串扰忆阻突触异质离散神经网络的共存放电与同步行为  

作　　者：王璇 杜健嵘[1] 李志军[2] 马铭磷[2] 李春来[1,3] Wang Xuan;Du Jian-Rong;Li Zhi-Jun;Ma Ming-Lin;Li Chun-Lai(Key Laboratory of Hunan Province on Information Photonics and Freespace Optical Communications,Hunan Institute of Science and Technology,Yueyang 414006,China;School of Computer Science&School of Cyberspace Science,Xiangtan University,Xiangtan 411105,China;School of Automation and Electronic Information,Xiangtan University,Xiangtan 411105,China)

机构地区：[1]湖南理工学院,信息光子学与空间光通信湖南省重点实验室,岳阳414006 [2]湘潭大学计算机学院·网络空间安全学院,湘潭411105 [3]湘潭大学自动化与电子信息学院,湘潭411105

出　　处：《物理学报》2024年第11期56-69,共14页Acta Physica Sinica

基　　金：湖南省自然科学基金(批准号:2020JJ4337);国家自然科学基金(批准号:62171401)资助的课题。

摘　　要：突触串扰由相邻突触间神经递质的溢出引起,对神经系统的放电特性及信号传输有着深远影响.利用两个忆阻器模拟生物神经突触,双向耦合Chialvo离散神经元和Rulkov离散神经元,并考虑耦合状态下突触间的串扰行为,构建一类忆阻突触耦合异质离散神经网络.研究分析表明,神经网络不动点的数量及稳定性依赖于突触串扰强度.同时,通过分析分岔图、相图、李雅普诺夫指数谱和时序图等发现,随着突触串扰强度的变化,神经网络表现出不同的共存放电行为.此外,基于神经元放电序列的相位差及同步因子,研究了不同耦合强度及不同系统初始条件和参数情形下,突触串扰强度对神经网络同步行为的影响.Synaptic crosstalk,which occurs due to the overflow of neurotransmitters between neighboring synapses,holds a crucial position in shaping the discharge characteristics and signal transmission within nervous systems.In this work,two memristors are employed to simulate biological neural synapses and bidirectionally coupled Chialvo discrete neuron and Rulkov discrete neuron.Thus,a heterogeneous discrete neural network with memristor-synapse coupling is constructed,with the crosstalk behavior between memristor synapses in the coupled state taken into account.The analysis demonstrates that the quantity and stability of fixed points within this neural network greatly depend on the strength of synaptic crosstalk.Additionally,through a thorough investigation of bifurcation diagrams,phase diagrams,Lyapunov exponents,and time sequences,we uncover the multi-stable state property exhibited by the neural network.This characteristic manifests as the coexistence of diverse discharge behaviors,which significantly change with the intensity of synaptic crosstalk.Interestingly,the introduction of control parameter into state variables can lead the bias to increase,and also the infinite stable states to occur in the neural network.Furthermore,we comprehensively study the influence of synaptic crosstalk strength on the synchronization behavior of the neural network,with consideration of various coupling strengths,initial conditions,and parameters.Our analysis,which is based on the phase difference and synchronization factor of neuronal discharge sequences,reveales that the neural network maintains phase synchronization despite the variations of the two crosstalk strengths.The insights gained from this work provide important support for elucidating the electrophysiological mechanisms behind the processing and transmission of biological neural information.Especially,the coexisting discharge phenomenon in the neural network provides an electrophysiological theoretical foundation for the clinical symptoms and diagnosis of the same neurol

关 键 词：忆阻器 异质离散神经网络 突触串扰 共存放电 相位同步 

分 类 号：R74[医药卫生—神经病学与精神病学]