Artículos de revistas
Modeling Temporal Evolution of Junco Marshes Radar Signatures
Fecha
2005-10Registro en:
Grings, Francisco Matias; Ferrazzoli, Paolo; Karszenbaum, Haydee; Tiffenberg, Javier Sebastian; Kandus, Patrici; et al.; Modeling Temporal Evolution of Junco Marshes Radar Signatures; Institute of Electrical and Electronics Engineers; Ieee Transactions On Geoscience And Remote Sensing; 43; 10; 10-2005; 2238-2245
0196-2892
CONICET Digital
CONICET
Autor
Grings, Francisco Matias
Ferrazzoli, Paolo
Karszenbaum, Haydee
Tiffenberg, Javier Sebastian
Kandus, Patrici
Guerriero, Leila
Jacobo Berlles, Julio César Alberto
Resumen
In this work, multitemporal synthetic aperture radar (SAR) data in conjunction with an electromagnetic (EM) model and a vegetation growth model were used to monitor and explain burn-regrowth events of junco vegetation in a wetland environment. The data used were from Radarsat-1, ENVISAT Advanced Synthetic Aperture Radar (ASAR), and European Remote Sensing 2 (ERS-2) temporal series. The EM model is based on radiative transfer theory and describes junco vegetation as a set of vertical dielectric cylinders on a flat flooded surface. It was used, together with the vegetation growth model, to predict the temporal evolution
of the radar response during a burn–regrowth event. This simulation was compared with the ERS-2 vertical (VV) data. It was observed a “bell-shaped” temporal trend that was confirmed by the simulated data with a mean error of 2.5 dB. Additionally, in view of current and future ENVISAT ASAR Alternating Polarization Mode precision data, the horizontal (HH) SAR temporal response was also simulated giving as a result strong differences between simulated HH and VV temporal trends. These differences are in good agreement with the ones observed between Radarsat-1 HH and ERS-2 VV SAR data acquired at close dates and also with the same differences observed between HH and VV ENVISAT ASAR data. Electromagnetic modeling results provide a sound theoretical interpretation of these observations.