Download PDFOpen PDF in browserMajority Vote for Electroencephalography (EEG)-Based Migraine ClassificationEasyChair Preprint 153736 pages•Date: November 6, 2024AbstractMigraine (MD) is a neurological disorder that can present with auditory and visual symptoms known as aura, affecting approximately one billion people globally. This condition causes temporary disability and can progress to serious diseases such as epilepsy or stroke, resulting in significant losses in productivity. The overlap of migraine symptoms with other illnesses complicates the diagnosis process for medical professionals. To improve healthcare and patient care beyond traditional methods, we have developed a machine learning model to help doctors diagnose and differentiate between migraine types, with and without neurological aura. The model uses EEG signals from visual stimuli and analyzes them using discrete wavelet transform (DWT) to extract frequency bands: alpha, beta, delta, theta and gamma. The data is then augmented without exceeding the original frequency bands. Each participant's data is organized into a matrix, with rows representing channels and columns for the frequency bands. A majority voting mechanism determines the final classification; if most channels indicate a specific type of neural activity, the participant is classified accordingly. Our model achieved a classification accuracy of 90.58%, effectively diagnosing migraines and distinguishing their main types. By integrating advanced signal processing with machine learning, our model represents a significant advancement in migraine diagnosis and enhances patient care. Keyphrases: Discrete wavelet transform DWT, Electroencephalography is an economical and non invasive neuro electrophysiological technique, High Pass Filter, Machine Learning - ML, Majority Voting Mechanism, Migraine with Aura, Naive Bayes NB, Random Forest-RF, accuracy sensitivity specificity, brain frequencies delta theta alpha beta, discrete wavelet transform is converts discrete temporal signals into wavelet representations., eeg signals from visual, frequency bands, frequency bands are alpha beta delta theta and gamma., frequency domain, migraine Neurological disease, migraine aura, migraine without aura, signal processing, start and end indexes, ultra high density eeg, visual stimulation
|
