Because of the amount of data required, many precision farmers use agronomy management systems to collect and integrate all of the data flowing to/from their sensor-equipped tractors, combines, drones and other equipment found on farms today.Leading agronomy management platforms include Ag OS by Ag Works and My Ag Central.By some measures, 80% of the global drone industry revenues are related to agriculture, in some way.But why would farmers – some of the most risk-averse people on Earth – adopt such a new technology?Drones interact with agronomy management systems by feeding them with rich, detailed and timely geo-tagged images.Using this data, farmers can react more quickly and more precisely than they can using other aerial imaging methods.
Fixed wing drones are more expensive, too – they typically cost ,000 to ,000 or more, after being fitted with sensors.
These images are taken over time by drones, manned aircraft or satellites.
It is possible to detect plant health from these images because plants reflect different amounts of visible green and NIR light, depending on how healthy they are.
That said, they can’t do everything and are best suited for large, open-field scanning.
Fixed wing drones often carry more payload than a multi-rotor – which means more sensors – so more information can be captured in a single flight.
There are two types of professionals who might want to own an agriculture drone: Some of the early entrants are gone now, and most suppliers update their prices, features, rigs and software packages on what seems like a monthly basis.