Lavinia Ciungu | Algebra | Best Researcher Award

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Dr. Lavinia Ciungu | Algebra | Best Researcher Award

Associate Professor at St. Francis College, United States

Dr. Lavinia Corina Ciungu is an accomplished mathematician and educator currently serving as an Associate Professor at St. Francis College, New York. With dual PhDs in Mathematics from the University of Bucharest and SUNY Buffalo, she brings a global academic perspective to her work. Her research focuses on algebraic logic, quantum structures, and fuzzy systems, with numerous publications in high-impact journals such as Fuzzy Sets and Systems and Algebra Universalis. Dr. Ciungu has actively contributed to international conferences and academic communities through invited talks, session chair roles, and student mentorship. She is also deeply involved in curricular innovation, community engagement, and faculty service, including leadership in diversity and STEM outreach initiatives. Her excellence in both teaching and research is underscored by awards such as the AMS–NSF travel grant and the SUNY Buffalo Outstanding Teaching Assistant Award. Dr. Ciungu exemplifies scholarly dedication, pedagogical innovation, and leadership in advancing mathematics and inclusive education.

Professional Profile 

Scopus Profile

Education

Dr. Lavinia Corina Ciungu holds two doctoral degrees in Mathematics, reflecting her deep academic dedication and international scholarship. She earned her first PhD from the University of Bucharest, Romania, where she developed a strong foundation in abstract algebra, fuzzy logic, and theoretical mathematics. Later, she pursued and completed a second PhD at the State University of New York (SUNY) at Buffalo, USA, further broadening her expertise with a focus on logic algebras and algebraic structures within fuzzy systems. Throughout her educational journey, Dr. Ciungu demonstrated outstanding academic performance and research excellence, earning several distinctions and scholarships. Her interdisciplinary training across two continents has equipped her with a unique perspective that bridges classical and modern mathematical approaches. This extensive and rigorous academic background laid the groundwork for her future research contributions and teaching career in higher education, both in Romania and the United States.

Professional Experience

Dr. Lavinia Corina Ciungu has cultivated a distinguished professional career in academia, currently serving as an Associate Professor of Mathematics at St. Francis College in New York. Prior to this role, she held teaching and research appointments at several respected institutions, including SUNY Buffalo, where she served as a Teaching Assistant and Lecturer. Her professional portfolio showcases a strong commitment to both education and scholarship. She has taught a wide range of undergraduate and graduate courses in algebra, calculus, logic, and discrete mathematics. Beyond classroom instruction, Dr. Ciungu actively mentors students, supervises independent research projects, and contributes to curriculum development. Her administrative and committee roles include serving on college-wide initiatives that promote STEM engagement, diversity, and academic excellence. With experience in both European and American academic systems, she brings a global perspective to teaching, research, and service. Her dedication to student success and institutional growth reflects her status as a well-rounded academic professional.

Research Interest

Dr. Lavinia Corina Ciungu’s research interests lie at the intersection of algebraic structures, fuzzy logic, and lattice theory, with a special emphasis on quantum structures and algebraic logic. Her work contributes to the development of generalizations of MV-algebras, BL-algebras, pseudo-BCK algebras, and residuated lattices, which are fundamental in many-valued and non-classical logic systems. A significant portion of her research focuses on applying these algebraic frameworks to fuzzy systems and decision-making models, which have practical implications in computer science, artificial intelligence, and information theory. She has published numerous peer-reviewed articles in leading journals such as Fuzzy Sets and Systems, Soft Computing, and Algebra Universalis. Dr. Ciungu also engages in collaborative, interdisciplinary research, exploring the applications of mathematical logic to quantum computing and uncertainty modeling. Her scholarly contributions are recognized for their depth, originality, and impact, positioning her as an influential voice in both pure and applied mathematical research communities.

Award and Honor

Dr. Lavinia Corina Ciungu has received several prestigious awards and honors throughout her academic and professional career, recognizing her excellence in research, teaching, and service. Notably, she was awarded the American Mathematical Society–National Science Foundation (AMS–NSF) travel grant, enabling her to present her work at major international conferences. During her time at SUNY Buffalo, she received the Outstanding Teaching Assistant Award for her exceptional instructional abilities and student engagement. Her doctoral dissertation was also commended for its originality and significance in the field of algebraic logic. Dr. Ciungu has been invited as a speaker and session chair at global mathematical conferences, further affirming her reputation in the international academic community. In addition to these accolades, she has been recognized for her mentoring efforts, diversity advocacy, and contributions to curriculum innovation at St. Francis College. These honors reflect her multifaceted impact as a scholar, educator, and community leader in mathematics.

