PSU Mark
Eberly College of Science Mathematics Department

Meeting Details

For more information about this meeting, contact Ludmil Zikatanov, Kris Jenssen.

Title:A Dimension-Adpative Sparse Grid Stochastic Collocation Technique for Partial Differential Equations with High-Dimensional Random Input Data
Seminar:Computational and Applied Mathematics Colloquium
Speaker:Clayton Webster, Sandia National Labs
Abstract:
This talk will propose and analyze a dimension-adaptive (anisotropic) sparse grid stochastic collocation method for solving partial di erential equations with random coecients and forcing terms (input data of the model). These methods have proven to have dramatic impact on several application areas, including statistical mechanics, nancial mathematics, bioinformatics, and other elds that must properly predict certain model behaviors. The method consists of a Galerkin approximation in the space variables and a collocation, in probability space, on anisotropic sparse tensor product grids utilizing either Clenshaw-Curtis or Gaussian knots. Even in the presence of nonlinearities, the collocation approach leads to the solution of uncoupled deterministic problems, just as in sampling-based methods, such as Monte Carlo. This talk includes both a priori and a posteriori approaches to adapt the anisotropy of the sparse grids to each given problem. This talk will also provide a rigorous convergence analysis of the fully discrete problem and demonstrate strong error estimates for the solution using Lq norms. In particular, our analysis reveals at least an algebraic convergence with respect to the total number of collocation points. The derived estimates are then used to compare the eciency of the method with other ensemble- based methods. Real world applications and numerical examples illustrate the theoretical results and are used to compare this approach with several others, including the standard Monte Carlo. In particular, for moderately large dimensional problems, the sparse grid approach with a properly chosen anisotropy is very ecient and superior to all examined methods. 1

Room Reservation Information

Room Number:MB114
Date:02 / 11 / 2008
Time:04:00pm - 05:00pm