Finite volume stiffness matrix for solving anisotropic cardiac propagation in 2-D and 3-D unstructured meshes

Jacquemet V.; Henriquez C.S.

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Finite volume stiffness matrix for solving anisotropic cardiac propagation in 2-D and 3-D unstructured meshes

机译：有限体积刚度矩阵，用于求解二维和三维非结构化网格中的各向异性心脏传播

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The finite volume method (FVM) has been shown recently to be an effective method for discretizing the reaction-diffusion equations that govern wavefront propagation in anisotropic cardiac tissue, as it can naturally handle both complex geometries and no flux boundary conditions without the use of ghost nodes. This communication presents an alternative formulation of FVM for triangle and tetrahedral meshes using the concept of dual basis. An algorithm based on this form is given that leads to an efficient computation of the stiffness matrix, facilitating the incorporation of space adaptive schemes and time varying material properties into numerical simulations of cardiac dynamics.

机译：有限体积法（FVM）最近被证明是离散化控制各向异性心脏组织中波阵面传播的反应扩散方程的有效方法，因为它可以自然地处理复杂的几何形状并且没有磁通边界条件，而无需使用重影节点。本交流使用对偶概念为三角形和四面体网格提供了FVM的替代公式。给出了基于这种形式的算法，该算法可导致对刚度矩阵进行高效计算，从而有助于将空间自适应方案和时变材料特性纳入心脏动力学的数值模拟。

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《IEEE Transactions on Biomedical Engineering》 |2005年第8期|p.1490-1492|共3页
作者
Jacquemet V.; Henriquez C.S.;
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正文语种 eng
中图分类无线电电子学、电信技术;
关键词
bioelectric potentials; biological tissues; cardiology; finite volume methods; mesh generation; reaction-diffusion systems; 2-D unstructured meshes; 3-D unstructured meshes; anisotropic cardiac propagation; cardiac dynamics; cardiac tissue; finite volume stiffness;

机译：生物电势;生物组织;心脏病学;有限体积方法;网格生成;反应扩散系统;2-D非结构化网格;3-D非结构化网格;各向异性心脏传播;心脏动力学;心脏组织;有限体积刚度;

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Finite volume stiffness matrix for solving anisotropic cardiac propagation in 2-D and 3-D unstructured meshes

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