A comparison of reduced-order modeling approaches using artificial neural networks for PDEs with bifurcating solutions

ETNA - Electronic Transactions on Numerical Analysis Pub Date : 2020-10-14 DOI:10.1553/etna_vol56s52

M. Hess, A. Quaini, G. Rozza

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引用次数: 4

Abstract

This paper focuses on reduced-order models (ROMs) built for the efficient treatment of PDEs having solutions that bifurcate as the values of multiple input parameters change. First, we consider a method called local ROM that uses k-means algorithm to cluster snapshots and construct local POD bases, one for each cluster. We investigate one key ingredient of this approach: the local basis selection criterion. Several criteria are compared and it is found that a criterion based on a regression artificial neural network (ANN) provides the most accurate results for a channel flow problem exhibiting a supercritical pitchfork bifurcation. The same benchmark test is then used to compare the local ROM approach with the regression ANN selection criterion to an established global projection-based ROM and a recently proposed ANN based method called POD-NN. We show that our local ROM approach gains more than an order of magnitude in accuracy over the global projection-based ROM. However, the POD-NN provides consistently more accurate approximations than the local projection-based ROM.

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具有分岔解的偏微分方程的人工神经网络降阶建模方法的比较

本文重点研究了为有效处理具有随多个输入参数值变化而分叉的解的偏微分方程而建立的降阶模型(ROMs)。首先，我们考虑了一种称为本地ROM的方法，该方法使用k-means算法对快照进行聚类，并构建本地POD基，每个集群一个。我们研究了该方法的一个关键组成部分:局部基选择准则。对几种准则进行了比较，发现基于回归人工神经网络(ANN)的准则对具有超临界干草叉分叉的通道流动问题提供了最准确的结果。然后使用相同的基准测试将局部ROM方法与回归神经网络选择准则与建立的基于全局投影的ROM和最近提出的基于神经网络的方法(称为POD-NN)进行比较。我们表明，我们的局部ROM方法比基于全局投影的ROM的精度提高了一个数量级以上。然而，POD-NN提供的近似始终比基于局部投影的ROM更准确。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ETNA - Electronic Transactions on Numerical Analysis

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