Feature extraction of visual evoked potentials using wavelet transform and singular value decomposition

Introduction: Brain visual evoked potential (VEP) signals are commonly known to be accompanied by high levels of background noise typically from the spontaneous background brain activity of electroencephalography (EEG) signals. Material and Methods: A model based on dyadic filter bank, discrete wave...

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Main Authors: Almurshedi, Ahmed Fadhil, Ismail, Abd. Khamim, Sulaiman, Najwa
Format: Article
Language:English
Published: Mashhad University of Medical Sciences 2018
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Online Access:http://eprints.utm.my/id/eprint/85314/1/AbdKhamimIsmail2018_FeatureExtractionofVisualEvokedPotentials.pdf
http://eprints.utm.my/id/eprint/85314/
http://dx.doi.org/10.22038/ijmp.2018.28583.1311
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Institution: Universiti Teknologi Malaysia
Language: English
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spelling my.utm.853142020-03-17T08:17:55Z http://eprints.utm.my/id/eprint/85314/ Feature extraction of visual evoked potentials using wavelet transform and singular value decomposition Almurshedi, Ahmed Fadhil Ismail, Abd. Khamim Sulaiman, Najwa QC Physics Introduction: Brain visual evoked potential (VEP) signals are commonly known to be accompanied by high levels of background noise typically from the spontaneous background brain activity of electroencephalography (EEG) signals. Material and Methods: A model based on dyadic filter bank, discrete wavelet transform (DWT), and singular value decomposition (SVD) was developed to analyze the raw data of visual evoked potentials and extract time-locked signals with external visual stimulation. A bio-amplifier (iERG 100P) and data acquisition system (OMB-DAQ-3000) were utilized to record EEG raw data from the human scalp. MATLAB Data Acquisition Toolbox, Wavelet Toolbox, and Simulink model were employed to analyze EEG signals and extract VEP responses. Results: Results were verified in Simulink environment for the real recorded EEG data. The proposed model allowed precise decomposition and classification of VEP signals through the combined operation of DWT and SVD. DWT was successfully used for the decomposition of VEP signals to different frequencies followed by SVD for feature extraction and classification. Conclusion: The visual and quantitative results indicated that the impact of the proposed technique of combining DWT and SVD was promising. Combining the two techniques led to a two-fold increase in the impact of peak signal to noise ratio of all the tested signals compared to using each technique individually. Mashhad University of Medical Sciences 2018-10-01 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/85314/1/AbdKhamimIsmail2018_FeatureExtractionofVisualEvokedPotentials.pdf Almurshedi, Ahmed Fadhil and Ismail, Abd. Khamim and Sulaiman, Najwa (2018) Feature extraction of visual evoked potentials using wavelet transform and singular value decomposition. Iranian Journal of Medical Physics, 15 (4). pp. 206-214. ISSN 1735-160X http://dx.doi.org/10.22038/ijmp.2018.28583.1311 DOI:10.22038/ijmp.2018.28583.1311
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic QC Physics
spellingShingle QC Physics
Almurshedi, Ahmed Fadhil
Ismail, Abd. Khamim
Sulaiman, Najwa
Feature extraction of visual evoked potentials using wavelet transform and singular value decomposition
description Introduction: Brain visual evoked potential (VEP) signals are commonly known to be accompanied by high levels of background noise typically from the spontaneous background brain activity of electroencephalography (EEG) signals. Material and Methods: A model based on dyadic filter bank, discrete wavelet transform (DWT), and singular value decomposition (SVD) was developed to analyze the raw data of visual evoked potentials and extract time-locked signals with external visual stimulation. A bio-amplifier (iERG 100P) and data acquisition system (OMB-DAQ-3000) were utilized to record EEG raw data from the human scalp. MATLAB Data Acquisition Toolbox, Wavelet Toolbox, and Simulink model were employed to analyze EEG signals and extract VEP responses. Results: Results were verified in Simulink environment for the real recorded EEG data. The proposed model allowed precise decomposition and classification of VEP signals through the combined operation of DWT and SVD. DWT was successfully used for the decomposition of VEP signals to different frequencies followed by SVD for feature extraction and classification. Conclusion: The visual and quantitative results indicated that the impact of the proposed technique of combining DWT and SVD was promising. Combining the two techniques led to a two-fold increase in the impact of peak signal to noise ratio of all the tested signals compared to using each technique individually.
format Article
author Almurshedi, Ahmed Fadhil
Ismail, Abd. Khamim
Sulaiman, Najwa
author_facet Almurshedi, Ahmed Fadhil
Ismail, Abd. Khamim
Sulaiman, Najwa
author_sort Almurshedi, Ahmed Fadhil
title Feature extraction of visual evoked potentials using wavelet transform and singular value decomposition
title_short Feature extraction of visual evoked potentials using wavelet transform and singular value decomposition
title_full Feature extraction of visual evoked potentials using wavelet transform and singular value decomposition
title_fullStr Feature extraction of visual evoked potentials using wavelet transform and singular value decomposition
title_full_unstemmed Feature extraction of visual evoked potentials using wavelet transform and singular value decomposition
title_sort feature extraction of visual evoked potentials using wavelet transform and singular value decomposition
publisher Mashhad University of Medical Sciences
publishDate 2018
url http://eprints.utm.my/id/eprint/85314/1/AbdKhamimIsmail2018_FeatureExtractionofVisualEvokedPotentials.pdf
http://eprints.utm.my/id/eprint/85314/
http://dx.doi.org/10.22038/ijmp.2018.28583.1311
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