Modeling of Lossy Curved Surfaces in 3-D FIT/FDTD Techniques

Mkinen R. M.; De Gersem H.; Weiland T.; Kivikoski M. A.

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Modeling of Lossy Curved Surfaces in 3-D FIT/FDTD Techniques

机译：3-D FIT / FDTD技术中的有损曲面建模

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A conformal first-order or Leontovic surface-impedance boundary condition (SIBC) for the modeling of lossy curved surfaces in a Cartesian grid is presented for the finite-integration technique (FIT). Equivalently, the model can be derived using the contour-path formulation of the finite-difference time domain (FDTD) method. The SIBC is based on a lumped-element representation of the impedance combined with a conformal modeling scheme. The validity of the proposed model is evaluated by investigating the quality factors of rectangular, cylindrical and spherical cavity resonators. The convergence rate of the conformal SIBC model is shown to be of second order

机译：针对有限积分技术（FIT），提出了用于对笛卡尔网格中的有损耗曲面建模的共形一阶或Leontovic表面阻抗边界条件（SIBC）。等效地，可以使用时域有限差分法（FDTD）的轮廓路径公式导出模型。 SIBC基于阻抗的集总表示，并结合了保形建模方案。通过研究矩形，圆柱形和球形空腔谐振器的品质因数来评估所提出模型的有效性。保形SIBC模型的收敛速度显示为二阶

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来源
《IEEE Transactions on Antennas and Propagation》 |2006年第2006期|p.3490-3498|共9页
作者
Mkinen R. M.; De Gersem H.; Weiland T.; Kivikoski M. A.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类天线;计量学;
关键词
absorbing media; cavity resonators; electromagnetic fields; electromagnetic wave absorption; finite difference time-domain analysis; surface impedance; Cartesian grid; FDTD; FIT; Leontovic surface-impedance boundary condition; SIBC; cavity resonator; conformal model;

机译：吸收介质;腔谐振器;电磁场;电磁波吸收;时差有限域分析;表面阻抗;笛卡尔网格;FDTD;FIT;Leontovic表面阻抗边界条件;SIBC;腔谐振器;保形模型;

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专利

1. Modeling of Lossy Curved Surfaces in 3-D FIT/FDTD Techniques [J] . Mkinen R. M., De Gersem H., Weiland T., IEEE Transactions on Antennas and Propagation . 2006,第11期

机译：3-D FIT / FDTD技术中的有损曲面建模
2. Modelling of lossy curved surfaces in the 3-D frequency-domain finite-difference methods [J] . Riku M. Maekinen, Herbert De Gersem, Thomas Weiland, International journal of numerical modelling . 2006,第5期

机译：3-D频域有限差分方法中的有损曲面建模
3. A 3-D Interlayer-Based FDTD/NS-FDTD Connection Technique Combined With a Stable Subgrid Model for Low-Cost Simulations [J] . IEEE Transactions on Magnetics . 2014,第2期

机译：基于3-D层的FDTD / NS-FDTD连接技术与稳定的子网格模型相结合的低成本仿真
4. A Conformal Surface-Impedance Boundary Condition for the Modeling of Curved Lossy Surfaces in 3-D FIT/FDTD Techniques [C] . Makinen, R.M., De Gersem, . 2005

机译：3-D FIT / FDTD技术中弯曲有损表面建模的共形表面阻抗边界条件
5. Extension of FDTD absorbing boundary condition methods to lossy dielectrics for the modeling of microwave devices. [D] . Wittwer, David Christian. 1998

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6. The Fitting of a Fiber-Reinforced-Plastic Complex Curved Surface and Its Orbit Optimization Model with Belt Grinding Line Contact [O] . Jiazheng Xing, Guijian Xiao, Yi He, 2019

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7. Gauss-newton-type techniques for robustly fitting implicitly defined curves and surfaces to unorganized data points [O] . Martin Aigner, Bert Jüttler 2008

机译：高斯 - 牛顿型技术，用于将隐式定义的曲线和曲面稳健地拟合到无组织的数据点
8. Curve fitting and modeling with splines using statistical variable selection techniques [R] . Smith, P. L. 1982

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Modeling of Lossy Curved Surfaces in 3-D FIT/FDTD Techniques

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