Dictionary-based model reduction for state estimation

IF 1.7 3区 数学 Q2 MATHEMATICS, APPLIED
Anthony Nouy, Alexandre Pasco
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引用次数: 0

Abstract

We consider the problem of state estimation from a few linear measurements, where the state to recover is an element of the manifold \(\mathcal {M}\) of solutions of a parameter-dependent equation. The state is estimated using prior knowledge on \(\mathcal {M}\) coming from model order reduction. Variational approaches based on linear approximation of \(\mathcal {M}\), such as PBDW, yield a recovery error limited by the Kolmogorov width of \(\mathcal {M}\). To overcome this issue, piecewise-affine approximations of \(\mathcal {M}\) have also been considered, that consist in using a library of linear spaces among which one is selected by minimizing some distance to \(\mathcal {M}\). In this paper, we propose a state estimation method relying on dictionary-based model reduction, where space is selected from a library generated by a dictionary of snapshots, using a distance to the manifold. The selection is performed among a set of candidate spaces obtained from a set of \(\ell _1\)-regularized least-squares problems. Then, in the framework of parameter-dependent operator equations (or PDEs) with affine parametrizations, we provide an efficient offline-online decomposition based on randomized linear algebra, that ensures efficient and stable computations while preserving theoretical guarantees.

基于字典的状态估计模型还原
我们考虑的是通过少量线性测量进行状态估计的问题,其中需要恢复的状态是一个参数相关方程的流形(\mathcal {M}\)解的一个元素。状态的估计使用的是( (mathcal {M}\)上的先验知识,这些先验知识来自于模型阶次缩减。基于 \(\mathcal {M}\) 线性近似的变量方法,如 PBDW,产生的恢复误差受限于 \(\mathcal {M}\) 的 Kolmogorov 宽度。为了克服这个问题,也有人考虑过对\(\mathcal {M}\)进行片断近似,即使用一个线性空间库,通过最小化与\(\mathcal {M}\)的距离来选择其中一个。在本文中,我们提出了一种依赖于基于字典的模型还原的状态估计方法,即利用与流形的距离,从由快照字典生成的库中选择空间。这种选择是在从一组 \(\ell _1\)-regularized least-squares 问题中得到的一组候选空间中进行的。然后,在具有仿射参数的参数相关算子方程(或 PDEs)的框架内,我们提供了一种基于随机线性代数的高效离线-在线分解方法,它能确保高效稳定的计算,同时保留理论保证。
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来源期刊
CiteScore
3.00
自引率
5.90%
发文量
68
审稿时长
3 months
期刊介绍: Advances in Computational Mathematics publishes high quality, accessible and original articles at the forefront of computational and applied mathematics, with a clear potential for impact across the sciences. The journal emphasizes three core areas: approximation theory and computational geometry; numerical analysis, modelling and simulation; imaging, signal processing and data analysis. This journal welcomes papers that are accessible to a broad audience in the mathematical sciences and that show either an advance in computational methodology or a novel scientific application area, or both. Methods papers should rely on rigorous analysis and/or convincing numerical studies.
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