Add to ORKGRadar backscatter data for different field configurations and modulation function curves for angular and frequency variations are presented. A simplistic approach to modeling this effect is presented. It is concluded that: (1) row direction is a significant contributor to radar backscatter from cropland and must be considered when making radar measurements over bare or sparsely vegetated fields; (2) while the effect decrease with increasing frequency, it is still large (5 dB) at 13.3 GHz; (3) row effects are independent of linear polarization; (4) there is a strong aspect angle sensitivity which is a function of the scene and radar system parameters
The effect of soil moisture on the radar backscattering coefficient was investigated by measuring th...
Radar imaging is a valuable tool for the monitoring and management of tropical ecosystems. One of th...
International audienceThe aim of this letter is to discuss the influence of radar frequency on the r...
The objectives of this research are to identify the primary contributors to 10 GHz radar backscatter...
The mobile agricultural radar sensor was used to collect data from 31 fields in the floodplain of th...
A model to predict the radar backscattering coefficient from crops must include the geometry of the ...
The results of experimental studies on the backscattering properties of corn, milo, soybeans and alf...
Airborne scatterometer observations were made for agricultural terrain in May and June, 1970 at a NA...
The author has identified the following significant results. Cursory examination of the data indicat...
An experiment was performed to empirically determine the fading characteristics of backscattered rad...
The 0.4 GHz aircraft scatterometer system used for the agricultural soil moisture estimation program...
Spectral data of 4-8 GHz radar backscatter were gathered during the 1972 growing season at look angl...
The radar backscatter coefficient, sigma deg, of alfalfa was investigated as a function of both rada...
A frequency modulated continuous wave C-band (4.8 GHz) scatterometer was mounted on an aerial lift t...
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...
Radar imaging is a valuable tool for the monitoring and management of tropical ecosystems. One of th...
International audienceThe aim of this letter is to discuss the influence of radar frequency on the r...
The objectives of this research are to identify the primary contributors to 10 GHz radar backscatter...
The mobile agricultural radar sensor was used to collect data from 31 fields in the floodplain of th...
A model to predict the radar backscattering coefficient from crops must include the geometry of the ...
The results of experimental studies on the backscattering properties of corn, milo, soybeans and alf...
Airborne scatterometer observations were made for agricultural terrain in May and June, 1970 at a NA...
The author has identified the following significant results. Cursory examination of the data indicat...
An experiment was performed to empirically determine the fading characteristics of backscattered rad...
The 0.4 GHz aircraft scatterometer system used for the agricultural soil moisture estimation program...
Spectral data of 4-8 GHz radar backscatter were gathered during the 1972 growing season at look angl...
The radar backscatter coefficient, sigma deg, of alfalfa was investigated as a function of both rada...
A frequency modulated continuous wave C-band (4.8 GHz) scatterometer was mounted on an aerial lift t...
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...
Radar imaging is a valuable tool for the monitoring and management of tropical ecosystems. One of th...
International audienceThe aim of this letter is to discuss the influence of radar frequency on the r...