Validation of significant wave height from improved satellite altimetry in the German Bight
Validation of significant wave height from improved satellite altimetry in the German Bight
Significant wave height (SWH) is mapped globally through satellite altimetry. SWH estimation is possible because the shape of a pulse-limited altimetric waveform depends on the sea state. The algorithm for SWH also depends on the width of the point target response (PTR) function. Particularly challenging for SWH detection are coastal data, due to land and calm water interference in the altimeter footprint, and low sea states, due to an extremely sharp leading edge in the waveform that is consequently poorly sampled. Here, Adaptive Leading Edge Subwaveform Retracker (ALES), a new algorithm for reprocessing altimetric waveforms, will be validated for SWH estimation in the German Bight. This challenging region presents both low sea state and coastal issues, and an extended network of buoys of the Bundesamt fuer Seeschiffahrt und Hydrographie is available for the in situ validation. Reprocessed data from Envisat, Jason-1, and Jason-2 missions are validated against the three offshore buoys. The in situ validation is applied both at the point nearest to the buoy and at all other points along track. The skill metrics is based on bias, standard deviation, slope of regression line, and number of cycles with correlation larger than 90%. We also tested the impact of the inclusion of two additional waveform samples that are provided in the Envisat Sensor Geophysical Data Records and the adoption of different values for the width of the PTR. Results show that near coast ALES estimations of SWH are generally better correlated with buoy data than standard processed products.
2146-2156
Passaro, Marcello
08b0a0ca-17a8-453e-b466-a1c37076f45f
Fenoglio-Marc, Luciana
3c094812-7ac3-41e2-b755-8bfbed5f4388
Cipollini, Paolo
276e356a-f29e-4192-98b3-9340b491dab8
April 2015
Passaro, Marcello
08b0a0ca-17a8-453e-b466-a1c37076f45f
Fenoglio-Marc, Luciana
3c094812-7ac3-41e2-b755-8bfbed5f4388
Cipollini, Paolo
276e356a-f29e-4192-98b3-9340b491dab8
Passaro, Marcello, Fenoglio-Marc, Luciana and Cipollini, Paolo
(2015)
Validation of significant wave height from improved satellite altimetry in the German Bight.
IEEE Transactions on Geoscience and Remote Sensing, 53 (4), .
(doi:10.1109/TGRS.2014.2356331).
Abstract
Significant wave height (SWH) is mapped globally through satellite altimetry. SWH estimation is possible because the shape of a pulse-limited altimetric waveform depends on the sea state. The algorithm for SWH also depends on the width of the point target response (PTR) function. Particularly challenging for SWH detection are coastal data, due to land and calm water interference in the altimeter footprint, and low sea states, due to an extremely sharp leading edge in the waveform that is consequently poorly sampled. Here, Adaptive Leading Edge Subwaveform Retracker (ALES), a new algorithm for reprocessing altimetric waveforms, will be validated for SWH estimation in the German Bight. This challenging region presents both low sea state and coastal issues, and an extended network of buoys of the Bundesamt fuer Seeschiffahrt und Hydrographie is available for the in situ validation. Reprocessed data from Envisat, Jason-1, and Jason-2 missions are validated against the three offshore buoys. The in situ validation is applied both at the point nearest to the buoy and at all other points along track. The skill metrics is based on bias, standard deviation, slope of regression line, and number of cycles with correlation larger than 90%. We also tested the impact of the inclusion of two additional waveform samples that are provided in the Envisat Sensor Geophysical Data Records and the adoption of different values for the width of the PTR. Results show that near coast ALES estimations of SWH are generally better correlated with buoy data than standard processed products.
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Published date: April 2015
Organisations:
Physical Oceanography, Marine Physics and Ocean Climate
Identifiers
Local EPrints ID: 370117
URI: http://eprints.soton.ac.uk/id/eprint/370117
ISSN: 0196-2892
PURE UUID: b74198ca-f43b-48c8-8ca9-ece3425df864
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Date deposited: 15 Oct 2014 13:27
Last modified: 14 Mar 2024 18:13
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Contributors
Author:
Marcello Passaro
Author:
Luciana Fenoglio-Marc
Author:
Paolo Cipollini
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