Analysis of Caputo-Fabrizio fractional order semi-linear parabolic equations via effective amalgamated technique

Ullah, Saif; Zulfiqar, Sana; Buhader, Anum Aish; Khan, Najeeb Alam

doi:10.1088/1402-4896/abd796

Cited by 5 publications

(2 citation statements)

References 43 publications

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“…Recent investigations have analysed the timefractional Navier-Stokes equation [39] and the SWEs [40] for bespoke systems. Many numerical schemes have been proposed for solving FDEs [41,42] as well as for those applicable to fluid simulation, e.g., the fractional Burgers equation [43], the fractional diffusion equation [44] (relevant to the incompressible Navier-Stokes equation), and the fractional parabolic differential equations [45] (relevant to vorticitystream function formulation of fluids).…”

Section: Discussionmentioning

confidence: 99%

Evaluating the Stability of Numerical Schemes for Fluid Solvers in Game Technology

Stark

Diver

2022

International Journal of Computer Games Technology

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A variety of numerical techniques have been explored to solve the shallow water equations in real-time water simulations for computer graphics applications. However, determining the stability of a numerical algorithm is a complex and involved task when a coupled set of nonlinear partial differential equations need to be solved. This paper proposes a novel and simple technique to compare the relative empirical stability of finite difference (or any grid-based scheme) algorithms by solving the inviscid Burgers’ equation to analyse their respective breaking times. To exemplify the method to evaluate numerical stability, a range of finite difference schemes is considered. The technique is effective at evaluating the relative stability of the considered schemes and demonstrates that the conservative schemes have superior stability.

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Section: Discussionmentioning

confidence: 99%

Evaluating the Stability of Numerical Schemes for Fluid Solvers in Game Technology

Stark

Diver

2022

International Journal of Computer Games Technology

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“…Some fundamental definitions of FDE are presented. Caputo's definition [35,36] has a better initial condition, so it is more appropriate. The fractional derivatives are characterized by the Caputo sense.…”

Section: Introductionmentioning

confidence: 99%

Solution of fractional order chaotic oscillator system

Salama,

S. Semary,

Hammad

2024

Benha Journal of Applied Sciences

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Mathematical and scientific fields of study that are interdisciplinary include chaos theory. chaos theory explains how there is sensitive dependence on initial conditions, meaning that small change in one state of a deterministic nonlinear system can lead to large differences in a later state. The nonvolatile meminductor and memcapacitor models are used to design a nonlinear chaotic oscillating circuit. There is a system of equations derived from chaotic oscillator which is called chaotic oscillator system. The predictor corrector method is presented by using the help of explicit Adams method and implicit Adams method. The predictor corrector method is proposed for solving a chaotic system of differential equations. A new iterative method is proved using characteristics and some fundamental definition of fractional calculus. The new iterative method is used for solving the chaotic system of fractional differential equations. The domain is divided into smaller domains, and an approximative solution for the whole domain can be obtained by solving iteratively. The simulation results are presented. Output chaotic phases are shown in figures. An analysis of the chaotic oscillator system 's stability is conducted.

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Numerical solution of distributed-order fractional Korteweg-de Vries equation via fractional Zigzag rising diagonal functions

Taghipour,

Aminikhah

2023

Numer Algor

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Analysis of Caputo-Fabrizio fractional order semi-linear parabolic equations via effective amalgamated technique

Cited by 5 publications

References 43 publications

Evaluating the Stability of Numerical Schemes for Fluid Solvers in Game Technology

Evaluating the Stability of Numerical Schemes for Fluid Solvers in Game Technology

Solution of fractional order chaotic oscillator system

Numerical solution of distributed-order fractional Korteweg-de Vries equation via fractional Zigzag rising diagonal functions

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