Add to ORKGWe study a minimal integrate-and-fire based model of a "ghostbursting" neuron under periodic stimulation. These neurons are involved in sensory processing in weakly electric fish. There exist regions in parameter space in which the model neuron is mode-locked to the stimulation. We analyse this locked behavior and examine the bifurcations that define the boundaries of these regions. Due to the discontinuous nature of the flow, some of these bifurcations are nonsmooth. This exact analysis is in excellent agreement with numerical simulations, and can be used to understand the response of such a model neuron to biologically realistic input
We investigated novel artificial model neurons with similar capabilities to the biological neuron\u2...
We investigated the variability of P-receptor afferent spike trains in the weakly electric fish, Eig...
Understanding the mode-locked response of excitable systems to periodic forcing has important applic...
We study a minimal integrate-and-fire based model of a "ghostbursting" neuron under periodic stimula...
The minimal “integrate-and-fire-or-burst” (IFB) neuron model reproduces the salient features of expe...
The minimal “integrate-and-fire-or-burst” (IFB) neuron model reproduces the salient features of expe...
We present a two-variable delay-differential-equation model of a pyramidal cell from the electrosens...
The resonate-and-fire (RF) model is a spiking neuron model which from a dynamical systems perspectiv...
Thalamocortical (TC) neurones are known to express the low-voltage activated, inactivating Ca2+ curr...
Persistent Na current modifies burst discharge by regulating condi-tional backpropagation of dendri...
Persistent Na current modifies burst discharge by regulating condi-tional backpropagation of dendri...
What input signals will lead to synchrony vs. desynchrony in a group of biological oscil-lators? Thi...
Abstract. It is well known that some neurons tend to fire packets of action potentials followed by p...
<div><p>Transcranial brain stimulation and evidence of ephaptic coupling have recently sparked stron...
Although variability is a ubiquitous characteristic of the nervous system, under appropriate conditi...
We investigated novel artificial model neurons with similar capabilities to the biological neuron\u2...
We investigated the variability of P-receptor afferent spike trains in the weakly electric fish, Eig...
Understanding the mode-locked response of excitable systems to periodic forcing has important applic...
We study a minimal integrate-and-fire based model of a "ghostbursting" neuron under periodic stimula...
The minimal “integrate-and-fire-or-burst” (IFB) neuron model reproduces the salient features of expe...
The minimal “integrate-and-fire-or-burst” (IFB) neuron model reproduces the salient features of expe...
We present a two-variable delay-differential-equation model of a pyramidal cell from the electrosens...
The resonate-and-fire (RF) model is a spiking neuron model which from a dynamical systems perspectiv...
Thalamocortical (TC) neurones are known to express the low-voltage activated, inactivating Ca2+ curr...
Persistent Na current modifies burst discharge by regulating condi-tional backpropagation of dendri...
Persistent Na current modifies burst discharge by regulating condi-tional backpropagation of dendri...
What input signals will lead to synchrony vs. desynchrony in a group of biological oscil-lators? Thi...
Abstract. It is well known that some neurons tend to fire packets of action potentials followed by p...
<div><p>Transcranial brain stimulation and evidence of ephaptic coupling have recently sparked stron...
Although variability is a ubiquitous characteristic of the nervous system, under appropriate conditi...
We investigated novel artificial model neurons with similar capabilities to the biological neuron\u2...
We investigated the variability of P-receptor afferent spike trains in the weakly electric fish, Eig...
Understanding the mode-locked response of excitable systems to periodic forcing has important applic...