bifurcation analysis of neural circuits
Bifurcation analysis of neural circuits refers to the study of how the dynamics of neuronal systems change qualitatively and quantitatively as various parameters, or inputs, are altered. It involves examining how the system transitions from one stable state to another, such as from rest to activity, or from a regular firing pattern to a chaotic or oscillatory pattern. This analysis helps to uncover the complex behaviors and mechanisms that underlie neural activity and can provide insights into the functioning and dysfunctioning of neural circuits.
Requires login.
Related Concepts (1)
Similar Concepts
- bifurcation analysis
- bifurcation analysis of switched control systems
- bifurcation diagram
- bifurcation theory
- bifurcation theory in dynamical systems
- bifurcations in control systems
- bifurcations in spiking neuron models
- multiple bifurcations in control systems
- neural circuits
- neural excitability and bifurcations
- neural field models and bifurcations
- neuronal bifurcation theory
- neuronal circuits
- saddle-node bifurcations in neuronal systems
- stability analysis of neuronal networks