On the higher-order smallest ring star network of Chialvo neurons under diffusive couplings

arXiv - PHYS - Chaotic Dynamics Pub Date : 2024-05-09 DOI:arxiv-2405.06000

Anjana S. Nair, Indranil Ghosh, Hammed O. Fatoyinbo, Sishu S. Muni

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Abstract

We put forward the dynamical study of a novel higher-order small network of Chialvo neurons arranged in a ring-star topology, with the neurons interacting via linear diffusive couplings. This model is perceived to imitate the nonlinear dynamical properties exhibited by a realistic nervous system where the neurons transfer information through higher-order multi-body interactions. We first analyze our model using the tools from nonlinear dynamics literature: fixed point analysis, Jacobian matrix, and bifurcation patterns. We observe the coexistence of chaotic attractors, and also an intriguing route to chaos starting from a fixed point, to period-doubling, to cyclic quasiperiodic closed invariant curves, to ultimately chaos. We numerically observe the existence of codimension-1 bifurcation patterns: saddle-node, period-doubling, and Neimark Sacker. We also qualitatively study the typical phase portraits of the system and numerically quantify chaos and complexity using the 0-1 test and sample entropy measure respectively. Finally, we study the collective behavior of the neurons in terms of two synchronization measures: the cross-correlation coefficient, and the Kuramoto order parameter.

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论扩散耦合下的奇亚尔沃神经元高阶最小环星网络

我们提出了一个新颖的高阶小型基亚尔沃神经元网络的动力学研究，该网络以环状星形拓扑结构排列，神经元之间通过线性扩散耦合相互作用。我们首先利用非线性动力学文献中的工具：定点分析、雅各布矩阵和分岔模式分析了我们的模型。我们观察到混沌吸引子的共存，以及从定点到周期加倍、到循环准周期封闭不变曲线、到最终混沌的奇妙路径。我们从数值上观察到了二维-1 分岔模式的存在：鞍节点、周期加倍和 NeimarkSacker。我们还定性地研究了系统的典型相位图，并分别使用 0-1 检验和样本熵度量对混沌和复杂性进行了数值量化。最后，我们用两个同步度量：交叉相关系数和仓本阶参数来研究神经元的集体行为。

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arXiv - PHYS - Chaotic Dynamics

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