Sandeep Bhatti
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View article: Seamless finer-resolution soil moisture from the synergistic merging of the FengYun-3 satellite series
Seamless finer-resolution soil moisture from the synergistic merging of the FengYun-3 satellite series Open
In the last years, more satellites with microwave imagers have been launched, making more observations available to obtain soil moisture estimates globally. China's endeavour has resulted in the launch of the FengYun (FY) passive microwave…
View article: Toward automated irrigation management with integrated crop water stress index and spatial soil water balance
Toward automated irrigation management with integrated crop water stress index and spatial soil water balance Open
Decision support systems intended for precision irrigation aim at reducing irrigation applications while optimizing crop yield to achieve maximum crop water productivity (CWP). These systems incorporate on-site sensor data, remote sensing …
View article: Diurnal Soybean Water Stress Computed Using Statistical-Based Thermal Indices With High-Frequency Unmanned Aircraft Flights
Diurnal Soybean Water Stress Computed Using Statistical-Based Thermal Indices With High-Frequency Unmanned Aircraft Flights Open
Highlights High-frequency UAS thermal data can identify the temporal nature of the spatial canopy stress patterns for soybean. Thermal indices were calculated using the statistical approach from the lower and upper bounds of confidence int…
View article: Crop response to thermal stress without yield loss in irrigated maize and soybean in Nebraska
Crop response to thermal stress without yield loss in irrigated maize and soybean in Nebraska Open
Thermal sensing provides rapid and accurate estimation of crop water stress through canopy temperature data. Canopy temperature is highly dependent on the transpiration rate of the leaves. It is usually assumed that any reduction in crop e…
View article: Site-specific irrigation management in a sub-humid climate using a spatial evapotranspiration model with satellite and airborne imagery
Site-specific irrigation management in a sub-humid climate using a spatial evapotranspiration model with satellite and airborne imagery Open
View article: Variable Rate Irrigation of Maize and Soybean in West-Central Nebraska Under Full and Deficit Irrigation
Variable Rate Irrigation of Maize and Soybean in West-Central Nebraska Under Full and Deficit Irrigation Open
Variable rate irrigation (VRI) may improve center pivot irrigation management, including deficit irrigation. A remote-sensing-based evapotranspiration model was implemented with Landsat imagery to manage irrigations for a VRI equipped cent…
View article: Variable Rate Irrigation Using a Spatial Evapotranspiration Model With Remote Sensing Imagery and Soil Water Content Measurements
Variable Rate Irrigation Using a Spatial Evapotranspiration Model With Remote Sensing Imagery and Soil Water Content Measurements Open
Variable rate irrigation may help in intensification of agriculture by producing more yield per unit inputs. Real time spatial information about water balance components is important for designing VRI prescription maps. This work involved …