Litcius/Paper detail

Feature Extraction Using Parameterized Multisynchrosqueezing Transform

Xinyan Li, Huimin Zhao, Ling Yu, Huayue Chen, Wuquan Deng, Wu Deng

2022IEEE Sensors Journal109 citationsDOI

Abstract

Parametrized time-frequency analysis (PTFA) can effectively improve time-frequency energy aggregation of non-stationary signal and immunity of cross term interference, but it exists the energy diffusion near the real instantaneous frequency. The improved multi-synchrosqueezing transform (IMSST) can improve the time-frequency energy aggregation, but it still has defects in processing strong FM and AM signals under noise interference. Therefore, in order to make use of their advantages and overcome their disadvantages, a novel parametrized multi-synchrosqueezing transform method based on weighted least square, IMSST and PTFA, namely PMSST is proposed in this paper. In the PMSST, the IMSST is designed to obtain the signal time-frequency representation with high energy aggregation. Then the ridge extraction algorithm is employed to extract the instantaneous frequency ridges of each mono-component signal. The weighted least square method is used to estimate the parameters of parameterized transform kernel. Finally, time-frequency spectrum is superimposed to obtain the time-frequency energy representation of the enhanced signal. The experiment results show that the PMSST can effectively process non-stationary signals with varying instantaneous frequency by the simulated signal and actual fault signals.

Topics & Concepts

Instantaneous phaseTime–frequency analysisEnergy (signal processing)Time–frequency representationSIGNAL (programming language)Computer scienceInterference (communication)Kernel (algebra)AlgorithmParameterized complexityNoise (video)Signal processingFeature extractionArtificial intelligencePattern recognition (psychology)MathematicsStatisticsComputer visionTelecommunicationsFilter (signal processing)RadarProgramming languageChannel (broadcasting)Image (mathematics)CombinatoricsMachine Fault Diagnosis TechniquesStructural Health Monitoring TechniquesGear and Bearing Dynamics Analysis