An advanced computing scheme for the numerical investigations of an infection-based fractional-order nonlinear prey-predator system
The purpose of this study is to present the numerical investigations of an infection-based
fractional-order nonlinear prey-predator system (FONPPS) using the stochastic procedures …
fractional-order nonlinear prey-predator system (FONPPS) using the stochastic procedures …
Effect of external excitation on the isolated and collective dynamics of a generic FitzHugh–Rinzel neuron
J Ramadoss, CN Takembo, A Karthikeyan… - The European Physical …, 2023 - Springer
This contribution considers the isolated and collective dynamics of a FitzHugh–Rinzel (FHR)
neuron obtained by adding a third variable to the generic FitzHugh–Nagumo neural circuit …
neuron obtained by adding a third variable to the generic FitzHugh–Nagumo neural circuit …
Fractional dynamical model to assess the efficacy of facemask to the community transmission of COVID-19
IA Baba, MA Sani, BA Nasidi - Computer Methods in Biomechanics …, 2022 - Taylor & Francis
The emergence of highly contagious Alpha, Beta, Gamma and Delta variants and strains of
COVID-19 put healthy people on high risk of contracting the infection. In addition to the …
COVID-19 put healthy people on high risk of contracting the infection. In addition to the …
Chaotic dynamics analysis of double inverted pendulum with large swing angle based on Hamiltonian function
J He, L Cui, J Sun, P Huang, Y Huang - Nonlinear Dynamics, 2022 - Springer
In this paper, the chaotic dynamics of double inverted pendulum with big swing angle is
studied based on the Hamiltonian canonical equation. At the same time, since Hamiltonian …
studied based on the Hamiltonian canonical equation. At the same time, since Hamiltonian …
Initial‐Sensitive Dynamical Behaviors of a Class of Geometrically Nonlinear Oscillators
B Qin, H Shang, H Jiang - Shock and Vibration, 2022 - Wiley Online Library
The vibrating system of a class of linkage‐slider structure is considered, and its initial‐
sensitive dynamical behaviors such as safe jump, locking instability, and chaos are studied …
sensitive dynamical behaviors such as safe jump, locking instability, and chaos are studied …
Advances in systems evolution through quantum correlations within engineering applications
In this paper, we explore the dynamics of quantum correlations in an isolated physical
quantum under the influence of intrinsic coherence. We characterize the quantum …
quantum under the influence of intrinsic coherence. We characterize the quantum …
A quantum fractals theory of the pions chaos and their futuristic applications with granular sources
Higher-order correlations measured in lead collisions examined the geometrical strength as
well as the coherence–chaotic characteristics of the particles creation region. The three-and …
well as the coherence–chaotic characteristics of the particles creation region. The three-and …
A remarkable chaotic analysis for coherence fraction order with its applications
Multi-particle quantum statistical correlations measured in the collisions of heavy nuclei at
the unrivaled energies. Remarkable consequences have been observed and speculated …
the unrivaled energies. Remarkable consequences have been observed and speculated …
Extraction of system peculiarities under the influence of periodic-chaotic behavior
In this study, the analytical elucidation for a generalized rotational harmonic system that
possesses coherence and periodically excited force is reported. The methods of multiple …
possesses coherence and periodically excited force is reported. The methods of multiple …
Numerical study of duffing nonlinearity in the quantum dot embedded nanomechanical resonator
Geometry, electrostatics, and single‐electron tunneling contribute to the nonlinearity in the
quantum dot embedded nanomechanical resonator, while “Duffing term” is a kind of …
quantum dot embedded nanomechanical resonator, while “Duffing term” is a kind of …