Alina Alb Lupas | Complex Analysis | Innovative Research Award

Innovative Research Award

Alina Alb Lupaș
University of Oradea, Romania

                           Alina Alb Lupaș
Affiliation University of Oradea
Country Romania
Scopus ID 37009764600
Documents 137
Citations 935
h-index 15
Subject Area Complex Analysis
Event Botany Scientist Awards
ORCID 0000-0002-2855-7535

The Innovative Research Award recognition page highlights the scholarly profile, research activity, and academic impact of Alina Alb Lupaș, a researcher affiliated with the University of Oradea, Romania. Her work is associated with the field of Complex Analysis and related mathematical disciplines, where she has contributed through peer-reviewed publications, scholarly collaboration, and sustained research engagement. Available bibliometric indicators demonstrate an established publication record and measurable research influence within the academic community.[1]

Abstract

This article presents a concise academic overview of Alina Alb Lupaș and her research achievements. The profile summarizes scholarly productivity, thematic expertise in Complex Analysis, publication activity, citation performance, and broader academic contributions. The purpose of this recognition page is to document the researcher’s qualifications and relevance for consideration under the Innovative Research Award category.[1]

Keywords

Complex Analysis; Mathematical Research; Scholarly Publications; Citation Impact; Academic Recognition; University of Oradea; Research Innovation; Scientific Contributions.

Introduction

Research excellence is often reflected through sustained publication activity, contribution to knowledge development, and measurable scholarly impact. Alina Alb Lupaș has developed a research profile characterized by active engagement in mathematical sciences, particularly within Complex Analysis and related analytical disciplines. Her academic record reflects consistent participation in scientific communication through journal publications and collaborative research efforts.[1]

Research Profile

According to available bibliometric information, the researcher is affiliated with the University of Oradea and maintains an established academic presence within indexed scholarly databases. The profile records 137 indexed documents, 935 citations, and an h-index of 15, indicating sustained visibility and engagement with the international research community.[1]

Research Contributions

The research contributions associated with Alina Alb Lupaș are linked to analytical mathematics, theoretical investigation, and the advancement of mathematical methodologies. Through scholarly publications and academic collaboration, the researcher has contributed to ongoing discussions in mathematical analysis and related domains. Such contributions support the development of scientific understanding and provide reference points for future investigations.[2]

Publications

The publication record demonstrates sustained scholarly productivity across peer-reviewed research outputs. Indexed publications contribute to the dissemination of mathematical knowledge and facilitate academic exchange within the broader scientific community. Representative research outputs may be explored through associated indexing services and DOI-linked publications.[3]

Research Impact

Research impact may be evaluated through citations, publication quality, scholarly influence, and the ability of research outputs to support subsequent studies. The citation record associated with the researcher reflects recognition and use of published findings by other scholars. Citation-based indicators, including the h-index, suggest an established academic footprint within the relevant research community.[1]

Award Suitability

The Innovative Research Award recognizes researchers whose scholarly work demonstrates originality, sustained productivity, and measurable academic influence. Based on available publication and citation indicators, together with documented research engagement in Complex Analysis, Alina Alb Lupaș represents a profile consistent with the objectives of academic recognition programs that emphasize research quality, knowledge advancement, and scholarly contribution.[1]

Conclusion

Alina Alb Lupaș has established a documented academic record through publications, citations, and participation in mathematical research. Her contributions to Complex Analysis and related scholarly activities support her recognition within the research community. The available bibliometric evidence indicates sustained academic engagement and continuing relevance within her field of expertise.[1]

References

  1. Exact Dynamics and Optimization for a Discrete-Time SIR Model Using Time-Dependent Parameters, DOI: 10.3390/fractalfract10060371
  2. Asymptotic Properties of Classes of Meromorphic Harmonic Functions via q-Differential Operator, DOI: 10.3390/axioms15050383
  3. Symmetric Properties of Janowski-Type q-Harmonic Close-to-Convex Functions, DOI: 10.3390/sym18050702
  4. Fuzzy Study Regarding the Fractional Integral Applied to the q-Multiplier Transformation, DOI: 10.3390/sym18040549
  5. Sharp Coefficient Estimates for Analytic Functions Subordinate to the Cusp Domain: Theory and Image Processing Applications, DOI: 10.3390/math14061075

