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Backscatter optical and microwave cross sections for surfaces characterized by Pearson-Moskowitz spectral density functions-full wave approach

机译：以Pearson-Moskowitz光谱密度函数为特征的表面的背向散射光学和微波截面-全波方法

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In the study of wave scattering from terrain, ice, sea and other features on the Earth's surface, the use of the full wave approach leads to solutions that are valid over a broad range of frequencies and roughness scales. The backscattering radar cross sections for two-dimensional random rough surfaces are obtained for surfaces characterized by the Pearson-Moskowitz surface height spectral density function using the full wave approach. These solutions properly account for the small and large scale components of the rough sea surface. They are compared with solutions for surfaces characterized by the usually assumed Gaussian spectral density functions. The impact of the particular rough surface height spectral density function is discussed.

机译：在研究来自地球表面的地形，冰，海和其他特征的波散射时，使用全波方法可以得出在宽范围的频率和粗糙度范围内有效的解决方案。使用全波方法获得了以皮尔逊-莫斯科维茨表面高度谱密度函数为特征的表面的二维随机粗糙表面的反向散射雷达横截面。这些解决方案适当地考虑了粗糙海面的小型和大型组成部分。将它们与以通常假定的高斯光谱密度函数为特征的表面的解进行比较。讨论了特定的粗糙表面高度光谱密度函数的影响。

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《》|1995年|P.88-90|共3页
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Bahar; E.; Bom Son Lee;
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中图分类无线电电子学、电信技术;
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1. Backscatter cross sections of composite random rough surfaces based on the selection of variational parameters to determine the surface height spectral densities of the larger- and smaller-scale surfaces [J] . E. BAHAR, P. CRITTENDEN International journal of remote sensing . 2008,第1a2期

机译：基于变化参数的选择来确定较大和较小尺寸表面的表面高度光谱密度的复合随机粗糙表面的反向散射截面
2. Power spectral lineshapes of microwave radiation backscattered from sea surfaces at small grazing angles [J] . Lee P.H.Y., Barter J.D. IEE proceedings. Radar, sonar and navigation . 1995,第5期

机译：从小掠角从海面向后散射的微波辐射的功率谱线形
3. Tilt modulation of high resolution radar backscatter cross sections: unified full wave approach [J] . Bahar E., Kubik R.D. IEEE Transactions on Geoscience and Remote Sensing . 1993,第6期

机译：高分辨率雷达后向散射截面的倾斜调制：统一的全波方法
4. Backscatter optical and microwave cross sections for surfaces characterized by Pearson-Moskowitz spectral density functions-full wave approach [C] . Bahar E., Bom Son Lee, Institute of Electric and Electronic Engineer topical symposium on combined optical-microwave earth and atmosphere sensing . 1995

机译：用于表面特征的表面光学和微波横截面，其特征在于Pearson-MoSkowitz光谱密度功能 - 全波方法
5. Microwave polarimetric backscattering from natural rough surfaces. [D] . Oh, Yisok. 1993

机译：天然粗糙表面的微波偏振反向散射。
6. A Consistent Treatment of Microwave Emissivity and Radar Backscatter for Retrieval of Precipitation over Water Surfaces [O] . S. Joseph Munchak, Robert Meneghini, Mircea Grecu, -1

机译：微波发射率和雷达反向散射的一致处理用于反演水面上的降水
7. Relationship between vegetation microwave optical depth and cross-polarized backscatter from multiyear Aquarius observations [O] . Rötzer, Kathrina, Montzka, Carsten, Entekhabi, Dara, 2017

机译：多年水瓶座观测资料显示的植被微波光学深度与交叉偏振背向散射的关系
8. Statistical Characterization of Random Rough Surfaces Using the Tilt Modulationof the Backscatter Radar Cross Sections: Full Wave Approach [R] . Bahar, E., Li, Y. F. 1990

机译：利用背向散射雷达截面的倾斜调制对随机粗糙面进行统计表征：全波方法

Backscatter optical and microwave cross sections for surfaces characterized by Pearson-Moskowitz spectral density functions-full wave approach

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