The microwaves of typical frequency ranges of 3 GHz to 30 GHz have been in use for remote sensing applications which are progressing rapidly. The microwaves can sense existing moisture in any material that absorbs moisture such as soil or vegetation. In case of soils which may be comprised of variable mix proportionate of solids, liquids or gases and distinct textures subjected to the associated size and the arrangements of soil particles. Hence, the moisture absorption by a specific type of soil used to be different. The inherent physical and electrical properties such as color, texture, grains, dielectric constant, conductivity or permeability, etc. differentiate various soils. In this work, authors present soil moisture measurement by si...
221-229 Dielectric constant and dielectric loss of soils collected from different districts of Gujar...
In this study, four textural classes of soil (Clay, Clay Loam, Loam, and Loamy Sand) were used to in...
Accurate estimates of soil moisture are necessary to predict evapotranspiration, runoff, infiltratio...
The microwaves of typical frequency ranges of 3 GHz to 30 GHz have been in use for remote sensing ap...
AbstractThis paper discusses the measurement of moisture content present in soil by computing the di...
AbstractThis paper discusses the measurement of moisture content present in soil by computing the di...
Vita.Theoretical and experimental studies of the thermal microwave emission from moist soil were per...
108-113An attempt has been made to do the comparative study of the three different methods of measu...
The large difference between the dielectric constant of water and dry soils produces a strong depend...
The dielectric constants of several soil samples were measured at frequencies of 5 and 19 GHz using ...
The large difference between the dielectric constant of water and dry soils produces a strong depend...
The large difference between the dielectric constant of water and dry soils produces a strong depend...
The emissivity of dry and wet soil depends on dielectric constant, surface roughness, physical prope...
10.1088/0022-3735/21/10/005Journal of Physics E: Scientific Instruments2110937-940JPSI
In this study, four textural classes of soil (Clay, Clay Loam, Loam, and Loamy Sand) were used to in...
221-229 Dielectric constant and dielectric loss of soils collected from different districts of Gujar...
In this study, four textural classes of soil (Clay, Clay Loam, Loam, and Loamy Sand) were used to in...
Accurate estimates of soil moisture are necessary to predict evapotranspiration, runoff, infiltratio...
The microwaves of typical frequency ranges of 3 GHz to 30 GHz have been in use for remote sensing ap...
AbstractThis paper discusses the measurement of moisture content present in soil by computing the di...
AbstractThis paper discusses the measurement of moisture content present in soil by computing the di...
Vita.Theoretical and experimental studies of the thermal microwave emission from moist soil were per...
108-113An attempt has been made to do the comparative study of the three different methods of measu...
The large difference between the dielectric constant of water and dry soils produces a strong depend...
The dielectric constants of several soil samples were measured at frequencies of 5 and 19 GHz using ...
The large difference between the dielectric constant of water and dry soils produces a strong depend...
The large difference between the dielectric constant of water and dry soils produces a strong depend...
The emissivity of dry and wet soil depends on dielectric constant, surface roughness, physical prope...
10.1088/0022-3735/21/10/005Journal of Physics E: Scientific Instruments2110937-940JPSI
In this study, four textural classes of soil (Clay, Clay Loam, Loam, and Loamy Sand) were used to in...
221-229 Dielectric constant and dielectric loss of soils collected from different districts of Gujar...
In this study, four textural classes of soil (Clay, Clay Loam, Loam, and Loamy Sand) were used to in...
Accurate estimates of soil moisture are necessary to predict evapotranspiration, runoff, infiltratio...