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Literature DB >> 11017514

A space-time adaptive method for simulating complex cardiac dynamics.

E M Cherry¹, H S Greenside, C S Henriquez.

Abstract

For plane-wave and many-spiral states of the experimentally based Luo-Rudy 1 model of heart tissue in large (8 cm square) domains, we show that a space-time-adaptive time-integration algorithm can achieve a factor of 5 reduction in computational effort and memory-but without a reduction in accuracy-when compared to an algorithm using a uniform space-time mesh at the finest resolution. Our results indicate that such an algorithm can be extended straightforwardly to simulate quantitatively three-dimensional electrical dynamics over the whole human heart.

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Year: 2000 PMID： 11017514 DOI： 10.1103/PhysRevLett.84.1343

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

8 in total

A space-time adaptive method for simulating complex cardiac dynamics.

1. Adaptive multiscale model for simulating cardiac conduction.

2. A three-compartment non-linear model of myocardial cell conduction block during photosensitization.

3. Compact integration factor methods for complex domains and adaptive mesh refinement.

4. Automatically generated, anatomically accurate meshes for cardiac electrophysiology problems.

5. Numerical quadrature and operator splitting in finite element methods for cardiac electrophysiology.

6. A meshfree method for simulating myocardial electrical activity.

7. Adaptive Mesh Refinement and Adaptive Time Integration for Electrical Wave Propagation on the Purkinje System.

8. Asynchronous adaptive time step in quantitative cellular automata modeling.