Global Navigation Satellite System-Reflectometry (GNSS-R), is succesfully employed for ocean altimetric and scatterometric applications. Recently, it has been suggested that GNSS-R can also be used for ship detection applications. To this purpose, an accurate electromagnetic modeling of the bistatic radar cross section of a ship lying over the sea surface would be very helpful. However, existing models are typically limited to monostatic configurations, thus restricting their applicability in multistatic scenarios, such as GNSS-R systems. In this work, we show a procedure to determine the bistatic radar cross section of a ship target, under the geometrical optics approximation. Numerical results show the impact of the geometry of acquisition and polarization on the bistatic radar cross section.
Electromagnetic modeling of ships in maritime scenarios: Geometrical optics approximation / Fuscaldo, W; Di Simone, A; Millefiori, L M; Riccio, D; Ruello, G; Braca, P; Willett, P. - 2018:(2018), pp. 452-455. (Intervento presentato al convegno 2018 IEEE International Geoscience and Remote Sensing Symposium tenutosi a Valencia; Spain) [10.1109/IGARSS.2018.8518925].
Electromagnetic modeling of ships in maritime scenarios: Geometrical optics approximation
Fuscaldo W;
2018
Abstract
Global Navigation Satellite System-Reflectometry (GNSS-R), is succesfully employed for ocean altimetric and scatterometric applications. Recently, it has been suggested that GNSS-R can also be used for ship detection applications. To this purpose, an accurate electromagnetic modeling of the bistatic radar cross section of a ship lying over the sea surface would be very helpful. However, existing models are typically limited to monostatic configurations, thus restricting their applicability in multistatic scenarios, such as GNSS-R systems. In this work, we show a procedure to determine the bistatic radar cross section of a ship target, under the geometrical optics approximation. Numerical results show the impact of the geometry of acquisition and polarization on the bistatic radar cross section.| File | Dimensione | Formato | |
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