Error analysis of kernel/GP methods for nonlinear and parametric PDEs

IF 3.8 2区 物理与天体物理 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Pau Batlle , Yifan Chen , Bamdad Hosseini , Houman Owhadi , Andrew M. Stuart
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引用次数: 0

Abstract

We introduce a priori Sobolev-space error estimates for the solution of arbitrary nonlinear, and possibly parametric, PDEs that are defined in the strong sense, using Gaussian process and kernel based methods. The primary assumptions are: (1) a continuous embedding of the reproducing kernel Hilbert space of the kernel into a Sobolev space of sufficient regularity; and (2) the stability of the differential operator and the solution map of the PDE between corresponding Sobolev spaces. The proof is articulated around Sobolev norm error estimates for kernel interpolants and relies on the minimizing norm property of the solution. The error estimates demonstrate dimension-benign convergence rates if the solution space of the PDE is smooth enough. We illustrate these points with applications to high-dimensional nonlinear elliptic PDEs and parametric PDEs. Although some recent machine learning methods have been presented as breaking the curse of dimensionality in solving high-dimensional PDEs, our analysis suggests a more nuanced picture: there is a trade-off between the regularity of the solution and the presence of the curse of dimensionality. Therefore, our results are in line with the understanding that the curse is absent when the solution is regular enough.
非线性和参数 PDE 的核/GP 方法的误差分析
我们使用基于高斯过程和核的方法,为任意非线性、可能是参数的、在强意义上定义的 PDEs 的求解引入先验 Sobolev 空间误差估计。主要假设有(1) 将核的再现核希尔伯特空间连续嵌入到具有充分正则性的索博廖夫空间;以及 (2) 微分算子和相应索博廖夫空间之间的 PDE 解映射具有稳定性。证明围绕核内插的 Sobolev 规范误差估计展开,并依赖于解的最小化规范特性。如果 PDE 的解空间足够平滑,误差估计值就会显示出维度良性收敛率。我们将这些观点应用于高维非线性椭圆 PDE 和参数 PDE。虽然最近的一些机器学习方法被认为在求解高维 PDE 时打破了维度诅咒,但我们的分析表明了一个更微妙的情况:在解的规则性和维度诅咒的存在之间存在权衡。因此,我们的结果符合这样一种理解:当解足够规则时,诅咒就不存在。
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来源期刊
Journal of Computational Physics
Journal of Computational Physics 物理-计算机:跨学科应用
CiteScore
7.60
自引率
14.60%
发文量
763
审稿时长
5.8 months
期刊介绍: Journal of Computational Physics thoroughly treats the computational aspects of physical problems, presenting techniques for the numerical solution of mathematical equations arising in all areas of physics. The journal seeks to emphasize methods that cross disciplinary boundaries. The Journal of Computational Physics also publishes short notes of 4 pages or less (including figures, tables, and references but excluding title pages). Letters to the Editor commenting on articles already published in this Journal will also be considered. Neither notes nor letters should have an abstract.
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