Shao-Wen Yao | Applied Mathematics | Research Excellence Award

Prof. Dr. Shao-Wen Yao | Applied Mathematics | Research Excellence Award

Professor | Henan Polytechnic University | China

Prof. Dr. Shao-Wen Yao is a mathematician at Henan Polytechnic University, China, whose research focuses on applied and computational mathematics, particularly nonlinear dynamical systems and fractional differential equations. His work addresses complex phenomena in epidemic modeling, eco-epidemiological prey–predator systems, chaotic dynamics, and diffusion processes. He is known for developing analytical and semi-analytical methods to study stability, qualitative behavior, and numerical simulation of nonlinear models. His research contributes to both theoretical mathematical analysis and real-world applications in science and engineering.

Citation Metrics (Scopus)

3000

2400

1800

1200

600

0

Citations
2,829

Documents
151

h-index
27

                               Citations                   Documents                 h-index


View Scopus Profile
View Orcid Profile

Featured Publications

John Paulo Serwelas | Applied Mathematics | Mathematical Engineering Excellence Award

Prof. John Paulo Serwelas | Applied Mathematics | Mathematical Engineering Excellence Award

Author at Mapua University | Philippines

Prof. John Paulo Serwelas is a faculty member at Mapúa University, Philippines, whose research focuses on structural and materials engineering, particularly the performance of reinforced concrete structures under corrosion effects. His work integrates experimental investigation and analytical modeling to evaluate bonding strength and durability in corroded reinforced concrete using electrochemical measurement techniques such as half-cell potential analysis. Through his research, he contributes to improving structural safety, durability assessment, and sustainable infrastructure design in civil engineering.

Featured Publication

Xichang Wang | Mathematical Engineering | Research Excellence Award

Prof. Xichang Wang | Mathematical Engineering | Research Excellence Award

Director | China Aeronautical Manufacturing Technology Institute | China

Prof. Xichang Wang specializes in welding engineering, metal material standards, and aerospace manufacturing processes. His research focuses on structural modeling of welding process specifications, thermal bonding behavior of titanium alloys, and the development of metal material standards within China’s evolving military–civilian integration framework. He has contributed to key studies on electron beam welding (EBW), thermal self-compressing bonding mechanisms, and material property characterization for aviation and submersible applications. His work integrates materials science, welding technology, and standards engineering, supporting the advancement of high-performance manufacturing in aerospace and defense industries.

Profiles: Scopus | Orcid

Featured Publications

  • Wang, X., Li, G., Zeng, Y., Wang, X., Lyu, X., & Cao, Y. (2025). Research on the structural model of welding process specifications for aviation products based on trade-off design standards. Standards, 5(4), Article 0031. https://doi.org/10.3390/standards5040031
    Year: 2025

  • Wang, X.-C., Wu, Q.-Y., Xu, M., Qi, D.-X., Lu, J., & Teng, C.-Y. (2019). A brief analysis on the development of metal material standards in China under the background of military-civilian integration. Metallurgical Analysis, (Yejin Fenxi), Article 010558. https://doi.org/10.13228/j.boyuan.issn1000-7571.010558
    Year: 2019

  • Deng, Y., Guan, Q., Tao, J., Wu, B., & Wang, X. (2017). Effect of heating time on rigid restraint thermal self-compressing bonding of TC4 alloy. Rare Metal Materials and Engineering.
    Year: 2017

  • Fu, P., Mao, Z., Tang, Z., Li, K., Wang, X., & Zuo, C. (2017). Microstructures and properties of TC4 ELI alloy with horizontal electron beam welding for submersible manned cabin. Applied Ocean Research. https://doi.org/10.1016/j.apor.2017.09.004
    Year: 2017

yanan Camaraza-Medina | Integracion Numerica | Editorial Board Member

Dr. yanan Camaraza-Medina | Integracion Numerica | Editorial Board Member

Postdoctoral Research | University of Guanajuato | Mexico

Yanan Camaraza Medina is a mechanical engineer with 15 years of experience in thermal and energy systems, specializing in convective heat transfer, thermal radiation, and industrial heat-transfer equipment. His work integrates experimental, analytical, and numerical methods to improve the performance, safety, and efficiency of thermal systems used in energy generation and industrial applications. With academic and industrial expertise, he has served as a department head in thermal engineering, university professor, and researcher, contributing to advancements in thermophysical property modeling, phase-change processes, and multiphysics simulations. His research includes the development of predictive correlations, heat-transfer models, and computational strategies applied to real-world engineering problems.