Conclusion

Dr. Lavinia Corina Ciungu stands out as a dynamic and accomplished mathematician whose career embodies a rare blend of rigorous research, pedagogical excellence, and meaningful academic service. With dual PhDs and a strong international background, she brings depth and innovation to her research in algebraic logic, fuzzy systems, and quantum structures. Her professional contributions extend beyond the classroom through mentorship, curriculum development, and institutional leadership. Dr. Ciungu’s accolades, including competitive grants and teaching awards, underscore her influence in both theoretical mathematics and applied disciplines. She remains deeply committed to fostering inclusive learning environments and advancing STEM education, particularly for underrepresented groups. Her interdisciplinary approach and global engagement have enriched academic communities and contributed to the evolving landscape of modern mathematics. As a scholar, educator, and role model, Dr. Ciungu continues to inspire future generations of mathematicians while making lasting contributions to the advancement of mathematical sciences worldwide.

Publications Top Notes

📚 Selected Publications of Dr. Lavinia Corina Ciungu

  1. Title: Centers of Quantum-Wajsberg Algebras
    Author: L.C. Ciungu (Lavinia Corina Ciungu)
    Year: 2024
    Source: Journal of Applied Logics

  1. Title: Implicative-Orthomodular Algebras
    Author: L.C. Ciungu (Lavinia Corina Ciungu)
    Year: 2023
    Source: Bulletin of the Belgian Mathematical Society – Simon Stevin

  1. Title: Valued Quantum B-Algebras
    Author: L.C. Ciungu (Lavinia Corina Ciungu)
    Year: 2023
    Source: Fuzzy Sets and Systems

  1. Title: Deductive Systems in Unital Quantum-B Algebras
    Author: L.C. Ciungu (Lavinia Corina Ciungu)
    Year: 2022
    Source: Bulletin of the Belgian Mathematical Society – Simon Stevin

 

Mohammed Hussein | Applied Mathematics | Best Researcher Award

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Prof. Mohammed Hussein | Applied Mathematics | Best Researcher Award

Academia at University of Baghdad, Iran

Dr. Mohammed Sabah Hussein is a distinguished Professor of Applied Mathematics at the University of Baghdad, College of Science, with a Ph.D. from the University of Leeds. With 18 years of teaching and research experience, his expertise spans inverse problems for heat equations, numerical analysis, fluid dynamics, and mathematical modeling. He has made significant contributions to academia, mentoring postgraduate students and serving in leadership roles, including Head of the Mathematics Department. Dr. Hussein has an impressive publication record in high-impact journals and actively participates in international research collaborations. His academic reputation is reflected in his H-index rankings across Google Scholar, Scopus, and Clarivate. As a member of several professional societies and editorial boards, he is dedicated to advancing applied mathematics. His technical proficiency in MATLAB, Mathematica, and LaTeX, coupled with his extensive research on solving complex mathematical problems, makes him a leading figure in his field.

Professional Profile 

Google Scholar
Scopus Profile
ORCID Profile

Education

Dr. Mohammed Sabah Hussein earned his Ph.D. in Applied Mathematics from the University of Leeds, where he specialized in inverse problems for heat equations and numerical analysis. Prior to that, he obtained his Master’s and Bachelor’s degrees in Mathematics from the University of Baghdad, demonstrating early excellence in mathematical modeling and computational techniques. His academic journey has been marked by a strong foundation in mathematical theories, which he later expanded through advanced research in applied mathematics and fluid dynamics. Throughout his education, Dr. Hussein actively engaged in research projects that enhanced his expertise in solving complex mathematical problems, particularly in heat transfer and differential equations. His exposure to international academic environments enriched his analytical skills and deepened his understanding of mathematical applications in real-world scenarios. His educational background continues to influence his teaching and research, enabling him to contribute significantly to mathematical sciences and mentor future scholars in applied mathematics.

