Hasanen A. Hammad | Functional Analysis | Best Researcher Award

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Assoc. Prof. Dr. Hasanen A. Hammad | Functional Analysis | Best Researcher Award

Qassim University-Sohag University | Saudi Arabia

Assoc. Prof. Dr. Hasanen A. Hammad is a distinguished mathematician specializing in Functional Analysis, currently serving at the Department of Mathematics, Sohag University, Egypt, and the College of Science and Arts, Qassim University, Saudi Arabia. He earned his Ph.D. (2018), M.Sc. (2015), and B.Sc. (2010, with honors) in Mathematics from Sohag University. With a prolific academic record, Dr. Hammad has published 149 research papers, accumulating 1,157 citations and achieving an h-index of 29 (Scopus). His research focuses on fixed point theory, fractional calculus, differential equations, variational inequalities, and nonlinear functional analysis, contributing significantly to the advancement of mathematical modeling and its applications. He actively serves as a reviewer and editor for prestigious journals, including AIMS Mathematics, Mathematics, Fractal and Fractional, and Journal of Computational and Applied Mathematics. Dr. Hammad has supervised and evaluated doctoral and master’s theses, and his recent works explore advanced fractional differential systems and stability analysis techniques. Recognized for his dedication to scientific excellence and peer review, he continues to foster international collaborations and mentor young researchers. His contributions underscore his commitment to innovation and the practical impact of mathematical sciences in solving complex theoretical and applied problems.

Profiles : Orcid | Scopus | Google Scholar

Featured Publications

Hammad, H.A., Aboelenen, T., & Abdalla, M.E.M. (2025). Optimal control and controllability theorems for impulsive Hilfer fractional integro-differential inclusions with numerical applications. Ain Shams Engineering Journal.

Hammad, H.A. & De la Sen, M. (2025). Existence and stability analysis of fractional differential quasi-variational inequalities with illustrative applications. Advances in Continuous and Discrete Models.

Hammad, H.A., Liu, Z., & Abdalla, M.E.M. (2025). Existence and stability results of f-Caputo modified proportional fractional delay differential systems with boundary conditions. Boundary Value Problems.

Hammad, H.A., Dafaalla, M.E., & Abdalla, M.E.M. (2025). Creating a novel algorithm for studying the strong convergence to a sequence with applications. PLOS ONE.

Hammad, H.A., Abdeljawad, T., & De la Sen, M. (2025). Solving nonlinear fractional equations and some related integral equations under a measure of noncompactness. Computational and Applied Mathematics.

Anna McAllister – Mathematical Modelling – Best Researcher Award

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Ms. Anna McAllister - Mathematical Modelling - Best Researcher Award 

Ulster University - United Kingdom

Author Profile

Early Academic Pursuits

Ms. Anna McAllister's academic journey began with a solid foundation in mathematics. Graduating with a Master's degree in Mathematics from Ulster University in 2020, she transitioned seamlessly into a Ph.D. program, delving into the realm of Mathematical Modelling with a focus on Chaotic Dynamics within Predator-Prey systems. This academic trajectory showcased her early commitment to rigorous mathematical inquiry and laid the groundwork for her subsequent professional endeavors.

Professional Endeavors

Throughout her academic pursuits, McAllister has demonstrated a remarkable dedication to her field, marked by a series of achievements and contributions. Her research interests led her to explore unconventional methods for detecting chaotic dynamics in large predator-prey models, moving beyond traditional techniques like the Lyapunov spectrum. Her investigations into the application of the Hurst exponent, typically utilized in the financial sector, have offered novel insights into the detection of chaos within complex systems.

Moreover, McAllister's involvement in numerous conferences, including presentations at esteemed gatherings such as the International Society of Ecological Modelling Conference and the British Applied Mathematics Colloquium, underscores her commitment to disseminating her research findings and engaging with the broader academic community. Her willingness to share her work at various university events further reflects her dedication to fostering academic discourse and collaboration.

Contributions and Research Focus

Ms. McAllister's research contributions extend beyond traditional boundaries, incorporating interdisciplinary approaches to tackle complex ecological phenomena. By leveraging machine learning techniques within ecological modeling, she has pushed the boundaries of traditional methodologies, offering innovative solutions for detecting chaotic dynamics in ecological systems. Her focus on predator-prey models highlights the critical importance of understanding the dynamics of natural ecosystems and the potential implications for conservation and management efforts.

Accolades and Recognition

Ms. McAllister's contributions have not gone unnoticed within the academic community. Her prolific publication record, including multiple peer-reviewed papers and conference presentations, speaks to the significance and impact of her research. Moreover, her active involvement in editorial appointments and collaborative activities further underscores her reputation as a respected scholar within her field.

Impact and Influence

Ms. McAllister's research has the potential to catalyze significant advancements in the field of ecological modeling and dynamics. By developing novel methods for detecting chaotic behavior in ecological systems, her work has practical implications for understanding and predicting the behavior of complex ecosystems. The ability to anticipate potential collapses or disruptions within predator-prey dynamics can inform more effective conservation strategies and ecosystem management practices.

Legacy and Future Contributions

As McAllister continues to pursue her academic and research endeavors, her legacy is poised to leave a lasting impact on the field of mathematical ecology. Her innovative approaches to modeling and detecting chaotic dynamics represent a paradigm shift in ecological research, opening new avenues for exploration and discovery. Moving forward, her commitment to interdisciplinary collaboration and knowledge dissemination will undoubtedly shape the future trajectory of ecological modeling and dynamics.

In conclusion, Anna McAllister's journey from early academic pursuits to her current standing as a leading researcher in mathematical ecology exemplifies a dedication to excellence, innovation, and interdisciplinary collaboration. Her contributions have not only advanced our understanding of complex ecological systems but also paved the way for future generations of researchers to build upon her pioneering work.

Notable Publication