The so called {em bidomain system} is possibly the most complete model for the cardiac bioelectric activity. It consists of a reaction--diffusion system, modeling the intra, extracellular and transmembrane potentials, coupled through a nonlinear reaction term with a stiff system of ordinary differential equations describing the ionic currents through the cellular membrane. In this paper we address the problem of efficiently solving the large linear system arising in the finite element discretization of the bidomain model, when a semi-implicit method in time is employed. We analyze the use of structured algebraic multigrid preconditioners on two major formulations of the model, and report on our nu...
We study two parallel coupled and uncoupled multilevel solvers for the cardiac Bidomain model, descr...
In this thesis we consider different aspects related to the mathematical modeling of cardiac electro...
We present and study a parallel iterative solver for reaction-diffusion systems in three dimensions ...
The so called {em bidomain system} is possibly the most complete model for the cardiac bioelectri...
We deal with the e±cient solution of the so-called bidomain system which is possibly the most compl...
Two parallel and scalable multilevel preconditioners for the Bidomain system in computational elect...
We introduce a preconditioner for the solution of the Bidomain system governing the propagation of a...
Multilevel additive and hybrid Schwarz methods are analyzed and studied numerically for the anisotro...
The aim of this work is to compare a new uncoupled solver for the cardiac Bidomain model with a usua...
The aim of this work is to develop a BPX preconditioner for the Bidomain model of electrocardiology....
We propose a novel, monolithic, and unconditionally stable finite element algorithm for the bidomain...
Multilevel additive Schwarz methods are analyzed and studied numerically for the anisotropic cardiac...
The aim of this work is to develop parallel multilevel and block preconditioners for the Bidomain mo...
A multilevel hybrid Newton-Krylov-Schwarz (NKS) method is constructed and studied numerically for im...
A two-level Newton\u2013Krylov\u2013Schwarz (NKS) solver is constructed and analyzed for implicit ti...
We study two parallel coupled and uncoupled multilevel solvers for the cardiac Bidomain model, descr...
In this thesis we consider different aspects related to the mathematical modeling of cardiac electro...
We present and study a parallel iterative solver for reaction-diffusion systems in three dimensions ...
The so called {em bidomain system} is possibly the most complete model for the cardiac bioelectri...
We deal with the e±cient solution of the so-called bidomain system which is possibly the most compl...
Two parallel and scalable multilevel preconditioners for the Bidomain system in computational elect...
We introduce a preconditioner for the solution of the Bidomain system governing the propagation of a...
Multilevel additive and hybrid Schwarz methods are analyzed and studied numerically for the anisotro...
The aim of this work is to compare a new uncoupled solver for the cardiac Bidomain model with a usua...
The aim of this work is to develop a BPX preconditioner for the Bidomain model of electrocardiology....
We propose a novel, monolithic, and unconditionally stable finite element algorithm for the bidomain...
Multilevel additive Schwarz methods are analyzed and studied numerically for the anisotropic cardiac...
The aim of this work is to develop parallel multilevel and block preconditioners for the Bidomain mo...
A multilevel hybrid Newton-Krylov-Schwarz (NKS) method is constructed and studied numerically for im...
A two-level Newton\u2013Krylov\u2013Schwarz (NKS) solver is constructed and analyzed for implicit ti...
We study two parallel coupled and uncoupled multilevel solvers for the cardiac Bidomain model, descr...
In this thesis we consider different aspects related to the mathematical modeling of cardiac electro...
We present and study a parallel iterative solver for reaction-diffusion systems in three dimensions ...