Remaining Useful Life Prediction of Roller Bearings Based on Fractional Brownian Motion

Wanqing Song; Mingdeng Zhong; Minjie Yang; Deyu Qi; Simone Spadini; Piercarlo Cattani; Francesco Villecco

doi:10.3390/fractalfract8040183

Fractal and Fractional (Mar 2024)

Remaining Useful Life Prediction of Roller Bearings Based on Fractional Brownian Motion

Wanqing Song,
Mingdeng Zhong,
Minjie Yang,
Deyu Qi,
Simone Spadini,
Piercarlo Cattani,
Francesco Villecco

Affiliations

Wanqing Song: School of Electronic and Electrical Engineeing, Minnan University of Science and Technology, Quanzhou 362700, China
Mingdeng Zhong: School of Electronic and Electrical Engineeing, Minnan University of Science and Technology, Quanzhou 362700, China
Minjie Yang: School of Electronic and Electrical Engineeing, Minnan University of Science and Technology, Quanzhou 362700, China
Deyu Qi: Institute of Digitization Science and Technology, South China Business College, Guangdong University of Foreign Studies, 181 Baiyun Road, Guangzhou 510545, China
Simone Spadini: Department for Innovation in Biological, Agro-Food and Forest Systems (DIBAF), University of Tuscia, Largo dell’Università, 01100 Viterbo, Italy
Piercarlo Cattani: Department of Computer, Control and Management Engineering, University of Rome La Sapienza, Via Ariosto 25, 00185 Roma, Italy
Francesco Villecco: Department of Industrial Engineering, University of Salerno, Via Giovanni Paolo II 132, 84084 Fisciano, Italy

DOI: https://doi.org/10.3390/fractalfract8040183
Journal volume & issue: Vol. 8, no. 4
p. 183

Abstract

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Roller bearing degradation features fractal characteristics such as self-similarity and long-range dependence (LRD). However, the existing remaining useful life (RUL) prediction models are memoryless or short-range dependent. To this end, we propose a RUL prediction model based on fractional Brownian motion (FBM). Bearing faults can happen in different places, and thus their degradation features are difficult to extract accurately. Through variational mode decomposition (VMD), the original degradation feature is decomposed into several components of different frequencies. The monotonicity, robustness and trends of the different components are calculated. The frequency component with the best metric values is selected as the training data. In this way, the performance of the prediction model is hugely improved. The unknown parameters in the degradation model are estimated by the maximum likelihood algorithm. The Monte Carlo method is applied to predict the RUL. A case study of a bearing is presented and the prediction performance is evaluated using multiple indicators.

Published in Fractal and Fractional

ISSN: 2504-3110 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Physics: Heat: Thermodynamics; Science: Mathematics: Analysis
Website: http://www.mdpi.com/journal/fractalfract

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