The decile-based feature extraction method improved EEG classification accuracy for Alzheimer's, FTD, and PD when using Random Forest and KNN models.
Does a decile-based feature extraction method improve the classification accuracy of neurological disorders and seizures from EEG signals?
A decile-based feature extraction method for EEG signals provides a lightweight, interpretable, and accurate approach for classifying neurological disorders and detecting seizures, showing potential for use in low-cost wearable systems.
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Electroencephalography (EEG) is a widely used non-invasive technique for monitoring brain activity, offering valuable insights into neurological disorders. Feature extraction methods based on signal processing approaches have been shown to be effective, but they tend to overlook the statistical properties of EEG signals. This study proposes a decile-based feature extraction method for EEG signal analysis, aimed at improving classification performance while maintaining simplicity and interpretability. The method was evaluated across multiple tasks, including the classification of Alzheimer's disease (AD), frontotemporal dementia (FTD), Parkinson's disease (PD), and seizure detection, using three machine learning models: Random Forest (RF), K-Nearest Neighbors (KNN), and LightGBM. Experimental results demonstrate that the decile-based approach, particularly when paired with RF and KNN, achieves competitive classification accuracy. Furthermore, the proposed method showed robustness to reduced channel counts, suggesting its potential relevance for low-cost, wearable EEG systems. While model performance varied across datasets, particularly for LightGBM, the results indicate that decile-based features provide a useful and interpretable representation for diverse EEG classification tasks. Further studies in larger and more heterogeneous EEG populations are needed to assess generalizability and establish the potential clinical applicability of early diagnosis and real-time monitoring of neurological conditions, especially in resource-constrained or ambulatory settings.
Fernandez et al. (Mon,) reported a other. The decile-based feature extraction method improved EEG classification accuracy for Alzheimer's, FTD, and PD when using Random Forest and KNN models.
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