Based on stationary wavelet packet transform and Hilbert transform, the paper proposes a fault detection algorithm, which adaptively extracts the fault characteristic component of the signal. Firstly, the algorithm uses one-level stationary wavelet packet transform to decompose the signal into low- and high-frequency sub-bands. Subsequently, Hilbert transform is used to obtain the instantaneous frequency and instantaneous amplitude of the low- or high-frequency sub-band. Based on the preset frequency and amplitude criteria, the algorithm decides whether to further decompose the sub-band or hold it. Thus the algorithm adaptively selects the path of stationary wavelet packet decomposition, making a multi-resolution spectral analysis on the signal and extracting the characteristic components for fault detection. The simulations show that the algorithm provides sufficient frequency-amplitude fault information with the less computational workloads and has better anti-noise performance.


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    Title :

    Power System Fault Detection Based on Stationary Wavelet Packet Transform and Hilbert Transform


    Contributors:


    Publication date :

    2008-05-01


    Size :

    374299 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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