Wavelets Anderson G Moura 05/29/2015. Introduction Biomedical signals usually consist of brief high-frequency components closely spaced in time, accompanied.

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Presentation transcript:

Wavelets Anderson G Moura 05/29/2015

Introduction Biomedical signals usually consist of brief high-frequency components closely spaced in time, accompanied by long-lasting, low-frequency components closely spaced in frequency[1] Objective: Detect events and locate them in time FT and STFT A state of the art Wavelet Transform is a better tool to analyse time and frequency information simultaneously because it partitions the frequency axis smoothly and recursively analyzing each segment with a resolution matched to its scale[2]

Definition Wavelet is a waveform oscillation limited in time with RMS=0 (Mother wavelet) The WT decomposes a signal in a set of scaled and shifted wavelets leading to a 2-dimensional representation of the signal based on scale(a) and translation(b) The signal can be reconstructed by an integration of all the projections of the signal onto the wavelet basis [5]

Discrete Wavelet Transform Make it practical: – CWT permits to analyze a signal at arbitrary scales[4] – DWT utilizes orthogonal wavelets at fixed frequencies, allowing the reduction of the redundancy of coefficients[4] – Reducing the amount of scalings and translations – The Scaling Function(Father Wavelet)

Normal or Epileptic Used Data: – EEG Recordings carried out on five healthy volunteers(set A) (10-20 International System of Electrode placement) 23.6 seconds – 4096 samples at Hz – EEG archive of five pre-surgical diagnosis of five patients that have achieved complete seizure control from MIT-BIH database containing only seizure activity(set E)

Wavelet transform: – 4 levels – Daubechies of order 4 Feature Extraction: – Max, Min, Mean Std Deviation

Neural Networks: – Multilayer Perceptron Network(MLP) Most common Smaller training set requirements Ease of implementation – Radial Basis Function Network (RBF) Most powerfull Fast network training Orthogonal least squares (OLS) method

Results: – MLP 97% accuracy (96 out of 3200 signals were misclassified between sets A and E) – RBF 98% accuracy Extremely fast

References [1] Khushaba, R N, S. Kodagoda, S. Lal, and G. Dissanayake. "Driver Drowsiness Classification Using Fuzzy Wavelet-Packet-Based Feature-Extraction Algorithm." IEEE Transactions on Biomedical Engineering IEEE Trans. Biomed. Eng.: [2] Saito, Naoki. "Frequently Asked Questions on Wavelets." Web. 29 May [3] Jahankhani, Pari, Vassilis Kodogiannis, and Kenneth Revett. "EEG Signal Classification Using Wavelet Feature Extraction and Neural Networks." IEEE John Vincent Atanasoff 2006 International Symposium on Modern Computing (JVA'06). [4] D’Avanzo, C, V. Tarantino, P. Bisiacchi, and G. Sparacino. " A wavelet Methodology for EEG Time-frequency Analysis in a Time Discrimination Task." International Journal of Bioelectromagnetism.: Vol. 11, No. 4, pp , [5] Valens,C. “A Really Friendly Guide to Wavelets”. 1999