System Identification of Quadrotors Inflicted with Asymmetric Blade Damage

System Identification of Quadrotors Inflicted with Asymmetric Blade Damage

Saify, Burhanuddin (TU Delft Aerospace Engineering; TU Delft Control & Simulation)

de Visser, C.C. (mentor)

Delft University of Technology

Aerospace Engineering

2023-02-08

As quadrotors continue to become more popular for personal and commercial use, improving their safety is essential, especially in impaired operating states. With (asymmetric) blade damage (ABD) being a potentially dangerous type of impairment, it is beneficial to understand how it affects the dynamic behavior of a quadrotor. This research examines the effects of blade damage on the dynamic model of a quadrotor through system identification techniques. Time scale separation is used to split the low-frequency aerodynamic behavior and high-frequency (HF) dynamics. Aerodynamic models are identified using stepwise regression, and a novel approach for modeling HF dynamics –relying purely on on-board sensors– using spectral analysis and simplex B-splines has been developed. A majority of the aerodynamic models surpass 𝑅² values of 0.95, and the HF models exceed 𝑅² values of 0.90. The findings provide new insights and
significant implications for diagnosing ABD in quadrotors.

Quadrotor
Blade damage
System identification
Diagnosis

http://resolver.tudelft.nl/uuid:7867a415-aeea-4d22-8020-06f723b3128f

2025-02-08

Student theses

master thesis

© 2023 Burhanuddin Saify