Add to ORKGA CMOS circuit is proposed that emulates FitzHugh-Nagumo's differential equations using OTAs, diode connected MOSFETs and capacitors. These equations model the fundamental behavior of biological neuron cells. Fitz- Hugh-Nagumo's model is characterized by two threshold values. If the input to the neuron is between the two thresholds the output yields a sequence of firing pulses, if the input is outside this range, no output is observed. The resulting circuit due to the (voltage) programmability of the OTA allows one to easily vary parameters. Thus a large family of solutions can be obtained including the Van der Pol's equation. Experimental results from a CMOS prototype are given that show the suitability of the technique used, and their pot...
We have used analog VLSI technology to model a class of biological neural circuits known as central ...
An electronic circuit device, inspired on the FitzHughNagumo model of neuronal excitability, was con...
Abstract — This paper presents a novel analogue VLSI circuitry that reproduces spiking and bursting ...
Abstract —A complete derivation of neuron model is presented, starting with the description of the f...
In this work, we present an original implementation of a circuit to perform the analog simulation of...
The mathematical neuron basic cells used as basic cells in popular neural network architectures and ...
The Letter presents two nonlinear CMOS current-mode circuits that implement neuron soma equations fo...
This paper presents two nonlinear CMOS current-mode circuits that implement neuron soma equations fo...
This paper presents a novel neural oscillator model that is inspired by biological oscillation model...
This paper presents two nonlinear CMOS current-mode circuits that implement neuron soma equations fo...
This study firstly presents (i) a novel general cellular mapping scheme for two dimensional neuromor...
Neural networks typically use an abstraction of the behaviour of a biological neuron, in which the ...
We have used analog VLSI technology to model a class of small oscillating biological neural circuit...
A few individual design examples of programmable device-based biological neuron model implementation...
For investigation into neurodynamical systems FitzHugh-Nagumo model is often suggested. One neuron c...
We have used analog VLSI technology to model a class of biological neural circuits known as central ...
An electronic circuit device, inspired on the FitzHughNagumo model of neuronal excitability, was con...
Abstract — This paper presents a novel analogue VLSI circuitry that reproduces spiking and bursting ...
Abstract —A complete derivation of neuron model is presented, starting with the description of the f...
In this work, we present an original implementation of a circuit to perform the analog simulation of...
The mathematical neuron basic cells used as basic cells in popular neural network architectures and ...
The Letter presents two nonlinear CMOS current-mode circuits that implement neuron soma equations fo...
This paper presents two nonlinear CMOS current-mode circuits that implement neuron soma equations fo...
This paper presents a novel neural oscillator model that is inspired by biological oscillation model...
This paper presents two nonlinear CMOS current-mode circuits that implement neuron soma equations fo...
This study firstly presents (i) a novel general cellular mapping scheme for two dimensional neuromor...
Neural networks typically use an abstraction of the behaviour of a biological neuron, in which the ...
We have used analog VLSI technology to model a class of small oscillating biological neural circuit...
A few individual design examples of programmable device-based biological neuron model implementation...
For investigation into neurodynamical systems FitzHugh-Nagumo model is often suggested. One neuron c...
We have used analog VLSI technology to model a class of biological neural circuits known as central ...
An electronic circuit device, inspired on the FitzHughNagumo model of neuronal excitability, was con...
Abstract — This paper presents a novel analogue VLSI circuitry that reproduces spiking and bursting ...