Yajuan Sun | Computational Mathematics | Best Researcher Award

Published on by Math Scientist

Prof. Yajuan Sun | Computational Mathematics | Best Researcher Award

Researcher at Academy of Mathematics and Systems Science, CAS, China

Professor Yajuan Sun is a distinguished mathematician at the Academy of Mathematics and Systems Science, Chinese Academy of Sciences (CAS), specializing in geometric numerical methods for differential equations with applications in plasma physics, molecular dynamics, and soliton theory. With a Ph.D. from CAS and over two decades of academic excellence, she has led 14 major research projects, including national and international collaborations such as the ITER fusion project. Her 49+ peer-reviewed publications in top-tier journals, mentorship of numerous graduate students, and global academic engagements—spanning the UK, USA, Singapore, and Australia—reflect her influential contributions to both theory and applied science. Her innovative algorithms have been used in major fusion reactor simulations and were shortlisted for the ACM Gordon Bell Prize. Prof. Sun exemplifies leadership, innovation, and global impact in computational mathematics.

Professional Profile

Scopus Profile | ORCID Profile 

Education

Professor Yajuan Sun holds a Ph.D. in Mathematics from the Academy of Mathematics and Systems Science, Chinese Academy of Sciences (CAS), where she developed variational integrators under the guidance of Prof. Mengzhao Qin. Prior to that, she earned her M.S. in Mathematics from Inner Mongolia University, where she focused on nonlinear parabolic equations. Her academic journey began with a B.S. in Mathematics from Inner Mongolia Normal University. Her early research laid the foundation for a lifelong specialization in numerical methods and geometric integrators. These academic credentials from top Chinese institutions shaped her deep understanding of both theoretical and computational mathematics, enabling her to build a globally recognized career in numerical analysis, with a focus on preserving geometric structures in the solutions of differential equations.

Experience

Professor Sun’s academic career spans over two decades at the Chinese Academy of Sciences, where she currently serves as a Professor at the Academy of Mathematics and Systems Science. She began as a Postdoctoral Researcher and has steadily advanced through roles as Assistant and Associate Professor. Internationally, she has been a Visiting Scholar at prestigious institutions including the Isaac Newton Institute (UK), UCSD (USA), and the National University of Singapore. Her collaborations span Europe, Oceania, and Asia, reflecting a robust international presence. She has supervised numerous graduate and visiting students, served as a referee for reputed journals, and contributed to a range of scientific platforms. Her sustained dedication and interdisciplinary work have made her a key contributor to applied and theoretical research within global scientific communities.

Research Interest

Professor Yajuan Sun’s research lies in geometric numerical integration, focusing on the development of algorithms that preserve intrinsic structures in differential equations—such as symplectic, volume-preserving, and energy-conserving properties. She explores advanced numerical techniques for both ODEs and PDEs, using variational principles, Hamiltonian systems, and generating functions. Her work applies to complex systems such as plasma dynamics, molecular simulations, and electromagnetic field modeling. She integrates finite element methods with geometric approaches to solve large-scale, stiff problems arising from science and engineering. Her ongoing interests include adaptive schemes, multisymplectic theory, and numerical stability. The elegance of preserving physical laws in simulations is at the heart of her research, contributing both to theoretical advancement and real-world scientific modeling in fusion energy and particle dynamics.

Award and Honor

Professor Sun has received notable honors, including the Excellent Achievement Award in Natural Science and funding from the K.C. Wong Education Foundation for Excellent Female Scientists. She has led or participated in prestigious projects funded by the National Natural Science Foundation of China, the ITER Project, and international programs like the Royal Society’s cost-share exchange. Her work was integral to a simulation shortlisted for the ACM Gordon Bell Prize, one of the highest recognitions in high-performance computing. These accolades reflect her pioneering role in computational mathematics, the global relevance of her research, and her impact as a female leader in STEM. Her sustained excellence across theory, application, and mentorship has earned her respect in both Chinese and international scientific circles.

