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Investigation of Fractional Nonlinear Regularized Long-Wave Models via Novel Techniques

Muhammad Naeem, Humaira Yasmin, Rasool Shah, Nehad Ali Shah, Kamsing Nonlaopon

2023Symmetry22 citationsDOIOpen Access PDF

Abstract

The main goal of the current work is to develop numerical approaches that use the Yang transform, the homotopy perturbation method (HPM), and the Adomian decomposition method to analyze the fractional model of the regularized long-wave equation. The shallow-water waves and ion-acoustic waves in plasma are both explained by the regularized long-wave equation. The first method combines the Yang transform with the homotopy perturbation method and He’s polynomials. In contrast, the second method combines the Yang transform with the Adomian polynomials and the decomposition method. The Caputo sense is applied to the fractional derivatives. The strategy’s effectiveness is shown by providing a variety of fractional and integer-order graphs and tables. To confirm the validity of each result, the technique was substituted into the equation. The described methods can be used to find the solutions to these kinds of equations as infinite series, and when these series are in closed form, they give the precise solution. The results support the claim that this approach is simple, strong, and efficient for obtaining exact solutions for nonlinear fractional differential equations. The method is a strong contender to contribute to the existing literature.

Topics & Concepts

Adomian decomposition methodMathematicsNonlinear systemHomotopy analysis methodFractional calculusDecomposition method (queueing theory)Series (stratigraphy)Applied mathematicsHomotopyMathematical analysisPartial differential equationPhysicsPure mathematicsDiscrete mathematicsPaleontologyQuantum mechanicsBiologyFractional Differential Equations SolutionsNonlinear Waves and SolitonsDifferential Equations and Numerical Methods
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