Synchronization of stochastic hybrid oscillators driven by a common switching environment

Bressloff, Paul C.; MacLaurin, James

doi:10.1063/1.5054795

Cited by 6 publications

(1 citation statement)

References 48 publications

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“…The benefit of using γ t is that the leading order of the drift of dγ t does not depend on the amplitude v t . γ t is an analog of the isochronal phase used in the phase reduction of finite-dimensional oscillators [34,19].…”

Section: Isochronal Phasementioning

confidence: 99%

Metastability of Waves and Patterns Subject to Spatially-Extended Noise

MacLaurin

2020

Preprint

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In this paper we present a general framework in which one can rigorously study the effect of spatio-temporal noise on traveling waves, stationary patterns and oscillations that are invariant under the action of a finite-dimensional set of continuous isometries (such as translation or rotation). This formalism can accommodate patterns, waves and oscillations in reactiondiffusion systems and neural field equations. To do this, we define the phase by precisely projecting the infinite-dimensional system onto the manifold of isometries. Two differing types of stochastic phase dynamics are defined: (i) a variational phase, obtained by insisting that the difference between the projection and the original solution is orthogonal to the nondecaying eigenmodes, and (ii) an isochronal phase, defined as the limiting point on manifold obtained by taking t → ∞ in the absence of noise. We outline precise stochastic differential equations for both types of phase. The variational phase SDE is then used to show that the probability of the system leaving the attracting basin of the manifold after an exponentially long period of time (in ǫ −2 , the magnitude of the noise) is exponentially unlikely. In the case that the manifold is periodic (such as for spiral waves, spatially-distributed oscillations, or neural-field phenomena on a compact domain), the isochronal phase SDE is used to determine asymptotic limits for the average occupation times of the phase as it wanders in the basin of attraction of the manifold over very long times. In particular, we find that frequently the correlation structure of the noise biases the wandering in a particular direction, such that the noise induces a slow oscillation that would not be present in the absence of noise.

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Section: Isochronal Phasementioning

confidence: 99%

Metastability of Waves and Patterns Subject to Spatially-Extended Noise

MacLaurin

2020

Preprint

Self Cite

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Wandering bumps in a stochastic neural field: A variational approach

MacLaurin

Bressloff

2020

Physica D: Nonlinear Phenomena

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Controllability of heterogeneous multiagent systems with two-time-scale feature

Long

Wang

et al. 2019

Chaos: An Interdisciplinary Journal of Nonlinear Science

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In this paper, we investigate the controllability problems for heterogeneous multiagent systems (MASs) with two-time-scale feature under fixed topology. Firstly, the heterogeneous two-time-scale MASs are modeled by singular perturbation system with a singular perturbation parameter, which distinguishes fast and slow subsystems evolving on two different time scales. Due to the ill-posedness problems caused by the singular perturbation parameter, we analyze the two-time-scale MASs via the singular perturbation method, instead of the general methods. Then, we split the heterogeneous two-time-scale MASs into slow and fast subsystems to eliminate the singular perturbation parameter. Subsequently, according to the matrix theory and the graph theory, we propose some necessary/sufficient criteria for the controllability of the heterogeneous two-time-scale MASs. Lastly, we give some simulation and numerical examples to demonstrate the effectiveness of the proposed theoretical results.

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Synchronization of stochastic hybrid oscillators driven by a common switching environment

Cited by 6 publications

References 48 publications

Metastability of Waves and Patterns Subject to Spatially-Extended Noise

Metastability of Waves and Patterns Subject to Spatially-Extended Noise

Wandering bumps in a stochastic neural field: A variational approach

Controllability of heterogeneous multiagent systems with two-time-scale feature

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