Local Grid Refinement for Low-Frequency Current Computations in 3-D Human Anatomy Models

Andreas Barchanski; Till Steiner; Herbert De Gersem; Markus Clemens; Thomas Weiland

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Local Grid Refinement for Low-Frequency Current Computations in 3-D Human Anatomy Models

机译：在3-D人体解剖模型中进行低频电流计算的局部网格优化

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摘要

The calculation of current densities in voxel-based high-resolution anatomy models allows insight in the current distribution inside the human body. The geometric complexity of the human body requires a very high resolution in order to properly resolve small organs. We present a local grid refinement scheme for low-frequency current calculations, allowing to finely resolve areas of particular interest. Using a Lagrange-multiplier approach, the whole model including the fine and coarse grid domains can be computed with only one solution of an algebraic system of equations. The presented approach is validated and tested on numerical examples.

机译：在基于体素的高分辨率解剖模型中计算电流密度可以洞悉人体内部的电流分布。人体的几何复杂性需要非常高的分辨率才能正确分解小器官。我们提出了一种用于低频电流计算的本地网格细化方案，可以精细地解决特别感兴趣的区域。使用拉格朗日乘数法，仅使用方程代数系统的一种解决方案即可计算出包括精细网格域和粗糙网格域的整个模型。所提出的方法在数值示例上得到了验证和测试。

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来源
《IEEE Transactions on Magnetics》 |2006年第4期|p.1371-1374|共4页
作者
Andreas Barchanski; Till Steiner; Herbert De Gersem; Markus Clemens; Thomas Weiland;
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作者单位

Technische Universitat Darmstadt, Fachbereich 18 Elektrotechnik und Informationstechnik, D-64289 Darmstadt, Germany;

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原文格式 PDF
正文语种 eng
中图分类计量学;
关键词
Biological effects of electromagnetic radiation; electrodynamics; finite integration technique; iterative methods;

机译：电磁辐射的生物效应;电动力学;有限积分技术;迭代方法;

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专利

1. Using domain decomposition techniques for the calculation of low-frequency electric current densities in high-resolution 3D human anatomy models [J] . Andreas Barchanski, Markus Clemens, Herbert De Gersem Compel . 2005,第2期

机译：使用域分解技术计算高分辨率3D人体解剖模型中的低频电流密度
2. Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations Part 5. A finite-difference, adaptive space/time grid strategy based on a patch-type local uniform spatial grid refinement, for kinetic models in one-di [J] . L.K. Bieniasz Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry . 2000,第2期

机译：动态自适应网格技术在电化学动力学方程式求解中的应用第5部分。基于补丁类型局部均匀空间网格细化的有限差分自适应时空网格策略，用于一维动力学模型
3. Computational modeling of magnetoconvection: Effects of discretization method, grid refinement and grid stretching [J] . Gelfgat A. Yu., Zikanov O. Computers & Fluids . 2018,第期

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4. Local Grid Refinement for Low-Frequency Current Computations in 3D Human Anatomy Models [C] . Andreas Barchanski, Till Steiner, Herbert De Gersem, Compumag Conference on the Computation of Electromagnetic Fields vol.2; 20050626-30; Shenyang(CN) . 2005

机译：在3D人体解剖模型中进行低频电流计算的局部网格优化
5. Development and evaluation of local grid refinement methods for forward and inverse groundwater models. [D] . Mehl, Steffen William. 2003

机译：开发和评估用于正向和反向地下水模型的局部网格细化方法。
6. Fisetin inhibits human melanoma cell growth through direct binding to p70S6K and mTOR: findings from 3-D melanoma skin equivalents and computational modeling [O] . Deeba N. Syed, Jean-Christopher Chamcheu, Mohammad Imran Khan, -1

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7. Suppression Research Regarding Low-Frequency Oscillation in the Vehicle-Grid Coupling System Using Model-Based Predictive Current Control [O] . Yaqi Wang, Zhigang Liu 2018

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8. Adaptive Local Grid Refinement in Computational Fluid Mechanics [R] . Ewing, R. E., Allen, M. B., Djomehri, M. J., 1987

机译：计算流体力学中的自适应局部网格细化

Local Grid Refinement for Low-Frequency Current Computations in 3-D Human Anatomy Models

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