Add to ORKGOver a two year period, data were collected regarding the canopies of soybeans grown in rows in planter boxes placed on a turntable in an effort to investigate changes in the spectral reflectance factor related to row direction, Sun direction, soil background, and crop development stage. Results demonstrate that the direction of rows in a soybean canopy can affect the reflectance factor of the canopy by as much as 230%. The results for the red spectral region tend to support the validity of canopy reflectance models; results for the infrared region do not
Reflectance calculations of soybeans and corn crops at two times during the growing season indicate ...
Data are presented from field measurements of 1980 including 5 acquisitions of handheld radiometer r...
The objective of this paper is to study relationships between dai/y variations in sun angles and red...
The interaction of the solar illumination angle and row azimuth angle of the measured reflectance fa...
An experiment was conducted at West Lafayette, Indiana in 1979 to quantitatively describe the intera...
Comparisons of the spectral response for incomplete (well-defined row structure) and complete (overl...
An experiment was conducted at West Lafayette, Indiana in 1979 to quantitatively describe the intera...
Pronounced effects on the reflective response of a crop canopy due to changes in solar azimuth and r...
Pronounced effects on the reflective response of a crop canopy due to changes in solar azimuth and r...
Pronounced effects on the reflective response of a crop canopy due to changes in solar azimuth and r...
Comparisons of the spectral response for incomplete (well-defined row structure) and complete (overl...
Understanding the characteristics of vegetation canopy reflectance is important if remotely sensed d...
In recent years considerable progress has been made toward the use of remote sensing technology to i...
Numerous mathematical models of the interaction of radiation with vegetation canopies have been deve...
The effect of row structure is assumed to be caused by the variation in density of vegetation across...
Reflectance calculations of soybeans and corn crops at two times during the growing season indicate ...
Data are presented from field measurements of 1980 including 5 acquisitions of handheld radiometer r...
The objective of this paper is to study relationships between dai/y variations in sun angles and red...
The interaction of the solar illumination angle and row azimuth angle of the measured reflectance fa...
An experiment was conducted at West Lafayette, Indiana in 1979 to quantitatively describe the intera...
Comparisons of the spectral response for incomplete (well-defined row structure) and complete (overl...
An experiment was conducted at West Lafayette, Indiana in 1979 to quantitatively describe the intera...
Pronounced effects on the reflective response of a crop canopy due to changes in solar azimuth and r...
Pronounced effects on the reflective response of a crop canopy due to changes in solar azimuth and r...
Pronounced effects on the reflective response of a crop canopy due to changes in solar azimuth and r...
Comparisons of the spectral response for incomplete (well-defined row structure) and complete (overl...
Understanding the characteristics of vegetation canopy reflectance is important if remotely sensed d...
In recent years considerable progress has been made toward the use of remote sensing technology to i...
Numerous mathematical models of the interaction of radiation with vegetation canopies have been deve...
The effect of row structure is assumed to be caused by the variation in density of vegetation across...
Reflectance calculations of soybeans and corn crops at two times during the growing season indicate ...
Data are presented from field measurements of 1980 including 5 acquisitions of handheld radiometer r...
The objective of this paper is to study relationships between dai/y variations in sun angles and red...