Extremely rich dynamics from hyperchaotic Hopfield neural network: Hysteretic dynamics, parallel bifurcation branches, coexistence of multiple stable states and its analog circuit implementation

被引:0
作者
Z. Tabekoueng Njitacke
Sami Doubla Isaac
J. Kengne
A. Nguomkam Negou
Gervais Dolvis Leutcho
机构
[1] College of Technology (COT),Department of Electrical and Electronic Engineering
[2] University of Buea,undefined
[3] Unité de Recherche d’Automatique et Informatique Appliquée (URAIA),undefined
[4] Department of Electrical Engineering,undefined
[5] IUT-FV Bandjoun,undefined
[6] University of Dschang,undefined
[7] Unité de Recherche de Matière Condensée,undefined
[8] d’Electronique et de Traitement du Signal (URMACETS),undefined
[9] Department of Physics,undefined
[10] University of Dschang University of Dschang,undefined
来源
The European Physical Journal Special Topics | 2020年 / 229卷
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摘要
In this work, we investigate the dynamics of a model of 4-neurons based hyperchaotic Hopfield neural network (HHNN) with a unique unstable node as a fixed point. The basic properties of the model including symmetry, dissipation, and condition of the existence of an attractor are explored. Our numerical simulations highlight several complex phenomena such as periodic orbits, quasi-periodic orbits, and chaotic and hyperchaotic orbits. More interestingly, it has been revealed several sets of synaptic weights matrix for which the HHNN studied display multiple coexisting attractors including two, three and four symmetric and disconnected attractors. Both hysteretic dynamics and parallel bifurcation branches justify the presence of these various coexisting attractors. Basins of attraction with the riddle structure of some of the coexisting attractors have been computed showing different regions in which each solution can be captured. Finally, PSpice simulations are used to further support the results of our previous analyses.
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页码:1133 / 1154
页数:21
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