Transionospheric Synthetic Aperture Radar Observation: A comprehensive review
Y Ji, Z Dong, Y Zhang, C Wang… - IEEE Geoscience and …, 2024 - ieeexplore.ieee.org
The ionosphere is the Earth's upper atmosphere with sufficiently charged particles that
influence the electromagnetic wave propagation, thereby impeding spaceborne synthetic …
influence the electromagnetic wave propagation, thereby impeding spaceborne synthetic …
Modeling the Earth's Ionosphere by a Phase Screen for the Analysis of Transionospheric SAR Imaging
In the problems of transionospheric synthetic aperture radar (SAR) imaging, autofocus, and
ionospheric tomography, the Earth's ionosphere is often represented by a phase screen. A …
ionospheric tomography, the Earth's ionosphere is often represented by a phase screen. A …
Polarimetric radar interferometry in the presence of differential Faraday rotation
Faraday rotation (FR) affects the low-frequency transionospheric radar by creating cross-talk
between polarizations. The baseline part of FR can be compensated for by applying an …
between polarizations. The baseline part of FR can be compensated for by applying an …
Cross-channel contamination of PolSAR images due to frequency dependence of Faraday rotation angle
Compensation of the Faraday rotation (FR) effect in polarimetric synthetic aperture radar
(PolSAR) involves a rotation matrix, with the FR angle determined by the magnetic field, total …
(PolSAR) involves a rotation matrix, with the FR angle determined by the magnetic field, total …