Agricultural UAV
The flagship of the eXtra range is the largest and most productive hexacopter in its class, with outstanding performance
Agricultural UAV
The use of six electric motors implies an increased resistance to failure of one of them. The curb weight is at the upper limit of what is acceptable for unmanned vehicles. The working tank capacity is truly maximum at 32 litres and the daily output significantly exceeds 10 hectares. This vehicle has an increased level of dust and moisture protection, and a high capacity battery translates into maximum flight time and range in partial load mode. The most important operating advantage is the distance between the spray nozzles, which reaches as much as 3 metres. This provides as large a working width as is achievable in this form factor. Therefore, this model can be considered "ultimative" to a certain extent, because the perception of its results differs significantly from that of smaller products. Interestingly, for all that, it is almost as compact when folded down, thanks to the fixed "shoulder" joints, which are off-centre.
In terms of functionality, the user is unlikely to find anything to miss. Obstacle detection and altitude control radars, a first-person view camera, a kinematic mapping ground station, a simplified or fully functional radio controller, a flight control system via an Android app and, of course, the ability to form flight "links" for coordinated automated work without overlaps or gaps in processing areas.

The Glory Air X32 is designed primarily for professional applications with a high workload and will therefore be of interest to farmers and businesses with relatively large areas.
Where are drones used in agriculture?
Crop monitoring
Using drones, accurate crop development can be predicted and inefficiencies in planting in certain areas can be identified, allowing for better management of yields.
Soil and field analysis
Drones create accurate 3D maps for soil analysis, which is useful for planning seed planting patterns. After planting, drone soil analysis provides data for irrigation and nitrogen control.
Crops spraying
Drones can scan the ground and spray the right amount of liquid, adjusting the distance from the ground and spraying in real time for uniform coverage. This results in increased efficiency and a reduction in the amount of chemicals penetrating the groundwater.
Drones with hyperspectral, multispectral or thermal sensors can identify which parts of the field are dry or need improvement.
Health assessment
By scanning crops using visible and near-infrared light, devices carried by drones can detect which plants reflect different amounts of green and near-infrared light.
Seed planting
Drone landing systems achieve 75% efficiency and reduce landing costs by up to 85%.