Mr. Molahlehi Charles Kakuli  – Lie Symmetry Analysis – Best Researcher Award

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Mr. Molahlehi Charles Kakuli  - Lie Symmetry Analysis - Best Researcher Award

Walter Sisulu University - South Africa

AUTHOR PROFILE 

SCOPUS 

ORCID 

🎓 EARLY ACADEMIC PURSUITS

Molahlehi Charles Kakuli began his academic journey with a strong foundation in mathematics and computer science at the University of Fort Hare, where he earned his B.Sc. in 2006. His passion for mathematical sciences propelled him to pursue further studies, leading to a B.Sc. Honors in Mathematics in 2008 from the same institution. Building on this solid base, he completed his M.Sc. in Applied Mathematics at Walter Sisulu University in 2018, where he delved into the complex world of Lie Symmetry Analysis, focusing on a nonlinear Fokker-Planck diffusion-convection model. Currently, Mr. Kakuli is in the final stages of his Ph.D. at the University of the Witwatersrand, Johannesburg, with a thesis centered on the double reduction theory applied to (n + 1)-dimensional scalar partial differential equations (PDEs) and systems of PDEs, aiming for graduation in May 2025.

👨‍🎓 PROFESSIONAL ENDEAVORS

Mr. Kakuli’s professional career is deeply rooted in academia, where he has been contributing as a lecturer since 2012. His journey began at Walter Sisulu University’s Applied Informatics & Mathematical Sciences department, where he taught engineering students in Butterworth until 2019. In 2020, he transitioned to the Mathematical Sciences & Computing department in Mthatha, where he continues to inspire undergraduate and postgraduate students with his in-depth knowledge and engaging teaching methodologies. His roles have extended beyond lecturing, as he has taken on responsibilities such as course design, curriculum development, and even serving as the Head of Department (HOD) on several occasions, ensuring the smooth functioning of academic activities.

📚 CONTRIBUTIONS AND RESEARCH FOCUS

Mr. Kakuli’s research interests lie at the intersection of theoretical mathematics and practical applications. His primary focus is on Lie’s symmetry analysis of differential equations, a powerful tool for solving complex equations by leveraging their inherent symmetries. His contributions in this area include advanced mathematical techniques that enhance the understanding and Lie Symmetry Analysis solutions of PDEs. Through his Ph.D. research, he has expanded the theoretical framework and provided new insights into the application of double reduction theory in higher-dimensional PDEs.

🌟 ACCOLADES AND RECOGNITION

Throughout his academic and professional journey, Mr. Kakuli has garnered respect and recognition for his dedication and contributions to mathematics. His work in Lie Symmetry Analysis Lie Symmetry Analysis has been well received by the academic community, earning him a place among notable researchers in his field. His teaching excellence and commitment to student mentorship have further cemented his reputation as a respected educator and mentor at Walter Sisulu University.

👨‍🔧 IMPACT AND INFLUENCE

Mr. Kakuli’s impact extends beyond his research contributions to his role as an educator and mentor. He has significantly influenced the academic paths of many students, guiding them through complex mathematical concepts and fostering a deep appreciation for the subject. His involvement in curriculum development and departmental planning has also shaped the Lie Symmetry Analysis academic structure and quality of education at Walter Sisulu University, ensuring that students receive a well-rounded and robust mathematical education.

🔗 LEGACY AND FUTURE CONTRIBUTIONS

As Mr. Kakuli approaches the completion of his Ph.D., he stands at the cusp of further significant contributions to the field of mathematics. His ongoing research and teaching endeavors are set to leave a lasting legacy in both the academic and scientific communities. His commitment to bridging theoretical mathematics with real-world applications ensures that his future contributions will continue to push the boundaries of mathematical sciences, making a meaningful impact on both academic research and practical problem-solving.

