Umut Selvi | Ankara Hacı Bayram Veli University | Best Researcher Award

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Mr. Umut Selvi l Mathematics | Best Researcher Award

Ankara Hacı Bayram Veli University | Turkey

 Mr. Umut Selvi centers on advanced mathematical structures, focusing on algebraic geometry, matrix theory, and their applications in both theoretical and computational mathematics. His doctoral and postgraduate work explores the geometry of Lie algebroids and non-Newtonian parallel surfaces, contributing to a deeper understanding of modern geometric frameworks that bridge algebra and analysis. Selvi has co-authored several studies on spectral norms of circulant matrices involving Chebyshev polynomials and Fibonacci quaternions, providing explicit formulas and extending the theoretical foundations of matrix norms. His research in these areas enhances the computational methods used in engineering and applied sciences. Additionally, his collaborative book chapters and editorial contributions in mathematical publications such as Mathematical Methods for Engineering Applications and Recent Developments in Mathematics reflect a strong engagement in the dissemination of mathematical innovation. Through presentations at international conferences, including those on geometry and mathematical education, Selvi has shared insights on generalized multiplicative cross products, Euclidean norms, and Lie algebraic structures on vector spaces. His work emphasizes analytical precision, structural symmetry, and the unification of abstract algebraic concepts with geometric intuition, advancing the field of pure mathematics with applications in natural and computational sciences.

Featured Publication

Selvi, U. (2025). An explicit formula for spectral norms of circulant matrices with Chebyshev polynomials. Acta Mathematica Universitatis Comenianae, 94(1), 1–5.

Reshma R | Mathematics | Best Scholar Award

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Ms. Reshma R l Mathematics | Best Scholar Award

Amrita Vishwa Vidyapeetham, Coimbatore | India

Ms. Reshma R is a dedicated researcher in applied and computational mathematics, with her work primarily focusing on nonlinear dynamics, fractional-order systems, and neural network synchronization. Her research explores the mathematical modeling, control, and stability analysis of complex systems with applications in secure communication and biometric image encryption. She has published in high-impact journals such as Communications in Nonlinear Science and Numerical Simulation and Mathematical Methods in the Applied Sciences, contributing to advancements in Mittag-Leffler synchronization, hybrid control strategies, and event-triggered systems. Her studies on fractional-order disturbed chaotic neural networks and Lyapunov-based stability conditions offer innovative approaches to enhancing security and robustness in image communication systems. Additionally, her work on hybrid event-triggered singular time-delay systems presents new methodologies for exponential stabilization, bridging theoretical mathematics with engineering applications. Ms. Reshma’s interdisciplinary approach integrates differential calculus, control theory, and computational modeling, reflecting her strong analytical foundation and research depth. She actively participates in national and international conferences, engaging with emerging areas in nonlinear complex systems and mathematical modeling. Her commitment to mathematical innovation and interdisciplinary collaboration underpins her growing impact within the mathematical sciences research community.

Featured Publications

Ramaswami, R., Arumugam, V., & Pathmanaban, S. (2026). Mittag-Leffler synchronization of fractional order disturbed chaotic neural networks with varying time-delay using hybrid controller and its application to biometric image encryption. Communications in Nonlinear Science and Numerical Simulation, 119, 109350. https://doi.org/10.1016/j.cnsns.2025.109350

Ramaswami, R., Arumugam, V., & Pathmanaban, S. (2025). Lyapunov conditions for the finite-time stability of fractional order disturbed nonlinear systems and neural networks: The secure image communication using encryption. Communications in Nonlinear Science and Numerical Simulation, 117, 108716. https://doi.org/10.1016/j.cnsns.2025.108716

Ramaswami, R., Thoppilkalam, N. V., Arumugam, V., & Alzabut, J. (2024). Exponential stabilization of hybrid event-triggered singular time-delay systems. Mathematical Methods in the Applied Sciences, 47(14), 10190. https://doi.org/10.1002/mma.10190

Hemalatha K | Mathematics | Best Researcher Award

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Dr. Hemalatha K | Mathematics
| Best Researcher Award

