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<p>EEG Signal Classification Automation using Novel Modified Random Forest Approach</p>

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Title Statement <p>EEG Signal Classification Automation using Novel Modified Random Forest Approach</p>
 
Added Entry - Uncontrolled Name Mary, G. Aloy Anuja; Veltech Rangarajan Dr. Sagunthala R & D Institute of science and Technology, Chennai 600 062, India
kishore, M Purna; Dept of ECE, KKR & KSR Institute of Technology & Science, Vinjanampadu, Guntur 522 017, India
Chitti, Sridevi ; Department of ECE, Kakatiya Institute of technology & science, Warangal 506 371, India
Vallabhaneni, Ramesh Babu; Dept of ECE, NRI Institute of Technology, Pothavarapadu (V) Agiripalli, Vijayawada 520 010, India
Renuka, N ; Department of ECE, RVR and JC College of Engineering, Guntur 522 019, India
 
Uncontrolled Index Term EEG, Ensemble mode decomposition, Feature extraction and recognition, SVM
 
Summary, etc. <p>Digitalization and automation are the two aspects in the medical industry that define compliance with industry 4.0. Automation is essential for speeding up the diagnosis process, while digitalization leads to smart medicine and efficient diagnosis. Epilepsy is one such disease that can use these automation techniques. The automatic monitoring of epilepsy EEG is of great significance in clinical medicine. Aiming at the non-stationary characteristics of EEG signals, the classification of EEG signals is based on the combination of overall empirical mode. It is proposed using the random forest method. The EEG signal data set has an epileptic interval over 200 single-channel signals with a seizure period. A total of 819,400 data are used as samples. First, the overall epileptic EEG signal modal is decomposed into multiple intrinsic modal functions. The effective features are extracted from the first-order intrinsic modal function. Finally, random forest and Least Square SVM (LS-SVM) are considered to classify the EEG signals characteristics. The correct recognition rate of random forest and LS-SVM is compared. The results show that random forest classification method has an ideal classification effect on epilepsy EEG signals during and between seizures. The recognition accuracy is 99% and 60%, which is higher than the accuracy of the LS-SVM. The proposed method improves clinical epilepsy. The efficiency of EEG signals analysis.</p>
 
Publication, Distribution, Etc. Journal of Scientific & Industrial Research
2023-01-19 11:12:04
 
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http://op.niscair.res.in/index.php/JSIR/article/view/70213
 
Data Source Entry Journal of Scientific & Industrial Research; ##issue.vol## 82, ##issue.no## 1 (2023)
 
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