Xiaojuan Sun scite author profile

Spatial coherence resonance in a spatially extended system that is locally modeled by Hodgkin-Huxley (HH) neurons is studied in this paper. We focus on the ability of additive temporally and spatially uncorrelated Gaussian noise to extract a particular spatial frequency of excitatory waves in the medium, whereby examining the impact of diffusive and small-world network topology that determines the interactions amongst coupled HH neurons. We show that there exists an intermediate noise intensity that is able to extract a characteristic spatial frequency of the system in a resonant manner provided the latter is diffusively coupled, thus indicating the existence of spatial coherence resonance. However, as the diffusive topology of the medium is relaxed via the introduction of shortcut links introducing small-world properties amongst coupled HH neurons, the ability of additive Gaussian noise to evoke ordered excitatory waves deteriorates rather spectacularly, leading to the decoherence of the spatial dynamics and with it related absence of spatial coherence resonance. In particular, already a minute fraction of shortcut links suffices to substantially disrupt coherent pattern formation in the examined system.

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Nonnegative least-squares truncated singular value decomposition to particle size distribution inversion from dynamic light scattering data

Zhu

Shen

Liu

et al. 2010

Appl. Opt.

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The weak symmetry relationship between the relative error and solution norm holds in our developed nonnegative least-squares truncated singular value decomposition method. By using this relationship to specify the optimal regularization parameters, we applied the proposed algorithm to recover particle size distribution from dynamic light scattering (DLS) data. Simulated results and experimental validity demonstrate that the proposed method, which compliments the CONTIN algorithm, might serve as a powerful and simple approach to the inverse problem in DLS.

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Synchronization transitions induced by partial time delay in a excitatory–inhibitory coupled neuronal network

Sun

Guo-Fang

2017

Nonlinear Dyn

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Effects of partial time delays on phase synchronization in Watts-Strogatz small-world neuronal networks

Sun

Perc

Kurths

2017

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In this paper, we study effects of partial time delays on phase synchronization in Watts-Strogatz small-world neuronal networks. Our focus is on the impact of two parameters, namely the time delay τ and the probability of partial time delay p, whereby the latter determines the probability with which a connection between two neurons is delayed. Our research reveals that partial time delays significantly affect phase synchronization in this system. In particular, partial time delays can either enhance or decrease phase synchronization and induce synchronization transitions with changes in the mean firing rate of neurons, as well as induce switching between synchronized neurons with period-1 firing to synchronized neurons with period-2 firing. Moreover, in comparison to a neuronal network where all connections are delayed, we show that small partial time delay probabilities have especially different influences on phase synchronization of neuronal networks.

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Correlated noise induced spatiotemporal coherence resonance in a square lattice network

Sun

Kurths

2008

Physica A: Statistical Mechanics and its Applications

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Xiaojuan Sun

Spatial coherence resonance on diffusive and small-world networks of Hodgkin–Huxley neurons

Nonnegative least-squares truncated singular value decomposition to particle size distribution inversion from dynamic light scattering data

Synchronization transitions induced by partial time delay in a excitatory–inhibitory coupled neuronal network

Effects of partial time delays on phase synchronization in Watts-Strogatz small-world neuronal networks

Correlated noise induced spatiotemporal coherence resonance in a square lattice network

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