1. Nisar, K. S., Abdulazeez, S. T., & Mohammed, S. A. (2021). Novel multiple soliton solutions for some nonlinear PDEs via multiple Exp-function method. Results in Physics, 21, 103769.
2. Abdulazeez, S. T., & Modanli, M. (2022). Solutions of fractional order pseudo-hyperbolic telegraph partial differential equations using finite difference method. Alexandria Engineering Journal, 61(12), 12443–12451.
3. Abdulazeez, S. T., & Modanli, M. (2023). Analytic solution of fractional order pseudo-hyperbolic telegraph equation using modified double Laplace transform method. International Journal of Mathematics and Computer in Engineering, 1(1), 105–114.
4. Modanli, M., Abdulazeez, S. T., & Husien, A. M. (2020). A residual power series method for solving pseudo hyperbolic partial differential equations with nonlocal conditions. Numerical Methods for Partial Differential Equations, 37(3), 2235–2243.
5. Abdulla, S. O., Abdulazeez, S. T., & Modanli, M. (2023). Comparison of third-order fractional partial differential equation based on the fractional operators using the explicit finite difference method. Alexandria Engineering Journal, 70, 37–44.
6. Abdulazeez, S. T. (2021). Multiple rogue and soliton wave solutions to the generalized Konopelchenko–Dubrovsky–Kaup–Kupershmidt equation arising in fluid mechanics and plasma physics. Modern Physics Letters B, 35(23), 2150383.
7. Modanli, M., Karadag, K., & Abdulazeez, S. T. (2023). Solutions of the mobile–immobile advection–dispersion model based on the fractional operators using the Crank–Nicholson difference scheme. Chaos, Solitons & Fractals, 167, 113114.
8. Tenekeci, M. E., Abdulazeez, S. T., Karadağ, K., & Modanli, M. (2025). Edge detection using the Prewitt operator with fractional order telegraph partial differential equations (PreFOTPDE). Multimedia Tools and Applications, 84(13), 12329–12345.
9. Modanli, M., Murad, M. A. S., & Abdulazeez, S. T. (2023). A new computational method-based integral transform for solving time-fractional equation arises in electromagnetic waves. Zeitschrift für angewandte Mathematik und Physik, 74(5), 186.
10. Abdulazeez, S. T., Modanli, M., & Husien, A. M. (2022). Numerical scheme methods for solving nonlinear pseudo-hyperbolic partial differential equations. Journal of Applied Mathematics and Computational Mechanics, 21(4).
11. Malo, D. H., Masiha, R. Y., Murad, M. A. S., & Abdulazeez, S. T. (2021). A new computational method based on integral transform for solving linear and nonlinear fractional systems. Jurnal Matematika MANTIK, 7(1), 9–19.
12. Othman, S. A., Jameel, H. H., & Abdulazeez, S. T. (2024). Comparative analysis of univariate SARIMA and multivariate VAR models for time series forecasting: A case study of climate variables in Ninahvah City, Iraq. Mathematical Problems of Computer Science, 61, 27–49.
13. Rasheed, S. K., Modanli, M., & Abdulazeez, S. T. (2023). Stability analysis and numerical implementation of the third-order fractional partial differential equation based on the Caputo fractional derivative. Journal of Applied Mathematics and Computational Mechanics, 22(3).
14. Abdulazeez, S. T., Modanli, M., & Husien, A. M. (2023). Solutions to nonlinear pseudo hyperbolic partial differential equations with nonlocal conditions by using residual power series method. Sigma, 41(3), 488–492.
15. Othman, S. A., Omar, K. M. T., & Abdulazeez, S. T. (2023). Reliability analysis and statistical fitting for the transmuted Weibull model in R. Mathematical Statistician and Engineering Applications, 72(2), 161–177.
16. Kirkpinar, S., Abdulazeez, S. T., & Modanli, M. (2022). Piecewise modeling of the transmission dynamics of contagious bovine pleuropneumonia depending on vaccination and antibiotic treatment. Fractals, 30(08), 2240217.
17. Othman, S. A., Qadir, S. T., & Abdulazeez, S. T. (2023). Comparative analysis of scaling parameter estimation for the Lindley distribution in wait time analysis: Simulated and real data applications. Tuijin Jishu/Journal of Propulsion Technology, 44(2).
18. Modanli, M., Abdulazeez, S. T., & Husien, A. M. (2024). A new approach for pseudo hyperbolic partial differential equations with nonlocal conditions using Laplace Adomian decomposition method. Applied Mathematics—A Journal of Chinese Universities, 39(4), 750–758.
