Vol.33, No.1, 2022, pp.331-347, doi:10.32604/iasc.2022.023666
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ARTICLE
Overhauled Approach to Effectuate the Amelioration in EEG Analysis
  • S. Beatrice*, Janaki Meena
School of Computer Science and Engineering, Vellore Institute of Technology, Chennai, 600127, India
* Corresponding Author: S. Beatrice. Email:
Received 16 September 2021; Accepted 29 October 2021; Issue published 05 January 2022
Abstract
Discovering the information about several disorders prevailing in brain and neurology is by no means a new scientific technique. A neurological disorder of any human being can be analyzed using EEG (Electroencephalography) signal from the electrode’s output. Epilepsy (spontaneous recurrent seizure) detection is usually carried out by the physicians using a visual scanning of the signals produced by EEG, which is onerous and may be inaccurate. EEG signal is often used to determine epilepsy, for its merits, such as non-invasive, portable, and economical, can exhibit superior temporal tenacity. This paper surveys the existing artifact removal methods. It puts a new-fangled mode forward to confiscate artifacts and hauls informative derived values from EEG to automate Epilepsy detection. The automated Epilepsy detection has to precisely indicate and detect the neural abnormality of the brain. This indication and detection process necessitates a proficient approach for the prompt removal of artifacts of the EEG signals. An effective artifact removal of EEG signals can alone enable the useful features of the original signals for further processing. Once the original signals excluding the noise is obtained, a delicate strategy for extracting the features of the signals, becomes mandatory in order to accomplish robust classification of the signal. Then an expert classification technique is implemented to aid the automated analysis process to correctly distinguish the EEG signal features.
Keywords
ACAR (Adaptive common average reference); electroencephalography (EEG); epilepsy; ICA (Independent component analysis); 1D-LBP (One dimensional-local binary pattern); seizure detection
Cite This Article
S. Beatrice and J. Meena, "Overhauled approach to effectuate the amelioration in eeg analysis," Intelligent Automation & Soft Computing, vol. 33, no.1, pp. 331–347, 2022.
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