一种不确定度量化的自适应组合技术

IF 1.5 4区 工程技术 Q2 ENGINEERING, MULTIDISCIPLINARY International Journal for Uncertainty Quantification Pub Date : 2023-01-01 DOI:10.1615/int.j.uncertaintyquantification.2023046861
Michael Griebel, Uta Seidler
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引用次数: 0

摘要

我们提出了一种自适应算法,用于计算涉及随机椭圆PDE解的感兴趣量,其中扩散系数是通过Karhunen-Lo\ ' eve展开参数化的。等效参数问题的逼近需要将可数无限维参数空间限制为有限维参数集,并进行空间离散化和参数变量的逼近。为了减少计算量,我们考虑在这些近似方向之间采用稀疏网格方法,并提出了一种自适应维数组合技术。此外,采用稀疏网格正交法进行高维参数逼近,并与空间逼近和随机逼近相平衡。我们的自适应算法构建了一个基于收益-成本比的稀疏网格近似,使得Karhunen-Lo\ ' eve系数的规律性和衰减不需要事先考虑。当算法调整参数变量的各向异性时,可以检测和利用衰减。我们包括具有对数正态渗透率场的Darcy问题的数值示例,这说明了该算法的良好性能:对于足够光滑的随机场,我们基本上恢复收敛的空间顺序作为相对于计算成本的渐近收敛速率。
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A Dimension-adaptive Combination Technique for Uncertainty Quantification
We present an adaptive algorithm for the computation of quantities of interest involving the solution of a stochastic elliptic PDE where the diffusion coefficient is parametrized by means of a Karhunen-Lo\`eve expansion. The approximation of the equivalent parametric problem requires a restriction of the countably infinite-dimensional parameter space to a finite-dimensional parameter set, a spatial discretization and an approximation in the parametric variables. We consider a sparse grid approach between these approximation directions in order to reduce the computational effort and propose a dimension-adaptive combination technique. In addition, a sparse grid quadrature for the high-dimensional parametric approximation is employed and simultaneously balanced with the spatial and stochastic approximation. Our adaptive algorithm constructs a sparse grid approximation based on the benefit-cost ratio such that the regularity and thus the decay of the Karhunen-Lo\`eve coefficients is not required beforehand. The decay is detected and exploited as the algorithm adjusts to the anisotropy in the parametric variables. We include numerical examples for the Darcy problem with a lognormal permeability field, which illustrate a good performance of the algorithm: For sufficiently smooth random fields, we essentially recover the spatial order of convergence as asymptotic convergence rate with respect to the computational cost.
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来源期刊
International Journal for Uncertainty Quantification
International Journal for Uncertainty Quantification ENGINEERING, MULTIDISCIPLINARY-MATHEMATICS, INTERDISCIPLINARY APPLICATIONS
CiteScore
3.60
自引率
5.90%
发文量
28
期刊介绍: The International Journal for Uncertainty Quantification disseminates information of permanent interest in the areas of analysis, modeling, design and control of complex systems in the presence of uncertainty. The journal seeks to emphasize methods that cross stochastic analysis, statistical modeling and scientific computing. Systems of interest are governed by differential equations possibly with multiscale features. Topics of particular interest include representation of uncertainty, propagation of uncertainty across scales, resolving the curse of dimensionality, long-time integration for stochastic PDEs, data-driven approaches for constructing stochastic models, validation, verification and uncertainty quantification for predictive computational science, and visualization of uncertainty in high-dimensional spaces. Bayesian computation and machine learning techniques are also of interest for example in the context of stochastic multiscale systems, for model selection/classification, and decision making. Reports addressing the dynamic coupling of modern experiments and modeling approaches towards predictive science are particularly encouraged. Applications of uncertainty quantification in all areas of physical and biological sciences are appropriate.
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