搜索结果: 1-4 共查到“信息与通信工程 Microwave”相关记录4条 . 查询时间(0.109 秒)
西安交通大学电信学院刘海文教授当选国际期刊Intern.Journ.Of RF & Microwave CAE主编(图)
西安交通大学电信学院 刘海文 教授 Intern.Journ.Of RF Microwave CAE 主编 电子与电气 电磁场微波技术
2019/1/19
近日,西安交大电信学院刘海文教授当选英文刊物International Journal of RF and Microwave Computer -Aided Engineering主编(Editor-in-Chief),将于2019年1月1日正式任职。International Journal of RF and Microwave Computer -Aided Engineering创办于1...
GEOPHYSICAL PARAMETER RETRIEVAL FOR MICROWAVE C BAND SYNTHETIC APERTURE RADAR (SAR) DATASET USING INTEGRAL EQUATION MODEL
Microwave SAR Geophysical Parameters IEM Modelling
2019/2/28
The microwave remote sensing is highly useful, as it provides synoptic observation of the Earth’s surface or planetary bodies, regardless of day or night and the atmospheric conditions, propagation th...
The Concept of the Polarimetric Matched Signal & Image Filters: Application to Radar Target versus Speckle Reduction & Optimal Background Clutter Discrimination in Microwave Sensing and Imaging
The Concept of the Polarimetric Matched Signal Image Filters Application to Radar Target versus Speckle Reduction Optimal Background Clutter Discrimination Microwave Sensing and Imaging
2014/4/16
The Concept of the Polarimetric Matched Signal & Image Filters: Application to Radar Target versus Speckle Reduction & Optimal Background Clutter Discrimination in Microwave Sensing and Imaging。
Comparison of Optimization Procedure for 2x2 Sinclair, 2x2 Graves, 3x3 Covariance, and 4x4 Mueller (Symmetric) Matrices in Coherent Radar Polarimetry and its Application to Target Versus Background Discrimination in Microwave Remote Sensing and Imaging
Comparison of Optimization Procedure for 2x2 Sinclair, 2x2 Graves, 3x3 Covariance, and 4x4 Mueller (Symmetric) Matrices in Coherent Radar Polarimetry and its Application to Target Versus Background Discrimination in Microwave Remote Sensing and Imaging
2014/4/16
Comparison of Optimization Procedure for 2x2 Sinclair, 2x2 Graves, 3x3 Covariance, and 4x4 Mueller (Symmetric) Matrices in Coherent Radar Polarimetry and its Application to Target Versus Background Di...