Oscillations in a Fully Connected Network of Leaky Integrate-and-Fire Neurons with a Poisson Spiking Mechanism

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-11-17 DOI:10.1007/s00332-023-09995-x
Grégory Dumont, Jacques Henry, Carmen Oana Tarniceriu
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Abstract

Understanding the mechanisms that lead to oscillatory activity in the brain is an ongoing challenge in computational neuroscience. Here, we address this issue by considering a network of excitatory neurons with Poisson spiking mechanism. In the mean-field formalism, the network’s dynamics can be successfully rendered by a nonlinear dynamical system. The stationary state of the system is computed and a perturbation analysis is performed to obtain an analytical characterization for the occurrence of instabilities. Taking into account two parameters of the neural network, namely synaptic coupling and synaptic delay, we obtain numerically the bifurcation line separating the non-oscillatory from the oscillatory regime. Moreover, our approach can be adapted to incorporate multiple interacting populations.

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具有泊松尖峰机制的漏积分-火神经元全连接网络的振荡
理解导致大脑振荡活动的机制是计算神经科学的一个持续挑战。在这里,我们通过考虑具有泊松尖峰机制的兴奋性神经元网络来解决这个问题。在平均场形式中,网络的动力学可以用非线性动力系统成功地表示。计算了系统的平稳状态,并进行了扰动分析,以获得不稳定发生的解析表征。考虑神经网络的两个参数,即突触耦合和突触延迟,我们用数值方法得到了非振荡区与振荡区之间的分岔线。此外,我们的方法可以适应多个相互作用的群体。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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