Complementary responses to mean and variance modulations in the perfect integrate-and-fire model
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Publication:843250
DOI10.1007/S00422-009-0317-6zbMath1342.92049OpenAlexW2167122391WikidataQ47816214 ScholiaQ47816214MaRDI QIDQ843250
Joanna Pressley, Todd W. Troyer
Publication date: 12 October 2009
Published in: Biological Cybernetics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00422-009-0317-6
Related Items (3)
Effect of Phase Response Curve Shape and Synaptic Driving Force on Synchronization of Coupled Neuronal Oscillators ⋮ Stability of bumps in a two-population neural-field model with quasi-power temporal kernels ⋮ The Dynamics of Integrate-and-Fire: Mean Versus Variance Modulations and Dependence on Baseline Parameters
Cites Work
- A population density approach that facilitates large-scale modeling of neural networks: Analysis and an application in orientation tuning
- Factors affecting phase synchronization in integrate-and-fire oscillators
- Dynamics of the Firing Probability of Noisy Integrate-and-Fire Neurons
- Integrate-and-Fire Neurons Driven by Correlated Stochastic Input
- Introduction to Theoretical Neurobiology
- A mathematical theory of the functional dynamics of cortical and thalamic nervous tissue
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