19. Abdulazeez, S. T., & Hussein, A. M. (2021). The existence of a polynomial inverse integrating factors and studies about the limit cycles for cubic, quartic and quintic polynomial systems. Baghdad Science Journal, 18(2), 5.
20. Mohammed, S. A., Abdulazeez, S. T., & Malo, D. H. (2019). Stability in delay functional differential equation established using the BANACH fixed point theorem. International Journal of Advanced Trends in Computer Science and Engineering.21. Abdulazeez, S. T., Modanli, M., & Goksu, H. (2023). Solutions of fractional order time-varying linear dynamical systems using the residual
21. power series method. Honam Mathematical Journal, 45(4), 619–628.
22. Masiha, R. Y., Abdulazeez, S. T., & Saeed, D. S. (2021). Investigation of the relationship between economic growth and use of fossil and hydroelectric energy resources by ARDL boundary test: 1971–2018 Iraq case. Jurnal Matematika MANTIK, 7(2), 155–164.
23. Saeed, D. S., Abdulazeez, S. T., Rasheed, S. K., Masiha, R. Y., & Malo, D. H. (2021). The relationship between petroleum price and real exchange rate: An example of Iraq. General Letters in Mathematics, 11(1).
24. Abdulazeez, S. T., Mohammed, S. A., & Modanli, M. (2019). A comparison between applications of the Lyapunov's second (direct) method and fixed point theory. General Letters in Mathematics, 7(2), 61–78.
25. Murad, M. A. S., Hamadamen, M. H., & Abdulazeez, S. T. (2023). Modified computational method based on integral transform for solving fractional Zakharov-Kuznetsov equations. Matrix Science Mathematic, 7(1), 01–06.
26. Modanli, M., Abdulazeez, S. T., & Akgül, A. (2022). Explicit finite difference analysis of pseudo-hyperbolic partial differential equations. Manuscript.
27. Abdulazeez, S. T., & Işleyen, S. (2026). A hybrid semi-analytical technique for the homogeneous space fractional damped wave equation with Gaussian white noise. Journal of Differential Equations, 8(2), 1–9.
28. Agarwal, P., Modanli, M., Yüksekkaya, H., Abdulazeez, S. T., & Jain, S. (2026). Investigating numerical solutions and ensuring stability in nonlinear pseudo hyperbolic telegraph equation. Journal of Computational and Applied Mathematics, 117371.
29. Abdulazeez, S. T. (2025). A novel dual method approach for solving third order pseudo hyperbolic PDEs using variational iteration and group preserving schemes. Boletim da Sociedade Paranaense de Matemática, 43(3), 1–11.
30. Özbağ, F., Modanlı, M., & Abdulazeez, S. T. (2024). Numerical solutions for mixed fractional order two-dimensional telegraph equations. Bitlis Eren Üniversitesi Fen Bilimleri Dergisi, 13(4), 1023–1030.
31. Abdulazeez, S. T. (2024). Solutions of fractional order linear and nonlinear pseudo-hyperbolic telegraph partial differential equations [Doctoral dissertation/thesis].
32. Modanli, M., & Abdulazeez, S. T. (2024). Using the Lagrange interpolation polynomial method to calculate the prevalence of coronavirus disease 2019 (COVID-19) in Turkey. Boletim da Sociedade Paranaense de Matemática, 42, 1–12.
33. Sevgin, S., Abdullah, J. A., & Abdulazeez, S. T. (2024). The stability analysis of the system of integrodifferential equations. Journal of Mathematical Analysis, 15(1), 28–39.
34. Othman, S. A., Jameel, H. H., Omar, K. M. T., & Abdulazeez, S. T. (2023). An efficient nonparametric multivariate functional regression with conditional expectation. Journal of Applied Probability & Statistics, 18(3).
35. Hassan, Z. M., Abdulazeez, S. T., & Rasheed, S. K. (2023). Investigating solutions of Volterra integral equations using the successive approximations. Mathematical Statistician and Engineering Applications, 72(2), 75–82.
36. Abdulla, J. A. W., Rasheed, H. H., Hassan, Z. M., & Abdulazeez, S. T. (2023). Stability analysis of first order integro-differential equations with the successive approximation method. Advances in Nonlinear Variational Inequalities, 26(2), 46–53.
37. Abdulazeez, S. T. (2016). Simpson's type inequalities for some function classes [Master's thesis, Yüzüncü Yıl University].

