Pages that link to "Item:Q2276903"
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The following pages link to Mathematical modeling of the excitation process in myocardial tissue: Influence of fiber rotation on wavefront propagation and potential field (Q2276903):
Displaying 27 items.
- Optimal control of the bidomain system. II: Uniqueness and regularity theorems for weak solutions (Q383816) (← links)
- Cardiac excitation mechanisms, wavefront dynamics and strength-interval curves predicted by 3D orthotropic bidomain simulations (Q433677) (← links)
- Exploring anodal and cathodal make and break cardiac excitation mechanisms in a 3D anisotrop\-ic bidomain model (Q532442) (← links)
- Optimal monodomain approximations of the bidomain equations (Q879476) (← links)
- Modeling ventricular repolarization: Effects of transmural and apex-to-base heterogeneities in action potential durations (Q938708) (← links)
- Existence and uniqueness of the solution for the bidomain model used in cardiac electrophysiology (Q1003293) (← links)
- How the anisotropy of the intracellular and extracellular conductivities influences stimulation of cardiac muscle (Q1193526) (← links)
- Spread of excitation in 3-D models of the anisotropic cardiac tissue. III: Effects of ventricular geometry and fiber structure on the potential distribution (Q1307006) (← links)
- Spread of excitation in 3-D models of the anisotropic cardiac tissue. II: Effects of fiber architecture and ventricular geometry (Q1381027) (← links)
- Modeling ventricular excitation: Axial and orthotropic anisotropy effects on wavefronts and potentials. (Q1427618) (← links)
- On a resolvent estimate for bidomain operators and its applications (Q1684731) (← links)
- Mathematical modeling and analysis of dynamic effects of multiple time-varying delays on electrophysiological wave propagation in the heart (Q1729247) (← links)
- Strong time-periodic solutions to the bidomain equations with arbitrary large forces (Q1729280) (← links)
- Spreading of excitation in 3-D models of the anisotropic cardiac tissues. I: Validation of the eikonal model (Q1802918) (← links)
- An inverse problem involving a viscous eikonal equation with applications in electrophysiology (Q2054698) (← links)
- Effects of fiber orientation and the anisotropic behavior of the cardiac tissue on the simulated electrocardiogram (Q2083810) (← links)
- Time-varying delays in electrophysiological wave propagation along cardiac tissue and minimax control problems associated with uncertain bidomain type models (Q2127805) (← links)
- Cardiac memory phenomenon, time-fractional order nonlinear system and bidomain-torso type model in electrocardiology (Q2131495) (← links)
- On the bidomain equations driven by stochastic forces (Q2196702) (← links)
- Bounded \(H^\infty\)-calculus for a class of nonlocal operators: the bidomain operator in the \(L_q\)-setting (Q2205567) (← links)
- Stochastically forced cardiac bidomain model (Q2280029) (← links)
- Role of infarct scar dimensions, border zone repolarization properties and anisotropy in the origin and maintenance of cardiac reentry (Q2328465) (← links)
- Computational electrocardiology: mathematical and numerical modeling (Q4638233) (← links)
- ACCURATE COMPUTATION OF ELECTROGRAMS IN THE LEFT VENTRICULAR WALL (Q4798804) (← links)
- Optimal monodomain approximations of the bidomain equations used in cardiac electrophysiology (Q5417938) (← links)
- On the strong convergence of the Faedo-Galerkin approximations to a strong T-periodic solution of the torso-coupled bidomain model (Q6048239) (← links)
- Global Strong Well-Posedness of the Stochastic Bidomain Equations with FitzHugh–Nagumo Transport (Q6137607) (← links)