Professional Experience

Dr. Mohammed Sabah Hussein is a Professor of Applied Mathematics at the University of Baghdad, College of Science, with 18 years of experience in teaching and research. He has held several academic leadership roles, including serving as Head of the Mathematics Department, where he played a crucial role in curriculum development and faculty mentoring. Over the years, he has supervised numerous postgraduate students, guiding them in advanced mathematical research. Dr. Hussein has collaborated with international institutions on cutting-edge research projects in applied mathematics, enhancing interdisciplinary studies. He has also served as a reviewer and editorial board member for prestigious mathematical journals, contributing to the peer-review process. His expertise in numerical methods, fluid dynamics, and inverse problems has led him to participate in global awards and workshops, where he shares his insights with the academic community. His commitment to research and education solidifies his standing as a leading mathematician.

Research Interest

Dr. Mohammed Sabah Hussein’s research focuses on inverse problems for heat equations, numerical analysis, fluid dynamics, and mathematical modeling. He specializes in solving complex differential equations that arise in real-world applications, particularly in heat transfer and fluid mechanics. His work extends to computational techniques using MATLAB and Mathematica, where he develops algorithms for accurate numerical solutions. Dr. Hussein is also interested in optimization methods and their applications in engineering and physical sciences. His research has contributed to advancements in thermal analysis and industrial processes, demonstrating the practical impact of applied mathematics. Additionally, he collaborates on interdisciplinary projects that integrate mathematics with physics and engineering, broadening the scope of mathematical applications. His publications in high-impact journals reflect his dedication to innovative mathematical research, and his continued exploration of numerical simulations and mathematical modeling ensures his contributions remain at the forefront of applied mathematics advancements.

Awards and Honors

Dr. Mohammed Sabah Hussein has received several prestigious awards and honors for his outstanding contributions to applied mathematics. His research excellence has been recognized with accolades from national and international academic institutions. He has been honored for his high-impact publications and has received grants for his work in mathematical modeling and numerical analysis. Dr. Hussein’s influence in academia is further demonstrated by his strong citation record and H-index rankings in Google Scholar, Scopus, and Clarivate. He has been invited as a keynote speaker at global awards and has received recognition for his mentorship of postgraduate students. His role in advancing mathematical sciences has been acknowledged through memberships in esteemed mathematical societies and editorial boards of reputed journals. These honors reflect his dedication to academic excellence and his influence on the broader mathematical research community.

Conclusion

Dr. Mohammed Sabah Hussein is a highly respected mathematician whose expertise in applied mathematics has significantly impacted academia and research. With a strong educational background and extensive professional experience, he has contributed to solving complex mathematical problems through advanced numerical analysis and modeling. His dedication to mentoring students, publishing high-impact research, and collaborating internationally highlights his commitment to the mathematical sciences. His awards and honors reflect his scholarly influence and contributions to mathematical research. As a professor, researcher, and mentor, Dr. Hussein continues to advance applied mathematics, ensuring its relevance in solving real-world challenges. His work in inverse problems, fluid dynamics, and computational methods cements his reputation as a leader in the field. Through his academic and research endeavors, he remains dedicated to pushing the boundaries of mathematical knowledge and inspiring future generations of mathematicians.

Publications Top Noted

1. Simultaneous determination of time-dependent coefficients in the heat equation

Authors: M. S. Hussein, D. Lesnic, M. I. Ivanchov
Year: 2014
Citations: 61
Source: Computers & Mathematics with Applications, 67(5), 1065-1091

2. An inverse problem of finding the time‐dependent diffusion coefficient from an integral condition

Authors: M. S. Hussein, D. Lesnic, M. I. Ismailov
Year: 2016
Citations: 49
Source: Mathematical Methods in the Applied Sciences, 39(5), 963-980

3. Reconstruction of time-dependent coefficients from heat moments

Authors: M. J. Huntul, D. Lesnic, M. S. Hussein
Year: 2017
Citations: 45
Source: Applied Mathematics and Computation, 301, 233-253

4. Simultaneous determination of time and space-dependent coefficients in a parabolic equation

Authors: M. S. Hussein, D. Lesnic
Year: 2016
Citations: 38
Source: Communications in Nonlinear Science and Numerical Simulation, 33, 194-217

