Optimal Energy Trajectory Generation Based on Pitch-Dependent Mutual Inductance Model for In-Flight Inductive Power Transfer of Drones - Laboratoire HEUDIASYC - Heuristique et Diagnostic des Systèmes Complexes
Communication Dans Un Congrès Année : 2024

Optimal Energy Trajectory Generation Based on Pitch-Dependent Mutual Inductance Model for In-Flight Inductive Power Transfer of Drones

Résumé

To address the challenge of limited flight duration in drones, research into in-flight inductive power transfer has emerged as a crucial solution. In this regard, optimizing the flight trajectory is vital for maximizing energy reception during a single pass over the transfer coils. This paper proposes a strategy that incorporates trajectories optimized on the basis of pitch angle. The optimal trajectories are derived analytically using a pitch dependent mutual inductance model, and implemented on the drone's motion controller as the reference input for each cascaded control loop. The proposed method has been validated through simulations and experiments. Implementation of two proposed trajectories in the experiments reveals that the drone's receiving power could be improved by 13.4 % maximum compared to the conventional method.
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Dates et versions

hal-04792799 , version 1 (20-11-2024)

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Citer

Kota Fujimoto, Hiroshi Fujimoto, Alessandro Corrêa Victorino, Pedro Castillo Garcia. Optimal Energy Trajectory Generation Based on Pitch-Dependent Mutual Inductance Model for In-Flight Inductive Power Transfer of Drones. International Conference on Advanced Motion Control (AMC24), Feb 2024, Kyoto, France. pp.1-6, ⟨10.1109/AMC58169.2024.10505445⟩. ⟨hal-04792799⟩
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