Konstantinos Lazopoulos | Applied Mathematics | Best Researcher Award

Posted on by The Scientist

Prof. Dr. Konstantinos Lazopoulos | Applied Mathematics | Best Researcher Award

researcher | National Technical University of Athens | Greece 

Prof. Dr. Konstantinos Lazopoulos is a distinguished scholar in Applied Mathematics and Mechanics, currently serving at the National Technical University of Athens (NTUA), Greece. With an academic foundation rooted in both engineering and mathematics, he earned his Diploma in Civil Engineering from NTUA in 1968, followed by a Diploma in Mathematics from the University of Athens in 1975. He then pursued advanced studies in the United States, obtaining a Master’s degree in Mechanics from Virginia Tech in 1977 and a Ph.D. in Mechanics from Georgia Tech in 1979, both supported by university scholarships. From 1980 to 2013, he was a dedicated faculty member at NTUA’s Department of Applied Mathematics and Physics, contributing profoundly to education and research. His prolific academic output includes over 100 research papers published in leading international journals, focusing on innovative analytical and computational methods in Applied Mathematics and Mechanics. Prof. Lazopoulos is internationally recognized for developing the mathematically rigorous Λ-Fractional Analysis, a novel fractional method inspired by Leibnitz’s foundational ideas of 1695 and satisfying the stringent conditions of Differential Topology. His research interests encompass fractional calculus, continuum mechanics, nonlinear analysis, and mathematical modeling of physical systems. His expertise lies in developing precise mathematical frameworks to describe complex mechanical behaviors, bridging theory and practical application in mechanics and physics. Acknowledged for his scholarly excellence, Prof. Lazopoulos has been featured in Stanford University’s global catalog of the top 2% most influential researchers, underscoring his lasting impact on the scientific community. His career reflects a lifelong commitment to advancing the frontiers of mathematical science and engineering through original thought, rigor, and innovation.1,280 Citations; 79 Documents; 19 h-index.

Profiles: Google scholar | Scopus | ORCID | ResearchGate

Featured Publications

  1. Lazopoulos, K. A. (2006). Non-local continuum mechanics and fractional calculus. Mechanics Research Communications, 33(6), 753–757. [Cited by: 225]

  2. Lazopoulos, K. A., & Lazopoulos, A. K. (2010). Bending and buckling of thin strain gradient elastic beams. European Journal of Mechanics – A/Solids, 29(5), 837–843. [Cited by: 163]

  3. Lazopoulos, K. A. (2009). On bending of strain gradient elastic micro-plates. Mechanics Research Communications, 36(7), 777–783. [Cited by: 147]

  4. Lazopoulos, K. A. (2004). On the gradient strain elasticity theory of plates. European Journal of Mechanics – A/Solids, 23(5), 843–852. [Cited by: 116]

  5. Lazopoulos, K. A., & Stamenović, D. (2008). Durotaxis as an elastic stability phenomenon.Journal of Biomechanics, 41(6), 1289–1294. [Cited by: 66]

Justine Dushimirimana | Mathematical Sciences | Best Researcher Award

Posted on by The Scientist

Mrs. Justine Dushimirimana | Mathematical Sciences | Best Researcher Award

Assistant Lecturer | University of Rwanda | Rwanda

Mrs. Justine Dushimirimana is an accomplished Assistant Lecturer at the University of Rwanda, affiliated with the Mathematics Department, College of Science and Technology. She earned her Bachelor of Science in Applied Mathematics with First Class Honours and a Master of Science in Applied Mathematics, specializing in Statistical Modelling and Actuarial Sciences, from the University of Rwanda, where her master’s thesis was published in the African Journal of Applied Statistics (2021). Currently, she is pursuing a Ph.D. in Mathematical Statistics at the University of Nairobi, advancing the Generalized Growth Curve Model through improved parameter estimation and hypothesis testing and introducing tensor residuals for robust model adequacy assessment in spatio-temporal data. Her research spans multivariate statistics, focusing on the structure and estimation of covariance matrices, parameter estimation methods, hypothesis testing, and model diagnostics for complex datasets, with practical applications in environmental sciences. She has completed significant research projects, including her master’s thesis on calcium foliar feed effects on rose flowers, an NCST-funded project on predictive modeling of COVID-19 in Rwanda, and a University of Rwanda grant on multifluid cosmology in f(G) gravity, while her ongoing Ph.D. work further enhances statistical frameworks for tensor data analysis. Mrs. Dushimirimana has authored five publications in reputed journals and actively collaborates with distinguished researchers including Prof. Isaac K. Chumba, Prof. Joseph Nzabanita, Dr. Lydia Musiga, and Dr. Ronald Waliaula Wanyonyi. She is a member of the Eastern Africa Network for Women in Basic Sciences (EANWoBAS) and the Eastern Africa Universities Mathematics Programme (EAUMP) research network. Her innovative contributions, particularly the formulation of the general trilinear hypothesis and development of tensor residuals, have strengthened model diagnostics, inference accuracy, and decision-making in multivariate and spatio-temporal analyses. Recognized for her academic rigor, research excellence, and collaborative spirit, Mrs. Dushimirimana exemplifies a rising leader in mathematical statistics whose work significantly impacts both theoretical and applied domains.

Profiles: Scopus | ORCID | ResearchGate

Featured Publications

  • Dushimirimana, J., Chumba, I. K., Musiga, L., Nzabanita, J., & Waliaula Wanyonyi, R. (2025). Test for a general trilinear hypothesis in the generalized growth curve model. Journal of Multivariate Analysis, 210, 105470. https://doi.org/10.1016/j.jmva.2025.105470

  • Ntahompagaze, J., Twagirayezu, F., Ayirwanda, A., Munyeshyaka, A., Mukeshimana, S., Ruganzu Uwimbabazi, L. F., & Dushimirimana, J. (2025). On 1 + 3 covariant perturbation with Chaplygin-stiff fluid system in modified Gauss-Bonnet gravity. Rwanda Journal of Engineering, Science, Technology and Environment, 7(1), 1–15. https://doi.org/10.4314/rjeste.v7i1.1

  • Ngaruye, I., Nzabanita, J., Masabo, E., Gahamanyi, M., Nyandwi, B., Dushimirimana, J., Ndanguza, D., Mpinganzima, L., Kurujyibwami, C., & Ruganzu Uwimbabazi, L. F. (2025). The effect of meteorological factors on extreme COVID-19 infection in Rwanda: The generalized additive extreme value modeling approach. Rwanda Journal of Engineering, Science, Technology and Environment, 7(1), 8–21. https://doi.org/10.4314/rjeste.v7i1.8

  • Ndanguza, D., Ngendahayo, J. P., Uwimana, A., Niyigena, J. D., Mbalawata, I. S., Ngaruye, I., Nzabanita, J., Masabo, E., Gahamanyi, M., Nyandwi, B., Ngaruye, I., Dushimirimana, J., & Waliaula Wanyonyi, R. (2024). Analysis of the COVID-19 pandemic in Rwanda using a stochastic model. Mathematics Open, 3(1), 1–15. https://doi.org/10.1142/s281100722350013x

  • Mpinganzima, L., Ntaganda, J. M., Banzi, W., Muhirwa, J. P., Nannyonga, B. K., Niyobuhungiro, J., Rutaganda, E., Ngaruye, I., Ndanguza, D., Nzabanita, J., & Dushimirimana, J. (2023). Compartmental mathematical modelling of dynamic transmission of COVID-19 in Rwanda. IJID Regions, 5, 1–10. https://doi.org/10.1016/j.ijregi.2023.01.003