Model for Coupling Scheme and its Impact on Neurons Behaviour

Afifurrahman Afifurrahman
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Abstract

Collective oscillations is typical phenomena observed in the systems biology including neurons. Investigating the mechanisms for which it occurs in neural networks evokes a significant interest among neuroscientists. From mathematical point of view, the coupling schemes rule the neuron’s behaviours ranging from microscopic to macroscopic scales. This paper aims to study the impacts of coupling schemes in a minimal network of two fully coupled identical oscillators (e.g., neurons). We proceed with the research by employing the numerical approach and time-series analysis. We consider both Kuramoto-like oscillator and Leaky integrate-and-fire neuron as the objects of study. In the former case, we found the phase of two oscillators are perfectly locked and stable if their frequency are identical, as stated by the main theorem. In the latter case, the membrane potentials of two neurons are perfectly synchronized, characterized by the same firing rate, due to the effect of excitatory delta pulses.
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耦合方案模型及其对神经元行为的影响
集体振荡是包括神经元在内的系统生物学中观察到的典型现象。研究这种现象在神经网络中发生的机制引起了神经科学家的极大兴趣。从数学的角度来看,耦合方案控制着神经元从微观到宏观的行为。本文旨在研究由两个完全耦合的相同振荡器(如神经元)组成的最小网络中耦合方案的影响。本文采用数值方法和时间序列分析方法进行研究。我们将类仓本振荡器和Leaky积分-放电神经元作为研究对象。在前一种情况下,我们发现如果两个振子的频率相同,那么它们的相位是完全锁定和稳定的,正如主要定理所述。在后一种情况下,由于兴奋性δ脉冲的作用,两个神经元的膜电位完全同步,具有相同的放电速率。
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审稿时长
16 weeks
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