A Chaotic Quadratic Bistable Hyperjerk System with Hidden Attractors and a Wide Range of Sample Entropy: Impulsive Stabilization

Vijayakumar, M.; Bahramian, Alireza; Natiq, Hayder; Rajagopal, Karthikeyan; Hussain, Iqtadar

doi:10.1142/s0218127421502539

Cited by 5 publications

(3 citation statements)

References 50 publications

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“…in equation (7), the solution of the first equation is y = 0. Substituting y = 0 into the second equation, and we can obtain the solution of the second equation is x = a q /b q , y = 0.…”

Section: Equilibrium Pointmentioning

confidence: 99%

See 1 more Smart Citation

Generating rotationally hidden attractive sea via a new chaotic system with two mixed memristors

Zhou,

2023

Phys. Scr.

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In this work, a novel 3D memristive chaotic system which has an exponential function is proposed. Especially, the sum of Lyapunov exponents in the proposed system is 0. It indicates that the system can generate attractive sea not attractor. In comparison with some other 3D chaotic systems, this type of chaotic system is relatively rare. In particular, the proposed system has non-equilibrium point, and it can produce hidden sea. Furthermore, the perpetual point of the proposed system is caculated. It is considered to be potentially related to the generation of hidden dynamics. By using the dynamic analysis tool such as 0-1 test and 2D dynamical map, the dynamic behaviors with different control parameters are analyzed. And then, based on the proposed 3D chaotic system, two new system models are reconstructed. The new model can produce the rotational hidden attractive sea with different angles. DSP implementation shows the feasibility of the system for industrial applications.

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“…in equation (7), the solution of the first equation is y = 0. Substituting y = 0 into the second equation, and we can obtain the solution of the second equation is x = a q /b q , y = 0.…”

Section: Equilibrium Pointmentioning

confidence: 99%

“…Chaotic system which has no equilibrium may has the potential power to produce hidden dynamic behavior [7], and its mechanism comes from the self-excitation of the system [8]. For the chaotic system which has equilibrium points, it may have infinite number of equilibrium points [9].…”

Section: Introductionmentioning

confidence: 99%

Generating rotationally hidden attractive sea via a new chaotic system with two mixed memristors

Zhou,

2023

Phys. Scr.

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“…Moysis et al [12] introduced a novel hyperjerk system that solely utilizes the hyperbolic sine function as the nonlinear term, along with its application in an autonomous robotic system. Vijayakumar et al [13] introduced a quadratic hyperjerk system demonstrating bistable characteristics, and they explored the complexity of the system's attractors by employing sample entropy as a measure of complexity. Higazy and Hamed [14] investigated hyperjerk chaotic model in five dimensions, incorporating fractional-order derivatives and an active control approach.…”

Section: Introductionmentioning

confidence: 99%

A New Hyperjerk System With a Half Line Equilibrium: Multistability, Period Doubling Reversals, Antimonotonocity, Electronic Circuit, FPGA Design, and an Application to Image Encryption

Sambas,

Miroslav,

Vaidyanathan

et al. 2024

IEEE Access

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A hyperjerk system pertains to a dynamical system regulated by an ordinary differential equation of nth order, where n ≥ 4. The main contribution of this work is the finding of a new autonomous hyperjerk system with a half line equilibrium. The mathematical framework of the proposed hyperjerk system contains eight terms with an absolute function nonlinearity. The essential dynamic characteristics of the model are explored, encompassing analysis of equilibrium points and their stability, depiction of the phase trajectories, illustration of bifurcation patterns, and visualization of Lyapunov exponent graphs. Our finding shows that the new 4D hyperjerk system exhibits special behavior like multistability, period doubling reversals and antimonotonocity. The proposed hyperjerk system has been implemented with an electronic circuit using MultiSim 14.0. Moreover, the FPGA implementation of the proposed hyperjerk system is performed by applying two numerical methods: Forward Euler and Trapezoidal. Experimental attractors are given from an oscilloscope by using the Zybo Z7-20 FPGA development board, which are in good agreement with the MATLAB and MultiSim 14.0 simulations. Finally, based on the chaotic dynamical behavior of the proposed chaotic hyperjerk system, a new image encryption approach is proposed. The experimental outcomes of the presented encryption algorithm prove its efficiency and security.

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Hidden oscillation and chaotic sea in a novel 3d chaotic system with exponential function

Wang

2023

Nonlinear Dyn

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A Chaotic Quadratic Bistable Hyperjerk System with Hidden Attractors and a Wide Range of Sample Entropy: Impulsive Stabilization

Cited by 5 publications

References 50 publications

Generating rotationally hidden attractive sea via a new chaotic system with two mixed memristors

Generating rotationally hidden attractive sea via a new chaotic system with two mixed memristors

A New Hyperjerk System With a Half Line Equilibrium: Multistability, Period Doubling Reversals, Antimonotonocity, Electronic Circuit, FPGA Design, and an Application to Image Encryption

Hidden oscillation and chaotic sea in a novel 3d chaotic system with exponential function

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