Add to ORKGSpectral data of 4-8 GHz radar backscatter were gathered during the 1972 growing season at look angles between 0 and 70 deg and for all four possible polarization linear combinations. The data covers four crop types (corn, milo, alfalfa, and soybeans) and a wide range of soil moisture content. To insure statistical representation of the results, measurements were conducted over 128 fields corresponding to a total of about 40,000 data points. The use of spectral response signatures to separate different crop types and to separate healthy corn from blighted corn was investigated
A frequency modulated, continuous wave Ku-band, ground based scatterometer was modified into a full ...
ABSTRACT Active microwave is a promising tool for monitoring vegetation and agricultural crops: the ...
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...
Potential users of radar imagery need a better fundamental understanding of the capabilities of rada...
A vegetation and soil-moisture experiment was conducted in order to examine the microwave emission a...
Both C- and L-band radar data acquired over a test site near Colby, Kansas during the summer of 1978...
The radar response to soil moisture content was investigated using a truck-mounted 1-18 GHz (30-1.67...
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 effect of soil moisture on the radar backscattering coefficient was investigated by measuring th...
Two series of carefully controlled experiments were conducted. First, plots of important crops (corn...
The radar backscatter coefficient, sigma deg, of alfalfa was investigated as a function of both rada...
Airborne scatterometer observations were made for agricultural terrain in May and June, 1970 at a NA...
The radar backscatter from fields of milo and soybeans was measured with a ground based radar as a f...
A frequency modulated, continuous wave Ku-band, ground based scatterometer was modified into a full ...
ABSTRACT Active microwave is a promising tool for monitoring vegetation and agricultural crops: the ...
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...
Potential users of radar imagery need a better fundamental understanding of the capabilities of rada...
A vegetation and soil-moisture experiment was conducted in order to examine the microwave emission a...
Both C- and L-band radar data acquired over a test site near Colby, Kansas during the summer of 1978...
The radar response to soil moisture content was investigated using a truck-mounted 1-18 GHz (30-1.67...
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 effect of soil moisture on the radar backscattering coefficient was investigated by measuring th...
Two series of carefully controlled experiments were conducted. First, plots of important crops (corn...
The radar backscatter coefficient, sigma deg, of alfalfa was investigated as a function of both rada...
Airborne scatterometer observations were made for agricultural terrain in May and June, 1970 at a NA...
The radar backscatter from fields of milo and soybeans was measured with a ground based radar as a f...
A frequency modulated, continuous wave Ku-band, ground based scatterometer was modified into a full ...
ABSTRACT Active microwave is a promising tool for monitoring vegetation and agricultural crops: the ...
A model to predict the radar backscattering coefficient from crops must include the geometry of the ...