The bidomain equations are frequently used to model the propagation of cardiac action potentials across cardiac tissue. At the whole organ level, the size of the computational mesh required makes their solution a significant computational challenge. As the accuracy of the numerical solution cannot be compromised, efficiency of the solution technique is important to ensure that the results of the simulation can be obtained in a reasonable time while still encapsulating the complexities of the system. In an attempt to increase efficiency of the solver, the bidomain equations are often decoupled into one parabolic equation that is computationally very cheap to solve and an elliptic equation that is much more expensive to solve. In this study, ...
Previous work [Whiteley, J. P. IEEE Trans. Biomed. Eng. 53:2139-2147, 2006] derived a stable, semi-i...
Despite a steep increase in available compute power, in-silico experimentation with highly detailed ...
In this work we address the propagation of the action potential propagation in the cardiac tissue, d...
The bidomain equations are frequently used to model the propagation of cardiac action potentials acr...
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 compare a new uncoupled solver for the cardiac Bidomain model with a usua...
We study two parallel coupled and uncoupled multilevel solvers for the cardiac Bidomain model, descr...
The heart is one the most important organs in the human body and many other live creatures. The elec...
Simulation of cardiac electrical activity using the bidomain equations can be a massively computatio...
International audienceIn this work, a modified coupling Lattice Boltzmann Model (LBM) in simulation ...
The bidomain model is a system of partial differential equations frequently used to model the propag...
The propagation of the action potential in the heart chambers is accurately described by the Bidomai...
Part IIInternational audienceIn this work, a modified coupling Lattice Boltzmann Model (LBM) in simu...
The efficient solution of the bidomain equations is a fundamental tool in the field of cardiac elect...
The bidomain and monodomain models describing cardiac electrophysiology are computationally demandin...
Previous work [Whiteley, J. P. IEEE Trans. Biomed. Eng. 53:2139-2147, 2006] derived a stable, semi-i...
Despite a steep increase in available compute power, in-silico experimentation with highly detailed ...
In this work we address the propagation of the action potential propagation in the cardiac tissue, d...
The bidomain equations are frequently used to model the propagation of cardiac action potentials acr...
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 compare a new uncoupled solver for the cardiac Bidomain model with a usua...
We study two parallel coupled and uncoupled multilevel solvers for the cardiac Bidomain model, descr...
The heart is one the most important organs in the human body and many other live creatures. The elec...
Simulation of cardiac electrical activity using the bidomain equations can be a massively computatio...
International audienceIn this work, a modified coupling Lattice Boltzmann Model (LBM) in simulation ...
The bidomain model is a system of partial differential equations frequently used to model the propag...
The propagation of the action potential in the heart chambers is accurately described by the Bidomai...
Part IIInternational audienceIn this work, a modified coupling Lattice Boltzmann Model (LBM) in simu...
The efficient solution of the bidomain equations is a fundamental tool in the field of cardiac elect...
The bidomain and monodomain models describing cardiac electrophysiology are computationally demandin...
Previous work [Whiteley, J. P. IEEE Trans. Biomed. Eng. 53:2139-2147, 2006] derived a stable, semi-i...
Despite a steep increase in available compute power, in-silico experimentation with highly detailed ...
In this work we address the propagation of the action potential propagation in the cardiac tissue, d...