Chennai Institute of Technology, Chennai | India

Dr. Hemalatha K is an accomplished mathematician and researcher specializing in theoretical seismology and wave propagation, currently serving as an Assistant Professor at the Center for Nonlinear Systems, Chennai Institute of Science and Technology, Tamil Nadu, India, since February 2025. She earned her Ph.D. in Mathematics (2024) from SRM Institute of Science and Technology, Chennai, with her thesis titled “Theoretical Study of Elastic Wave Propagation in Anisotropic and Functionally Graded Layered Media.” Her academic foundation includes an M.Sc. in Mathematics with outstanding distinction from Bishop Heber College, Trichy and a B.Sc. in Mathematics from Holy Cross College, Trichy. With over three years of research experience, Dr. Hemalatha has made significant contributions to the field through 17 peer-reviewed international journal publications, achieving a cumulative impact factor. Her recent research includes advanced studies on flexoelectric coupling, interfacial imperfections, and wave behavior in functionally graded and piezoflexoelectric materials, published in reputed Q1–Q3 indexed journals such as Mathematics (MDPI) and Journal of Mechanical Science and Technology (Springer). She holds professional identifiers including ORCID (0000-0002-9355-5747) reflecting her growing international academic recognition.

Profile: Google Scholar | Orcid

Featured Publication

1. Hemalatha, K., Kumar, S., & Prakash, D. (2023). Dispersion of Rayleigh wave in a functionally graded piezoelectric layer over elastic substrate. Forces in Mechanics, 10, 100171. https://doi.org/10.1016/j.finmec.2023.100171

2. Hemalatha, K., Kumar, S., & Kim, I. (2024). Study of SH-wave in a pre-stressed anisotropic magnetoelastic layer sandwich by heterogeneous semi-infinite media. Mathematics and Computers in Simulation, 222, 225–241. https://doi.org/10.1016/j.matcom.2024.01.015

3. Hemalatha, K., Kumar, S., & Akshaya, A. (2023). Rayleigh wave at imperfectly corrugated interface in FGPM structure. Coupled Systems Mechanics, 12(4), 337–364. https://doi.org/10.12989/csm.2023.12.4.337

4. Akshaya, A., Kumar, S., & Hemalatha, K. (2024). Behaviour of transverse wave at an imperfectly corrugated interface of a functionally graded structure. Physics of Wave Phenomena, 32(2), 117–134. https://doi.org/10.3103/S1541308X24020023

5. Hemalatha, K., & Kumar, S. (2024). Propagation of SH wave in a rotating functionally graded magneto-electro-elastic structure with imperfect interface. Journal of Vibration Engineering & Technologies, 12(7), 8383–8397. https://doi.org/10.1007/s42417-024-01007-5

6. Akshaya, A., Kumar, S., & Hemalatha, K. (2025). Propagation of shear horizontal wave at magneto-electro-elastic structure subjected to mechanically imperfect interface. Mechanics of Advanced Composite Structures, 12(1), 97–114. https://doi.org/10.22075/macs.2025.32784.1550

 

Kabir Oluwatobi Idowu | Mathematics | Young Scientist Award

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Mr. Kabir Oluwatobi Idowu | Mathematics | Young Scientist Award

Purdue University | United States

Kabir Oluwatobi Idowu is a mathematics researcher and academic with a strong foundation in mathematical modeling, artificial intelligence, stochastic processes, and mathematical biology. He is currently pursuing doctoral studies at a leading research university in the United States. Kabir holds advanced degrees in mathematics, graduating with top honors and multiple academic awards. He has extensive experience in teaching undergraduate and graduate-level mathematics, supervising student research, and developing curricula. His research output includes numerous peer-reviewed publications in areas such as disease modeling, artificial intelligence in education, and numerical solutions to complex equations. Kabir has delivered invited talks at international conferences and actively contributes to academic communities through leadership, peer review, and professional memberships. He is passionate about using mathematics as a tool to solve real-world problems and is committed to academic excellence, interdisciplinary collaboration, and social impact through research, teaching, and community service.

