2016
DOI: 10.1016/j.ymssp.2015.04.039
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Spectral kurtosis for fault detection, diagnosis and prognostics of rotating machines: A review with applications

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Cited by 408 publications
(153 citation statements)
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References 111 publications
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“…First, signal e(n), which has been prewhitened previously, is decomposed according to Equation (13) to obtain the complex envelope signals c i k (n), which have different center frequencies and bandwidths. Then, the SK of each complex envelope signal is evaluated using Equation (14). Finally, the optimal envelope center frequency f c , bandwidth B w , and optimized complex envelope signal c o (n) are determined according to Equation (15).…”
Section: Proposed Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…First, signal e(n), which has been prewhitened previously, is decomposed according to Equation (13) to obtain the complex envelope signals c i k (n), which have different center frequencies and bandwidths. Then, the SK of each complex envelope signal is evaluated using Equation (14). Finally, the optimal envelope center frequency f c , bandwidth B w , and optimized complex envelope signal c o (n) are determined according to Equation (15).…”
Section: Proposed Methodsmentioning
confidence: 99%
“…Adaptive spectral kurtosis (ASK) was proposed to identify multiple faults in bearings and successfully extracted the features of multiple faults buried by strong noise components [13]. In 2016, Wang et al [14] summarized the researches on the application of SK to fault diagnosis and prediction for rotating machinery after the method had been proposed in 1983. At the same time, experts suggested that SK had reached its full potential in areas such as operational modal analysis and fault diagnosis of electronic machinery.…”
Section: Introductionmentioning
confidence: 99%
“…The spectral kurtosis technique adopts the concept of kurtosis to capture the impulsiveness of a signal. It uses a combination of short-time Fourier transform-based SK, kurtogram, adaptive SK, and protrugram [42]. However, despite such specific situations, the wavelet transform has been the most popular denoising technique for the extraction of the defect vibratory signature from the measured signal in which the random noise and other parameters of the bearing are immersed [43][44][45].…”
Section: Theoretical Backgroundmentioning
confidence: 99%
“…Compared with the classical approach, SK can automatically indicate the optimal frequency at which to perform amplitude envelope demodulation to obtain an envelope signal without requiring historical data or a priori knowledge. Thus, SK has become one of the powerful techniques for vibration signal analysis, especially for extracting periodic impulses induced by localized fault in rotating machine components, such as bearings [93][94][95][96] and gears [97,98].…”
Section: Spectral Kurtosismentioning
confidence: 99%