Journal ArticleDOI
A survey of ionospheric effects on space-based radar
Zheng-Wen Xu,Jian Wu,Zhensen Wu +2 more
TLDR
In this paper, a survey of the potential ionospheric effects on the performance of space-based radar systems (SBRs) operating in the ambient ionosphere environment is presented.Abstract:
In this survey, we fully review almost all potential ionospheric effects on the performance of space-based radar systems (SBRs), which operate in the ambient ionosphere environment; in particular, we review the use of space-based synthetic aperture radar systems (SARs) for imaging. There are two families of effects involved. One is the effects of the background ionosphere (non-turbulent ionosphere), such as dispersion, group delay, refraction, Faraday rotation, and phase shift. The other is the effects due to ionospheric irregularities, such as refractive index fluctuation, phase perturbation, angle-of-arrival fluctuation, pulse broadening, clutter, and amplitude scintillation. These effects adversely affect SAR imaging in several respects, such as by causing image shift in the range, and degradations of the range resolution, azimuthal resolution, and/or the resolution in height (elevation). We also review ionospheric irregularity characteristics and descriptions, propagation channel statistics, ...read more
Citations
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Journal ArticleDOI
Assessment of Atmospheric Propagation Effects in SAR Images
TL;DR: By acquiring simultaneous weather-radar data over the test site and the SAR acquisition, it was possible to flag affected SAR images and to exclude them from the procedure to derive the absolute calibration constant, and to decrease the 1 sigma uncertainty of theabsolute calibration factor by 0.15 dB.
Journal ArticleDOI
Radar Imaging From Geosynchronous Orbit: Temporal Decorrelation Aspects
Davide Bruno,Stephen Hobbs +1 more
TL;DR: Analysis of synthetic aperture radar imaging from geosynchronous orbit shows that ionospheric delay is the major source of temporal decorrelation; other effects have to be dealt with but appear to be easier to handle.
Journal ArticleDOI
Simulating the impacts of ionospheric scintillation on L band SAR image formation
TL;DR: In this article, a phase screen model called the Synthetic Aperture Radar Scintillation Simulator (SAR-SS) was developed for predicting the impacts of ionospheric scintillation on SAR image formation.
Journal ArticleDOI
Theoretical limits on SAR imposed by the ionosphere
TL;DR: In this article, the authors examined the effect of ionospheric turbulence on space-based synthetic aperture radar image formation and the performance of an autofocus procedure, and showed that the range defocusing can always be removed, but the range time delay can only be determined for high percentage bandwidths and high S4 index plus clutter ratios.
Journal ArticleDOI
The Influence of Equatorial Scintillation on L-Band SAR Image Quality and Phase
TL;DR: A quantitative analysis of equatorial scintillation effects on SAR image quality and SAR phase is provided and threshold ionospheric environmental conditions that lead to the formation of these image distortions are determined.
References
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Synthetic aperture radar interferometry
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TL;DR: In this paper, the authors present a review of the techniques of interferometry, systems and limitations, and applications in a rapidly growing area of science and engineering, including cartography, geodesy, land cover characterization, and natural hazards.
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