Research Skill

Professor Yajuan Sun excels in designing structure-preserving numerical algorithms for large-scale systems modeled by differential equations. She is proficient in symplectic and multisymplectic integrators, generating function techniques, Runge–Kutta methods, and volume-preserving schemes. Her computational expertise extends to adaptive time-stepping, Hamiltonian splitting, and hybrid solvers used in plasma and electromagnetic field modeling. She integrates theoretical rigor with practical algorithm design, validated through real-world simulations such as those of fusion reactors (EAST, CFETR). Her collaborative work across mathematics and physics showcases her ability to bridge domains using high-level programming, numerical modeling, and mathematical physics. She also reviews and edits scientific publications, mentors graduate research, and contributes to algorithmic theory in cutting-edge computational science.

Publication Top Notes

  • Title: Contact-PIC Numerical Methods for Simulating Vlasov–Poisson–Fokker–Planck Problem
    Authors: Yajuan Sun
    Year: 2022

  • Title: Numerical Analysis for a Class of Variational Integrators
    Authors: Yajuan Sun, et al.
    Year: 2025

  • Title: Geometric Integration for the Linear-Gradient System
    Authors: Yajuan Sun, et al.
    Year: 2025

  • Title: Hamiltonian Particle-in-Cell Methods for Vlasov–Poisson Equations
    Authors: Yajuan Sun, et al.
    Year: 2022
    Citations: 7

Conclusion

Professor Yajuan Sun stands out as a leading mathematician whose research bridges theoretical innovation and practical scientific impact. With an outstanding academic record, influential publications, and significant research grants, she has made enduring contributions to geometric numerical methods and their application in plasma physics and beyond. Her ability to integrate structure-preserving algorithms into simulations of complex physical systems has driven advancements in computational modeling. Through global collaborations, student mentorship, and editorial service, she contributes actively to the scientific community. With ongoing research in adaptive and energy-conserving numerical methods, Professor Sun is poised to further influence the future of scientific computing, making her an exemplary candidate for the Best Researcher Award and a role model in the mathematical sciences.

Badr Abou El Majd | Applied Mathematics | Mathematical Engineering Excellence Award

Published on by Math Scientist

Prof. Dr. Badr Abou El Majd | Applied Mathematics | Mathematical Engineering Excellence Award

Full Professor at Mohammed V University, Morocco

Dr. Badr Abou El Majd is a distinguished Professor of Applied Mathematics at Mohammed V University, Rabat, with extensive expertise in multidisciplinary optimization, shape design, AI-driven modeling, and computational engineering. Holding a Ph.D. from INRIA Sophia Antipolis and a Master’s from Pierre and Marie Curie University, his research spans aerospace, transportation, smart systems, and biomedical applications. He has authored over 80 peer-reviewed publications, edited scientific volumes, and holds several patents. As a leader in numerous international research projects and conferences, including EU Erasmus+ and IEEE events, Dr. Abou El Majd has demonstrated remarkable scientific leadership. His contributions to innovation, education, and cross-border collaboration are further recognized through awards like the Distinguished Scholar Award (2023–24), making him a pivotal figure in advancing research that bridges theory, technology, and real-world societal needs

Professional Profile

Google Scholar | Scopus Profile  

Education

Dr. Badr Abou El Majd holds a Ph.D. in Applied Mathematics from INRIA Sophia Antipolis – Méditerranée, France (2007), where he specialized in hierarchical algorithms and game strategies for multidisciplinary optimization, with applications in aerospace design. His doctoral work was conducted in collaboration with Dassault Aviation and Piaggio Aero, demonstrating strong industrial-academic integration. He also earned a Master’s degree in Numerical Analysis from Pierre and Marie Curie University (UPMC – Paris 6), one of Europe’s leading institutions in mathematical sciences. His early academic path was marked by a strong foundation in computational mathematics, optimization, and numerical modeling. These formative years provided the analytical and algorithmic rigor that continues to define his research contributions across disciplines such as aerospace engineering, smart systems, and data-driven decision-making.

