Add to ORKGAirborne scatterometer observations were made for agricultural terrain in May and June, 1970 at a NASA test site near Garden City, Kansas. Data from 13.3 GHz and 400 MHz scatterometer were analyzed. It was observed that for incidence angle less than 40 degrees, the 13.3 GHz data showed a difference in backscatter from wet and dry fields of the order of 7 db. The averages of the various crop types were within a spread of only 5 db. Other ground parameters such as cultivation pattern and vegetation row effects showed even less distinguishing characteristics on the backscatter. The 400 MHz data also showed a slight moisture dependency
A model to predict the radar backscattering coefficient from crops must include the geometry of the ...
An experiment was performed to empirically determine the fading characteristics of backscattered rad...
The radar backscatter coefficient, sigma deg, of alfalfa was investigated as a function of both rada...
The results of experimental studies on the backscattering properties of corn, milo, soybeans and alf...
The author has identified the following significant results. Cursory examination of the data indicat...
A vegetation and soil-moisture experiment was conducted in order to examine the microwave emission a...
The 0.4 GHz aircraft scatterometer system used for the agricultural soil moisture estimation program...
The mobile agricultural radar sensor was used to collect data from 31 fields in the floodplain of th...
A frequency modulated continuous wave C-band (4.8 GHz) scatterometer was mounted on an aerial lift t...
The objectives of this work were to perform imaging radar and scatterometer measurements over the Ko...
The radar response to soil moisture content was investigated using a truck-mounted 1-18 GHz (30-1.67...
The NASA/JSC ground scatterometer system was used in a row structure and row direction effects exper...
Airborne L- and C-band scatterometer data, taken over both vegetation-covered and bare fields, were ...
The effect of soil moisture on the radar backscattering coefficient was investigated by measuring th...
Models are developed for the apparent temperature and backscattering coefficient of vegetated terrai...
A model to predict the radar backscattering coefficient from crops must include the geometry of the ...
An experiment was performed to empirically determine the fading characteristics of backscattered rad...
The radar backscatter coefficient, sigma deg, of alfalfa was investigated as a function of both rada...
The results of experimental studies on the backscattering properties of corn, milo, soybeans and alf...
The author has identified the following significant results. Cursory examination of the data indicat...
A vegetation and soil-moisture experiment was conducted in order to examine the microwave emission a...
The 0.4 GHz aircraft scatterometer system used for the agricultural soil moisture estimation program...
The mobile agricultural radar sensor was used to collect data from 31 fields in the floodplain of th...
A frequency modulated continuous wave C-band (4.8 GHz) scatterometer was mounted on an aerial lift t...
The objectives of this work were to perform imaging radar and scatterometer measurements over the Ko...
The radar response to soil moisture content was investigated using a truck-mounted 1-18 GHz (30-1.67...
The NASA/JSC ground scatterometer system was used in a row structure and row direction effects exper...
Airborne L- and C-band scatterometer data, taken over both vegetation-covered and bare fields, were ...
The effect of soil moisture on the radar backscattering coefficient was investigated by measuring th...
Models are developed for the apparent temperature and backscattering coefficient of vegetated terrai...
A model to predict the radar backscattering coefficient from crops must include the geometry of the ...
An experiment was performed to empirically determine the fading characteristics of backscattered rad...
The radar backscatter coefficient, sigma deg, of alfalfa was investigated as a function of both rada...