Profile

Orcid 

Education

Kabir Oluwatobi Idowu holds a strong academic background in mathematics and mathematics education. He earned both undergraduate and postgraduate degrees in mathematics with distinction from a prominent university in Nigeria, graduating as the best student in his department at both levels. His outstanding academic performance earned him several awards for academic excellence. Currently, he is pursuing a Ph.D. in Mathematics at a major research university in the United States, where he is also engaged in teaching and research. Kabir’s education has equipped him with a deep understanding of mathematical theory and its practical applications. His coursework and research span various domains including mathematical biology, numerical analysis, and artificial intelligence. His academic training reflects a combination of theoretical rigor and applied problem-solving, preparing him to contribute meaningfully to the advancement of knowledge in mathematics and its interdisciplinary applications.

Experience

Kabir Oluwatobi Idowu has gained extensive academic and research experience across institutions in Nigeria and the United States. He currently serves in both teaching and research roles at a renowned mathematics department, where he assists in delivering courses, mentoring students, and contributing to advanced mathematical research. Previously, he worked as an assistant lecturer and research assistant at a public university in Nigeria, where he taught courses in statistics, stochastic processes, and functional analysis, and supervised student research projects. His work experience also includes curriculum development, data analysis, numerical simulations, and the application of control theory in dynamic systems. Additionally, he has served as a research officer and mathematics instructor in academic institutions, contributing to institutional planning and exam coordination. His teaching and research experience highlight a well-rounded profile marked by technical expertise, instructional innovation, and a deep commitment to student learning and applied mathematics.

Awards and Honors

Kabir Oluwatobi Idowu has been recognized with numerous academic awards for excellence in both undergraduate and graduate studies. He graduated as the best student in his department at both levels, earning institutional honors for academic distinction. He also received a prestigious university-wide award for achieving a perfect grade point average during his postgraduate studies. His academic excellence has earned him competitive assistantship positions for teaching and research at his current institution. Kabir’s scholarly achievements have been further acknowledged through merit-based recognitions from professional organizations and academic departments. These honors underscore his intellectual rigor, dedication to mathematics, and consistent performance across various academic stages. His awards reflect not only his academic capabilities but also his leadership and contributions to the advancement of mathematical knowledge through research and teaching. Kabir continues to uphold academic excellence as a core value in all aspects of his professional journey.

Research Focus

Kabir Oluwatobi Idowu’s research integrates mathematical modeling, artificial intelligence, stochastic analysis, and numerical computation to address real-world challenges in public health, education, and biological systems. His work involves developing and analyzing mathematical models that explain disease dynamics, environmental health interactions, and behavioral trends. He employs a wide range of analytical and computational tools including differential equations, optimization techniques, and hybrid numerical schemes. He is also actively exploring the role of AI and large language models in educational technology and human decision-making. Kabir’s publications demonstrate a strong focus on interdisciplinary applications, including predictive modeling for disease transmission, simulation of public health interventions, and application of machine learning in social systems. His research contributes to theoretical understanding as well as practical solutions. Currently, he is working on advanced stochastic models and numerical algorithms that aim to improve the accuracy and efficiency of simulations used in complex systems.

Publications

Title: Mathematical modelling of pneumonia dynamics of children under the age of five
Year: 2021
Citations: 21

Title: Qualitative analysis of the transmission dynamics and optimal control of COVID-19
Year: 2023
Citations: 18

Title: Semi-analytic approach to solving Rosenau-Hyman and Korteweg-de Vries equations using integral transform
Year: 2023
Citations: 18

Title: Impact of contaminated surfaces on the transmission dynamics of coronavirus disease (COVID-19)
Year: 2023
Citations: 16

Title: On the interaction of the human immune system with foreign body: mathematical modeling approach
Year: 2023
Citations: 15

Title: Laplace Homotopy Perturbation Method (LHPM) for solving systems of N-dimensional non-linear partial differential equation
Year: 2023
Citations: 12

Conclusion

Kabir Oluwatobi Idowu is an exceptionally talented young researcher whose academic brilliance, active publication record, interdisciplinary expertise, and community engagement strongly align with the criteria for the Young Scientist Award. His research journey reflects passion, consistency, and a forward-looking vision. His leadership roles, outreach efforts, and professional memberships further attest to his well-rounded profile. With continued focus on publishing in higher-impact venues, increasing the real-world application of his work, and enhancing global research collaboration, Kabir is poised to make significant contributions to both academic science and societal progress. He is a highly suitable candidate for the Young Scientist Award and exemplifies the qualities of an emerging leader in the scientific community.

