Pages that link to "Item:Q699659"

The following pages link to Modeling impulse propagation and extracellular potential distributions in anisotropic cardiac tissue using a finite volume element discretization (Q699659):

Displaying 15 items.

• Towards accurate numerical method for monodomain models using a realistic heart geometry (Q839149) (← links)
• Stability and convergence of a finite volume method for two systems of reaction-diffusion equations in electro-cardiology (Q859588) (← links)
• A finite volume scheme for cardiac propagation in media with isotropic conductivities (Q982906) (← links)
• A resistor interpretation of general anisotropic cardiac tissue. (Q1429798) (← links)
• The mortar finite element method for the cardiac ``bidomain'' model of extracellular potential (Q1430236) (← links)
• A numerically efficient model for simulation of defibrillation in an active bidomain sheet of myocardium (Q1582567) (← links)
• Modelling changes in transmural propagation and susceptibility to arrhythmia induced by volatile anaesthetics in ventricular tissue (Q1617547) (← links)
• Computational modeling of non-linear diffusion in cardiac electrophysiology: a novel porous-medium approach (Q2414615) (← links)
• Fourth-order compact schemes with adaptive time step for monodomain reaction-diffusion equations (Q2483335) (← links)
• A generalized finite difference method for modeling cardiac electrical activation on arbitrary, irregular computational meshes (Q2494894) (← links)
• A massively parallel computational electrophysiology model of the heart (Q2893184) (← links)
• Computational electrocardiology: mathematical and numerical modeling (Q4638233) (← links)
• Finite element and finite volume-element simulation of pseudo-ECGs and cardiac alternans (Q5246790) (← links)
• Simulation of Electrophysiological Waves with an Unstructured Finite Element Method (Q5465531) (← links)
• A positive cell vertex Godunov scheme for a Beeler–Reuter based model of cardiac electrical activity (Q6088450) (← links)