info:eu-repo/semantics/article
Nonlinear electronic circuit with neuron like bursting and spiking dynamics
Fecha
2009-07Registro en:
Savino, Guillermo Vicente; Formigli Rodriguez, Carlos Manuel; Nonlinear electronic circuit with neuron like bursting and spiking dynamics; Elsevier; Biosystems; 97; 7-2009; 9-14
0303-2647
CONICET Digital
CONICET
Autor
Savino, Guillermo Vicente
Formigli Rodriguez, Carlos Manuel
Resumen
It is difficult to design electronic nonlinear devices capable of reproducing complex oscillations because of the lack of general constructive rules, and because of stability problems related to the dynamical robustness of the circuits. This is particularly true for current analog electronic circuits that implement mathematical models of bursting and spiking neurons. Here we describe a novel, four-dimensional and dynamically robust nonlinear analog electronic circuit that is intrinsic excitable, and that displays frequency adaptation bursting and spiking oscillations. Despite differences from the classical Hodgkin–Huxley (HH) neuron model, its bifurcation sequences and dynamical properties are preserved, validating the circuit as a neuron model. The circuit's performance is based on a nonlinear interaction of fast–slow circuit blocks that can be clearly dissected, elucidating burst's starting, sustaining and stopping mechanisms, which may also operate in real neurons. Our analog circuit unit is easily linked and may be useful in building networks that perform in real-time.