A Benchmark for the Bayesian Inversion of Coefficients in Partial Differential Equations

IF 10.8 1区 数学 Q1 MATHEMATICS, APPLIED SIAM Review Pub Date : 2023-11-07 DOI:10.1137/21m1399464
David Aristoff, Wolfgang Bangerth
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引用次数: 1

Abstract

SIAM Review, Volume 65, Issue 4, Page 1074-1105, November 2023.
Bayesian methods have been widely used in the last two decades to infer statistical properties of spatially variable coefficients in partial differential equations from measurements of the solutions of these equations. Yet, in many cases the number of variables used to parameterize these coefficients is large, and oobtaining meaningful statistics of their probability distributions is difficult using simple sampling methods such as the basic Metropolis--Hastings algorithm---in particular, if the inverse problem is ill-conditioned or ill-posed. As a consequence, many advanced sampling methods have been described in the literature that converge faster than Metropolis--Hastings, for example, by exploiting hierarchies of statistical models or hierarchies of discretizations of the underlying differential equation. At the same time, it remains difficult for the reader of the literature to quantify the advantages of these algorithms because there is no commonly used benchmark. This paper presents a benchmark Bayesian inverse problem---namely, the determination of a spatially variable coefficient, discretized by 64 values, in a Poisson equation, based on point measurements of the solution---that fills the gap between widely used simple test cases (such as superpositions of Gaussians) and real applications that are difficult to replicate for developers of sampling algorithms. We provide a complete description of the test case and provide an open-source implementation that can serve as the basis for further experiments. We have also computed $2\times 10^{11}$ samples, at a cost of some 30 CPU years, of the posterior probability distribution from which we have generated detailed and accurate statistics against which other sampling algorithms can be tested.
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偏微分方程系数贝叶斯反演的一个基准
SIAM评论,第65卷第4期,第1074-1105页,2023年11月。在过去的二十年里,贝叶斯方法被广泛用于从偏微分方程解的测量中推断偏微分方程中空间可变系数的统计特性。然而,在许多情况下,用于参数化这些系数的变量数量很大,使用简单的采样方法(如基本的Metropolis-Hastings算法)很难获得其概率分布的有意义的统计数据,特别是如果反问题是病态或不适定的。因此,文献中描述了许多先进的采样方法,例如,通过利用统计模型的层次结构或基本微分方程的离散化层次结构,这些方法的收敛速度比Metropolis-Hastings更快。同时,文献的读者仍然很难量化这些算法的优势,因为没有常用的基准。本文提出了一个基准贝叶斯反问题,即泊松方程中由64个值离散的空间可变系数的确定,基于解决方案的点测量——填补了广泛使用的简单测试用例(如高斯叠加)与采样算法开发人员难以复制的实际应用程序之间的空白。我们提供了测试用例的完整描述,并提供了一个开源实现,可以作为进一步实验的基础。我们还计算了后验概率分布的$2\times 10^{11}$样本,花费了大约30个CPU年的时间,从中我们生成了详细准确的统计数据,可以对其他采样算法进行测试。
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来源期刊
SIAM Review
SIAM Review 数学-应用数学
CiteScore
16.90
自引率
0.00%
发文量
50
期刊介绍: Survey and Review feature papers that provide an integrative and current viewpoint on important topics in applied or computational mathematics and scientific computing. These papers aim to offer a comprehensive perspective on the subject matter. Research Spotlights publish concise research papers in applied and computational mathematics that are of interest to a wide range of readers in SIAM Review. The papers in this section present innovative ideas that are clearly explained and motivated. They stand out from regular publications in specific SIAM journals due to their accessibility and potential for widespread and long-lasting influence.
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