Title : ( Unlocking the Potential of Soft Computing for Predicting Lubricant Elemental Spectroscopy )
Authors: Mohammad Reza Pourramezan , Abbas Rohani , M. Hossein Abbaspour-Fard ,Abstract
Predictive maintenance of mechanical systems relies on accurate condition monitoring of lubricants. This study assesses the performance of soft computing models in predicting the elemental spectroscopy (Fe, Pb, Cu, Cr, Al, Si, and Zn) of engine lubricants, based on the electrical properties (ε′, ε″, and tan δ) of oil samples. The study employed a dataset of 49 lubricant samples, comprising elemental spectroscopy and dielectric properties, to train and test several soft computing models (RBF, ANFIS, SVM, MLP, and GPR). Performance of the models was evaluated using error metrics such as MAPE, RMSE, and EF. The RBF model delivered the most accurate predictions for silicon at 7.4 GHz, with an RMSE of 0.4 and MAPE of 0.7. Performance was further improved by fine-tuning RBF parameters, such as the hidden size and training algorithm. The sensitivity analysis showed that utilizing all three input electrical properties (ε′, ε″, and tan δ) resulted in the lowest errors. Nevertheless, there are limitations to the study. In our country, measuring the electrical properties of engine lubricants and equipment is not a common practice, which leads to a limited number of samples studied. Despite these limitations, this study offers a proof-of-concept for predicting lubricant conditions based on readily measurable electrical properties. This paves the way for developing machine learning-based real-time lubricant monitoring systems.
Keywords
, soft computing models; condition, based maintenance; lubricant condition monitoring; dielectric spectroscopy@article{paperid:1095594,
author = {Pourramezan, Mohammad Reza and Rohani, Abbas and Abbaspour-Fard, M. Hossein},
title = {Unlocking the Potential of Soft Computing for Predicting Lubricant Elemental Spectroscopy},
journal = {Lubricants},
year = {2023},
volume = {11},
number = {9},
month = {September},
issn = {2075-4442},
pages = {382--405},
numpages = {23},
keywords = {soft computing models; condition-based maintenance; lubricant condition monitoring; dielectric spectroscopy},
}
%0 Journal Article
%T Unlocking the Potential of Soft Computing for Predicting Lubricant Elemental Spectroscopy
%A Pourramezan, Mohammad Reza
%A Rohani, Abbas
%A Abbaspour-Fard, M. Hossein
%J Lubricants
%@ 2075-4442
%D 2023