5. Multiple time-dependent coefficient identification thermal problems with a free boundary

Authors: M. S. Hussein, D. Lesnic, M. I. Ivanchov, H. A. Snitko
Year: 2016
Citations: 37
Source: Applied Numerical Mathematics, 99, 24-50

6. Direct and inverse source problems for degenerate parabolic equations

Authors: M. S. Hussein, D. Lesnic, V. L. Kamynin, A. B. Kostin
Year: 2020
Citations: 35
Source: Journal of Inverse and Ill-Posed Problems, 28(3), 425-448

7. Simultaneous determination of time-dependent coefficients and heat source

Authors: M. S. Hussein, D. Lesnic
Year: 2016
Citations: 24
Source: International Journal for Computational Methods in Engineering Science and Mechanics

8. Identification of the time-dependent conductivity of an inhomogeneous diffusive material

Authors: M. S. Hussein, D. Lesnic
Year: 2015
Citations: 24
Source: Applied Mathematics and Computation, 269, 35-58

9. Determination of a time-dependent thermal diffusivity and free boundary in heat conduction

Authors: M. S. Hussein, D. Lesnic
Year: 2014
Citations: 23
Source: International Communications in Heat and Mass Transfer, 53, 154-163

10. Simultaneous Identification of Thermal Conductivity and Heat Source in the Heat Equation

Authors: M. J. Huntul, M. S. Hussein
Year: 2021
Citations: 20
Source: Iraqi Journal of Science, 1968-1978

11. A wavelet-based collocation technique to find the discontinuous heat source in inverse heat conduction problems

Authors: M. Ahsan, W. Lei, M. Ahmad, M. S. Hussein, Z. Uddin
Year: 2022
Citations: 16
Source: Physica Scripta, 97(12), 125208

12. Identification of a multi-dimensional space-dependent heat source from boundary data

Authors: M. S. Hussein, D. Lesnic, B. T. Johansson, A. Hazanee
Year: 2018
Citations: 16
Source: Applied Mathematical Modelling, 54, 202-220

13. Free boundary determination in nonlinear diffusion

Authors: M. S. Hussein, D. Lesnic, M. Ivanchov
Year: 2013
Citations: 16
Source: East Asian Journal on Applied Mathematics, 3(4), 295-310

14. Retrieval of Timewise Coefficients in the Heat Equation from Nonlocal Overdetermination Conditions

Authors: F. Anwer, M. S. Hussein
Year: 2022
Citations: 15
Source: Iraqi Journal of Science, 1184-1199

15. Numerical Solution to Recover Time-dependent Coefficient and Free Boundary from Nonlocal and Stefan Type Overdetermination Conditions in Heat Equation

Authors: M. Qassim, M. S. Hussein
Year: 2021
Citations: 15
Source: Iraqi Journal of Science, 62(3), 950-960

16. Determination of time-dependent coefficient in time fractional heat equation

Authors: Q. W. Ibraheem, M. S. Hussein
Year: 2023
Citations: 14
Source: Partial Differential Equations in Applied Mathematics, 7, 100492

17. Splitting the One-Dimensional Wave Equation, Part II: Additional Data are Given by an End Displacement Measurement

Authors: S. O. Hussein, M. S. Hussein
Year: 2021
Citations: 13
Source: Iraqi Journal of Science, 62(1), 233-239

18. Numerical Solution for Two-Sided Stefan Problem

Authors: M. S. Hussein, Z. Adil
Year: 2020
Citations: 12
Source: Iraqi Journal of Science, 61(2), 444-452

Xuefeng Mao | Algebra | Best Researcher Award

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Prof. Xuefeng Mao | Algebra | Best Researcher Award

Professor at Shanghai University, China

Professor Xuefeng Mao is a distinguished mathematician specializing in homological algebra, DG categories, algebraic geometry, and rational homotopy theory. He currently serves as a Professor at Shanghai University and has held various academic positions, including Associate Professor and Senior Lecturer. His extensive academic background includes a Ph.D. from Fudan University and postdoctoral research at Fudan and the University of Washington. Professor Mao has made significant contributions to the study of DG algebras, homological invariants, and representation theory, with numerous publications in renowned mathematical journals. He has been awarded substantial funding from the National Natural Science Foundation of China for his projects focused on the properties, constructions, and applications of homologically smooth DG algebras. In addition to his research, Professor Mao has mentored several graduate students, contributing to the development of future scholars in the field. His work continues to shape the landscape of modern algebra and geometry.

