A Consistent Bayesian Approach for Stochastic Inverse Problems
Abstract not provided.
Publications
Compressed sensing and its role in designing aircraft nozzles in the presence of uncertainty
Abstract not provided.
Efficient Sampling Schemes for Recovering Sparse PCE
Abstract not provided.
Towards Uncertainty Quantification in 21st Century Sea-Level Rise Predictions: Efficient Methods for Bayesian Calibration and Forward Propagation of Uncertainty for Land-Ice Models
Abstract not provided.
Towards Uncertainty Quantification in 21st Century SeaLevel Rise Predictions: PDE Constrained Optimization as a First Step in Bayesian Calibration and Forward Propagation
Abstract not provided.
Computational Challenges in Ice Sheet Modeling
Abstract not provided.
VPS: Voronoi Piecewise Surrogate Models for High-Dimensional Data Fitting
Abstract not provided.
Towards quantifying uncertainty in Greenland's contribution to 21st century sea-level rise
Abstract not provided.
Multifidelity surrogates of groundwater flow
Abstract not provided.
Dimension reduction for PDE using local Karhunen Loeve expansions
Abstract not provided.
Adaptive Bayesian Inference for Prediction
Abstract not provided.
Adjoint-Based a Posteriori Error Estimation and Uncertainty Quantification for Transient Nonlinear Problems with Discontinuous Solutions
Abstract not provided.
Albany/FELIX: A Robust & Scalable Trilinos-Based Finite-Element Ice Flow Dycore Built for Advanced Architectures & Analysis
Abstract not provided.
Multi-Variate Weighted Leja Sequences for Polynomial Approximation and UQ
Abstract not provided.
Sandia Software Enabling Extreme-Scale Uncertainty Quantification
Abstract not provided.
Progress on the PISCEES FELIX Ice Sheet Dynamical Cores
Abstract not provided.
Quantification of Uncertainty in Extreme Scale Computations
Abstract not provided.
Adjoint-Based a Posteriori Error Estimation and Uncertainty Quantification for Shock-Hydrodynamic Applications
Abstract not provided.
Utilizing Adjoint-based Error Estimates to Adaptively Resolve Response Surface Approximations
Abstract not provided.
Sampling and Preconditioning Strategies for $\ell_1$-minimization
Abstract not provided.
From Deterministic Inversion to Uncertainty Quantification: Planning a Long Journey in Ice Sheet Modeling
Abstract not provided.
Advances in Ice Sheet Model Initialization Using the First Order Model
Abstract not provided.
Local polynomial chaos expansion for linear differential equations with high dimensional random inputs
SIAM Journal on Scientific Computing
In this paper we present a localized polynomial chaos expansion for partial differential equations (PDE) with random inputs. In particular, we focus on time independent linear stochastic problems with high dimensional random inputs, where the traditional polynomial chaos methods, and most of the existing methods, incur prohibitively high simulation cost. The local polynomial chaos method employs a domain decomposition technique to approximate the stochastic solution locally. In each subdomain, a subdomain problem is solved independently and, more importantly, in a much lower dimensional random space. In a postprocesing stage, accurate samples of the original stochastic problems are obtained from the samples of the local solutions by enforcing the correct stochastic structure of the random inputs and the coupling conditions at the interfaces of the subdomains. Overall, the method is able to solve stochastic PDEs in very large dimensions by solving a collection of low dimensional local problems and can be highly efficient. In this paper we present the general mathematical framework of the methodology and use numerical examples to demonstrate the properties of the method.
Sandia Software Enabling Extreme-Scale Uncertainty Quantification
Abstract not provided.
An Overview of Select UQ Algorithms and their Utility in Applications
Abstract not provided.
Results 101–125 of 147