Gian Antonio Susto scite author profile

In this paper a multiple classifier machine learning methodology for Predictive Maintenance (PdM) is presented. PdM is a prominent strategy for dealing with maintenance issues given the increasing need to minimize downtime and associated costs. One of the challenges with PdM is generating so called 'health factors' or quantitative indicators of the status of a system associated with a given maintenance issue, and determining their relationship to operating costs and failure risk. The proposed PdM methodology allows dynamical decision rules to be adopted for maintenance management and can be used with high-dimensional and censored data problems. This is achieved by training multiple classification modules with different prediction horizons to provide different performance trade-offs in terms of frequency of unexpected breaks and unexploited lifetime and then employing this information in an operating cost based maintenance decision system to minimise expected costs. The effectiveness of the methodology is demonstrated using a simulated example and a benchmark semiconductor manufacturing maintenance problem.

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Time-Series Classification Methods: Review and Applications to Power Systems Data

Susto

Cenedese

Terzi

2018

101

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An explainable artificial intelligence approach for unsupervised fault detection and diagnosis in rotating machinery

Brito

Susto

Brito

et al. 2022

Mechanical Systems and Signal Processing

193

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A Predictive Maintenance System for Epitaxy Processes Based on Filtering and Prediction Techniques

Susto

Beghi

Luca

2012

IEEE Trans. Semicond. Manufact.

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Data-Driven Anomaly Recognition for Unsupervised Model-Free Fault Detection in Artificial Pancreas

Meneghetti

Terzi

Favero

et al. 2020

IEEE Trans. Contr. Syst. Technol.

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