A Reliable Technique for Fractional Modified Boussinesq and Approximate Long Wave Equations
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Date
2019
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Springeropen
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GOLD
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Abstract
In this paper, an efficient technique is employed to study the modified Boussinesq and approximate long wave equations of the Caputo fractional time derivative, namely the q-homotopy analysis transform method. These equations play a vital role in describing the properties of shallow water waves through distinct dispersion relation. The convergence analysis and error analysis are presented in the present investigation for the future scheme. We illustrate two examples to demonstrate the leverage and effectiveness of the proposed scheme, and the error analysis is discussed to verify the accuracy. The numerical simulation is conducted to ensure the exactness of the future technique. The obtained numerical and graphical results are presented, the proposed scheme is computationally very accurate and straightforward to study and find the solution for fractional coupled nonlinear complex phenomena arising in science and technology.
Description
Veeresha, Dr. P./0000-0002-4468-3048; D G, Prakasha/0000-0001-6453-0308
Keywords
Laplace Transform, Fractional Approximate Long Wave Equations, Fractional Modified Boussinesq Equations, Q-Homotopy Analysis Transform Method, Laplace transform, Economics, Fractional approximate long wave equations, Fractional modified Boussinesq equations, Leverage (statistics), Mathematical analysis, Quantum mechanics, Convergence Analysis of Iterative Methods for Nonlinear Equations, Differential equation, QA1-939, FOS: Mathematics, Anomalous Diffusion Modeling and Analysis, Economic growth, Scheme (mathematics), q-homotopy analysis transform method, Numerical Analysis, Physics, Mathematical optimization, Statistics, Fractional calculus, Pure mathematics, Statistical and Nonlinear Physics, Partial differential equation, Applied mathematics, Homotopy analysis method, Physics and Astronomy, Modeling and Simulation, Physical Sciences, Convergence (economics), Nonlinear system, Homotopy Analysis Method, Homotopy, Mathematics, Ordinary differential equation, Rogue Waves in Nonlinear Systems, Numerical analysis, fractional approximate long wave equations, Theoretical approximation in context of PDEs, Traveling wave solutions, Fractional derivatives and integrals, Fractional partial differential equations, fractional modified Boussinesq equations, \(q\)-homotopy analysis transform method
Fields of Science
01 natural sciences, 0103 physical sciences
Citation
Veeresha, P...et al. (2019). "A reliable technique for fractional modified Boussinesq and approximate long wave equations", Advances in Difference Equations.
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Q1
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OpenCitations Citation Count
34
Source
Advances in Difference Equations
Volume
2019
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CrossRef : 7
Scopus : 37
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