neurodynamics

Neurodynamics is the study of time-varying activity in nervous systems, from individual neurons to large-scale brain networks, using concepts from dynamical systems theory, computational modeling, and statistics. It emphasizes how intrinsic cellular properties, synaptic interactions, and network architecture produce patterns such as spikes, bursts, rhythms, and transient events, and how these patterns relate to perception, cognition, and behavior.

A variety of models are used. Biophysically detailed neuron models (for example Hodgkin-Huxley-type) capture membrane dynamics,

Methods combine experimental data with theory and computation. Electrophysiology, electroencephalography, magnetoencephalography, and functional imaging provide constraints

Applications include understanding normal brain function—sensory processing, decision making, motor control, and sleep—and clinical phenomena such