Prof. Qingna Li | Mathematics | Research Excellence Award

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Prof. Qingna Li | Mathematics | Research Excellence Award

Professor | Beijing Institute of Technology | China

Prof. Qingna Li is widely recognized for her influential contributions to Mathematics, with her research consistently advancing the global understanding of optimization theory and computational methods within Mathematics. Her work integrates rigorous analytical frameworks in Mathematics with practical algorithmic design, resulting in high impact publications that strengthen interdisciplinary applications of Mathematics. She has produced an extensive body of research across leading international platforms, demonstrating strong visibility in Mathematics and sustained engagement with collaborative projects that rely heavily on mathematical modeling. Her expertise in Mathematics has supported innovative developments in optimization algorithms, numerical strategies, and data driven analytical tools that continue to influence scholars working across diverse areas connected to Mathematics. She has collaborated with multiple research groups and professional networks, further extending the societal relevance of Mathematics through contributions that support technology, engineering, and computational research communities. Her commitment to Mathematics is also reflected in her leadership within research teams and in mentoring emerging scholars who pursue advanced studies grounded in Mathematics. Her academic record highlights a strong publication profile and measurable research influence that underscores the growing global relevance of Mathematics in contemporary scientific inquiry. Google Scholar Profile Of Citations 492, h index 10, i10 index 11.

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Featured Publications


A class of derivative-free methods for large-scale nonlinear monotone equations

IMA Journal of Numerical Analysis, 2011
Cited by 193


A semismooth Newton method for support vector classification and regression

Computational Optimization and Applications, 2019
Cited by 33


An efficient augmented Lagrangian method for support vector machine

Optimization Methods and Software, 2020
Cited by 22

Assoc. Prof. Dr. Keli Zheng | Mathematics | Research Excellence Award

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Assoc. Prof. Dr. Keli Zheng | Mathematics | Research Excellence Award

Associate Professor | Northeast Forestry University | China

Assoc. Prof. Dr. Keli Zheng is a distinguished scholar whose work reflects a deep commitment to advancing mathematics through rigorous research, sustained publication activity and meaningful collaboration. With core expertise grounded in mathematics and its structural theories, the contributions of Assoc. Prof. Dr. Keli Zheng span mathematics related to Lie theory, modular Lie superalgebras, pseudo Riemannian superalgebras and mathematical physics, supported by more than thirty publications and extensive involvement in mathematics driven projects across national, provincial and institutional platforms. The research output demonstrates how mathematics can shape theoretical understanding while enabling new applications, with several studies published in respected mathematics journals and enriched by collaborations with researchers from multiple universities. Assoc. Prof. Dr. Keli Zheng has also integrated mathematics into teaching innovation by developing course materials and co authoring textbooks that strengthen mathematics education and support learners in abstract algebra and related fields. The societal impact of this work emerges from the sustained advancement of mathematics knowledge, the cultivation of young researchers and the strengthening of academic networks centered on mathematics inquiry. Through continued dedication to mathematics research, mathematics scholarship and mathematics dissemination, Assoc. Prof. Dr. Keli Zheng contributes significantly to the global development of mathematics. Scopus profile of 17 Citations, 12 Documents, 2 h index.

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Featured Publications

Dr. Muhammad Ahsan | Mathematics | Research Excellence Award

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Dr. Muhammad Ahsan | Mathematics | Research Excellence Award

Assistant Professor | University of Swabi | Pakistan

Dr. Muhammad Ahsan is a distinguished scholar in Mathematics, recognized for his influential contributions to applied Mathematics, computational Mathematics, and numerical methods. His research spans high-order wavelet collocation techniques, multi-resolution algorithms, and advanced modeling approaches that address complex challenges in science and engineering through the rigorous application of Mathematics. As an active researcher in the global Mathematics community, he has authored more than thirty peer-reviewed publications in leading international journals, demonstrating consistent excellence in theoretical and computational Mathematics. Dr. Muhammad Ahsan has built a strong reputation for advancing innovative  methodologies in Mathematics, particularly in the areas of differential equations, inverse problems, nonlinear systems, and wavelet-based numerical frameworks. His collaborative work with researchers from multiple countries reflects his commitment to expanding the frontiers of Mathematics through interdisciplinary engagement. His impactful publications, extensive citation record, and sustained research productivity underscore the importance of his contributions to applied Mathematics and strengthen the global relevance of his work. In addition to his research achievements, he has played a pivotal role in academic leadership, contributing to institutional development, departmental responsibilities, and scholarly review activities for numerous international journals in Mathematics. His mentorship of graduate and undergraduate students further reflects his dedication to nurturing the next generation of professionals in Mathematics. Through his continuous pursuit of high-quality research, dedication to international collaboration, and commitment to advancing Mathematics, Dr. Muhammad Ahsan exemplifies scholarly excellence and global academic impact. His work remains a valuable asset to the broader scientific community, reinforcing the essential role of Mathematics in addressing modern scientific and technological challenges. Scopus profile of 591 Citations, 37 Documents, 16 h-index.

