Journal
STRUCTURAL HEALTH MONITORING-AN INTERNATIONAL JOURNAL
Volume 22, Issue 2, Pages 846-864Publisher
SAGE PUBLICATIONS LTD
DOI: 10.1177/14759217221091131
Keywords
fault diagnosis; complete ensemble empirical mode decomposition with adaptive noise; phase space reconstruction; intrinsic mode function; various operating conditions
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This paper proposes a novel approach to fault diagnosis of rotary machinery using phase space reconstruction of intrinsic mode functions and neural network under various operating conditions. The proposed approach has been validated by theoretical derivations, numerical simulations and experimental data, showing promising results in fault diagnosis of rotary machinery.
Rolling bearings are important components in mechanical, civil, and aerospace engineering. The practical working conditions of rolling bearings are complex; hence, fault diagnosis of rolling bearings under various operating conditions is very challenging. This paper proposes a novel approach to fault diagnosis of rotary machinery using phase space reconstruction (PSR) of intrinsic mode functions (IMFs) and neural network under various operating conditions. Complete ensemble empirical mode decomposition with adaptive noise (CEEMDAN) is employed to decompose vibration signal of rotary component into IMFs denoting high-to-low instantaneous frequencies adaptively. PSR constructs one-dimensional IMFs to high-dimensional IMFs, which helps reveal the underlying nonlinear geometric topology via the reconstructed inherent and hidden dynamical characteristics of the one-dimensional vibration signal. To explore intrinsic dynamical properties, interquartile range (IQR) of Euclidean distance (ED) values of high-dimensional IMFs are extracted as condition indicators and used as input of back propagation (BP) neural network to fulfill fault identification of rolling bearings. The effectiveness and superiority of the proposed approach have been validated by theoretical derivations, numerical simulations and experimental data. The results show that the proposed approach is promising in fault diagnosis of rotary machinery under various operating conditions.
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