Array-enhanced coherence resonance and forced dynamics in coupled FitzHugh-Nagumo neurons with noise

Shinohara, Yuji; Kanamaru, Takashi; Suzuki, Hideyuki; Horita, Takehiko; Aihara, Kazuyuki

doi:10.1103/physreve.65.051906

Cited by 53 publications

(26 citation statements)

References 29 publications

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“…Despite its relative simplicity it displays a variety of biologically relevant dynamical regimes if taken as a single element or embedded into a network. It has been shown that the influence of noise on excitable systems such as the FitzHugh-Nagumo model can lead to a coherent temporal response via the phenomena of stochastic [1] and coherence [22,36,37] resonance.…”

Section: Introductionmentioning

confidence: 99%

Noise induced complexity: From subthreshold oscillations to spiking in coupled excitable systems

Zaks

Sailer

Schimansky‐Geier

et al. 2005

Chaos: An Interdisciplinary Journal of Nonlinear Science

105

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We study stochastic dynamics of an ensemble of N globally coupled excitable elements. Each element is modeled by a FitzHugh-Nagumo oscillator and is disturbed by independent Gaussian noise. In simulations of the Langevin dynamics we characterize the collective behavior of the ensemble in terms of its mean field and show that with the increase of noise the mean field displays a transition from a steady equilibrium to global oscillations and then, for sufficiently large noise, back to another equilibrium. Diverse regimes of collective dynamics ranging from periodic subthreshold oscillations to large-amplitude oscillations and chaos are observed in the course of this transition. In order to understand details and mechanisms of noise-induced dynamics we consider a thermodynamic limit N → ∞ of the ensemble, and derive the cumulant expansion describing temporal evolution of the mean field fluctuations. In the Gaussian approximation this allows us to perform the bifurcation analysis; its results are in good agreement with dynamical scenarios observed in the stochastic simulations of large ensembles.

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Section: Introductionmentioning

confidence: 99%

Noise induced complexity: From subthreshold oscillations to spiking in coupled excitable systems

Zaks

Sailer

Schimansky‐Geier

et al. 2005

Chaos: An Interdisciplinary Journal of Nonlinear Science

105

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“…Synchronization of two coupled CR oscillators was also studied numerically and experimentally [12]. Furthermore, array-enhanced CR was found to occur via noise-induced synchronization in globally coupled Hodgkin-Huxley neurons [13] and in locally coupled FitzHugh-Nagumo neurons [14,15]. In this paper, we are interested in the dynamical response of an individual neuron to noise in a large excitatory network of globally coupled neurons with type-I excitability and study how such a response within the network differs from that of an isolated type-I neuron.…”

Section: Introductionmentioning

confidence: 98%

“…This weak CR is in contrast to the "strong" CR, occurring for a type-II neuron, where a maximal correlation occurs along with the spectral CR. To our knowledge, only networks consisting of neurons exhibiting strong CR (e.g., Hodgkin-Huxley [13] and FitzHughNagumo [14,15] neurons) were considered in previous studies on the CR. We note that most mammalian neurons are known to exhibit type-I excitability [22].…”

Section: Introductionmentioning

confidence: 99%

Coherence Resonance in Coupled Theta Neurons

Woochang¹,

Sang-Yoon²,

Sunae³

2007

J. Korean Phys. Soc.

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We study the temporal coherence resonance (CR) of a local neuron in an excitatory network of globally coupled canonical type-I theta neurons. For the (isolated) single case, a subthreshold theta neuron exhibits a maximal correlation without any spectral coherence at some optimal noise intensity (i.e., occurrence of maximal correlation without any appearance of peaks in the output power spectrum). This kind of "weak" CR is in contrast to "strong" CR (i.e., occurrence of maximal correlation along with the spectral CR) occurring in the type-II excitable neuron. For the coupled case, each local neuron may be driven by a temporally coherent synaptic current occurring due to spatial coherence between neural spikings. Consequently, a strong CR may occur through the appearance of peaks in the local output power spectrum.

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“…In such a system, an interspike interval sequence is thought to give some information about the neuronal networks, and the reconstruction of the dynamical system from the interspike interval sequences was performed by several authors (Theiler et al 1992;Sauer 1994;Suzuki et al 2000;Shinohara et al 2002). Also in such a Correspondence to: T. Kanamaru (e-mail: kanamaru@sekine-lab.ei.tuat.ac.jp) situation, the effects of noise often lead to wrong results, so careful treatments would be required.…”

Section: Introductionmentioning

confidence: 99%

“…In the present paper, the nonlinear prediction method (Theiler et al 1992;Sauer 1994;Suzuki et al 2000;Shinohara et al 2002) based on the interspike interval (ISI) reconstruction is applied to noisy pulse trains, and the detection of the deterministic structure is performed in order to establish a method for the detection of chaotic structures in noisy pulse trains. Based on those results, the dynamical states of the system are discriminated.…”

Section: Introductionmentioning

confidence: 99%

Detecting chaotic structures in noisy pulse trains based on interspike interval reconstruction

Kanamaru

Sekine

2005

Biol Cybern

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The nonlinear prediction method based on the interspike interval (ISI) reconstruction is applied to the ISI sequence of noisy pulse trains and the detection of the deterministic structure is performed. It is found that this method cannot discriminate between the noisy periodic pulse train and the noisy chaotic one when noise-induced pulses exist. When the noise-induced pulses are eliminated by the grouping of ISI sequence with the genetic algorithm, the chaotic structure of the chaotic firings becomes clear, and the noisy chaotic pulse train could be discriminated from the periodic one.

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Array-enhanced coherence resonance and forced dynamics in coupled FitzHugh-Nagumo neurons with noise

Cited by 53 publications

References 29 publications

Noise induced complexity: From subthreshold oscillations to spiking in coupled excitable systems

Noise induced complexity: From subthreshold oscillations to spiking in coupled excitable systems

Coherence Resonance in Coupled Theta Neurons

Detecting chaotic structures in noisy pulse trains based on interspike interval reconstruction

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