The 4-satellite constellation Cosmo Sky Med of the Italian Space Agency is providing high quality observations suitable for many applications in “all weather” conditions. However, Cosmo Sky Med SARs use a frequency at X-band (9.6 GHz) for which attenuation due propagation through precipitation is not negligible and can affect several SAR applications. In some conditions, especially heavy thunderstorms, precipitation effects can be significant, masking features of interest of the observed surface. During the two years of operation of Cosmo Sky Med, several images collected in stripmap, pingpong and scansar mode, both over sea and terrain and sea are analyzed and discussed by using simultaneous measurements collected by operational and research weather radar.
Effects of precipitation on images collected using different operational modes of Cosmo Sky Med / L. Baldini;N. Roberto;E. Gorgucci;L. Facheris; V. Chandrasekhar. - STAMPA. - (2012), pp. 2403-2406. (Intervento presentato al convegno IEEE International Geoscience and Remote Sensing Symposium (IGARSS) 2012 tenutosi a Monaco di Baviera nel 22-27 luglio 2012) [10.1109/IGARSS.2012.6351007].
Effects of precipitation on images collected using different operational modes of Cosmo Sky Med
BALDINI, LUCA;FACHERIS, LUCA;
2012
Abstract
The 4-satellite constellation Cosmo Sky Med of the Italian Space Agency is providing high quality observations suitable for many applications in “all weather” conditions. However, Cosmo Sky Med SARs use a frequency at X-band (9.6 GHz) for which attenuation due propagation through precipitation is not negligible and can affect several SAR applications. In some conditions, especially heavy thunderstorms, precipitation effects can be significant, masking features of interest of the observed surface. During the two years of operation of Cosmo Sky Med, several images collected in stripmap, pingpong and scansar mode, both over sea and terrain and sea are analyzed and discussed by using simultaneous measurements collected by operational and research weather radar.
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