Abstract
For practical purposes, over the past three decades, several methods have been devised to mitigate various anomalies within corrupted EEG data. Nonetheless, there is still no universally acclaimed technique, rendering the field of study both intriguing and challenging. This research delves comprehensively into the identification and elimination of artifacts originating from ocular, muscular, and cardiac sources, offering a detailed analysis of their respective advantages and drawbacks. Furthermore, this investigation encompasses the methodologies employed for comparing real EEG data with simulated counterparts, serving to authenticate their efficacy. The primary focus of this work is twofold: firstly, to establish standardized criteria for the validation of recorded EEG signals in forthcoming studies, and secondly, to amalgamate diverse techniques through multiple processing stages, thereby facilitating the effective eradication of interference stemming from artifacts.
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