NOTABLE PUBLICATIONS 

  • Title: Application of the Generalized Double Reduction Method to the (1+1)-Dimensional Kaup–Boussinesq (K–B) System: Exploiting Lie Symmetries and Conservation Laws
    Authors: Molahlehi Charles Kakuli
    Journal: Partial Differential Equations in Applied Mathematics
    DOI: 10.1016/j.padiff.2024.101004
  • Title: Symmetry Reductions of the (1+1)-Dimensional Broer–Kaup System Using the Generalized Double Reduction Method
    Authors: Molahlehi Charles Kakuli, Winter Sinkala, Phetogo Masemola
    Journal: Axioms
    DOI: 10.3390/axioms13100725
  • Title: Conservation Laws and Symmetry Reductions of the Hunter–Saxton Equation via the Double Reduction Method
    Authors: Molahlehi Charles Kakuli, Winter Sinkala, Phetogo Masemola
    Journal: Mathematical and Computational Applications
    DOI: 10.3390/mca28050092

Assist. Prof. Dr Shahid Hussain – Computational Mathematics – Best Researcher Award

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Assist. Prof. Dr Shahid Hussain - Computational Mathematics - Best Researcher Award

College of mathematics and System Sciences , Xinjiang University Urumqi - China 

Author Profile 

ORCID

📘 Early academic pursuits

Dr. Shahid Hussain embarked on his academic journey with a strong foundation in mathematics, earning a bachelor of science in mathematics (honors) from karakoram international university, pakistan. his early passion for numerical analysis and computational techniques was evident as he pursued his ms/m.phil in mathematical modeling and scientific computing from air university, islamabad, where he specialized in numerical solutions of partial differential equations and computational fluid dynamics. this academic trajectory set the stage for his research career in applied mathematics.

🧮 Professional endeavors

Following his academic achievements, dr. hussain pursued a ph.d. in applied mathematics with a focus on finite element methods at east china normal university, shanghai. his professional career is marked by teaching and research roles, where he has made significant contributions to computational mathematics. currently affiliated with xinjiang university, urumqi, china, dr. hussain has demonstrated expertise in magnatohydrodynamics, viscoelastic fluids, and fluid-fluid interaction, contributing to both theoretical and applied advancements in the field.

🔍 Contributions and research focus

Dr. Hussain’s research is centered on developing and applying numerical methods to solve complex problems in computational fluid dynamics and mathematical modeling. his work in finite Computational Mathematics element and finite difference methods has provided insights into the behavior of viscoelastic fluids and fluid interactions under various physical conditions. these contributions have not only advanced understanding in the field but also opened pathways for further exploration in magnatohydrodynamics and fluid mechanics.

🏅 Accolades and recognition

Throughout his career, dr. hussain has been recognized for his commitment to excellence in both teaching and research. his dedication and achievements have positioned him as a respected Computational Mathematics figure in computational mathematics. his ability to foster a collaborative and innovative environment among peers and students has earned him accolades in academic and research settings.

🌟 Impact and influence

Dr. Hussain’s influence extends beyond his immediate research outputs. as an educator, he has mentored students and researchers, instilling in them a passion for problem-solving and critical Computational Mathematics thinking. his collaborative approach and innovative methods have inspired a new generation of mathematicians to pursue challenging and impactful research.

🧭 Legacy and future contributions

With a solid foundation in applied mathematics and a vision for future advancements, dr. hussain aims to continue contributing to the fields of computational mathematics and fluid dynamics. his ongoing research and teaching endeavors promise to leave a lasting legacy, bridging theoretical advancements with real-world applications in science and engineering.

Notable Publications 

  • Stabilization of interconnected models with Nitsche's interface conditions using the two-grid approach: A finite element study
    • Authors: Shahid Hussain, Md. Abdullah Al Mahbub, Xinlong Feng, Fateh Ali Rana, Fazal Haq, Arshad Hussain
    • Journal: Physics of Fluids
  • On Fractional Operators Involving the Incomplete Mittag-Leffler Matrix Function and Its Applications
    • Authors: Ahmed Bakhet, Shahid Hussain, Mohra Zayed
    • Journal: Symmetry
  • A Linear Stabilized Incompressible Magnetohydrodynamic Problem with Magnetic Pressure
    • Authors: Shahid Hussain, Ahmed Bakhet, Ghada AlNemer, Mohammed Zakarya
    • Journal: Mathematics
  • Optimization and sensitivity analysis of heat transfer for Powell–Eyring fluid between rotating rolls with temperature-dependent viscosity: A mathematical modeling approach
    • Authors: Fateh Ali, Yanren Hou, Xinlong Feng, J. K. Odeyemi, M. Zahid, Shahid Hussain
    • Journal: Physics of Fluids
  • Entropy optimization in bio-convective chemically reactive flow of micropolar nanomaterial with activation energy and gyrotactic microorganisms
    • Authors: Shahid Hussain, Fazal Haq, Hassan Ali Ghazwani, Muzher Saleem, Arshad Hussain
    • Journal: Case Studies in Thermal Engineering

