Vibration Monitoring for Fault Diagnosis of Helicopter Planetary Gears
| Authors: | Wu Biqing, Georgia Institute of Technology, United States
Saxena Abhinav, Georgia Institute of Technology, United States
Patrick Romano, Georgia Institute of Technology, United States
Vachtsevanos George, Georgia Institute of Technology, United States |
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| Topic: | 1.1 Modelling, Identification & Signal Processing |
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| Session: | Monitoring and Change Detection |
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| Keywords: | Fault Diagnosis, Vibration Measurement and Data Analysis, Time Synchronous Averaging, Planetary Gear Carrier Plate Crack, Feature Extraction |
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Abstract
In this paper, vibration data analysis techniques are investigated for fault diagnosis of helicopter planetary gears. A data pre-processing technique is introduced that achieves the same result as the commonly used Time Synchronous Averaging with much lower computational complexity since interpolation is not required. A notion of using raw vibration data instead of the Time Synchronous Averaged data is also presented that is more suitable for the analysis of vibration data produced by planetary gearboxes and for the purposes of detecting carrier plate crack fault. Based on this notion, features such as the Harmonic Index in the frequency domain and the Intra-Revolution Energy Variance in the wavelet domain are derived. The features are used as inputs to fault classifiers and are shown to detect the fault successfully based on the test data that is available.
