Efficient low rank model order reduction of vibroacoustic problems under stochastic loads

arXiv - CS - Computational Engineering, Finance, and Science Pub Date : 2024-08-15 DOI:arxiv-2408.08402

Yannik Hüpel, Ulrich Römer, Matthias Bollhöfer, Sabine Langer

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Abstract

This contribution combines a low-rank matrix approximation through Singular Value Decomposition (SVD) with second-order Krylov subspace-based Model Order Reduction (MOR), in order to efficiently propagate input uncertainties through a given vibroacoustic model. The vibroacoustic model consists of a plate coupled to a fluid into which the plate radiates sound due to a turbulent boundary layer excitation. This excitation is subject to uncertainties due to the stochastic nature of the turbulence and the computational cost of simulating the coupled problem with stochastic forcing is very high. The proposed method approximates the output uncertainties in an efficient way, by reducing the evaluation cost of the model in terms of DOFs and samples by using the factors of the SVD low-rank approximation directly as input for the MOR algorithm. Here, the covariance matrix of the vector of unknowns can efficiently be approximated with only a fraction of the original number of evaluations. Therefore, the approach is a promising step to further reducing the computational effort of large-scale vibroacoustic evaluations.

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随机载荷下振动声学问题的高效低阶模型阶次缩减

本论文通过奇异值分解（SVD）将低秩矩阵近似与基于二阶克雷洛夫子空间的模型阶次还原（MOR）相结合，以便通过给定的振动声学模型有效传播输入不确定性。振动声学模型包括一个与流体耦合的平板，平板在湍流边界层激励下向流体辐射声音。由于湍流的随机性，这种激励具有不确定性，而模拟具有随机激励的耦合问题的计算成本非常高。所提出的方法通过直接使用 SVD 低阶近似的因子作为 MOR 算法的输入，降低了模型在 DOF 和样本方面的评估成本，从而以一种高效的方式近似了输出的不确定性。在这里，只需原来评估次数的一小部分，就能有效地逼近未知向量的协方差矩阵。因此，该方法有望进一步减少大规模振动声学评估的计算量。

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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arXiv - CS - Computational Engineering, Finance, and Science

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