Profiles: Scopus | Google Scholar

Featured Publications

1. High-order wavelet-based numerical algorithms for nonlinear singular Lane–Emden–Fowler equations: Applications to physical models in astrophysics. (2026). Astronomy and Computing.

2. A high-order Haar wavelet approach to solve differential equations of fifth-order with simple, two-point and two-point integral conditions. (2026). Applied Numerical Mathematics.

3. Enhanced resolution in solving first-order nonlinear differential equations with integral condition: A high-order wavelet approach. (2025). European Physical Journal Special Topics.

Assoc. Prof. Dr. Osama Hussein Galal | Stochastic Fluid Dynamics | Excellence in Research

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Assoc. Prof. Dr. Osama Hussein Galal | Stochastic Fluid Dynamics | Excellence in Research

Associated Professor | Fayoum University | Egypt

Assoc. Prof. Dr. Osama Hussein Galal is a distinguished academic specializing in Stochastic Fluid Dynamics, whose professional journey reflects exceptional expertise in Engineering Mathematics and Physics. His academic and research trajectory demonstrates profound engagement with Stochastic Fluid Dynamics in analyzing uncertainty quantification, fractional-order systems, and fluid flow modeling. Over his extensive academic tenure, he has served as an educator, researcher, consultant, and supervisor, contributing significantly to Stochastic Fluid Dynamics applications in non-Newtonian fluid analysis, stochastic differential equations, and advanced computational mechanics. His professional experience extends to engineering consultancy and structural design, where he integrated Stochastic Fluid Dynamics methodologies for enhanced prediction accuracy in complex engineering systems. Assoc. Prof. Dr. Osama Hussein Galal has guided numerous postgraduate dissertations focusing on Stochastic Fluid Dynamics and uncertainty modeling in power systems, beam analysis, and transmission lines. His research interest revolves around integrating Stochastic Fluid Dynamics with machine learning, renewable energy modeling, and fractional calculus applications. Recognized for his scholarly contributions, he has received several awards for excellence in teaching, research supervision, and scientific publications. His research skills encompass analytical modeling, stochastic simulation, and the mathematical treatment of Stochastic Fluid Dynamics in engineering contexts, establishing him as a leading voice in the field. Through his numerous publications in reputed international journals, he has advanced global understanding of Stochastic Fluid Dynamics and its engineering implications. His career exemplifies the fusion of theoretical rigor and practical innovation, positioning him as a prominent figure in modern computational and stochastic analysis. Google Scholar profile of 102 Citations, 6 h-index, 5 i10-index.

Profiles: Google Scholar | ORCID

Featured Publications

1. Hatata, A., Galal, O. H., Said, N., & Ahmed, D. (2021). Prediction of biogas production from anaerobic co-digestion of waste activated sludge and wheat straw using two-dimensional mathematical models and an artificial neural network. Renewable Energy, 178, 226–240.

2. Galal, O. H., El-Tahan, W., El-Tawil, M. A., & Mahmoud, A. A. (2008). Spectral SFEM analysis of structures with stochastic parameters under stochastic excitation. Structural Engineering and Mechanics: An International Journal, 28(3), 281–294.

3. Galal, O. H., El-Tawil, M. A., & Mahmoud, A. A. (2002). Stochastic beam equations under random dynamic loads. International Journal of Solids and Structures, 39(4), 1031–1040.

4. Galal, O. H. (2013). A proposed stochastic finite difference approach based on homogenous chaos expansion. Journal of Applied Mathematics, 2013(1), 950469.

5. El-Beltagy, M. A., Wafa, M. I., & Galal, O. H. (2012). Upwind finite-volume solution of Stochastic Burgers’ equation. Scientific Research Publishing.