An Efficient Modeling Technique for Time Domain Field-to-Wire Coupling in the Massively Parallel Computer Codes JEMS-FDTD

机译：大规模并行计算机代码JEMS-FDTD中时域线间耦合的高效建模技术

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A time domain field-to-wire coupling technique has been developed and integrated into the massively parallel computer codes JEMS-FDTD, allowing us to model wires and cables inside an electrically large and complex objects with high efficiency. The induced effects of wires and cables are retrieved by solving the transmission line equations using the one-dimensional (1D) finite difference time domain (FDTD) method. The JEMS-FDTD codes with the field-to-wire coupling technique have been validated by calculating the field coupling effects of a single-core wire positioned along the axis and off axis above a PEC ground plane. The JEMS-FDTD codes have also been applied to analyze the induced effects of an obliquely positioned single-core wire inside a vehicle upon a plane wave excitation.

机译：已经开发了时域场对线耦合技术，并将其集成到大规模并行计算机代码JEMS-FDTD中，从而使我们能够高效地对大型电气复杂物体内的电线和电缆进行建模。通过使用一维（1D）有限差分时域（FDTD）方法求解传输线方程，可以检索电线和电缆的感应效应。通过计算沿PEC接地平面上方的轴和偏轴定位的单芯线的场耦合效应，已验证了具有场线耦合技术的JEMS-FDTD代码。 JEMS-FDTD代码也已应用于分析平面波激励下车辆内部倾斜放置的单芯线的感应效应。

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《International Conference on Microwave and Millimeter Wave Technology》|2019年|1-3|共3页
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作者
Xuesong Meng; Xianfeng Bao; Yuteng Zheng; Zhihong Ye; Qiang Liu; Haijing Zhou;
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cables (electric); finite difference time-domain analysis; transmission lines; wires (electric);

机译：电缆（电）;时域有限差分分析;传输线;电线（电）;

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专利

1. Time-Domain Modeling of Field-to-Wire Coupling in Obliquely Oriented Multiwire Cables With Junctions Using JEMS-FDTD [J] . Xuesong Meng, Xianfeng Bao, Yuteng Zheng, Electromagnetic Compatibility, IEEE Transactions on . 2020,第6期

机译：采用JEMS-FDTD的结斜倍频电缆现场耦合的时域建模
2. Supplements to “A Time-Domain Macromodel Based on the Frequency-Domain Moment Method for the Field-to-Wire Coupling” [J] . Keliang Yuan, Zuoxian Xiang, Jianguo Wang, IEEE Transactions on Electromagnetic Compatibility . 2017,第6期

机译：对“基于频域矩量法的场-线耦合时域宏模型”的增补
3. A Time-Domain Macromodel Based on the Frequency-Domain Moment Method for the Field-to-Wire Coupling [J] . Keliang Yuan, Jianguo Wang, Haiyan Xie, IEEE Transactions on Electromagnetic Compatibility . 2016,第3期

机译：基于频域矩量法的场-线耦合时域宏模型
4. An Efficient Modeling Technique for Time Domain Field-to-Wire Coupling in the Massively Parallel Computer Codes JEMS-FDTD [C] . Xuesong Meng, Xianfeng Bao, Yuteng Zheng, International Conference on Microwave and Millimeter Wave Technology . 2019

机译：大型并行计算机码JEMS-FDTD中时域字段对线耦合的高效建模技术
5. New quantum Monte Carlo algorithms to efficiently utilize massively parallel computers. [D] . Kent, David Randall (Chip), IV. 2003

机译：新的量子蒙特卡洛算法可有效利用大规模并行计算机。
6. Massively Parallel Signal Processing using the Graphics Processing Unit for Real-Time Brain–Computer Interface Feature Extraction [O] . J. Adam Wilson, Justin C. Williams 2009

机译：使用图形处理单元的大规模并行信号处理用于实时脑机接口特征提取
7. PORTA: A three-dimensional multilevel radiative transfer code for modeling the intensity and polarization of spectral lines with massively parallel computers [O] . Stepan, Jiri, Bueno, Javier Trujillo 2013

机译：pORTa：一种三维多级辐射传输代码用谱线模拟谱线的强度和极化并行计算机
8. Time efficient 3-D electromagnetic modeling on massively parallel computers [R] . Alumbaugh, D. L. , Newman, G. A. 1995

机译：在大规模并行计算机上进行高效的3-D电磁建模

An Efficient Modeling Technique for Time Domain Field-to-Wire Coupling in the Massively Parallel Computer Codes JEMS-FDTD

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