Go to ICLR 2026 Conference homepageODEBrain: Continuous-Time EEG Graph for Modeling Dynamic Brain Networks
Keywords: EEG, ODE, Brain network, continuous dynamics
Abstract: Modeling neural population dynamics is crucial for foundational neuroscientific research and various clinical applications. Conventional latent variable methods typically model continuous brain dynamics through discretizing time with recurrent architecture, which necessarily results in compounded cumulative prediction errors and failure of capturing instantaneous, nonlinear characteristics of EEGs. We propose ODEBrain, a Neural ODE latent dynamic forecasting framework to overcome these challenges by integrating spatio-temporal-frequency features into spectral graph nodes, followed by a Neural ODE modeling the continuous latent dynamics. Our design ensures that the latent representations can capture stochastic variations of complex brain state at any given time point. Extensive experiments verifies that ODEBrain can improve significantly over existing methods in forecasting EEG dynamics with enhanced robustness and generalization capabilities.
Primary Area: applications to neuroscience & cognitive science
Submission Number: 1575
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