My research interests lie at the intersection of applied mathematics and modern computational methodologies, with a particular focus on mathematical modeling and numerical analysis. I am especially interested in the study of fractional and partial differential equations, which provide powerful tools for describing complex physical, biological, and engineering systems. These equations offer deeper insight into processes exhibiting memory, heterogeneity, or anomalous diffusion—phenomena that classical models often fail to capture effectively.

In parallel, I am drawn to mathematical statistics and its role in validating, interpreting, and refining mathematical models. The integration of statistical methods enhances the reliability and predictive capability of theoretical results, especially when working with real-world data. Recently, I have developed a strong interest in AI-based modeling, where machine learning techniques are combined with traditional mathematical frameworks to build hybrid, data-driven models. This interdisciplinary approach opens new pathways for solving high-dimensional, nonlinear, or otherwise intractable problems.

Additionally, I am engaged in mathematical programming, which supports the formulation and optimization of complex systems across various scientific domains. Together, these research directions form a cohesive foundation that enables me to approach modern scientific challenges through rigorous theory, computational innovation, and data-guided exploration.

My teaching experience covers all four years of an undergraduate mathematics program, giving me the opportunity to work with students as they progress from foundational to advanced study. In the first year, I taught Finite Mathematics, Calculus, and Computer Skills, helping students build essential analytical and computational skills. During the second year, I taught Probability and Statistics, guiding students in understanding uncertainty and data-driven reasoning.

At the third-year level, I instructed Mathematical Statistics, Partial Differential Equations, and Methods of Teaching Mathematics. These courses allowed students to deepen their theoretical knowledge while also developing awareness of effective mathematics pedagogy. In the fourth year, I taught advanced subjects such as Complex Analysis, Fractional Differential Equations, Functional Analysis, and Practical Education of Science, supporting students as they synthesized their learning and prepared for future academic or professional paths.

Across all levels, my teaching has emphasized clarity, engagement, and critical thinking. Working with students throughout their undergraduate journey has strengthened my commitment to creating supportive and rigorous learning environments.

Since 2021, the author has served in a supervisory role at AVA Academic Affairs Company, where responsibilities have focused on the intellectual development and scholarly guidance of students engaged in mathematical research. In this capacity, contributions have included strengthening analytical reasoning, cultivating rigorous research methodologies, and enhancing academic writing competencies, alongside a sustained emphasis on scientific precision and independent scholarly inquiry.

Concurrently, as a faculty member at the University of Duhok, the author actively supervises undergraduate research projects within the Department of Mathematics. This supervisory engagement is directed toward facilitating students’ application of advanced mathematical theories and computational techniques—particularly in numerical analysis and differential equations—to problems of both academic significance and practical relevance. Through continuous mentorship and academic support, the overarching objective is to foster critical thinking, strengthen problem-solving abilities, and deepen students’ engagement with the theoretical and methodological foundations of mathematical research.

My academic career reflects a sustained commitment to teaching quality, student mentorship, and active scholarly engagement. I have served in several key departmental roles, including membership in the Final Examination Committee (2017–2018), the Quality Assurance Committee (2016–2017), and the Teachers Assessment Committee (2020–2021). These responsibilities allowed me to contribute to improving assessment standards, ensuring academic quality, and supporting effective teaching practices. I have also supervised numerous undergraduate research projects and previously coordinated the Department of Mathematics in the Educational Research Center (2013–2016), where I supported research activities and departmental development.

In addition to my institutional service, I have participated in several international conferences, presenting my work at events such as the International Asian Congress on Contemporary Sciences (2025), the International Adana Scientific Research and Innovation Congress (2025), the 6th International Harran Congress on Scientific Research (2024), and earlier conferences in mathematics, data science, and related fields. These experiences have strengthened my research profile and expanded my engagement with global academic communities.

My professional development includes an IELTS Academic score of 6.5 (2018), a Diploma of Teaching (2017), and multiple certificates in computer skills, research lectures, and English proficiency. Together, these experiences highlight my dedication to continuous learning and to contributing effectively to both teaching and research in the field of mathematics.

No CV available