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X-Band Sea Surface Coherence Time Inferred From Bistatic SAR Interferometry
Coherence time plays an important role in ocean surface observation by means of synthetic aperture radar (SAR). For X-band, the autocorrelation function (ACF) of the backscatter from the sea surface has been predicted using models. Up to now there exist only few experimental data and an empirical analysis of the sea surface coherence time based on a larger amount of data is missing. In this paper, we show how space-based bistatic SAR along-track interferometry is used for the first time to measure the ACF. We achieve this by statistical analysis of the interferometric scene coherence as a function of the along-track interferometric time lag, instead of indirect estimation from the Doppler bandwidth. We use many data acquisitions of opportunity for that purpose, thereby exploiting the diversity of along-track baselines between the two SAR sensors of the TanDEM-X satellite formation. The ACF is related to the temporal decorrelation, which is not directly observable. We extract this component by quantifying and compensating for all other sources of decorrelation that contribute to the observed coherence.
X-Band Sea Surface Coherence Time Inferred From Bistatic SAR Interferometry
Coherence time plays an important role in ocean surface observation by means of synthetic aperture radar (SAR). For X-band, the autocorrelation function (ACF) of the backscatter from the sea surface has been predicted using models. Up to now there exist only few experimental data and an empirical analysis of the sea surface coherence time based on a larger amount of data is missing. In this paper, we show how space-based bistatic SAR along-track interferometry is used for the first time to measure the ACF. We achieve this by statistical analysis of the interferometric scene coherence as a function of the along-track interferometric time lag, instead of indirect estimation from the Doppler bandwidth. We use many data acquisitions of opportunity for that purpose, thereby exploiting the diversity of along-track baselines between the two SAR sensors of the TanDEM-X satellite formation. The ACF is related to the temporal decorrelation, which is not directly observable. We extract this component by quantifying and compensating for all other sources of decorrelation that contribute to the observed coherence.
X-Band Sea Surface Coherence Time Inferred From Bistatic SAR Interferometry
Suchandt, Steffen (Autor:in) / Romeiser, Roland
2017
Aufsatz (Zeitschrift)
Englisch
Lokalklassifikation TIB:
770/3710/5670
BKL:
38.03
Methoden und Techniken der Geowissenschaften
/
74.41
Luftaufnahmen, Photogrammetrie
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