Abstract
The problem of timely detecting the engine faults that make engine operating parameters exceed their control limits has been well-solved. However, in practice, a fault of a diesel engine can be present with weak signatures, with the parameters fluctuating within their control limits when the fault occurs. The weak signatures of engine faults bring considerable difficulties to the effective condition monitoring of diesel engines. In this paper, a multivariate statistics-based fault detection approach is proposed to monitor engine faults with weak signatures by taking the correlation of various parameters into consideration. This approach firstly uses principal component analysis (PCA) to project the engine observations into a principal component subspace (PCS) and a residual subspace (RS). Two statistics, i.e., Hotelling’s T 2 and Q statistics, are then introduced to detect deviations in the PCS and the RS, respectively. The Hotelling’s T 2 and Q statistics are constructed by taking the correlation of various parameters into consideration, so that faults with weak signatures can be effectively detected via these two statistics. In order to reasonably determine the control limits of the statistics, adaptive kernel density estimation (KDE) is utilized to estimate the probability density functions (PDFs) of Hotelling’s T 2 and Q statistics. The control limits are accordingly derived from the PDFs by giving a desired confidence level. The proposed approach is demonstrated by using a marine diesel engine. Experimental results show that the proposed approach can effectively detect engine faults with weak signatures.
Highlights
The diesel engine has been holding its value in all mechanical engineering fields since its inception.Many researchers have given their attention to the related subjects for the better understanding and management of engines
This paper reveals the effectiveness of multivariate statistics to detect engine faults with weak signatures
Thispaper paperproposed proposedaamultivariate multivariatestatistics-based statistics‐basedapproach approachto todetect detectdiesel dieselengine enginefaults faultswith with weak signatures
Summary
The diesel engine has been holding its value in all mechanical engineering fields since its inception. Univariate statistics is a popular method for engine fault detection This technique firstly assumes a probability distribution model for the operating parameters of a diesel engine, and the UCL and the LCL are set according to a desired confidence level. Selecting an optimal bandwidth for KDE is a crucial issue to be settled to make the multivariate statistics-based engine fault detection technique effective and efficient. The main contributions of this paper are as follows: (i) A multivariate statistics-based condition monitoring approach is proposed to detect diesel engine faults with weak signatures, and (ii) adaptive kernel density estimation is introduced to determine the control limits of the statistics, relaxing the a priori assumption for the probability distribution of statistics.
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