M
Mohamed S. Osman
Researcher at Cairo University
Publications - 186
Citations - 7633
Mohamed S. Osman is an academic researcher from Cairo University. The author has contributed to research in topics: Nonlinear system & Soliton. The author has an hindex of 47, co-authored 138 publications receiving 4486 citations. Previous affiliations of Mohamed S. Osman include University of Tabuk & Umm al-Qura University.
Papers
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A solution to the optimal power flow using genetic algorithm
TL;DR: The main goal of this paper is to verify the viability of using genetic algorithm to solve the OPF problem simultaneously composed by the load flow and the economic dispatch problem.
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One-soliton shaping and inelastic collision between double solitons in the fifth-order variable-coefficient Sawada–Kotera equation
TL;DR: In this article, a single-and double-soliton rational solution for the VcSK model is presented. But the model is not considered in this paper, as the authors assume that the velocity, the amplitude and the shape of the wave cannot be affected by variable coefficients, and there is an inelastic collision (the collision that makes change in amplitude of the soliton waves and shifts in their trajectories).
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The unified method for conformable time fractional Schro¨dinger equation with perturbation terms
TL;DR: In this article, a unified method to the conformable time fractional non linear Schr o ¾ dinger equation with perturbation terms is presented, where the predicted solutions in finite series forms of various functions satisfying some particular ODEs are substituted into the reduced form of the governing equation.
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A wavelet based numerical scheme for fractional order SEIR epidemic of measles by using Genocchi polynomials
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A chaos study of tumor and effector cells in fractional tumor-immune model for cancer treatment
Sunil Kumar,Ajay Kumar,Bessem Samet,José Francisco Gómez-Aguilar,Mohamed S. Osman,Mohamed S. Osman +5 more
TL;DR: This paper analyses the existence and uniqueness of given tumor-immune model of arbitrary order, and examines the interactions among distinct tumor cell inhabitants and immune structure through a model of real world problem of medical science.