Hundred Drones Land in a Minute
This addresses the scalability issue for drone delivery services by enabling automated drone swarms to land efficiently, though it is incremental as it builds on existing drone control research.
The paper tackles the problem of continuous landing for multiple drones by proposing a novel port system called EAGLES Port, which achieves a landing time efficiency 7.5 times higher than conventional vertical landing systems and tolerates significant positional, angular, and speed errors.
Currently, drone research and development has received significant attention worldwide. Particularly, delivery services employ drones as it is a viable method to improve delivery efficiency by using a several unmanned drones. Research has been conducted to realize complete automation of drone control for such services. However, regarding the takeoff and landing port of the drones, conventional methods have focused on the landing operation of a single drone, and the continuous landing of multiple drones has not been realized. To address this issue, we propose a completely novel port system, "EAGLES Port," that allows several drones to continuously land and takeoff in a short time. Experiments verified that the landing time efficiency of the proposed port is ideally 7.5 times higher than that of conventional vertical landing systems. Moreover, the system can tolerate 270 mm of horizontal positional error, +-30 deg of angular error in the drone's approach (+-40 deg with the proposed gate mechanism), and up to 1.9 m/s of drone's approach speed. This technology significantly contributes to the scalability of drone usage. Therefore, it is critical for the development of a future drone port for the landing of automated drone swarms.