This thesis presents a two-grid algorithm based on Smoothed Aggregation Spectral Element Agglomeration Algebraic Multigrid (SA-{rho}AMGe) combined with adaptation. The aim is to build an efficient solver for the linear systems arising from discretization of second-order elliptic partial differential equations (PDEs) with stochastic coefficients. Examples include PDEs that model subsurface flow with random permeability field. During a Markov Chain Monte Carlo (MCMC) simulation process, that draws PDE coefficient samples from a certain distribution, the PDE coefficients change, hence the resulting linear systems to be solved change. At every such step the system (discretized PDE) needs to be solved and the computed solution used to evaluate s...
this paper are explained only for the regular sparse grids D n . However, it is possible to generali...
We propose an iteratively adaptive Multi-scale Finite Element Method (MsFEM) for elliptic PDEs with ...
The stochastic collocation method for solving differential equations with random inputs has gained l...
Stochastic collocation methods facilitate the numerical solution of partial differential equations (...
Stochastic collocation methods facilitate the numerical solution of partial differential equations (...
A framework for residual-based a posteriori error estimation and adaptive mesh refinement and polyno...
Randomness in a physical problem can be modelled with probabilistic models such as stochastic partia...
Stochastic collocation methods facilitate the numerical solution of partial differential equations (...
We consider the numerical solution of time-dependent partial differential equations (PDEs) with rand...
One widely used and computationally efficient method for uncertainty quantification using spectral s...
The stochastic Galerkin finite element method provides a powerful tool for computing high-order stoc...
Mathematical models of engineering systems and physical processes typically take the form of a parti...
The need for accurate simulations and reliability estimates of predictions has led to a variety of t...
We consider two-scale elliptic equations whose coefficients are random. In particular, we study two ...
We investigate the use of algebraic multigrid (AMG) methods for the solution of large sparse linear ...
this paper are explained only for the regular sparse grids D n . However, it is possible to generali...
We propose an iteratively adaptive Multi-scale Finite Element Method (MsFEM) for elliptic PDEs with ...
The stochastic collocation method for solving differential equations with random inputs has gained l...
Stochastic collocation methods facilitate the numerical solution of partial differential equations (...
Stochastic collocation methods facilitate the numerical solution of partial differential equations (...
A framework for residual-based a posteriori error estimation and adaptive mesh refinement and polyno...
Randomness in a physical problem can be modelled with probabilistic models such as stochastic partia...
Stochastic collocation methods facilitate the numerical solution of partial differential equations (...
We consider the numerical solution of time-dependent partial differential equations (PDEs) with rand...
One widely used and computationally efficient method for uncertainty quantification using spectral s...
The stochastic Galerkin finite element method provides a powerful tool for computing high-order stoc...
Mathematical models of engineering systems and physical processes typically take the form of a parti...
The need for accurate simulations and reliability estimates of predictions has led to a variety of t...
We consider two-scale elliptic equations whose coefficients are random. In particular, we study two ...
We investigate the use of algebraic multigrid (AMG) methods for the solution of large sparse linear ...
this paper are explained only for the regular sparse grids D n . However, it is possible to generali...
We propose an iteratively adaptive Multi-scale Finite Element Method (MsFEM) for elliptic PDEs with ...
The stochastic collocation method for solving differential equations with random inputs has gained l...