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A Mathematical Approach to the Stability of Electroencephalography Signals Model Using Integral Equations During Epileptic Seizures

Ameen Omar Ali Barja (Department of Mathematics, College of Education, Seiyun University, Hadhramout, Yemen)

Published January 30, 2024 Language: EN DOI: 10.70170/wbysd98728

Abstract

In this study, the mathematical stability of EEG signal models represented by integral equations during epileptic seizures is investigated. The stability of such models is analyzed by applying Lyapunov's stability theorem, showing that stability is powerfully dependent on parameters such as seizure duration, intensity, and neural connectivity. Some parameter regimes yield stable behaviour, while others give rise to instability, making EEG interpretation complicated during epileptic seizures. Integral equation-based models highlight advantages in capturing transient dynamics of epileptic activity.

How to cite

Ameen Omar Ali Barja (2024). A Mathematical Approach to the Stability of Electroencephalography Signals Model Using Integral Equations During Epileptic Seizures. Stardom Scientific Journal of Natural and Engineering Sciences. https://doi.org/10.70170/wbysd98728