Litcius/Paper detail

Intelligent fault diagnosis of turbine blade cracks via multiscale sparse filtering and multi-kernel support vector machine for information fusion

Xin Huang, Xiaodong Zhang, Yiwei Xiong, fei dai, Yingjie Zhang

2023Advanced Engineering Informatics57 citationsDOIOpen Access PDF

Abstract

For accurately identifying the crack severity of turbine blades , a novel intelligent diagnosis framework is proposed in our paper, which uses multiscale sparse filtering (MSF)-based unsupervised sparse feature learning and multi-kernel support vector machine for information fusion (MKSVMIF). To realize the technical readiness and the state-of-the-art diagnostic performance, advanced signal processing methods are used to eliminate interference and retain fault-related characteristics. Thus, the EEMD-based multiwavelet packet energy entropy (EEMD-WPEE) as an enhanced method is proposed for multi-source three-dimensional blade tip clearance signals (3D-BTC), which is used to enhance the fault-related information. Afterward, the MSF is constructed to adaptively learn multisource sparse features from EEMD-WPEE representation of 3D-BTC by an unsupervised manner . Finally, the MKSVMIF is proposed to fuse these sparse features and diagnose crack severities. To validate the effectiveness of our proposed MSF-MKSVMIF framework, Extensive experiments are conducted on a blade-rotor simulation rig, and the results show that our proposed framework is superior to other comparison methods and can quantitatively detect different blade crack severities with a relatively small number of samples.

Topics & Concepts

Artificial intelligencePattern recognition (psychology)Sparse approximationSupport vector machineComputer scienceKernel (algebra)Blade (archaeology)Fuse (electrical)Entropy (arrow of time)Feature (linguistics)Machine learningEngineeringMathematicsStructural engineeringElectrical engineeringPhysicsPhilosophyCombinatoricsLinguisticsQuantum mechanicsMachine Fault Diagnosis TechniquesGear and Bearing Dynamics AnalysisFatigue and fracture mechanics