Profiles: Scopus | Orcid 

Featured Publications

Camaraza Medina, Y. (2025). Proximate and ultimate analysis, higher heating value and inorganic chemical composition of woods from central region of Cuba. Sustainable Chemistry One World.

Camaraza Medina, Y., et al. (2025). Heat transfer modeling during condensation inside tubes with arbitrary geometrical orientations. Heat Transfer.

Camaraza Medina, Y. (2025). Experimental correlation of the steel’s thermophysical properties for thermal engineering applications. Heat Transfer.

Camaraza Medina, Y., et al. (2025). Multiphysics analysis of electric arc extinction in low voltage switchgear: Electromagnetic, thermal, and fluid dynamics interactions. Thermal Science and Engineering Progress.

Camaraza Medina, Y., et al. (2025). Analysis of transient heat conduction in tubes under convective boundary conditions. Heat Transfer.

Raghavendran Prabakaran | Fractional Differential Equations | Best Researcher Award

Dr. Raghavendran Prabakaran | Fractional Differential Equations | Best Researcher Award

Researcher | Vel Tech Rangarajan Dr. Sagunthala R\&D Institute of Science and Technology | India

Dr. Raghavendran Prabakaran is an emerging mathematician specializing in fractional differential equations, integral transforms, control theory, and their applications in artificial intelligence and cryptography. With over 60 research contributions, including SCI and Scopus-indexed journal papers, conference presentations, book chapters, and patents, his work demonstrates both theoretical depth and applied innovation. His research focuses on the development and analysis of mathematical models for complex systems, emphasizing existence, stability, and controllability results in fractional calculus. Through rigorous analytical approaches and novel transform methods, Dr. Raghavendran advances the understanding of fractional integro-differential systems, contributing to both pure and applied mathematics. His growing citation impact across Scopus, Web of Science, and Google Scholar reflects his rising influence in computational and applied mathematical research.

Profiles: Scopus | Orcid | Google Scholar 

Featured Publications

Raghavendran, P., Gunasekar, T., Balasundaram, H., Santra, S. S., & Baleanu, D. (2024). Solving fractional integro-differential equations by Aboodh transform. Journal of Mathematics and Computer Science, 34, —. Citation count: 34.

Gunasekar, T., Raghavendran, P., Santra, S. S., & Sajid, M. (2024). Existence and controllability results for neutral fractional Volterra–Fredholm integro-differential equations. Journal of Mathematics and Computer Science, 34(4), 361–380. Citation count: 33.

Gunasekar, T., Raghavendran, P., Santra, S. S., & Sajid, M. (2024). Analyzing existence, uniqueness, and stability of neutral fractional Volterra–Fredholm integro-differential equations. Journal of Mathematics and Computer Science, 33(4), 390–407. Citation count: 29.

Gunasekar, T., Raghavendran, P., Santra, S. S., Majumder, D., & Baleanu, D. (2024). Application of Laplace transform to solve fractional integro-differential equations. Journal of Mathematics and Computer Science, 33(3), 225–237. Citation count: 26.

Gunasekar, T., & Raghavendran, P. (2024). The Mohand transform approach to fractional integro-differential equations. Journal of Computational Analysis and Applications, 33(1), 358–371. Citation count: 25.

Engin Özkan | Number Theory | Best Researcher Award

Prof. Dr. Engin Özkan | Number Theory | Best Researcher Award

Head of the Department of Mathematics | Marmara University | Turkey

Prof. Dr. Engin Özkan is a distinguished mathematician specializing in number theory, combinatorics, and polynomial structures of number sequences. His research explores the properties and transformations of Fibonacci, Pell, Jacobsthal, and Lucas-type sequences, along with their applications in finite groups and algebraic structures. Through his extensive academic career at leading institutions in Turkey and abroad, including Marmara University and The Ohio State University, he has contributed significantly to the development of generalized number sequences and their combinatorial representations. Prof. Özkan’s studies advance the theoretical foundations of sequence polynomials and trace formulas, bridging classical and modern mathematical theory.

