Research PaperNo Access

Applications of the Homotopy-based Fourier transform method for the dynamic solutions of differential equations

Abdus Salam School of Mathematical Sciences (AS-SMS), Government College University, 68-B, Muslim Town, Lahore 54600, Pakistan

E-mail Address: jhaider@math.qau.edu.pk

E-mail Address: jamilabbashaider@gmail.com

E-mail Address: jamil@sms.edu.pk

E-mail Address: cfdnumericalsimulation@gmail.com

Corresponding author.

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Shahbaz Ahmad

https://orcid.org/0000-0002-9901-0924

Abdus Salam School of Mathematical Sciences (AS-SMS), Government College University, 68-B, Muslim Town, Lahore 54600, Pakistan

E-mail Address: shahbazahmad@sms.edu.pk

Corresponding author.

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Roobaea Alroobaea

Department of Computer Science, College of Computers and Information Technology, Taif University, P. O. Box 11099, Taif 21944, Saudi Arabia

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, and

Ibrahim E. Elseesy

Mechanical Engineering Department, College of Engineering, King Khalid University, Abha 61421, Saudi Arabia

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https://doi.org/10.1142/S0217984924504621Cited by:2 (Source: Crossref)

Abstract

This paper introduces a groundbreaking method, Homotopy-based Fourier transform, integrating Fourier transform and Homotopy perturbation for refined nonlinear problem-solving. The modification enhances solution technique efficiency, notably accelerating convergence, particularly in solving the Korteweg–de Vries equation. Demonstrating versatility, the method effectively addresses ordinary and partial differential equations, showcasing its applicability across diverse mathematical scenarios. Moreover, the approach is extended to nonlinear dynamical systems, illustrating its robustness in handling complex dynamic behaviors. This method proves especially suitable for highly nonlinear differential equations, offering an efficient and effective tool for scientists and engineers dealing with intricate mathematical models. By significantly improving convergence rates, the Homotopy-based Fourier transform stands out as a valuable asset in unraveling the complexities of nonlinear systems across various scientific and engineering applications.

Keywords:

PACS: 98.80.Jk, 04.20.Dw, 04.20Jb, 04.25.Nx, 04.30.Nk

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