Finite difference time domain tests of random media propagation theory

L. J. Nickisch; P. M. Franke

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Finite difference time domain tests of random media propagation theory

机译：随机介质传播理论的时域有限差分检验

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The recent extension of the finite difference time domain (FDTD) method to frequency-dependent media [Nickisch and Franke, 1992] allows FDTD to now be applied to ionospheric propagation. The FDTD method solves the Maxwell equations directly in the time domain by temporal integration. No approximations beyond that of finite differencing are necessary, although the direct enforcement of certain approximations is possible. By doing so the method can be used to explore the effect of many standard propagation approximations. We consider certain approximations typically applied to the problem of propagation in randomly structured ionization, such as the neglect of polarization coupling and the assumption of small-angle scattering.

机译：有限差分时域（FDTD）方法最近扩展到频率相关的介质[Nickisch and Franke，1992]，使得FDTD现在可以应用于电离层传播。 FDTD方法通过时域积分直接在时域中求解麦克斯韦方程。尽管可以直接执行某些近似值，但除了有限差分之外，不需要任何近似值。通过这样做，该方法可以用于探索许多标准传播近似的影响。我们考虑通常应用于随机结构电离中传播问题的某些近似值，例如忽略极化耦合和假设小角度散射。

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来源
《Radio Science》 |1996年第4期|955-963|共9页
作者
L. J. Nickisch; P. M. Franke;
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作者单位

Mission Research Corporation, Monterey, California;

Department of Electrical and Computer Engineering, University of Illinois, Urbana;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Finite difference methods; Time-domain analysis; Random media; Frequency-domain analysis; Coherence; Correlation;

机译：有限差分法;时域分析;随机介质;频域分析;相干;相关;

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1. Finite difference time domain tests of random media propagation theory: 2. Signal correlation length and channel bandwidth [J] . L. J. Nickisch, P. M. Franke Radio Science . 2001,第2期

机译：随机媒体传播理论的时域有限差分测试：2.信号相关长度和信道带宽
2. Finite difference time domain tests of random media propagation theory 2. Signal correlation length and channel bandwidth [J] . L. J. Nickisch, P. M. Frallke Radio Science . 2001,第2期

机译：随机媒体传播理论的时域有限差分测试2.信号相关长度和信道带宽
3. Finite difference time domain tests of random media propagation theory [J] . L. J. Nickisch, P. M. Franke Radio Science . 1996,第4期

机译：随机介质传播理论的时域有限差分检验
4. Shift-Operator Finite difference Time Domain: An efficient unified approach for simulating wave propagation in different dispersive media [C] . Attiya A.M., Abdullah H.H. 2010 IEEE Middle East Conference on Antennas and Propagation . 2010

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5. Development of an FPGA-based architecture enabling the hardware implementation of a three-dimensional finite -difference time -domain algorithm for the analysis of electromagnetic propagation. [D] . Durbano, James Philip. 2004

机译：基于FPGA的体系结构的开发，可以在硬件中实现三维有限差分时域算法，以分析电磁传播。
6. Efficient numerical modelling of time-domain light propagation in curved 3D absorbing and scattering media with finite differences [O] . Anthony Allali, Alexander D. Klose, Yves Bérubé-Lauzière 2021

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7. General polynomial chaos‐based expansion finite‐difference time‐domain method for analysing electromagnetic wave propagation in random dispersive media [O] . Jiangfan Liu, Huiping Li, Xiaoli Xi 2021

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Finite difference time domain tests of random media propagation theory

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