Brain activity is a dynamic interaction between various layers of working, semi-stabilized, and highly stabilized memories across the cortex. These networks resonate across different brain regions, creating energy orbits that influence motor output zones and modulate excitatory patterns elsewhere. This article extends the discussion on brain kinematics, examining how the balance between neural strain absorption and dissipation determines states of consciousness, memory stabilization, and functional connectivity. The proposed model integrates structural, functional, and effective connectivity through stress-straining mechanisms within neural networks.
This article is a base of the interview between the author and A.I.