“Skysense’s technology is aimed at offering a proven, superior, and scalable alternative. XAG XPlanet Agricultural UAS is a high-performance unmanned aerial system crafted for the optimum smart agriculture solution. “However, it suffers from heating problems, requires a heavy coil that reduces flight time, is much slower to charge, and is less energy efficient,” he says. The other main alternative, Pulatti points out, is induction charging. “However, this speed is achieved by sacrificing reliability, as they are mechanical devices with lots of moving parts.” “If keeping downtime to an absolute minimum is vital, battery-swapping stations are being prototyped that can swap in a precharged pack,” he says. The online dashboard and APIs not only provide remote access to these feeds but also show the health of the fleet and allow updates of flight plans by integrating with third-party software.Īlthough there are other options in development or on the market that achieve some of what Skysense offers, Pulatti says they have a number of shortcomings. It acts as an interconnected node of Skysense’s Drone Charging Infrastructure, either streaming video and sensor information or downloading it when the drone lands. The pad then becomes the operator in the field, and it’s accessible online using the company’s proprietary cloud system. Fixed wing agricultural drones allow a vast area to be assessed quickly, so are well-suited to image capture and analysis applications across vast areas, such as crop health or irrigation analysis. Markets Analysis Back to Markets Analysis.The AGRAS T40 has an HD FPV camera with an adjustable gimbal angle, which supports the mapping of orchards and farmland. The AGRAS T40 creates stronger wind with a deeper penetrating effect during orchard operations.ĥ. The dual atomized spraying system of the AGRAS T40 works optimally for the spreading of powder and covers more area of an orchard.Ĥ. The integrated functions improve the aircraft’s ability to bypass and avoid obstacles in complex scenarios, enabling smoother terrain following.ģ. The AGRAS T40 is equipped with Active Phased Array Radar and Binocular Vision. The fertilizers are prepared in advance and can be loaded quickly.)Ģ. The area is free of obstructions and in a regular terrain shape. T40 flight parameters: consumption rate 149 kg/ha, spread width 7 m, flight speed 7 m/s, flight altitude 3 m, spreading disc rotation speed 1,000 rpm. A drone’s ability to follow a careful flight plan over a field allows it to perform seeding or spraying duties, as well. Drones can serve as the proverbial eye in the sky for farmers, but they can also take a more direct part in precision agriculture. *Data was measured with urea and subject to the operating environment and parameters. Precision spraying and seeding from the air via agricultural drones. When adding materials, the maximum weight should not exceed the recommended value, otherwise flight safety may be compromised. The DJI Agras app will recommend the payload weight according to the current status and surroundings of the aircraft. The payload weight needs to be reduced by 10 kg for every 1,000m increase in altitude. The payload weight is greatly affected by the ambient temperature and altitude. T40 flight parameters: consumption rate 15 L/ha, spray width 11 m, flight speed 7 m/s, flight altitude 3 m. (*Data was subject to the operating environment and parameters. 1.Hourly operating efficiency is increased to 21.33 hectares*, payload increased to 50 kg*, with a spreading capacity of 1.5 tonnes per hour*.
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