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Raptor SWIR Cameras Improve Productivity For The Remote Sensing Of Vegetation Date Announced: 05 Feb 2021 Forage Mass Monitoring (FFM) analysis has been traditionally done using biomass sampling to calculate biomass yield per hectare. Raptor Photonics has recently published an Application Note showing how reflectance spectroscopy methods using drone based remote sensing systems are now being used to derive well-established vegetation indices (VIs) more efficiently than biomass sampling. Researchers from the University of Applied Science Koblenz have developed an imaging system in the form of a multispectral multi-camera system using two of Raptor’s Owl 640M cameras enabling the coverage from 600 to 1700 nm. Promising results prove the principal suitability of such systems for airborne monitoring of small to medium-sized farmland in agricultural applications for precision agriculture, such as biomass for crops and grasslands. ....
New Application Note: Remote sensing of Vegetation using SWIR cameras on a UAV Date Announced: 01 Feb 2021 From Quantum Design UK and Ireland, distributor for Raptor Photonics in the UK and Ireland Forage Mass Monitoring (FFM) analysis has been traditionally done using biomass sampling to calculate biomass yield per hectare (t ha-1). Current research projects are now looking at reflectance spectroscopy methods using remote sensing systems based on unmanned aerial vehicles (UAVs). Promising results in recent years prove the principal suitability of such systems for airborne monitoring of small to medium sized farmland in agricultural applications for precision agriculture, such as biomass for crops and grasslands. An imaging system in the form of a multispectral multicamera system is often used to derive well-established vegetation indices (VIs) efficiently. However, due to the use of silicon-based sensors, the spectral application range of such multi-camera systems is ....
New Application Note: Remote Sensing of Vegetation Using SWIR Cameras on a UAV
Forage Mass Monitoring (FFM) analysis has been traditionally done using biomass sampling to calculate biomass yield per hectare (t ha-1). Current research projects are now looking at reflectance spectroscopy methods using remote sensing systems based on unmanned aerial vehicles (UAVs). Promising results in recent years prove the principal suitability of such systems for airborne monitoring of small to medium-sized farmland in agricultural applications for precision agriculture, such as biomass for crops and grasslands. An imaging system in the form of a multispectral multicamera system is often used to derive well-established vegetation indices (VIs) efficiently. However, due to the use of silicon-based sensors, the spectral application range of such multi-camera systems is limited to the visible (VIS) and near-infrared (NIR) wavelength range (400-1000nm). Therefore, more robust indicators l ....
Forage Mass Monitoring (FFM) analysis has been traditionally done using biomass sampling to calculate biomass yield per hectare. Raptor Photonics has. ....