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Maha Alammari

Associate Professor

Deapartment of Mathematics

Sciences
Building 5, 3rd Floor, office No. 36
publication
Journal Article
2026

COMPARATIVE DYNAMICAL ANALYSIS OF EXACT AND NUMERICAL SOLUTIONS FOR THE FRACTIONAL TELEGRAPH EQUATION

In this study, we investigate the fractional telegraph equation, a key nonlinear model for signal transmission, wave propagation, and complex dynamical systems in engineering. By combining the beta-derivative with M-truncated transformations, we construct exact solutions and explore their dynamical traits through the enhanced modified extended tanh-expansion and unified methods, uncovering solitary, kink, bright, and periodic structures that embody the systems nonlinearity. Finite-difference simulations accurately replicate these solutions with high fidelity, while bifurcation analysis maps stability and qualitative behaviour across the parameter space. The seamless analytical-numerical framework reveals memory- and dispersion-driven dynamics, offering a reliable platform for future nonlinear fractional modelling.

Publication Work Type
Article
Publisher Name
World Scientific Connect
Volume Number
34
Issue Number
7
Magazine \ Newspaper
Fractals
Pages
2650061 (1--24)
more of publication
publications

In this study, we investigate the fractional telegraph equation, a key nonlinear model for signal transmission, wave propagation, and complex dynamical systems in engineering.

by Han, L; Alammari, M; Abuzar, M; Akinyemi, L
2026
Published in:
World Scientific Connect
publications

A key research challenge in modern cryptography is the construction of robust nonlinear components that simultaneously achieve high nonlinearity, resistance to linear and differential…

by Sajjad, M; Alammari, M; Serna, RJ
2026
Published in:
Springer Nature Link
publications

In this paper, we investigated higher-order smooth positon and breather-positon solutions of the Kuralay equation. Starting from the associated Lax pair, we constructed an explicit N-fold Darboux…

by Alammari, M ; Yasir, M; Manukure, S
2026
Published in:
AIMS Press