HELICOPTER TRANSMISSION FAULT DETECTION VIA TIME-FREQUENCY, SCALE AND SPECTRAL METHODS

The vast majority of the powerful and e!ective algorithms in signal processing start with the assumption of stationarity. In addition, the deterministic portion of the signal is often assumed to be composed of complex exponentials which are the solutions to linear timeinvariant (LTI) di!erential equations. Many signals do not comply with these assumptions, however, resulting in disappointment when conventional techniques are used. We now have at hand time}frequency (t}f ) and scale transform analyses which can provide new insights into the nature of non-stationary signals. This paper describes some results using reduced interference distributions (RIDs) and scale transforms in the analysis of signals obtained from accelerometers placed strategically on a Westland helicopter transmission. Fault detection algorithms for several types of faults were compared and the methods based on the scale transform performed best followed by RID results. More conventional spectralanalysis-based methods were the least e!ective.