Title :
Multifrequency emission of wheat: Modeling and applications
Author :
Ferrazzoli, Paolo ; Wigneron, Jean-Pierre ; Guerriero, Leila ; Chanzy, Andrée
Author_Institution :
Dipt. di Inf. Sistemi e Produzione, Univ. Tor Vergata, Rome, Italy
fDate :
11/1/2000 12:00:00 AM
Abstract :
The microwave brightness temperatures of a wheat field were measured in 1993, during the whole growth cycle by the six-frequency PORTOS radiometer, at two polarizations and several angles. In this paper, the emissivities measured at L-, C-, X-, and K-band are compared with those simulated by a discrete multiple scattering model based on the radiative transfer theory. The agreement between experimental and simulated data is generally good at all frequencies, although a unique set of input parameters has been used. It is demonstrated that the model simulations lead to a reliable identification of the radiometric configurations most sensitive to ground variables. Moreover, they aid the development of a soil moisture inversion algorithm that performs well even with soils covered by developed vegetation.
Keywords :
agriculture; geophysical techniques; radiometry; remote sensing; vegetation mapping; C-band; K-band; L-band; SHF; Triticum; UHF; X-band; agriculture; angle; canopy; discrete multiple scattering model; emissivity; geophysical measurement technique; growth cycle; microwave brightness temperature; microwave radiometry; model; multifrequency emission; polarization; radiative transfer theory; remote sensing; vegetation mapping; wheat; wheat field; Brightness temperature; Frequency; K-band; Microwave measurements; Microwave radiometry; Polarization; Radiofrequency identification; Scattering; Soil moisture; Vegetation;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