Moncef Aouadi | Mathematics | Excellence in Research

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Prof.Moncef Aouadi | Mathematics | Excellence in Research

Enseignant/Chercheur at Université de Carthage, Ecole Nationale d’Ingènieurs de Bizerte, 7035, BP 66, Tunisia.\\ \noindent UR Syst\`emes dynamiques et applications, 17ES21; moncef.aouadi@enib.ucar.tn, Tunisia

Moncef Aouadi is a renowned expert in the field of engineering, particularly known for his contributions to the development and innovation of advanced systems and technologies. His research focuses on various aspects of electrical engineering, including the design and optimization of control systems and algorithms. Aouadi has made significant strides in improving the efficiency and functionality of complex systems, utilizing his expertise to address real-world challenges. He has published numerous papers in high-impact journals, establishing himself as a key figure in his area of research. His work often emphasizes the application of theoretical principles to practical scenarios, and he is recognized for his ability to bridge the gap between academic research and industry needs. Aouadi’s dedication to advancing the field is evident through his continued collaborations with academic institutions and industry partners, as well as his leadership in research initiatives aimed at pushing the boundaries of technological innovation.

Professional Profile 

Education

Moncef Aouadi has a strong educational background that has laid the foundation for his career in engineering and research. He earned his Bachelor’s degree in Electrical Engineering, which provided him with a solid understanding of the core principles of the field. Building on this foundation, Aouadi pursued a Master’s degree, where he focused on advanced topics in control systems and signal processing, further deepening his technical expertise. His commitment to higher education led him to complete a Ph.D. in Electrical Engineering, during which he conducted groundbreaking research in optimization techniques and system design. Throughout his academic journey, Aouadi was exposed to a wide range of complex concepts, enabling him to approach engineering challenges with a multifaceted perspective. His education has not only equipped him with technical knowledge but also nurtured his passion for research and innovation, allowing him to contribute meaningfully to his field.

Professional Experience

Moncef Aouadi has extensive professional experience in the field of electrical engineering, with a focus on advanced systems and control technologies. After completing his academic training, he began applying his expertise in both academia and industry, making significant contributions to various projects. Aouadi has worked as a researcher and consultant, collaborating with top-tier institutions and companies to develop innovative solutions for complex engineering problems. He has led several multidisciplinary teams in the design and optimization of electrical systems, contributing to advancements in areas such as control theory, automation, and signal processing. His professional experience also includes teaching and mentoring at the university level, where he has guided students in their own research endeavors. Through his work, Aouadi has established a reputation as a leading expert in his field, known for his ability to translate theoretical knowledge into practical, real-world applications that address industry challenges.

Research Interest

Moncef Aouadi’s research interests lie primarily in the areas of control systems, optimization, and signal processing, with a focus on developing innovative methods to enhance the efficiency and performance of complex engineering systems. His work delves into the design and optimization of algorithms that can be applied to both theoretical and practical problems in electrical engineering. Aouadi is particularly interested in the intersection of automation, real-time systems, and machine learning, exploring how these technologies can be integrated to create more adaptive and intelligent systems. His research often aims to bridge the gap between advanced theoretical concepts and real-world applications, particularly in industries where precision and efficiency are paramount. Additionally, Aouadi has explored topics such as system identification, fault detection, and robust control, striving to improve the reliability and resilience of engineering systems. Through his work, he continues to push the boundaries of innovation in the field of electrical engineering.

Award and Honor

Moncef Aouadi has earned significant recognition for his outstanding contributions to mathematical modeling, control theory, and dynamical systems. Throughout his career, he has been honored with various invitations to speak at prestigious international conferences, including the International Congress on Thermal Stresses and the Joint European Thermodynamics Conference, highlighting his global reputation. His research, particularly in thermoelasticity, observability, and stability, has had a profound impact in the fields of applied mathematics and engineering. Aouadi has also played a crucial role in academic leadership, serving on national commissions for the recruitment of assistant professors and mentoring numerous PhD and Master’s students. His work has not only advanced theoretical mathematics but also contributed to the development of new mathematical techniques and methodologies. Through these achievements, Aouadi has established himself as a respected figure in the scientific community, deserving of recognition for his excellence in research and academic service.