Profiles: Scopus | Orcid | Google Scholar | Web of Science 

Featured Publications

  1. Taştan, M., & Özkan, E. (2021). Catalan transform of the k-Pell, k-Pell–Lucas and modified k-Pell sequence. Notes on Number Theory and Discrete Mathematics, 27(1), 198–207. Citation count: 25.

  2. Taştan, M., Özkan, E., & Shannon, A. G. (2021). The generalized k-Fibonacci polynomials and generalized k-Lucas polynomials. Notes on Number Theory and Discrete Mathematics, 27(2), 148–158. Citation count: 24.

  3. Kuloğlu, B., Özkan, E., & Shannon, A. G. (2022). The Narayana sequence in finite groups. Fibonacci Quarterly, 60(5), 212–221. Citation count: 22.

  4. Özkan, E., Uysal, M., & Kuloğlu, B. (2022). Catalan transform of the incomplete Jacobsthal numbers and incomplete generalized Jacobsthal polynomials. Asian-European Journal of Mathematics, 22501194. Citation count: 22.

  5. Özkan, E., & Uysal, M. (2021). Mersenne–Lucas hybrid numbers. Mathematica Montisnigri, 52, 17–29. Citation count: 21.

 

 

David Raju Thommandru | Mathematical Modeling | Mathematical Modeling Breakthrough Award

Dr. David Raju Thommandru | Mathematical Modeling | Mathematical Modeling Breakthrough Award

Research scholar | VIT-AP University | India

Dr. T. David Raju is an Assistant Professor of Mathematics at R.K. College of Engineering & Technology, Kethanakonda, with over 15 years of academic experience. His research focuses on mathematical modeling, nonlinear dynamics, and ecological systems, particularly analyzing tipping points and time delays in complex biological interactions. His work bridges applied mathematics with ecology, contributing valuable insights into predator–prey dynamics under environmental stress. With a strong academic background (M.Phil., M.Sc., M.Ed.) and a Silver Medal from Andhra University, he combines teaching excellence with impactful research in applied nonlinear systems.

Profile: Scopus

Featured Publications

  1. T. David Raju (2025). Uncovering ecological thresholds: Effects of external stress driven tipping point and delay in predator–prey system. Chaos, Solitons & Fractals (Open Access).

 

 

 

Ilhem Kadri | Applied Mathematics | Best Researcher Award

Assoc. Prof. Dr. Ilhem Kadri | Applied Mathematics | Best Researcher Award

Associate Professor | University of Oran 1 – Ahmed Ben Bella | Algeria

Dr. Ilhem Kadri is an Associate Professor of Applied Mathematics at the University of Oran 1, Algeria, specializing in fractional calculus, nonlinear partial differential equations, and computational mathematics. She earned her Ph.D. in Applied Mathematics from the University of Jordan, following her master’s and bachelor’s degrees in mathematics from the University of Oran 1 Ahmed Ben Bella. Dr. Kadri’s academic and research trajectory reflects a deep commitment to advancing the analytical and numerical treatment of fractional and conformable differential equations, as well as exploring chaotic and nonlinear dynamical systems. Her scholarly contributions include numerous research articles in internationally recognized journals, such as the European Journal of Pure and Applied Mathematics, Mathematics, and Results in Nonlinear Analysis, where she has developed novel analytical and numerical frameworks including the Laplace Transform Decomposition Method, the Conformable Fractional Laplace Transform Method, and applications of fractional Fourier series and tensor product techniques. She has presented her work at several prestigious international conferences and symposia across Europe, Asia, and Africa, contributing to global dialogues on applied and computational mathematics. Dr. Kadri is also actively engaged in academic collaboration, scientific workshops, and professional development activities focused on enhancing research impact and innovation in mathematical sciences. Her expertise and scholarly output reflect a strong foundation in both theoretical and applied aspects of mathematics, positioning her as an influential contributor to the field of fractional calculus and nonlinear analysis.10 Citations, 4 Documents, 2 h-index.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Kadri, I.*, Al-Horani, M., & Khalil, R. (2022). Solution of non-linear fractional Burger’s type equations using the Laplace transform decomposition method. Results in Nonlinear Analysis, 5(2), 131–150. Citations: 12.

