Keying Wang | Mathematics | Best Researcher Award

Published on by Computer Scientists Awards

Ms. Keying Wang | Mathematics | Best Researcher Award

Ms. Keying Wang – Student, The University of Manchester, United Kingdom.

Keying Wang is a dynamic research assistant and co-author affiliated with The University of Manchester, driven by an interdisciplinary approach to tackling real-world problems in mathematics and computer science. With a growing academic presence, she has contributed to innovative projects that merge computational intelligence and engineering applications, particularly in corrosion diagnostics and energy storage. Keying is recognized for her potential to advance research in bioinspired systems and optimization algorithms. Her work reflects a commitment to practical impact through sustainable technology, especially in applying machine learning and algorithmic development for environmental and industrial challenges.

Publication Profile

Google Scholar

🎓 Education Background

Keying Wang is currently pursuing her academic journey at The University of Manchester, where she serves as a student and researcher. Her education emphasizes core principles in mathematics and computer science, equipping her with analytical and algorithmic skills crucial for innovative computational research. With a foundation in data-driven problem solving, she applies theoretical knowledge to practical research in energy systems and diagnostics. Keying’s academic background nurtures her capabilities to conduct independent studies, co-author scholarly publications, and work within interdisciplinary research teams at one of the UK’s leading institutions for scientific inquiry.

💼 Professional Experience

Keying Wang holds the role of Research Assistant and Co-Author at The University of Manchester, where she is actively engaged in conducting applied research in computational optimization and sustainable engineering solutions. Her professional experience includes contributing to a groundbreaking method for solving non-linear underdetermined equation systems for grounding grid corrosion diagnosis. Keying’s hands-on approach in developing algorithm-enhanced solutions reflects her growing expertise in computational models and real-world engineering applications. She is also contributing to novel energy storage solutions, emphasizing practical research impact even at an early stage of her academic career.

🏆 Awards and Honors

Although Keying Wang is in the early phase of her academic career, her innovative contributions and promising research potential are positioning her as a strong contender for honors such as the Best Researcher Award. Her work has been recognized within academic circles for its relevance and sustainability value, notably in energy storage research and corrosion analysis using advanced optimization techniques. She is steadily gaining visibility through scholarly publications and conference engagements, and her trajectory suggests a future marked by impactful awards and recognitions in computational sciences and green technologies.

🔬 Research Focus

Keying Wang’s research lies at the intersection of mathematics and computer science, with a strong focus on optimization algorithms, energy storage materials, and diagnostic modeling. Her notable work includes developing a novel biomass-derived hierarchical porous carbon electrode from oil palm waste, contributing to environmentally sustainable supercapacitor development. Additionally, she co-authored a paper applying an enhanced Hippopotamus Optimization Algorithm to improve corrosion diagnostics. Keying’s interests encompass algorithmic design, bioinspired computing, and sustainability-driven innovation, positioning her research to contribute meaningfully to both academic advancement and societal needs.

✅ Conclusion

In summary, Keying Wang is a motivated and innovative early-career researcher whose contributions to computational diagnostics and sustainable energy solutions are gaining scholarly attention. Her academic foundation, coupled with emerging research accomplishments, marks her as a valuable asset to the scientific community. With ongoing work rooted in practical applications and theoretical innovation, she exemplifies the qualities sought in award-winning researchers. Her efforts represent a commitment to advancing knowledge through interdisciplinary methods and responsible innovation, making her a fitting nominee for the Best Researcher Award category.

📝 Publications Top Notes

  1. A Solution Method for Non-Linear Underdetermined Equation Systems in Grounding Grid Corrosion Diagnosis Based on an Enhanced Hippopotamus Optimization Algorithm
    🔹 Published Year: 2025
    🔹 Journal: Biomimetics, Volume 10, Issue 7
    🔹 Cited by: 7 articles

  2. An Adaptive Multi-Elite Hippopotamus Algorithm for High-Dimensional Optimization and Its Wasserstein Distance Penalty Mechanism
    🔹 Published Year: 2025
    🔹 Conference: 2025 8th International Conference on Advanced Algorithms and Control Engineering (AAICE)
    🔹 Cited by: 4 articles

 

Mr. Md Saifur Rahman | Mathematical | Best Researcher Award

Published on by Computer Scientists Awards

Mr. Md Saifur Rahman | Mathematical | Best Researcher Award

Assistant Professor, RAJUK Uttara Model College, Bangladesh

Md Saifur Rahman is an accomplished Assistant Professor of Mathematics at RAJUK Uttara Model College, Dhaka, Bangladesh, with over 15 years of experience in academia. He is currently pursuing his Ph.D. at Bangladesh University of Engineering and Technology (BUET), focusing on the mathematical modeling and optimal control of brain encephalitis. He has made notable contributions in mathematical biology, computational modeling, and infectious disease epidemiology. His interdisciplinary work bridges mathematics with real-world biomedical problems, and he actively presents his research across national and international platforms.

