Title :
Microwave polarization index for monitoring vegetation growth
Author :
Paloscia, Simonetta ; Pampaloni, Paolo
Author_Institution :
CNR-IROE, Florence, Italy
fDate :
9/1/1988 12:00:00 AM
Abstract :
It is known that microwave emission for soil is partially polarized, whereas the polarization degree of radiation from crops is either very small or equal to zero. The effect of vegetation on the polarized emission from the soil is analyzed by means of a model based on the radiative transfer theory. A comparison between the values predicted by the model and the experimental data obtained at 10 and 36 GHz shows that the model is particularly adequate for corn at 10 GHz, in which case different values of leaf area index can be estimated. At 36 GHz, the polarization degree changes very rapidly as vegetation grows and it is possible to distinguish only bare soil from vegetated soil
Keywords :
agriculture; remote sensing; 10 GHz; 36 GHz; EHF; SHF; agriculture; crops; leaf area index; microwave emission; microwave polarization index; model; radiative transfer theory; soil; vegetation growth; Crops; Frequency estimation; Monitoring; Optical polarization; Phase measurement; Polarization; Predictive models; Rough surfaces; Soil; Soil measurements; Surface roughness; Vegetation;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
