Nazek Obeidat | Applied Mathematics | Best Researcher Award

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Dr. Nazek Obeidat | Applied Mathematics | Best Researcher Award

Dr. Nazek Obeidat, Jordan University of Science and Technology, Jordan

Dr. Nazek Obeidat is a distinguished professor at the Jordan University of Science and Technology (JUST) in Jordan. She is renowned for her contributions to the field of medical and health sciences, particularly in respiratory medicine and public health. Dr. Obeidat has an extensive background in clinical research, focusing on respiratory diseases, including asthma and chronic obstructive pulmonary disease (COPD). Her work has significantly impacted public health policies and healthcare practices in Jordan and the region. As an educator, she is dedicated to training the next generation of healthcare professionals and advancing medical knowledge through her research and publications.

Publication profile

Scopus

Education:

Ph.D. in Mathematical Sciences,,nstitution: The University of Vermont, Burlington, VT, USA,Dates: 08/2019 – 05/2022,Dissertation: “Studies on The Tempered Fractional Natural Decomposition Method”,GPA: 3.86/4.0,Rating: Excellent, Pass with Distinction,M.A. in Mathematics,Institution: The University of Toledo, Toledo, OH, USA,Dates: 08/2016 – 05/2018,GPA: 3.89/4.0,Rating: Excellent,M.Sc. in Applied Mathematics,Institution: Jordan University of Science & Technology, Irbid, Jordan,Dates: 2010 – 2012,B.Sc. in Mathematics,Institution: The University of Findlay, Findlay, OH, USA,Dates: 08/2005 – 06/2008,Major: Mathematics,Minor: Political Science,GPA: 3.92/4.0,Honors: Summa Cum Laude, First in Class, Dean’s List of Excellence

Professional Experience:

Postdoctoral Fellow (2022 – 2024),Graduate Teaching Assistant (2019 – 2022),Institution: The University of Vermont,Graduate Teaching Assistant (2016 – 2018),Institution: The University of Toledo,Mathematics Instructor (2013 – 2014),Institution: Philadelphia University,Teaching Assistant (2006 – 2009),Institution: The University of Findlay,Mathematics Tutor/Grader (2005 – 2006),Institution: The University of Toledo

Research Grants:

  • Funded Research: Ongoing project on advanced tempered fractional calculus applications in biological systems and engineering models.
  • Funding Agencies: National Science Foundation (NSF), National Institutes of Health (NIH), and other scientific foundations.

Professional Memberships:

SIAM: Society for Industrial and Applied Mathematics,AMS: American Mathematical Society,MAA: Mathematical Association of America

Publication Top Notes

  • Nazek A. Obeidat, D. Bentil, “New Theories and Applications of Tempered Fractional Differential Equations,” Nonlinear Dynamics, 105(2), 1689-1702, 2021.
  • Nazek A. Obeidat, D. Bentil, “Convergence Analysis of the Fractional Decomposition Method with Applications to Time-Fractional Biological Population Models,” Numerical Methods for Partial Differential Equations, 39(1), 696-715, 2023.
  • Nazek A. Obeidat, D. Bentil, “Novel technique to investigate the convergence analysis of the tempered fractional natural transform method applied to diffusion equations,” Journal of Ocean Engineering and Science, 8(6), 636-646, 2023.
  • Nazek A. Obeidat, M. Rawashdeh, “Theories of tempered fractional calculus applied to tempered fractional Langevin and Vasicek equations,” Mathematical Methods in the Applied Sciences, 46(8):8582-8595, 2023.
  • Nazek A. Obeidat, M. Rawashdeh, “On Theories of Natural Decomposition Method Applied to System of Nonlinear Differential Equations in Fluid Mechanics,” Advances in Mechanical Engineering, Vol. 15(1), 1–15, 2023.
  • Nazek A. Obeidat, M. Rawashdeh, “Convergence Analysis for the Fractional Decomposition Method Applied to Class of Nonlinear Fractional Fredholm Integro-Differential,” Journal of Algorithms and Computational Technology, Vol. 19(1), 1–19, 2023.
  • M. Rawashdeh, Nazek A. Obeidat, and O. Ababneh, “Using the decomposition method to solve the fractional order temperature distribution equation: A new approach,” Mathematical Methods in the Applied Sciences, 46:14321–14339, 2023.
  • Nazek A. Obeidat, M. Rawashdeh, “Theoretical Analysis of New Techniques Applied to Applications in Fluid Dynamics,” International Journal of Modelling and Simulation, 2023.
  • Nazek A. Obeidat, M. Rawashdeh, H. Abedalqader, “New Class of Nonlinear Fractional Integro-Differential Equations with Theoretical Analysis via Fixed Point Approach: Numerical and Exact Solutions,” Journal of Applied Analysis and Computation, Vol. 13, No. 5, 2767-2787, 2023.
  • Nazek A. Obeidat, “Important Theories and Applications Arise in Physics and Engineering Using a New Technique: The Natural Decomposition Method,” Journal of Advanced Research in Applied Sciences and Engineering Technology, 34(1), 2024.
  • Nazek A. Obeidat, M. S. Rawashdeh, and R. S. Yahya, “Convergence analysis of the effects of antiviral drug treatment in the fractional differential model of HIV-1 infection of CD4+ T- cells,” International Journal of Modelling and Simulation, 2024.
  • Nazek A. Obeidat, “A New Efficient Transform Mechanism with Convergence Analysis of the Space-Fractional Telegraph Equations,” Journal of Applied Analysis and Computation, Vol. 14, No. 5, 3007-3032, 2024.
  • Nazek Obeidat, Mahmoud S. Rawashdeh, and Rahaf. S. Yahya, “Implementation of an effective transform technique for convergence analysis of the fractional enzyme kinetic and blood alcohol level models,” Mathematical Methods in the Applied Sciences, 2024.
  • Nazek A. Obeidat, Mahmoud Saleh Rawashdeh, and Mohammad N. Al Smadi, “Theoretical analysis of J-transform decomposition method with applications of nonlinear ordinary differential equations,” Science Progress, Vol. 107(2), 2024.
  • Nazek A. Obeidat, M. S. Rawashdeh, and M. Q. Al Erjani, “A Novel Adomian Natural Decomposition Method with Convergence Analysis of Nonlinear Time-Fractional Differential Equations,” International Journal of Modelling and Simulation, 2024.
  • Nazek A. Obeidat. M. Rawashdeh, “Applying the Reduced Differential Transform Method to Solve the Telegraph and Cahn-Hilliard Equations,” Thai Journal of Mathematics, Volume 13, Number 1, 2015.
  • Nazek A. Obeidat. M. Rawashdeh, “On Finding Exact and Approximate Solutions to Some PDEs Using the Reduced Differential Transform Method,” Applied Mathematics and Information Sciences, Vol. 8, No. 5, 2014.
  • Nazek A. Obeidat, “Improved Approximate Solutions to Nonlinear PDEs Using the ADM and DTM,” Thai Journal of Mathematics, Volume 12, Number 3, 2014.
  • Nazek A. Obeidat, “An Efficient Technique Via the J-Transform Decomposition Method: Theoretical Analysis with Applications,” (Under Review).
  • Nazek A. Obeidat, M. Rawashdeh, “Solving Caputo and Riemann-Liouville Types of Sequential Fractional Differential Equations Using the Fractional Decomposition Method,”

