Multivariate statistical aggregation and dimensionality reduction techniques to improve monitoring and maintenance in railways: The wheelset component. Braga, J. A. P. & Andrade, A. R. Reliability Engineering & System Safety, 216:107932, December, 2021. Paper doi abstract bibtex Reliable monitoring and assessment of wear evolutions are critical for performing effective railway maintenance. Several characteristics and variables are used to quantify a worn condition of railway wheelsets. To measure all these wear quantities, emerging inspection technologies are being designed with increasingly complex architectures, working mechanisms and associated high costs. Moreover, data-driven models to support condition-based maintenance to the wheelset easily increase their complexity when too many variables are taken into account and may not provide a straightforward guideline to maintenance decision-makers. The purpose of this paper is to reduce the complexity when describing the wear level, by applying multivariate statistical techniques to real degradation data from railway wheelsets. Several wheelset condition variables and their relationships are analysed. Variables are synthetized through a principal component analysis (PCA) where the varimax rotation effect can be observed. A cluster analysis, which uses the principal components, allows identifying characteristics that lead to different wear evolutions. A strong correlation between the flange thickness and flange slope in the wear process is identified. Differences in wear trajectories between motor and trailer wheelsets are strongly significant. The findings are expected to support the improvement of state monitoring techniques and predictive maintenance optimization models.
@article{braga_multivariate_2021,
title = {Multivariate statistical aggregation and dimensionality reduction techniques to improve monitoring and maintenance in railways: {The} wheelset component},
volume = {216},
issn = {0951-8320},
shorttitle = {Multivariate statistical aggregation and dimensionality reduction techniques to improve monitoring and maintenance in railways},
url = {https://www.sciencedirect.com/science/article/pii/S0951832021004488},
doi = {10.1016/j.ress.2021.107932},
abstract = {Reliable monitoring and assessment of wear evolutions are critical for performing effective railway maintenance. Several characteristics and variables are used to quantify a worn condition of railway wheelsets. To measure all these wear quantities, emerging inspection technologies are being designed with increasingly complex architectures, working mechanisms and associated high costs. Moreover, data-driven models to support condition-based maintenance to the wheelset easily increase their complexity when too many variables are taken into account and may not provide a straightforward guideline to maintenance decision-makers. The purpose of this paper is to reduce the complexity when describing the wear level, by applying multivariate statistical techniques to real degradation data from railway wheelsets. Several wheelset condition variables and their relationships are analysed. Variables are synthetized through a principal component analysis (PCA) where the varimax rotation effect can be observed. A cluster analysis, which uses the principal components, allows identifying characteristics that lead to different wear evolutions. A strong correlation between the flange thickness and flange slope in the wear process is identified. Differences in wear trajectories between motor and trailer wheelsets are strongly significant. The findings are expected to support the improvement of state monitoring techniques and predictive maintenance optimization models.},
language = {en},
urldate = {2021-10-02},
journal = {Reliability Engineering \& System Safety},
author = {Braga, Joaquim A. P. and Andrade, António R.},
month = dec,
year = {2021},
keywords = {Cluster analysis, Condition monitoring, Principal component analysis, Railway maintenance, Wheelset inspection, Wheelset wear},
pages = {107932},
}
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A strong correlation between the flange thickness and flange slope in the wear process is identified. Differences in wear trajectories between motor and trailer wheelsets are strongly significant. 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A cluster analysis, which uses the principal components, allows identifying characteristics that lead to different wear evolutions. A strong correlation between the flange thickness and flange slope in the wear process is identified. Differences in wear trajectories between motor and trailer wheelsets are strongly significant. The findings are expected to support the improvement of state monitoring techniques and predictive maintenance optimization models.},\n\tlanguage = {en},\n\turldate = {2021-10-02},\n\tjournal = {Reliability Engineering \\& System Safety},\n\tauthor = {Braga, Joaquim A. P. and Andrade, António R.},\n\tmonth = dec,\n\tyear = {2021},\n\tkeywords = {Cluster analysis, Condition monitoring, Principal component analysis, Railway maintenance, Wheelset inspection, Wheelset wear},\n\tpages = {107932},\n}\n\n\n\n","author_short":["Braga, J. A. P.","Andrade, A. 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