Infinitely many coexisting hidden attractors in a new hyperbolic-type memristor-based HNN

In this article, a new model of Hopfield Neural Network (HNN) with two neurons considering a synaptic weight with a hyperbolic-type memristor is studied. Equilibrium points analysis shows that the system has an unstable line of equilibrium in the absence of the external stimuli (i.e. I 1 = 0 ) and p...

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Published in	The European physical journal. ST, Special topics Vol. 231; no. 11-12; pp. 2371 - 2385
Main Authors	Doubla, Isaac Sami, Ramakrishnan, Balamurali, Tabekoueng, Zeric Njitacke, Kengne, Jacques, Rajagopal, Karthikeyan
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.08.2022 Springer Nature B.V
Subjects	Analog circuits Analog computers Atomic Attractors (mathematics) Bifurcation Delay and Multi Stability in Complex Nonlinear Systems Bifurcations Bursting Oscillations Chaos theory Circuit design Circuits Classical and Continuum Physics Condensed Matter Physics Electronic circuits Equilibrium Liapunov exponents Materials Science Measurement Science and Instrumentation Memristors Molecular Neural networks Optical and Plasma Physics Period doubling Physics Physics and Astronomy Regular Article Stimuli
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Abstract	In this article, a new model of Hopfield Neural Network (HNN) with two neurons considering a synaptic weight with a hyperbolic-type memristor is studied. Equilibrium points analysis shows that the system has an unstable line of equilibrium in the absence of the external stimuli (i.e. I 1 = 0 ) and presents no equilibrium point in the presence of the external stimuli (i.e. I 1 ≠ 0 ) ; hence the model admits hidden attractors. Analyses are carried out for both cases I 1 = 0 and I 1 ≠ 0 using appropriate tools (bifurcation diagrams and the Lyapunov exponents, phase portraits, etc.). For both modes of operations, the system exhibits complex homogeneous and heterogeneous bifurcations, respectively marked by a large number of coexisting attractors. The roads to chaos unfold in the same scenario of period doubling. The Hamiltonian plot for the case I 1 = 0 allows us to observe an increase in the energy of the neuronal structure when it migrates from regular oscillations to irregular ones. Moreover, the existence of infinitely many coexisting homogeneous solutions (chaotic or periodic) is revealed for case I 1 = 0 . In contrast, for I 1 ≠ 0 (i.e I 1 = 0.1 ) the new model presents infinitely many coexisting hidden heterogeneous attractors (periodic and chaotic). An electronic circuit design of the new hyperbolic memristor enables the analog computer of the whole system to be designed for future engineering applications. Simulation results based on this analog computer in PSpice confirm those of the numerical investigations.
AbstractList	In this article, a new model of Hopfield Neural Network (HNN) with two neurons considering a synaptic weight with a hyperbolic-type memristor is studied. Equilibrium points analysis shows that the system has an unstable line of equilibrium in the absence of the external stimuli (i.e. I1=0) and presents no equilibrium point in the presence of the external stimuli (i.e. I1≠0); hence the model admits hidden attractors. Analyses are carried out for both cases I1=0 and I1≠0 using appropriate tools (bifurcation diagrams and the Lyapunov exponents, phase portraits, etc.). For both modes of operations, the system exhibits complex homogeneous and heterogeneous bifurcations, respectively marked by a large number of coexisting attractors. The roads to chaos unfold in the same scenario of period doubling. The Hamiltonian plot for the case I1=0 allows us to observe an increase in the energy of the neuronal structure when it migrates from regular oscillations to irregular ones. Moreover, the existence of infinitely many coexisting homogeneous solutions (chaotic or periodic) is revealed for case I1=0. In contrast, for I1≠0 (i.e I1=0.1) the new model presents infinitely many coexisting hidden heterogeneous attractors (periodic and chaotic). An electronic circuit design of the new hyperbolic memristor enables the analog computer of the whole system to be designed for future engineering applications. Simulation results based on this analog computer in PSpice confirm those of the numerical investigations. In this article, a new model of Hopfield Neural Network (HNN) with two neurons considering a synaptic weight with a hyperbolic-type memristor is studied. Equilibrium points analysis shows that the system has an unstable line of equilibrium in the absence of the external stimuli (i.e. I 1 = 0 ) and presents no equilibrium point in the presence of the external stimuli (i.e. I 1 ≠ 0 ) ; hence the model admits hidden attractors. Analyses are carried out for both cases I 1 = 0 and I 1 ≠ 0 using appropriate tools (bifurcation diagrams and the Lyapunov exponents, phase portraits, etc.). For both modes of operations, the system exhibits complex homogeneous and heterogeneous bifurcations, respectively marked by a large number of coexisting attractors. The roads to chaos unfold in the same scenario of period doubling. The Hamiltonian plot for the case I 1 = 0 allows us to observe an increase in the energy of the neuronal structure when it migrates from regular oscillations to irregular ones. Moreover, the existence of infinitely many coexisting homogeneous solutions (chaotic or periodic) is revealed for case I 1 = 0 . In contrast, for I 1 ≠ 0 (i.e I 1 = 0.1 ) the new model presents infinitely many coexisting hidden heterogeneous attractors (periodic and chaotic). An electronic circuit design of the new hyperbolic memristor enables the analog computer of the whole system to be designed for future engineering applications. Simulation results based on this analog computer in PSpice confirm those of the numerical investigations.
Author	Kengne, Jacques Rajagopal, Karthikeyan Tabekoueng, Zeric Njitacke Ramakrishnan, Balamurali Doubla, Isaac Sami
Author_xml	– sequence: 1 givenname: Isaac Sami surname: Doubla fullname: Doubla, Isaac Sami organization: Research Unit of Automation and Applied Computer (URAIA), Electrical Engineering Department of IUT-FV, University of Dschang, Research Unit of Condensed Matter, Electronics and Signal Processing (UR-MACETS) Department of Physics, Faculty of Sciences, University of Dschang – sequence: 2 givenname: Balamurali surname: Ramakrishnan fullname: Ramakrishnan, Balamurali organization: Center for Nonlinear Systems, Chennai Institute of Technology – sequence: 3 givenname: Zeric Njitacke surname: Tabekoueng fullname: Tabekoueng, Zeric Njitacke organization: Department of Electrical and Electronic Engineering, College of Technology (COT), University of Buea – sequence: 4 givenname: Jacques surname: Kengne fullname: Kengne, Jacques organization: Research Unit of Automation and Applied Computer (URAIA), Electrical Engineering Department of IUT-FV, University of Dschang – sequence: 5 givenname: Karthikeyan surname: Rajagopal fullname: Rajagopal, Karthikeyan organization: Center for Nonlinear Systems, Chennai Institute of Technology
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Snippet	In this article, a new model of Hopfield Neural Network (HNN) with two neurons considering a synaptic weight with a hyperbolic-type memristor is studied....
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SubjectTerms	Analog circuits Analog computers Atomic Attractors (mathematics) Bifurcation Delay and Multi Stability in Complex Nonlinear Systems Bifurcations Bursting Oscillations Chaos theory Circuit design Circuits Classical and Continuum Physics Condensed Matter Physics Electronic circuits Equilibrium Liapunov exponents Materials Science Measurement Science and Instrumentation Memristors Molecular Neural networks Optical and Plasma Physics Period doubling Physics Physics and Astronomy Regular Article Stimuli
Title	Infinitely many coexisting hidden attractors in a new hyperbolic-type memristor-based HNN
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