🧠

Fathalla Rihan | Mathematics | Excellence in Research

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Prof Dr Fathalla Rihan | Mathematics | Excellence in Research

Professor at  United Arab Emirates University, United Arab Emirates

Dr. Fathalla A. Rihan is a distinguished mathematician with extensive academic and research achievements. He holds a B.Sc., M.Sc., Ph.D., and DSc. from The University of Manchester, UK. Born in Egypt, Dr. Rihan is currently a Professor of Mathematics at the Department of Mathematical Sciences, College of Science, United Arab Emirates University (UAEU), with a concurrent position as a Professor of Mathematics at Helwan University, Egypt.

Publication Profile :

🎓 Education:

  • B.Sc., M.Sc., Ph.D., DSc. (The University of Manchester, UK)
  • DSc in Mathematics (National University of Uzbekistan, 2019)
  • Ph.D. in Mathematics (Manchester University, UK, 2000)
  • M.Sc. in Numerical Analysis (Helwan University, 1992)
  • B.Sc. Hon. in Mathematics (Alexandria University, 1985)

👨‍🎓 Current Positions:

  • Professor of Mathematics, UAE University, UAE (2017–)
  • Professor of Mathematics (on leave), Helwan University, Egypt (2011–)
  • Honorary Research Fellow, Manchester University, UK (2000–2010)

🌐 Research Projects:

  • PI, AUA-UAEU Project: “Continuous Runge-Kutta Methods for Pantograph Delay Differential Equations” (2024–2026)
  • PI, ZU-UAEU Project: “Impact of Stochastic Noise on COVID-19 Dynamics in the UAE: Analysis, Control, and Treatment” (2022–2024)
  • PI, SURE+ 2022 program: Mathematical Modeling of COVID-19 infection in the UAE
  • PI, UPAR-UAEU Project: “Qualitative and Quantitative Features of Delay Differential Equations of Biological Systems with Memory” (2021–2023)

🏆 Awards & Recognitions:

  • Resignation award for publications in top 5% journals in 2022
  • Member of Mohammed Bin Rashid Academy of Scientists, 2021–
  • Recognized among the world’s top 2% scientists by Stanford University (2019–2022)
  • University Excellence Merit Allowance for the 2019/2020 academic year

Fathalla A. Rihan is a distinguished mathematician with a passion for numerical analysis, mathematical biology, and weather prediction. His extensive research contributions and awards reflect his commitment to advancing scientific knowledge.

Research Focus :

Fathalla A. Rihan’s research encompasses diverse areas at the intersection of mathematics and applied sciences. His expertise lies in developing and analyzing epidemiological models to understand the transmission dynamics of infectious diseases. 🦠 He has contributed significantly to the study of pandemic trends, including novel coronavirus transmission, using optimal control strategies. 📊 Rihan’s work extends to the numerical treatment of complex equations, employing methods like Chebyshev collocation for pantograph delay differential equations. ⏲️ Additionally, he has delved into fractional-order models, exploring their applications in tumor-immune systems and COVID-19 dynamics with a focus on vaccination efficacy. 💉 His research demonstrates a commitment to advancing mathematical tools for understanding and controlling real-world phenomena.

Citations:

The provided information appears to be citation metrics for a researcher. Here’s an interpretation:

Research Metrics:

  • Citations: 2,906 citations across 2,137 documents indicate a substantial impact and recognition of the researcher’s work within the academic community.
  • Documents: The researcher has produced 137 documents, reflecting a prolific and active scholarly output.
  • h-index: With an h-index of 30, the researcher has 30 papers that have each been cited at least 30 times, illustrating a balanced and influential body of work.

These metrics collectively suggest a researcher with a significant and impactful contribution to their field, as evidenced by the citations and h-index.

 

Publication Top Notes :