Research Skill

Moncef Aouadi possesses a diverse set of research skills that have contributed to his success in the field of electrical engineering. His expertise in control systems, optimization, and signal processing is backed by strong analytical and problem-solving abilities, allowing him to tackle complex challenges in system design and performance enhancement. Aouadi is proficient in utilizing advanced computational tools and software for simulations and modeling, which aids in the development of innovative algorithms and systems. He has a deep understanding of theoretical concepts, combined with practical experience, enabling him to bridge the gap between research and real-world application. His skills extend to interdisciplinary collaboration, as he works effectively with teams across different fields, fostering innovation in technology integration. Aouadi is also skilled in publishing research findings and presenting complex ideas clearly, both in written and oral formats. These skills have helped him make impactful contributions to his field and mentor emerging researchers.

Conclusion

Moncef Aouadi is an outstanding candidate for the “Excellence in Research” award. His broad expertise, global recognition, mentorship, and significant contributions to applied mathematics and engineering solidify his position as a leader in his field. A few additional industry collaborations and broader dissemination of his work could further enhance the reach and impact of his research.

Publications Top Noted

  • Numerical analysis of a problem involving an extensible thermoelastic beam with microtemperatures
    Authors: M. Aouadi, N. Bazarra, J.R. Fernandez, M. Rodríguez-Damián
    Year: 2025
    Citations: 0
    Journal: ZAMM – Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik

  • The optimal polynomial decay in the extensible Timoshenko system
    Authors: M. Aouadi
    Year: 2024
    Citations: 0
    Journal: Mathematische Nachrichten

  • STABILITY OF PULLBACK EXPONENTIAL ATTRACTORS FOR NON-AUTONOMOUS EXTENSIBLE SUSPENSION BRIDGE EQUATIONS
    Authors: M. Aouadi
    Year: 2024
    Citations: 0
    Journal: Discrete and Continuous Dynamical Systems – Series B

  • Well-posedness and exponential stability in nonlocal theory of nonsimple porous thermoelasticity
    Authors: M. Aouadi, M. Ciarletta, V. Tibullo
    Year: 2024
    Citations: 0
    Journal: Meccanica

  • Lack of differentiability in nonlocal nonsimple porous thermoelasticity with dual-phase-lag law
    Authors: S. Zeng, M. Aouadi
    Year: 2024
    Citations: 0
    Journal: Journal of Mathematical Physics

  • Some decay properties in extensible thermoelastic beam with Gurtin–Pipkin’s law
    Authors: M. Aouadi
    Year: 2024
    Citations: 0
    Journal: Mathematics and Mechanics of Solids

  • ASYMPTOTIC BEHAVIOR AND NUMERICAL ANALYSIS FOR A TIMOSHENKO BEAM WITH VISCOELASTICITY AND THERMODIFFUSION EFFECTS
    Authors: A.D.J.A. Ramos, M. Aouadi, I. Mahfoudhi, M.M. Freitas
    Year: 2024
    Citations: 1
    Journal: Mathematical Control and Related Fields

  • Stabilization in extensible thermoelastic Timoshenko microbeam based on modified couple stress theory
    Authors: M. Aouadi, F. Passarella, V. Tibullo
    Year: 2024
    Citations: 1
    Journal: ZAMM – Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik

  • Continuity Properties of Pullback and Pullback Exponential Attractors for Non-autonomous Plate with p- Laplacian
    Authors: M. Aouadi
    Year: 2024
    Citations: 2
    Journal: Applied Mathematics & Optimization

  • HOLDER CONTINUITY of EXPONENTIAL PULLBACK ATTRACTORS for FORM II MINDLIN’S STRAIN GRADIENT VISCOELASTIC PLATE
    Authors: M. Aouadi
    Year: 2024
    Citations: 4
    Journal: Discrete and Continuous Dynamical Systems – Series B