The Hindmarsh–Rose model is a mathematical model used to describe the dynamics of spiking neurons. Developed by Brian Hindmarsh and Gerhard Rose in the late 1980s, it is a type of neuron model that captures key features of the behavior of real biological neurons, including the spiking and bursting phenomena. The model is based on a set of ordinary differential equations that represent the membrane potential of a neuron and the dynamics of ion currents across the neuronal membrane.
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