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- Title
Synthesized Landing Strategy for Quadcopter to Land Precisely on a Vertically Moving Apron.
- Authors
Xuan Mung, Nguyen; Nguyen, Ngoc Phi; Pham, Dinh Ba; Dao, Nhu Ngoc; Hong, Sung Kyung
- Abstract
Quadcopter unmanned aerial vehicles have become increasingly popular for various real-world applications, and a significant body of literature exists regarding the improvement of their flight capabilities to render them fully autonomous. The precise landing onto moving platforms, such as ship decks, is one of the remaining challenges that is largely unresolved. The reason why this operation poses a considerable challenge is because landing performance is considerably degraded by the ground effect or external disturbances. In this paper, we propose a synthesized landing algorithm that allows a quadcopter to land precisely on a vertically moving pad. Firstly, we introduce a disturbance observer-based altitude controller that allows the vehicle to perform robust altitude flight in the presence of external disturbances and the ground effect, strictly proving the system's stability using Lyapunov's theory. Secondly, we derive an apron state estimator to provide information on the landing target's relative position. Additionally, we propose a landing planner to ensure that the landing task is completed in a safe and reliable manner. Finally, the proposed algorithms are implemented in an actual quadcopter, and we demonstrate the effectiveness and applicability of our method through real flight experiments.
- Subjects
LANDING (Aeronautics); APRONS; LYAPUNOV stability; ALTITUDES
- Publication
Mathematics (2227-7390), 2022, Vol 10, Issue 8, pN.PAG
- ISSN
2227-7390
- Publication type
Article
- DOI
10.3390/math10081328