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Extraction of Reduced Fault Subspace Based on KDICA and Its Application in Fault Diagnosis

Xiangyu Kong, Zhiyan Yang, Jiayu Luo, Li Hongzeng, Xi Yang

2022IEEE Transactions on Instrumentation and Measurement55 citationsDOI

Abstract

Independent component analysis (ICA) is a commonly used non-Gaussian process fault diagnosis method. A fault detection algorithm of kernel dynamic ICA (KDICA) has been proposed for the non-Gaussian process with dynamic and nonlinear characteristics. However, a lack of studies tackling the fault reconstruction and fault diagnosis algorithm exists. Hence, a fault reconstruction model based on KDICA is proposed in this article. In this model, a reduced fault subspace extraction method is proposed. It consists in dividing the fault subspace into the kernel dynamic independent component reduced fault subspace and the residual reduced fault subspace (RRFS). Based on the RRFS, a fault diagnosis approach is designed for online process monitoring. Using the proposed method, the computational complexity can be efficiently reduced and the specific fault type can be accurately identified. The Tennessee–Eastman process is used to verify the feasibility and efficiency of the proposed method and its fault diagnosis application.

Topics & Concepts

Subspace topologyFault (geology)Fault detection and isolationKernel (algebra)Computer scienceStuck-at faultAlgorithmGaussian processIndependent component analysisProcess (computing)Pattern recognition (psychology)Artificial intelligenceGaussianMathematicsSeismologyOperating systemPhysicsQuantum mechanicsCombinatoricsActuatorGeologyFault Detection and Control SystemsSpectroscopy and Chemometric AnalysesMineral Processing and Grinding
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