Prof. Dr. Mohamed Adel | Mathematical Modelling | Best Researcher Award
Professor | Islamic University of Madinah | Saudi Arabia
Dr. [Full Name] is a distinguished mathematician specializing in numerical analysis, fractional calculus, and applied mathematics, currently serving as a Full Professor in the Mathematics Department at Cairo University while also holding an Associate Professorship at the Islamic University of Madinah, KSA. His academic journey began with a Ph.D. from Cairo University in the Mathematics Department, where his dissertation focused on numerical studies for anomalous sub-diffusion equations under the guidance of eminent international examiners including Prof. Jie Shen from Purdue University and Prof. Fawang Liu from Queensland University of Technology. Prior to this, he earned an M.Sc. from Cairo University, concentrating on fractional order differential and integro-differential equations, establishing a solid foundation in advanced mathematical modeling and computational methods. Over the course of his career, he has held numerous academic positions, including Assistant Lecturer and Demonstrator at Cairo University, and Adjunct Assistant Professorships at prestigious institutions such as the American University in Cairo, The German University in Cairo, and The British University in Egypt, contributing to teaching, curriculum development, and research supervision across mathematics and engineering faculties. He has made significant contributions to the study of numerical methods for fractional differential equations, anomalous diffusion processes, and computational solutions for complex applied problems, mentoring graduate students and supervising research projects, and consistently bridging theoretical developments with practical applications. His extensive publication record demonstrates expertise in fractional calculus, numerical simulations, and applied mathematics, reflecting both depth and breadth in his research, and establishing him as a leading scholar and mentor in the field, recognized internationally for his contributions to numerical studies, computational modeling, and mathematical problem solving, with a commitment to advancing mathematical sciences education and research across interdisciplinary domains.
Featured Publications:
Viscous and thermal effects on wave propagation in a micropolar viscothermoelastic medium with impedance considerations. Scientific Reports.
Modeling and numerical simulation of Maxwell nanofluid flow with heat generation and convective heating: A combined Adomian decomposition method and Mohand transform. Boundary Value Problems.
Fractional heat conduction with variable thermal conductivity in rotating hydro-semiconductors. Scientific Reports.
Approximate solutions based on fractional Bernoulli functions for crossover Lumpy Skin Disease model. Mathematical Methods in the Applied Sciences.
Optimized numerical solutions for a certain fractional dynamic systems using generalized Laguerre collocation technique. International Journal of Dynamics and Control.
Fractional and nonlocal modeling of photoacoustic plane waves in multi-temperature semiconductor media. Rendiconti Lincei.
Numerical investigation to the full URE equations via predictor-corrector scheme. Journal of Low Frequency Noise Vibration and Active Control.
Optoelectronic application of Chebyshev spectral collocation method for solving the MHD nanofluid flow and heat transfer induced by a convectively heated stretching sheet. European Physical Journal Special Topics.
A laser pulses effect on hydrodynamic semiconductor medium subject to external magnetic field. Journal of Vibration Engineering and Technologies.