Publication Profile

ORCID

🎓 Education Background

Md Saifur Rahman earned his MPhil in Mathematics from the Military Institute of Science and Technology (MIST), and his MS in Applied Mathematics from the University of Chittagong. He is currently pursuing a Ph.D. in Mathematical Modeling at BUET, Dhaka, Bangladesh, where his doctoral research explores the transmission dynamics and control strategies for brain encephalitis using mathematical and computational tools.

💼 Professional Experience

Currently serving as an Assistant Professor at RAJUK Uttara Model College, Dhaka, he has dedicated over 15 years to teaching and academic development. His expertise extends into scientific computing using COMSOL Multiphysics and MATLAB. He has delivered invited lectures on ICT-enabled education and continues to influence the educational landscape through both innovation and research.

🏆 Awards and Honors

Md Saifur Rahman received the Best Teacher Award in 2011 for his innovative use of multimedia content in teaching. He has also been recognized for delivering invited talks in ICT and education, and his academic influence spans several conferences across Bangladesh, Nepal, and Canada.

🔬 Research Focus

His research focuses on mathematical biology, fluid dynamics, and epidemiology, particularly modeling the transmission of infectious diseases like viral and bacterial encephalitis. He has developed mathematical models incorporating optimal control strategies to aid public health interventions. His work involves advanced computational tools such as COMSOL, Tecplot, and MATLAB to simulate disease spread and evaluate mitigation techniques.

🔚 Conclusion

Md Saifur Rahman is a dedicated scholar blending theoretical mathematics with applied health science, creating a meaningful impact in the fields of disease modeling and educational innovation. Through his interdisciplinary contributions and international presentations, he continues to build bridges between computation, biology, and societal well-being.

📚 Top Publications

  1. Mathematical Modeling and Optimal Control of Viral Encephalitis
    🔗 Published in MDPI Mathematics (2024)
    🗓 Year: 2024
    📊 Cited by: 4 articles on ResearchGate
    📌 Summary: This paper presents an optimal control model for viral encephalitis and its implications for intervention strategies.

  2. Numerical Study of Heat and Mass Transfer in Nanofluid Flow Through Lid-Driven Porous Cavity
    🔗 Published in Scopus-indexed conference proceedings (2022)
    🗓 Year: 2022
    📊 Cited by: 2 articles
    📌 Summary: Investigates nanofluid behavior using computational simulations with practical applications in energy systems.

  3. Computational Modeling of Japanese Encephalitis Transmission Dynamics
    🔗 Preprint on ResearchGate (2023)
    🗓 Year: 2023
    📊 Cited by: 1 article
    📌 Summary: Extends previous research to analyze vector-borne transmission and optimal interventions.

  4. Epidemiological Insights into Bacterial Encephalitis Using Mathematical Tools
    🔗 Under review, MDPI Mathematics
    🗓 Year: 2025 (expected)
    📌 Summary: Explores bacterial encephalitis modeling to enhance public health strategy development.

 

Mohamed Abdou | Mathematics | Excellence Award (Any Scientific field)

Published on by Computer Scientists Awards

Prof. Dr. Mohamed Abdou | Mathematics | Excellence Award (Any Scientific field)

Head Mathematics Department, Alexandria University – Faculty of Education, Egypt

Dr. Mohamed Abdou is a distinguished researcher and academic specializing in mathematical modeling, integral equations, and computational mathematics. With a robust track record in publishing high-impact articles, Dr. Abdou is a pivotal figure in advancing numerical methods for solving complex mathematical problems. His work spans a range of topics, including fractional calculus, thermoelasticity, and integro-differential equations, contributing significantly to the fields of applied and computational mathematics. 📚🔍

Publication Profile

ORCID

Education 🎓

Dr. Abdou earned his advanced degrees in mathematics and computational sciences from prestigious institutions, focusing on mathematical modeling and advanced numerical methods. His rigorous academic training underpins his innovative research in applied mathematics and integral equations. 🧮

Experience 🏫

Dr. Abdou has an extensive career in academia and research, serving in various roles as a professor, mentor, and collaborator. He has contributed to international conferences, workshops, and academic journals, sharing his insights on integral and differential equations. His work also includes developing new mathematical models and algorithms applied in physics, engineering, and computational sciences. 🌐📖

Research Interests 🔬

Dr. Abdou’s research interests include:

Numerical methods for solving nonlinear integral equations. Fractional calculus and its applications. Thermoelasticity with double porosity. Spectral relationships for integral equations. Computational methods in applied mathematics 🚀📈

Awards and Recognitions 🏆

Dr. Abdou has been acknowledged for his outstanding contributions to mathematics and computational sciences, receiving numerous accolades for his publications, including recognition in prestigious international journals. His research has garnered significant attention and citations, reflecting the impact of his work in the mathematical community. 🌟🎖️

Publications 📜

A Computational Method for Solving Nonlinear Fractional Integral Equations

An Algorithm for the Solution of Integro-Fractional Differential Equations with a Generalized Symmetric Singular Kernel

Numerical Simulation, Existence, and Uniqueness for Solving Nonlinear Mixed Partial Integro-Differential Equations with Discontinuous Kernels

Thermopotential Function in Position and Time for a Plate Weakened by Curvilinear Hole

On an Approximate Solution of a Boundary Value Problem for a Nonlinear Integro-Differential Equation