SAR altimetry data as a new source for swell monitoring

Journal Article (2022)
Author(s)

O. Altiparmaki (TU Delft - Astrodynamics & Space Missions)

M Kleinherenbrink (TU Delft - Physical and Space Geodesy)

M.C. Naeije (TU Delft - Astrodynamics & Space Missions)

D. C. Slobbe (TU Delft - Physical and Space Geodesy)

Pieter N.A.M. Visser (TU Delft - Astrodynamics & Space Missions, TU Delft - Space Engineering)

Astrodynamics & Space Missions
Copyright
© 2022 O. Altiparmaki, M. Kleinherenbrink, M.C. Naeije, D.C. Slobbe, P.N.A.M. Visser
DOI related publication
https://doi.org/10.1029/2021GL096224
More Info
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Publication Year
2022
Language
English
Copyright
© 2022 O. Altiparmaki, M. Kleinherenbrink, M.C. Naeije, D.C. Slobbe, P.N.A.M. Visser
Astrodynamics & Space Missions
Issue number
7
Volume number
49
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Abstract

This article shows the first spectral analysis of fully-focused Synthetic Aperture Radar (FFSAR) altimetry data with the objective of studying backscatter modulations caused by swells. Swell waves distort the backscatter in altimetry radargrams by means of velocity and range bunching. These swell signatures are visible in the tail of the waveform. By locally normalizing the backscatter and projecting the waveforms on an along-/cross-track grid, satellite altimetry can be exploited to retrieve swell information. The analysis of FFSAR spectra is supported by buoy-derived swell-wave spectra of the National Oceanic and Atmospheric Administration network. Using cases with varying wave characteristics, we discuss the altimetry-derived spectra and relate them to what is known from side-looking SAR imaging systems. Besides having a vast amount of additional data for swell-wave analysis, altimeter data can also help us to better understand the side-looking SAR spectra.