COMPUTATION OF ELECTROMAGNETIC FIELDS IN DENSE BIOLOGICAL CELL STRUCTURES USING MODIFIED SUBGRIDDING OF QUASI-STATIC FDTD METHOD

机译：准静态FDTD方法改进的子流域致密生物电池结构中电磁场的计算

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This paper demonstrates the detailed electromagnetic modelling of biological cell structures by using modified subgridding FDTD techniques. This is done by incorporating a quasi-static FDTD solution, Floquet periodic boundary conditions and modified PML boundary conditions to achieve microdosimetric modelling of bioelectromagnetic interactions at cellular level. Particular attention is paid to exploration of the field distribution over the membrane layer of the biological cells. The method enables the analysis of a large structure of cells in a more computationally efficient way than the modelling of the entire structure. The total fields of the simulated structures are shown to give reasonable and stable results at 2450MHz.

机译：本文通过使用改进的子画面FDTD技术说明了生物电池结构的详细电磁建模。这是通过掺入准静态FDTD溶液，浮子周期边界条件和改性的PML边界条件来完成的，以实现细胞水平的生物电磁相互作用的微量微调模型。特别注意探索生物细胞膜层上的场分布。该方法使得能够以比整个结构的建模更具计算有效的方式分析大量细胞。模拟结构的总场显示为2450MHz的合理且稳定的结果。

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《Institution of Engineering and Technology International Conference on Computation in Electromagnetics》|2008年||共2页
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C. H. See; R. A. Abd-Alhameed; P. S. Excell;
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中图分类 TB97-53;
关键词
Finite Difference Time Domain (FDTD); Floquet periodic boundary conditions; Quasi-Static method; Subgridding;

机译：有限差分时域（FDTD）;浮子周期边界条件;准静态法;子流程;

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专利

1. A hybrid ADI-FDTD subgridding scheme for efficient electromagnetic computation [J] . Iftikhar Ahmed, Zhizhang (David) Chen International journal of numerical modelling . 2004,第3期

机译：用于高效电磁计算的ADI-FDTD混合子网格方案
2. A Subgridding Scheme Based on the FDTD Method and HIE-FDTD Method [J] . Juan Chen, Anxue Zhang Applied Computational Electromagnetics Society journal . 2011,第1期

机译：基于FDTD和HIE-FDTD方法的子网格划分方案
3. A Gradient Weighted Finite Element Method (GW-FEM) for Static and Quasi-Static Electromagnetic Field Computation [J] . International journal of computational methods . 2020,第6期

机译：静态加权有限元方法（GW-FEM），用于静态和准静态电磁场计算
4. COMPUTATION OF ELECTROMAGNETIC FIELDS IN DENSE BIOLOGICAL CELL STRUCTURES USING MODIFIED SUBGRIDDING OF QUASI-STATIC FDTD METHOD [C] . C. H. See, R. A. Abd-Alhameed, P. S. Excell Institution of Engineering and Technology International Conference on Computation in Electromagnetics . 2008

机译：准静态FDTD方法改进的子流域致密生物电池结构中电磁场的计算
5. Computational electromagnetics modeling of two-dimensional man-made 90 degree wedge-type of structures using the FDTD numerical method. [D] . Demetriou, Demetrakis P. 2001

机译：使用FDTD数值方法对二维人造90度楔形结构进行计算电磁建模。
6. Electromagnetic fields as structure-function zeitgebers in biological systems: environmental orchestrations of morphogenesis and consciousness [O] . Nicolas Rouleau, Blake T. Dotta 2014

机译：电磁场作为生物系统中结构功能的时代分子：形态发生和意识的环境编排
7. Computation of electromagnetic fields in assemblages of biological cells using a modified finite difference time domain scheme. Computational electromagnetic methods using quasi-static approximate version of FDTD, modified Berenger absorbing boundary and Floquet periodic boundary conditions to investigate the phenomena in the interaction between EM fields and biological systems. [O] . See Chan H. 2007

机译：使用修改的有限差分时域方案计算生物细胞集合中的电磁场。使用准静态近似形式的FDTD，改进的Berenger吸收边界和Floquet周期边界条件的计算电磁方法，以研究EM场与生物系统之间相互作用的现象。

COMPUTATION OF ELECTROMAGNETIC FIELDS IN DENSE BIOLOGICAL CELL STRUCTURES USING MODIFIED SUBGRIDDING OF QUASI-STATIC FDTD METHOD

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