2. Kadri, I.*, Al Horani, M., & Khalil, R. (2023). Solution of fractional Laplace type equation in conformable sense using fractional Fourier series with separation of variables technique. Results in Nonlinear Analysis, 6(2), 53–59. Citations: 10.

3. Kadri, I.*, Horani, M., & Khalil, R. (2020). Tensor product technique and fractional differential equations. Journal of Semigroup Theory and Applications, Article ID 6. Citations: 5.

4. Ahmed, A. I., Elbadri, M., Alotaibi, A. M., Ashmaig, M. A. M., Dafaalla, M. E., & Kadri, I.* (2025). Chaos and dynamic behavior of the 4D hyperchaotic Chen system via variable-order fractional derivatives. Mathematics, 13(20), 3240.

5. Kadri, I.*, Saadeh, R. S., AlMutairi, D. M., Dafaalla, M. E., Berir, M., & Abdoon, M. A. (2025). Analytical and numerical investigation of a fractional order 4D chaotic system via Caputo fractional derivative. European Journal of Pure and Applied Mathematics, 18(3).

Radwan Al-omary | Rings | Best Paper Award

Prof. Dr. Radwan Al-omary | Rings | Best Paper Award

Associate Professor | Ibb university | Yemen

Dr. Radwan Mohammed Al-Omary is a distinguished mathematician and faculty member at Ibb University, Yemen, specializing in algebra, ring theory, and generalized derivations. He holds advanced degrees in mathematics with a focus on algebraic structures and non-commutative rings. Throughout his academic career, Dr. Al-Omary has made significant contributions to the understanding of prime rings, generalized (α, β)-derivations, and Lie ideals, authoring numerous influential publications in reputed international journals such as Rendiconti del Seminario Matematico della Università di Padova, Communications of the Korean Mathematical Society, and the European Journal of Pure and Applied Mathematics. His most-cited works, including “Lie Ideals and Jordan Triple Derivations in Rings” and “Generalized Derivations on Prime Rings Satisfying Certain Identities,” have advanced theoretical perspectives in ring theory and inspired further mathematical exploration. In addition to his prolific research output, he has actively contributed to the global mathematical community through extensive peer-review activities for leading journals including WSEAS Transactions on Mathematics, Mathematical Reviews, and the European Journal of Pure and Applied Mathematics, completing over three dozen verified manuscript reviews. Dr. Al-Omary’s research interests encompass derivations in algebraic systems, Morita contexts, commutativity conditions in prime rings, and the structural behavior of algebraic identities, reflecting a deep commitment to advancing mathematical theory and education. His scholarly impact is further supported by an established citation record and international collaborations that highlight his reputation as a dedicated researcher and academic leader in his field.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Hongan, M., Rehman, N. U., & Al-Omary, R. M.* (2011). Lie ideals and Jordan triple derivations in rings. Rendiconti del Seminario Matematico della Università di Padova, 125, 147–156. Citations: 40.

2. Haetinger, C. (2009). On Lie structure of prime rings with generalized (α, β)-derivations. Boletim da Sociedade Paranaense de Matemática, —. Citations: 16.

3. Al-Omary, R. M.* (2021). Generalized derivations on prime rings satisfying certain identities. Communications of the Korean Mathematical Society, 36(2), 229–238. Citations: 15.

4. Nawas, M. K. A., & Al-Omary, R. M.* (2018). On ideals and commutativity of prime rings with generalized derivations. European Journal of Pure and Applied Mathematics, 11(1), 79–89. Citations: 12.

5. Rehman, N. U., Al-Omary, R. M.*, & Muthana, N. M. (2019). A note on multiplicative (generalized)(α, β)-derivations in prime rings. Annales Mathematicae Silesianae, 33, 266–275. Citations: 10.