Professional Profile 

Scopus Profile

Education

Professor Xuefeng Mao earned his Ph.D. in Mathematics from Fudan University in 2008, where he focused his dissertation on homological invariants for connected cochain DG algebras. His foundation in mathematics was built at Zhejiang Normal University, where he obtained his Bachelor’s degree in 2002. During his academic journey, Professor Mao acquired a deep understanding of algebraic structures and their applications. His education laid the groundwork for a successful career in academia and research, providing him with the expertise to tackle complex problems in homological algebra, representation theory, and rational homotopy theory. His Ph.D. work at Fudan University, particularly in the area of homologically smooth DG algebras, was instrumental in pushing the boundaries of knowledge in the field. Over the years, Professor Mao has cultivated a passion for academic exploration and research, inspiring many students in the process.

Professional Experience

Professor Xuefeng Mao is a distinguished faculty member at Shanghai University, where he has been serving as a Professor in the Department of Mathematics & School of Science since 2020. Prior to this, he held the position of Associate Professor at the same institution from 2015 to 2020, and Senior Lecturer from 2010 to 2015. His academic journey also includes postdoctoral fellowships at renowned institutions. From 2013 to 2014, Professor Mao was a Visiting Scholar at the University of Washington in Seattle, USA. Before that, he completed his postdoctoral research at Fudan University from 2008 to 2010. His vast professional experience, coupled with his commitment to advancing mathematical research and teaching, has made him a respected figure in the mathematical community. Through various roles, Professor Mao has contributed to both the academic environment at Shanghai University and the wider global research community.

Research Interests

Professor Xuefeng Mao’s research interests are centered on homological algebras, DG categories, algebraic geometry, representation theory of algebras, rational homotopy theory, and probability and statistics. His work focuses on understanding the properties, constructions, classifications, and homological invariants of homologically smooth DG algebras, which are a class of algebraic structures with a strong influence on algebraic geometry and representation theory. Professor Mao has significantly contributed to the study of DG algebras and their applications, such as their role in noncommutative algebraic geometry and rational homotopy theory. Additionally, his interest in probability and statistics has allowed him to explore the connection between algebraic structures and probabilistic models. His research has led to several important papers published in top mathematical journals, and his work continues to be influential in the study of algebraic and geometric structures, contributing to the growth of both theoretical and applied mathematics.

Awards and Honors

Professor Xuefeng Mao has received numerous accolades for his outstanding contributions to mathematics, particularly in the areas of homological algebra and algebraic geometry. He has been awarded funding by the National Natural Science Foundation of China for multiple research projects, showcasing the recognition of his work by the academic community. His research projects, such as “The research on the properties, constructions, classifications, and homological invariants of homologically smooth DG algebras,” have garnered support due to their significant impact on advancing mathematical knowledge. These prestigious awards highlight his ability to secure competitive funding and produce groundbreaking work. Additionally, Professor Mao’s research projects have been well-received internationally, further solidifying his reputation as a leading scholar in his field. His accomplishments reflect both his expertise in advanced mathematics and his dedication to enhancing the understanding of complex algebraic structures.

Conclusion

Professor Xuefeng Mao is a leading scholar in the field of mathematics, particularly in the areas of homological algebras, DG categories, algebraic geometry, and representation theory. His extensive educational background, coupled with years of professional experience at Shanghai University, has enabled him to make substantial contributions to the understanding of mathematical structures. Through his research, he has significantly advanced the study of DG algebras, rational homotopy theory, and their applications in algebraic geometry. In addition to his impressive research achievements, Professor Mao has been instrumental in mentoring MSc students, contributing to the development of future scholars in the field. His ability to secure competitive research funding, his global collaborations, and his publications in prestigious journals further solidify his stature as an exceptional researcher. Professor Mao’s work continues to inspire and impact the field of mathematics, making him a valuable asset to the academic and research communities.

Publications Top Noted