Chimera state in neural network with the PID coupling

Mahamat Abdoulaye Adamdine, Venceslas Nguefoue Meli, Steve J. Kongni, Thierry Njougouo, Patrick Louodop
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Abstract

This study delves into the emergence of collective behaviors within a network comprising interacting cells. Each cell integrates a fixed number of neurons governed by an activation gradient based on Hopfield's model. The intra-cell interactions among neurons are local and directed, while inter-cell connections are facilitated through a PID (Proportional-Integral-Derivative) coupling mechanism. This coupling introduces an adaptable environmental variable, influencing the network dynamics significantly. Numerical simulations employing three neurons per cell across a network of fifty cells reveal diverse dynamics, including incoherence, coherence, synchronization, chimera states, and traveling wave. These phenomena are quantitatively assessed using statistical measures such as the order parameter, strength of incoherence, and discontinuity measure. Variations of the resistive, inductive, or capacitive couplings of the inter-cell environment are explored and their effects are analysed. Furthermore, the study identifies multistability in network dynamics, characterized by the coexistence of multiple stable states for the same set of parameters but with different initial conditions. A linear augmentation strategy is employed for its control.
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带有 PID 耦合的神经网络中的嵌合体状态
本研究深入探讨了由相互作用的细胞组成的网络中出现的集体行为。每个细胞都整合了固定数量的神经元,由基于 Hopfield 模型的激活梯度控制。神经元之间的细胞内交互是局部和定向的,而细胞间的连接则通过 PID(比例-积分-派生)耦合机制来促进。这种耦合引入了一个可适应的环境变量,对网络动力学产生了重大影响。在一个由 50 个细胞组成的网络中,每个细胞有 3 个神经元,数值模拟揭示了不同的动态,包括不连贯、连贯、同步、嵌合状态和游走波。这些现象通过阶次参数、不连贯强度和不连续度量等统计量进行定量评估。研究还探讨了电池间环境的电阻耦合、电感耦合或电容耦合的变化,并分析了它们的影响。此外,研究还确定了网络动力学中的多稳定性,其特点是在相同参数集但初始条件不同的情况下,多种稳定状态并存。采用线性增强策略对其进行控制。
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