In this study, we identify the optimal preconditioners with respect to both stimulus protocol and mesh geometry. The results are supported by a comprehensive ...

Abstract—The efficient solution of the bidomain equations is a fundamental tool in the field of cardiac electrophysiology. When.

Stimulus protocol determines the most computationally efficient preconditioner for the bidomain equations. Abstract: The efficient solution of the bidomain ...

In this study, we identify the optimal preconditioners with respect to both stimulus protocol and mesh geometry. The results are supported by a comprehensive ...

The results show that when only intracellular stimulus is considered, incomplete LU factorization remains a valid choice for current cardiac geometries, ...

The conjugate gradient algorithm, along with suitable preconditioning, is the natural choice in this scenario. In this study, we identify the optimal ...

Sep 27, 2010 · In this study, we identify the optimal preconditioners with respect to both stimulus protocol and mesh geometry. The results are supported by a ...

Stimulus protocol determines the most computationally efficient preconditioner for the bidomain equations. Miguel O Bernabeu‚ Pras Pathmanathan‚ Joe ...

In this study, we identify the optimal preconditioners with respect to both stimulus protocol and mesh geometry. The results are supported by a comprehensive ...

Stimulus protocol determines the most computationally efficient preconditioner for the bidomain equations. by: Bernabeu, M, et al. Published: (2010) ...