Analysis Versus Synthesis for Trending of Gas-Path Measurement Time Series

Author:

Borguet S.1,Léonard O.1,Dewallef P.2

Affiliation:

1. Turbomachinery Group, University of Liège, Campus du Sart-Tilman, B52/3, Liège 4000, Belgium e-mail:

2. Laboratory of Thermodynamics, University of Liège, Campus du Sart-Tilman, B49, Liège 4000, Belgium e-mail:

Abstract

Gas-path measurements used to assess the health condition of an engine are corrupted by noise. Generally, a data cleaning step occurs before proceeding with fault detection and isolation. Classical linear filters such as the EWMA filter are traditionally used for noise removal. Unfortunately, these low-pass filters distort trend shifts indicative of faults, which increases the detection delay. The present paper investigates two new approaches to nonlinear filtering of time series. On the one hand, the synthesis approach reconstructs the signal as a combination of elementary signals chosen from a predefined library. On the other hand, the analysis approach imposes a constraint on the shape of the signal (e.g., piecewise constant). Both approaches incorporate prior information about the signal in a different way, but they lead to trend filters that are very capable at noise removal while preserving at the same time sharp edges in the signal. This is highlighted through the comparison with a classical linear filter on a batch of synthetic data representative of typical engine fault profiles.

Publisher

ASME International

Subject

Mechanical Engineering,Energy Engineering and Power Technology,Aerospace Engineering,Fuel Technology,Nuclear Energy and Engineering

Reference28 articles.

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5. Simon, D. L., Bird, J., Davison, C., Volponi, A. J., and Iverson, R. E., 2008, “Benchmarking Gas Path Diagnostic Methods: A Public Approach,” ASME Paper No. GT2008-51360.10.1115GT2008-51360

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