Abstract
The fractional coupled Konno-Onno model, which is frequently used in numerous fields of scientific and engineering disciplines, is being investigated in the current study in order to gain an understanding of complex phenomena and systems. The two main goals of this study are to be accomplished. Firstly, the research aims to identify novel solitons for the fractional coupled Konno-Onno model using the unified technique, which is currently absent from the literature. Secondly, a novel strategy that hasn’t been previously investigated is phase portrait analysis for both perturbed and non-perturbed dynamical systems. The current study uses appropriate parametric values in phase plane analysis, 2D, 3D, and density plots to ensure the results are physically compatible. The results validate the claim that the technique used in this research to produce complete and uniform responses is not only simple to use and effective, but also substantially faster in computing. The technique is useful for resolving more complex phenomena that arise in engineering and mathematical physics.
Funder
Deanship of Scientific Research, King Khalid University
Publisher
Public Library of Science (PLoS)
Reference34 articles.
1. A new computational approach for solving nonlinear local fractional PDEs;XJ Yang;Journal of Computational and Applied Mathematics,2018
2. Exact solution of Klein Gordon equation via homotopy perturbation Sumudu transform method;S Rubab;International Journal of Hybrid Information Technology,2014
3. A review of the Adomian decomposition method and its applications to fractional differential equations;JS Duan;Communications in Fractional Calculus,2012
4. On the dynamics: existence of chaos and symmetry in Krause and Robert (KR) flow;A Azam;Soft Computing,2021
5. Effect of bacterial memory dependent growth by using fractional derivatives reaction-diffusion chemotactic model;SZ Rida;Journal of Statistical Physics,2010
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