Dynamics of Delayed Memristive Systems in Combination Chaotic Circuits

Adelakun, O. A.; Ogunjo, Samuel; Fuwape, I. A.

doi:10.1007/978-3-319-51724-7_19

Cited by 5 publications

(4 citation statements)

References 32 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The different synchronization techniques include active control, backstepping control, Open plus close loop [43]. Synchronization can involve two [46], and three or more systems [3]. Furthermore, synchronization can be between systems of different dimensions either as reduced [47] or increased order [48].…”

Section: Introductionmentioning

confidence: 99%

Active control and electronic simulation of a novel fractional order chaotic jerk system

Adelakun,

Ogunjo

2024

Communications in Nonlinear Science and Numerical Simulation

View full text Add to dashboard Cite

Section: Introductionmentioning

confidence: 99%

Active control and electronic simulation of a novel fractional order chaotic jerk system

Adelakun,

Ogunjo

2024

Communications in Nonlinear Science and Numerical Simulation

View full text Add to dashboard Cite

Section: Introductionmentioning

confidence: 99%

Active Control and Electronic Simulation of a Novel Fractional Order Chaotic Jerk System

Adelakun

Ogunjo

2022

Preprint

View full text Add to dashboard Cite

he chaotic jerk system represents a class of nonlinear systems with unique, varied, and interesting characteristics and behaviour. In this study, we proposed a modified fractional-order chaotic Jerk system by the introduction of two novel nonlinear terms and two constant terms. The nonlinear terms introduced are the exponential and tangential functions while the two parameters are a and b. Stability analysis of the fractional-order Jerk system was used to establish the parameter ranges for chaotic behaviour in the system. Chaos in the system was confirmed via the Lyapunov exponents. The bifurcation diagram with respect to the parameters, a and b, as well as the fractional order, α were examined. The synchronization of the system was implemented using the active control method. Finally, the studied novel circuit was realized using analog components for experimental validation.

show abstract

“…Synchronization phenomenon is one of the most exciting behaviour of coupled nonlinear dynamical systems due to its significant and relevant applications in physical, chemical, biological and complex systems in general [Strogatz, 1994;Alligood et al, 1997;Njah and Ojo, 2010;Ma et al, 2012;Okpabi et al, 2017;Tong et al, 2016]. Several types of synchronization [Rosenblum et al, 1997;Pecora and Carroll, 1990;Ojo et al, 2016a;Ojo et al, 2011;Ojo et al, 2013b;Gasri et al, 2018], methods of synchronization [Yang, 2012;Njah, 2011;Lu et al, 2013;Ojo et al, 2013a;Adegoke et al, 2013;Yang, 2012], and schemes [Ouannas, 2014;Zhang and Deng, 2014;Dongmo et al, 2018;Ojo et al, 2016b;Yu et al, 2013;Adelakun et al, 2017] have been developed in order to obtain most efficient applications of synchronization to natural and artificial systems. The search for the best coupling techniques to achieve excellent synchronization efficiency has led to the discovery of different coupling techniques such as unidirectional coupling [Adelakun et al, 2014;Rulkov et al, 1995;Ojo et al, 2013c], bidirectional coupling [Kumar et al, 2016;Khan and Poria, 2012], cross coupling [Zhang and Deng, 2014;Mengfei et al, 2015], cyclic coupling [Bera et al, 2016;Olusola et al, 2013;Egunjobi et al, 2018] and others [Liu et al, 2011;Iqbal et al, 2018;Belykh et al, 2005;…”

Section: Introductionmentioning

confidence: 99%

Synchronization of cyclic coupled hyperchaotic systems and its circuit implementation

Ojo

Adelakun

Egunjobi³

et al. 2019

CAP

View full text Add to dashboard Cite

Most of the available research works on cyclic coupling of chaotic systems focussed on either analytical and numerical results or numerical and experimental results. This research paper, investigates synchronization of two cyclic coupled hyperchaotic systems using analytical, numerical and experimental techniques. Based on Routh-Hurwitz criterion, analytical condition for stable synchronization of the hyperchaotic systems are derived. The results obtained from MultiSIM and analog circuit confirm the effectiveness and feasibility of the analytical results. It is worthy of note that the cyclic coupling synchronization scheme gives several synchronization options, save synchronization time and cost. Moreover, cyclic coupling synchronization scheme has potential applications in biological information transmission networks.

show abstract

Dynamics of Delayed Memristive Systems in Combination Chaotic Circuits

Cited by 5 publications

References 32 publications

Active control and electronic simulation of a novel fractional order chaotic jerk system

Active control and electronic simulation of a novel fractional order chaotic jerk system

Active Control and Electronic Simulation of a Novel Fractional Order Chaotic Jerk System

Synchronization of cyclic coupled hyperchaotic systems and its circuit implementation

Contact Info

Product

Resources

About