A Wavelet-Based Technique for Sea Wind Extraction from SAR Images

Zecchetto, S.; Biasio, Francesco De

doi:10.1109/tgrs.2008.920967

Cited by 41 publications

(22 citation statements)

References 16 publications

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“…On the other hand, satellite-borne Synthetic Aperture Radars (SAR), have a much finer spatial resolution (from metres to hundreds of metres, depending on the sensor); however, their images are not frequent; their acquisition has often to be agreed in advance with the space agencies; the use of their full spatial resolution would be unpractical for operational use; finally, there is no standard SAR wind product operationally provided by the agencies: the algorithms to extract the wind direction from them are still in a development phase and depend on external sources of information (Zecchetto and De Biasio, 2008).…”

Section: Discussionmentioning

confidence: 99%

Numerical models sea surface wind compared to scatterometer observations for a single Bora event in the Adriatic Sea

et al. 2014

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Abstract.We compare the sea surface wind fields forecasted by a Global Circulation Model (GCM) and three Limited Area Models (LAMs) in an operational-like set-up, with the wind remotely sensed by the NASA QuikSCAT scatterometer. The comparison is performed for a single case of Bora wind in the Adriatic Sea, with the purpose to understand the ability of the model forecasts in reproducing the mesoscale features captured by the scatterometer, and to investigate on the suitability of LAM and GCM forecasts as possible forcing in storm surge models (SSMs). The performance is evaluated by means of statistical parameters regarding wind speed and direction showing that, at least in terms of classical statistical parameters, the GCM offer the most advantageous choice in terms of cost/benefit.

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Section: Discussionmentioning

confidence: 99%

Numerical models sea surface wind compared to scatterometer observations for a single Bora event in the Adriatic Sea

et al. 2014

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“…The methods used in this work to estimate the wind directions over the sea area by SAR refines the technique described in [13,14] by using a full 2D-CWT. This method is applied to a SAR image to obtain the wavelet spectrum, which is the map of energy as a function of angle (from -90 to 90 degrees, which is the fourth and the first quadrant of the Cartesian coordinate system) and scales chosen in the range between 200 m to 2500 m. The choice of scales length roughly corresponds to the wind frequency range between 10 −2 and 10 −3 Hz, where the small scale maximum of the wind spectra lies (see [10], p. 85).…”

Section: The Methods To Extract the Wind Direction From Sarmentioning

confidence: 99%

“…This tool is the 2D Continuous Wavelet Transform (hereafter 2D-CWT), a powerful technique developed in the late 1980s [11,12], able to provide the energy-wavelength information as a function of the location. Applied to SAR images, this method has been used in a quasi 2D version [13,14], providing interesting results with, however, important shortcomings. With respect to these works, this paper uses the full 2D-CWT, at that time not available, which makes the method more robust, solving the shortcomings made evident by using the quasi 2D version of CWT; moreover, it is focused on coastal areas and deals with much more images (61 vs. 21) from different satellites than the previous papers.…”

Section: Introductionmentioning

confidence: 99%

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Wind Direction Extraction from SAR in Coastal Areas

Zecchetto

2018

Remote Sensing

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This paper aims to illustrate and test a method, based on the Two-Dimensional Continuous Wavelet Transform (2D-CWT), developed to extract the wind directions from the Synthetic Aperture Radar (SAR) images. The knowledge of the wind direction is essential to retrieve the wind speed by using the radar-backscatter versus wind speed algorithms. The method has been applied to 61 SAR images from different satellites (Envisat, COSMO-SkyMed, Radarsat-2 and Sentinel-1A,B), and the results have been compared with the analysis wind fields from the European Centre for Medium-range Weather Forecasts (ECMWF) model, with in situ reports and with scatterometer data when available. The 2D-CWT method provides satisfactory results, both in areas a few kilometres from the coast and offshore. It is reliable as it produces good direction estimates, no matter what the characteristics of the SAR are. Statistics reports a success in the SAR wind direction estimates in 95% of cases (in 83% of cases the SAR-ECMWF wind direction difference is < ±20 • , in 92% < ±30 • ) with a mean directional bias B θ < 7 • . The SAR derived wind directions cannot be said to be validated, as the data available at present cannot be really representative of the wind field in the coastal area. However, the figures given by SAR winds are highly valuable even not properly validated, providing an independent and unique view of the spatial variability of the wind over the sea, which is possible by using the 2D-CWT method to derive the wind directions.

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“…Scientific literature about SAR images over the ocean has shown a variety of geophysical phenomena detectable by SAR (Alpers & Brümmer, 1994;Kravtsov et al, 1999;Mitnik et al, 1996;Mityagina et al, 1998;Mourad, 1996;Sikora et al, 1997;Zecchetto et al, 1998), including the multiscale structure in the atmospheric turbulence under high winds and the structure of the convective turbulence under low wind. More recently, some effort has been devoted to evaluate the wind direction, using the backscatter signatures produced by the atmospheric wind rolls or those occurring at the lee side of islands (Vachon & Dobson, 2000) as effect of wind shielding, by computing the local gradient of the image backscatter (Horstmann et al, 2002;Koch, 2004) or by using the two dimensional Continuous Wavelet Transform (CWT2) (Zecchetto & De Biasio, 2002;Zecchetto & De Biasio, 2008). This section illustrates the ability of the CWT2 in detecting and quantifying the backscatter pattern linked to the spatial structure of the MABL.…”

Section: Small-scale Structure Of the Mabl From Sar Imagesmentioning

confidence: 99%