理论 偏微分方程 计算 非线性系统 参数统计 系统标识 系统动力学 应用数学 算法 数学优化 数学 人工智能 数据建模 数学分析 统计 物理 量子力学 数据库 程序设计语言
作者
Paolo Conti,Giorgio Gobat,Stefania Fresca,Andrea Manzoni,Attilio Frangi
出处
期刊:Computer Methods in Applied Mechanics and Engineering [Elsevier BV]
卷期号:411: 116072-116072 被引量:32
标识
DOI:10.1016/j.cma.2023.116072
摘要

Highly accurate simulations of complex phenomena governed by partial differential equations (PDEs) typically require intrusive methods and entail expensive computational costs, which might become prohibitive when approximating steady-state solutions of PDEs for multiple combinations of control parameters and initial conditions. Therefore, constructing efficient reduced order models (ROMs) that enable accurate but fast predictions, while retaining the dynamical characteristics of the physical phenomenon as parameters vary, is of paramount importance. In this work, a data-driven, non-intrusive framework which combines ROM construction with reduced dynamics identification, is presented. Starting from a limited amount of full order solutions, the proposed approach leverages autoencoder neural networks with parametric sparse identification of nonlinear dynamics (SINDy) to construct a low-dimensional dynamical model. This model can be queried to efficiently compute full-time solutions at new parameter instances, as well as directly fed to continuation algorithms. These aim at tracking the evolution of periodic steady-state responses as functions of system parameters, avoiding the computation of the transient phase, and allowing to detect instabilities and bifurcations. Featuring an explicit and parametrized modeling of the reduced dynamics, the proposed data-driven framework presents remarkable capabilities to generalize with respect to both time and parameters. Applications to structural mechanics and fluid dynamics problems illustrate the effectiveness and accuracy of the proposed method.

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