Stochastic Evolution Model of Neuronal Oscillator Population Under the Condition of the Variable Higher Order Coupling
In the premise of analysis on the dynamic characteristics of the transmission mechanism among the synapses, this paper modified the coupling term in the P.A. Tasss stochastic evolution model of neuronal oscillator population, introducing the variable higher order coupling term. Then, we performed the numerical simulation on the modified model. The simulation results show that without the external stimulation, the variable coupling mechanism can induce the transition between different clustering states of the neuronal oscillator population. And a full desynchronization state can exist in the middle of the transition between two different synchronization states induced by the variable coupling mechanism.
Neuronal oscillator population Synchronization Variable higher order coupling Clustering Full desynchronization
Xiaodan Zhang Rubin Wang Zhikang Zhang Xianfa Jiao Jianting Cao
Institute for Cognitive Neurodynamics, East China University of Science and Technology, Shanghai 200237, China
国际会议
The Second International Conference on Cognitive Neurodynamics--2009(第二届国际认知神经动力学会议)
杭州
英文
227-232
2009-11-15(万方平台首次上网日期,不代表论文的发表时间)