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Multivariate Data Analysis for Motor Failure Detection and Isolation in A Multicopter UAV Using Real-Flight Attitude Signals

posted on 2023-04-05, 20:28 authored by Avijit AsheAvijit Ashe, Srikanth Goli, Harikumar Kandath, Deepak Gangadharan

Reconfigurable aerial platforms such as multicopter unmanned aerial vehicles (UAVs) allow the design of fail-safe systems because of inherent redundancy in actuators and sensors to maintain stability with a reduction in flight performance. The methods based on univariate and multivariate time series analysis of just the attitude signals can pave the way for model-free systems that can be generalized across a class of UAVs like multicopters. In this paper, we present a critical analysis of real-flight attitude time-series signals and investigate them for data-driven motor fault and failure detection and isolation (FDI), specifically for multicopters configurations like quadcopters and hexacopters. We analyze flight data for different scenarios of outdoor flights, healthy and faulty, hovering and cruising, loss of efficiency, and single-rotor failure of every motor. We tested it for small to medium-sized multicopters. The failure detection and classification are performed without relying on analytical system modeling or the knowledge of the controller.

Thus, we perform three major assessments: vector auto-regression (VAR) using residual variance, time-frequency analysis, and dimensionality analysis of the recorded variables to support the classification framework. To the author's best knowledge, this is the first attempt at providing an algorithmic foundation that works on existing hardware and flight controllers using streaming flight attitude data rather than simulations. This allows us to implement these online methods in real-time on multicopters, which drastically increases levels of safety and scalability of unmanned flights in drone applications.


TiHAN-IIT Hyderabad


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IIIT Hyderabad

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  • India