Dr. Kavitha Chinnathambi – Mathematics – Best Researcher Award

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Dr. Kavitha Chinnathambi - Mathematics - Best Researcher Award

National Defence University of Malaysia - Malaysia 

Author Profile

GOOGLE SCHOLAR

🌱 Early academic pursuits

Ms. Kavitha c demonstrated an early passion for mathematics, earning her bachelor’s degree in mathematics from trinity college for women, namakkal, with an impressive 75.54% in 2015. she further honed her mathematical skills with a master’s degree in mathematics from nkr government arts women’s college, achieving 68.65% in 2017. her unwavering commitment to academic excellence continued as she pursued an m.phil. at tiruvalluvar government arts college, namakkal, where she achieved an outstanding 86.50% in 2019. she is currently finalizing her doctoral studies at vellore institute of technology, focusing on fractal interpolation functions, fractal dimensions, and fractional calculus.

📚 Professional endeavors

Ms. Kavitha is a passionate researcher dedicated to advancing mathematical understanding and applications. her research spans fractal interpolation functions (fif), fractal dimensions (fd), and fractional calculus, with a strong focus on their applications in dynamical analysis and predictive modeling. her professional journey reflects her unwavering dedication to innovation and problem-solving through advanced mathematical tools.

🔬 Contributions and research focus

Throughout her academic and research career, ms. kavitha has made significant strides in the study of fractal interpolation functions, particularly their integration with fractional calculus. her Mathematics work explores the predictive capabilities of fractal dimensions in diverse fields such as biology, finance, and environmental science. her innovative models have addressed complex real-world problems, demonstrating the versatility and power of her research.

🏅 Accolades and recognition

Ms. Kavitha’s dedication to her field has been recognized through her exemplary academic achievements, including top performances during her undergraduate and postgraduate studies. her Mathematics ongoing doctoral research at vellore institute of technology further underscores her commitment to advancing mathematical knowledge and its applications.

🌍 Impact and influence

By integrating fractal interpolation functions and fractal dimensions with practical applications, ms. kavitha has contributed to developing innovative models that address challenges in diverse Mathematics domains. her work on predictive models based on mathematical principles has enhanced decision-making processes in real-world contexts, cementing her influence as a leading figure in her research area.

🌟 Legacy and future contributions

Ms. Kavitha’s dedication to mastering and advancing the principles of fractal mathematics positions her as a trailblazer in the field. her ongoing efforts to integrate fractional calculus with fractal interpolation functions aim to create enhanced mathematical models, ensuring her work leaves a lasting impact on academia and various industries.

Notable Publications 

  • Title: The second and third waves in India: when will the pandemic be culminated?
    Authors: C. Kavitha, A. Gowrisankar, S. Banerjee
    Journal: The European Physical Journal Plus, Volume 136 (5), 2021
  • Title: On the variable order Weyl-Marchaud fractional derivative of non-affine fractal function
    Authors: K. Chinnathambi, A. Gowrisankar
    Journal: The Journal of Analysis, Volume 32 (1), 2024
  • Title: Fractional calculus for multivariate vector-valued function and fractal function
    Authors: C. Kavitha, T.M.C. Priyanka, C. Serpa, A. Gowrisankar
    Journal: Applied Fractional Calculus in Identification and Control, 2022
  • Title: Fractional integral approach on nonlinear fractal function and its application
    Authors: C. Kavitha, A. Gowrisankar
    Journal: Mathematical Modelling and Control, Volume 4 (3), 2024
  • Title: Classification of COVID-19 Time Series Through Hurst Exponent and Fractal Dimension
    Authors: C. Kavitha, M. Meenakshi, A. Gowrisankar
    Journal: Fractal Signatures in the Dynamics of an Epidemiology