Numerical, electronic simulations and experimental analysis of a no-equilibrium point chaotic circuit with offset boosting and partial amplitude control

被引:0
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作者
Justin Roger Mboupda Pone
Victor Kamdoum Tamba
Guillaume Honore Kom
Mathieu Jean Pierre Pesdjock
Alain Tiedeu
Martin Kom
机构
[1] University of Dschang,Research Unit of Automation and Applied Computer (RU
[2] University of Yaoundé I,AIA), Electrical Engineering Department of IUT
[3] University of Dschang,FV
[4] ENSET Ebolowa,Laboratoire de Genie Electrique, Mecatronique et Traitement du Signal (LGEMTS), Electrical Engineering Department of National Advanced School of Engineering, ENSP
来源
SN Applied Sciences | 2019年 / 1卷
关键词
Chaotic circuit; Antimonotonicity; Chaotic hidden bubble attractors; Offset boosting and partial amplitude control; PSIM analog simulations; Laboratory electronic experiments;
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摘要
This paper investigates numerically and experimentally an electronic circuit modelling the dynamics of a system without equilibrium point recently introduced by Shahzad et al. (Eur Phys J Spec Top 224:1637–1652, 2015). By varying the parameters of the electronic circuit, new behaviors are found including antimonotonicity, chaotic bistable hidden attractors, chaotic bubble hidden attractors, offset boosting and partial amplitude control. Another outcome of this paper is the forward and reversed interior crisis features found in a chaotic circuit without equilibrium point. Laboratory experiments and PSIM simulations are carried out to confirm results predicted by numerical simulations.
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