Detection of Epileptic Seizure Using Wavelet Analysis based Shannon Entropy, Logarithmic Energy Entropy and Support Vector Machine

Vasudha Harlalka; Viraj Pradip Puntambekar; Kalugotla Raviteja; P. Mahalakshmi

doi:10.14419/ijet.v7i4.10.26630

Authors

Vasudha Harlalka
Viraj Pradip Puntambekar
Kalugotla Raviteja
P. Mahalakshmi

How to Cite

Harlalka, V., Pradip Puntambekar, V., Raviteja, K., & Mahalakshmi, P. (2018). Detection of Epileptic Seizure Using Wavelet Analysis based Shannon Entropy, Logarithmic Energy Entropy and Support Vector Machine. International Journal of Engineering and Technology, 7(4.10), 935-939. https://doi.org/10.14419/ijet.v7i4.10.26630

Download Citation

Received date: January 29, 2019

Accepted date: January 29, 2019

Published date: October 2, 2018

DOI:

https://doi.org/10.14419/ijet.v7i4.10.26630

Keywords:

Shannon Entropy (ShanEn), Logarithmic energy entropy (logEn), EEG, epilepsy, dual tree complex wavelet transform (DT-CWT)

Abstract

Epilepsy is a prevalent condition, mainly affecting the nervous system of the human body. Electroencephalogram (EEG) is used to evaluate and examine the seizures caused due to epilepsy. The issue of low precision and poor comprehensiveness is worked upon using dual tree- complex wavelet transform (DT-CWT), rather than discrete wavelet transform (DWT). Here, Logarithmic energy entropy (LogEn) and Shannon entropy (ShanEn) are taken as input features. These features are fed to Linear Support Vector MachineÂ Â Â Â (L-SVM) Classifier. For LogEn, accuracy of 100% for A-E, 99.34% for AB-E, and 98.67% for AC-E is achieved. While ShanEn combinations give accuracy of 96.67% for AB-E and 95.5% for ABC-E. These results showcase that our methodology is suitable for overcoming the problem and can become an alternate option for clinical diagnosis.
Â
Â

References

[1] WorldHealth Organization, Epilepsy. http://www.who.int/mental_health/neurology/epilepsy/en/index.html
[2] Li M, et al. Automatic epilepsy detection using wavelet-based nonlinear analysis and optimized SVM. Biocybern Biomed Eng (2016)
[3] Dattaprasad Torse, et al. Classification of EEG Signals in a Seizure Detection System Using Dual Tree Complex Wavelet Transform and Least Squares Support Vector Machine(2017)
[4] Mohammad Zavid Parvez and Manoranjan Paul. Seizure Prediction by Analyzing EEG Signal based on Phase Correlation(2015). Conference Paper. DOI:10.1109/ICCITechn.2014.6997315
[5] Suvadeep Bose, B.Tech, NIT Warangal, V Rama, Assistant Professor, NIT Warangal, and Dr. C.B.Rama Rao, Associate Professor, NIT Warangal. EEG signal analysis for Seizure detection using Discrete Wavelet Transform and Random Forest(2017). Computer and Applications (ICCA)
[6] EEG Time Series Data (Department of Epileptology University of Bonn, Germany).http://epileptologie-bonn.de/cms/front_content.php?idcat=193&lang=3&changelang=3
[7] Serap AydÄ±n, et al. Log Energy Entropy-Based EEG Classification with Multilayer Neural Networks in Seizure(2009).
[8] K. Sercan Bayram, et al. Classification of EEG Signals by using Support Vector Machines(2013).
[9] B. Suguna Nanthini and B. Santhi. EEG Signal Analysis for Epileptic Seizure Detection Using Soft Computing Techniques, 2014. World Applied Sciences Journal 29 (Data Mining and Soft Computing Techniques.
[10] N. Wang and M. R. Lyu, â€œExploration of instantaneous amplitude and frequency features for epileptic seizure prediction,â€ in Proceedings of the 12th IEEE International Conference on BioInformatics and BioEngineering (BIBE '12), pp. 292â€“297, November 2012.
[11] Nigam VP1, Graupe D. A neural-network-based detection of epilepsy.,2004. PMID:14977058 .
[12] N. Kannathal , Min Lim Choo , U. Rajendra Acharya , P. K. Sadasivan, Entropies for detection of epilepsy in EEG, Computer Methods and Programs in Biomedicine, v.80 n.3, p.187-194,December2005 doi>10.1016/j.cmpb.2005.06.012].
[13] V. Srinivasan, C. Eswaran, and N. Sriraam, â€œArtificial Neural Network Based Epileptic Detection Using TimeDomain and Frequency Domain Featuresâ€, J. Med. Syst., vol.29 (6), 2005, pp. 647-60.
[14] K. Polat, and S. GÃ¼neÅŸ, â€œClassification of epileptiform EEG using a hybrid system based on decision tree classifier and fast Fourier transformâ€, Appl. Math. Comput., vol. 32 (2), 2007, pp 625-31.
[15] Subasi, â€œSignal classification using wavelet feature extraction and a mixture of expert modelâ€, Exp. Syst. Appl., vol. 32 (4), 2007, pp. 1084-93.
[16] T. Tzallas, â€œEpileptic Seizure Detection in EEGs using Time-Frequency Analysis,â€ in IEEE transactions on Information Technology, vol. 13 no. 5, September 2009, pp. 703-710
[17] L. Guo, D. Rivero, J. A. Seoane and A. Pazos, â€œClassification of EEG signals using relative wavelet energy and artificial neural networksâ€,GCEâ€™09, 2009, pp. 12-14
[18] Hasan Ocak, 2009, â€œAutomatic detection of epileptic seizures in EEG using discrete wavelet transform and approximate entropyâ€, J Expert Systems with Applications 36, 20272036, Elsiever Publications.
[19] Subasi, and M. Ismail Gursoy. â€œEEG signal classification using PCA, ICA, LDA and support vector machinesâ€. Expert Systems with Applications-2010. vol. 37,pp.-8659â€“8666.
[20] Elif Derya Ubeyli, â€œLeast squares support vector machine employing model-based methods coefficients for analysis of EEG signalsâ€ vol 37(1), 2010, pp 233-39
[21] Ali Motie Nasrabadi, et al. Automated detection of epileptic seizures using mixed- methodology: Wavelet-Chaos-KNN Classifier-Mutual Information, 2014.PRZEGLÄ„D ELEKTROTECHNICZNY (Electrical Review), ISSN 0033-2097, R. 87 NR 4/2011.
[22] Yatindra Kumar , M.L.Dewal, R.S.Anand Department of Electrical Engineering, Indian Institute of Technology,Roorkee,Uttarakhand 247667,India, Epileptic seizure detection using DWT based fuzzy approximate entropy and support vector machine(2014).

Detection of Epileptic Seizure Using Wavelet Analysis based Shannon Entropy, Logarithmic Energy Entropy and Support Vector Machine

Authors

Vasudha Harlalka

Viraj Pradip Puntambekar

Kalugotla Raviteja

P. Mahalakshmi

How to Cite

DOI:

Keywords:

Abstract

References

Downloads

How to Cite