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AHW-BGOA-DNN: a novel deep learning model for epileptic seizure detection
by
Shruthi, R.
, Sriram, V. S. Shankar
, Jagtap, Sujeet S.
, Glory, H. Anila
, Vigneswaran, C.
, Hariharan, G.
in
Algorithms
/ Art techniques
/ Artificial Intelligence
/ Artificial neural networks
/ Computational Biology/Bioinformatics
/ Computational Science and Engineering
/ Computer Science
/ Convulsions & seizures
/ Data Mining and Knowledge Discovery
/ Deep learning
/ Electroencephalography
/ Epilepsy
/ Human-computer interface
/ Image Processing and Computer Vision
/ Life support systems
/ Machine learning
/ Optimization
/ Original Article
/ Probability and Statistics in Computer Science
/ Seizures
/ Stability analysis
2021
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AHW-BGOA-DNN: a novel deep learning model for epileptic seizure detection
by
Shruthi, R.
, Sriram, V. S. Shankar
, Jagtap, Sujeet S.
, Glory, H. Anila
, Vigneswaran, C.
, Hariharan, G.
in
Algorithms
/ Art techniques
/ Artificial Intelligence
/ Artificial neural networks
/ Computational Biology/Bioinformatics
/ Computational Science and Engineering
/ Computer Science
/ Convulsions & seizures
/ Data Mining and Knowledge Discovery
/ Deep learning
/ Electroencephalography
/ Epilepsy
/ Human-computer interface
/ Image Processing and Computer Vision
/ Life support systems
/ Machine learning
/ Optimization
/ Original Article
/ Probability and Statistics in Computer Science
/ Seizures
/ Stability analysis
2021
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AHW-BGOA-DNN: a novel deep learning model for epileptic seizure detection
by
Shruthi, R.
, Sriram, V. S. Shankar
, Jagtap, Sujeet S.
, Glory, H. Anila
, Vigneswaran, C.
, Hariharan, G.
in
Algorithms
/ Art techniques
/ Artificial Intelligence
/ Artificial neural networks
/ Computational Biology/Bioinformatics
/ Computational Science and Engineering
/ Computer Science
/ Convulsions & seizures
/ Data Mining and Knowledge Discovery
/ Deep learning
/ Electroencephalography
/ Epilepsy
/ Human-computer interface
/ Image Processing and Computer Vision
/ Life support systems
/ Machine learning
/ Optimization
/ Original Article
/ Probability and Statistics in Computer Science
/ Seizures
/ Stability analysis
2021
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AHW-BGOA-DNN: a novel deep learning model for epileptic seizure detection
Journal Article
AHW-BGOA-DNN: a novel deep learning model for epileptic seizure detection
2021
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Overview
“Brain–Computer Interface” (BCI)—a real-life support system provides a way for epileptic patients to improve their quality of life. In general, epileptic seizure detection using Electroencephalogram (EEG) signals provide a significant solution in preventing seizures through medication. Thus, the design of efficient machine learning-based seizure detection model is highly acclaimed by various academic and health professionals. In a motive to address the challenges posed by the state-of-the-art techniques in terms of noise, non-stationarity, and transient nature of EEG signals, this paper presents a novel Deep Learning model for epileptic seizure detection which hybridizes Adaptive Haar Wavelet-based Binary Grasshopper Optimization Algorithm and Deep Neural Network (AHW-BGOA-DNN). The experimental analysis was carried out using three benchmark EEG datasets obtained from the University of Bonn, the University of Bern and CHB-MIT EEG database which confirm the proposed technique to be reliable and accurate over the existing state-of-the-art techniques in terms of stability analysis, classification accuracy, AUC–ROC Curve (Area Under Curve–Receiver Operating Characteristics), sensitivity, and specificity.
Publisher
Springer London,Springer Nature B.V
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