Genetic algorithm based analysis of envelope using complex analytical wavelet transform

Hilbert transform envelope analysis, spectrogram envelope analysis, and complex analytical wavelet envelope analysis are discussed in this paper. According to the disadvantages such as Hilbert transform susceptible to noise interference, spectrum analysis affected by short-time window, and the parameters of Morlet wavelet set manually by experience, an improved algorithm based on genetic algorithm and complex Morlet wavelet transform is put forward in this paper. By genetic algorithm, the parameters of Morlet wavelet are optimized without experience, and the wavelet transform can effectively eliminate the influence caused by random noise. Moreover, the experimental results show that this improved algorithm outperforms the other algorithms.

[1]  Caidan Zhao,et al.  Transient fingerprint feature extraction for WLAN cards based on polynomial fitting , 2011, 2011 6th International Conference on Computer Science & Education (ICCSE).

[2]  Wei Chen,et al.  An improved empirical mode decomposition-wavelet algorithm for phonocardiogram signal denoising and its application in the first and second heart sound extraction , 2013, 2013 6th International Conference on Biomedical Engineering and Informatics.

[3]  Kevin W. Sowerby,et al.  RF fingerprint extraction from the energy envelope of an instantaneous transient signal , 2012, 2012 Australian Communications Theory Workshop (AusCTW).

[4]  Yuh-Tay Sheen,et al.  On the study of applying Morlet wavelet to the Hilbert transform for the envelope detection of bearing vibrations , 2009 .

[5]  Caidan Zhao,et al.  Identification of radio transmitters fingerprint based on curve fitting , 2013, 2013 IEEE International Conference on Signal Processing, Communication and Computing (ICSPCC 2013).

[6]  Li Zhou,et al.  Application of Morlet wavelet in the extraction of Brillouin scattering signal envelope , 2013 .

[7]  Liu Chong Chun,et al.  A method based on Morlet wavelet for extracting vibration signal envelope , 2000, WCC 2000 - ICSP 2000. 2000 5th International Conference on Signal Processing Proceedings. 16th World Computer Congress 2000.