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Rotor fault detection and identification on a hexacopter based on statistical time series methods

This work introduces the use of statistical time series methods to detect rotor failures in multicopters. A concise overview of the development of various time series models using scalar or vector signals, statistics, and fault detection methods is provided. The fault detection methods employed in this study are based on parametric time series representations and response-only signals of the aircraft state, as the external excitation is non-observable. The comparative assessment of the effectiveness of scalar and vector statistical models and several residual-based fault detection methods are presented in the presence of external disturbances, such as various levels of turbulence and uncertainty, and for different rotor failure scenarios. The results of this study demonstrate the effectiveness of all the proposed residual-based time series methods in terms of prompt rotor fault detection, although the methods based on Vector AutoRegressive (VAR) models exhibit improved performance compared to their scalar counterparts with respect to their robustness and effectiveness for different turbulence levels and ability to distinguish between healthy and fault compensated condition after rotor failure.

Reference

Dutta A., McKay M., Kopsaftopoulos F.P., Gandhi F., "Rotor fault detection and identification on a hexacopter based on statistical time series methods ,"

in the Proceedings of the Vertical Flight Society 75th Annual Forum & Technology Display, Philadelphia, PA, USA, May 2019.

Bibtex

@inproceedings{dutta2019rotor,
  title={Rotor Fault Detection and Identification on a Hexacopter Based on Statistical Time Series Methods},
  author={Dutta, Airin and McKay, Michael and Kopsaftopoulos, Fotis and Gandhi, Farhan},
  booktitle={Proceedings of the 75th Vertical Flight Society Annual Forum},
  volume={152},
  year={2019}
}