Multiple coherence resonance induced by time-periodic coupling in stochastic Hodgkin–Huxley neuronal networks
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Publication:5264588
DOI10.1063/1.3652847zbMath1317.92012OpenAlexW2028122459WikidataQ83190261 ScholiaQ83190261MaRDI QIDQ5264588
Publication date: 27 July 2015
Published in: Chaos: An Interdisciplinary Journal of Nonlinear Science (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.3652847
Neural networks for/in biological studies, artificial life and related topics (92B20) Qualitative investigation and simulation of ordinary differential equation models (34C60)
Related Items (6)
Effects of Time-Periodic Intercoupling Strength on the Spiking Regularity of a Clustered Neuronal Network ⋮ Multiple coherence resonances and synchronization transitions by time delay in adaptive scale-free neuronal networks with spike-timing-dependent plasticity ⋮ Coherence resonance in neural networks: theory and experiments ⋮ Multiple firing coherence resonances in excitatory and inhibitory coupled neurons ⋮ Multiple coherence resonance and synchronization transitions induced by autaptic delay in Newman-Watts neuron networks ⋮ Spiking activities in chain neural network driven by channel noise with field coupling
Cites Work
- Stochastic resonance on Newman-Watts networks of Hodgkin-Huxley neurons with local periodic driving
- Stochastic resonance in neuron models
- Chaotic states in a random world: Relationship between the nonlinear differential equations of excitability and the stochastic properties of ion channels
- Channel noise and synchronization in excitable membranes
- Renormalization group analysis of the small-world network model
- Effects of small-world connectivity on noise-induced temporal and spatial order in neural media
- The dynamics of small excitable ion channel clusters
- Coherence Resonance in a Noise-Driven Excitable System
- Collective dynamics of ‘small-world’ networks
- Models of the small world.
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