1. Performance characteristics
The DF-40P unmanned aerial vehicle platform is a self-developed oil powered long endurance composite wing vertical takeoff and landing unmanned aerial vehicle by our company. It adopts a fixed wing combined with quadcopter composite wing overall layout, which solves the problem of vertical takeoff and landing of fixed wing unmanned aerial vehicles in a simple and reliable way. It combines the characteristics of long endurance, high speed, and long distance of fixed wing unmanned aerial vehicles with the vertical takeoff and landing function of rotary wing unmanned aerial vehicles. The vertical takeoff and landing mode greatly enhances the environmental adaptability of the modified unmanned aerial vehicle platform. This unmanned aerial vehicle platform can operate smoothly in complex terrain and densely populated areas such as mountains, hills, and jungles, greatly expanding the application range of unmanned aerial vehicles. It is an ideal choice for industrial grade unmanned aerial vehicles.
The DF-40P unmanned aerial vehicle platform is equipped with an industrial grade vertical takeoff and landing fixed wing flight control and navigation system, as well as professional aerial survey and inspection ground station software, which can ensure the autonomous flight of the unmanned aerial vehicle throughout the entire process, without the intervention of operators to complete autonomous takeoff, flight state transition, autonomous cruising, autonomous landing and other flight stages. It also supports automatic route planning for 1000 waypoints and emergency alternate landing plans for 100 waypoints.
This drone platform has the following characteristics and advantages:
a) Practical and efficient: It has fixed wing unmanned aerial vehicle endurance, fast speed, long distance, and payload capacity
The characteristics of He Da;
Vertical takeoff and landing: With the takeoff and landing mode of rotary wing unmanned aerial vehicles, it significantly reduces the requirements for takeoff and landing sites and airspace;
Low cost of use: No need for complex and bulky launch and recovery equipment, no need to add additional recovery sensors:
d) Easy to operate: integrating specialized flight control and navigation systems, fully autonomous flight throughout the entire process, operators only need to send flight plans, no professional training or operational experience required: compact system: no need for complex auxiliary equipment, easy transportation, deployment, maintenance, and dismantling.
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