Experience

With over two decades of academic and research experience, Dr. Abou El Majd has held prominent roles in Morocco and internationally. He is currently a Full Professor at Mohammed V University, Rabat. Previously, he served as an Associate Professor at both the International University of Rabat and Hassan II University in Casablanca. His international exposure includes visiting and research positions at INRIA Lille, University of Lille, and Polytechnique Montréal. He also worked as a scientist researcher at École Centrale Paris and completed post-doctoral research at CNRS/ENSMA. He has led and coordinated large-scale research and tech-transfer projects involving multiple institutions, government bodies, and industry leaders. This broad experience has enabled him to seamlessly bridge academic theory, industrial application, and international collaboration in fields ranging from aerospace to smart agriculture.

Research Interests

Dr. Abou El Majd’s research is deeply rooted in applied mathematics and multidisciplinary optimization, with expansive interests spanning aerodynamic shape design, robust optimization, artificial intelligence, model reduction, decision-making systems, and digital twin frameworks. He actively explores how machine learning, game theory, and numerical methods can be applied to real-world engineering and societal problems. His work spans diverse domains including aerospace design, RFID networks, cognitive radio, smart agriculture, biomedical imaging, and manufacturing optimization. Through his research, he aims to solve high-dimensional, complex optimization problems while ensuring scalability and industrial relevance. He has recently focused on surrogate modeling, AutoML, and intelligent systems for healthcare diagnostics and infrastructure planning, reflecting a strong commitment to leveraging computational science for impactful, cross-disciplinary solutions.

Award and Honor

Dr. Abou El Majd’s contributions to science and innovation have earned him several prestigious honors. Most notably, he received the Distinguished Scholar Award (2023–24) from the Arab Fund for Economic and Social Development, in collaboration with the University of Lille—an acknowledgment of his outstanding research achievements and academic leadership. Earlier, his doctoral studies were supported by a competitive scholarship from Dassault Aviation and Piaggio Aero, underscoring the industrial relevance of his research. He has also secured major research grants from Erasmus+, CNRST Morocco, TUBITAK Turkey, and the OCP Foundation, amounting to several million dirhams. These accolades reflect not only the scientific merit of his work but also its strategic importance in fields such as transportation, defense, AI, and healthcare systems optimization.

Research Skills

Dr. Abou El Majd possesses a robust and diverse skill set spanning numerical optimization, algorithm design, scientific programming, and AI integration. He is proficient in developing multilevel optimization frameworks, parameterization techniques, and model reduction strategies. His capabilities extend to software architecture, cloud platform development, and AI-enhanced decision systems. He has implemented and applied methods like genetic algorithms, particle swarm optimization, and POD-based reduced-order modeling. His technical expertise is complemented by certifications in Business Intelligence (IBM), Big Data Analytics (Griffith University), and Artificial Intelligence (Accenture). His ability to lead multidisciplinary teams and integrate computational techniques with industrial challenges makes him an effective innovator and collaborator. He also brings strong experience in simulation, CFD, robust design, and real-time optimization across diverse technological sectors.

Publication Top Notes

  • Title: Calibration of POD Reduced‐Order Models Using Tikhonov Regularization
    Authors: L. Cordier, B. Abou El Majd, J. Favier
    Year: 2010
    Citations: 183

  • Title: Nested and Self-Adaptive Bézier Parameterizations for Shape Optimization
    Authors: J.A. Désidéri, B. Abou El Majd, A. Janka
    Year: 2007
    Citations: 90

  • Title: A Particle Swarm Optimization Based Algorithm for Primary User Emulation Attack Detection
    Authors: W.F. Fihri, Y. Arjoune, H. El Ghazi, N. Kaabouch, B. Abou El Majd
    Year: 2018
    Citations: 34

  • Title: Multilevel Strategies for Parametric Shape Optimization in Aerodynamics
    Authors: B. Abou El Majd, J.A. Désidéri, R. Duvigneau
    Year: 2008
    Citations: 28

  • Title: Deep Learning-Based Intrusion Detection System for Advanced Metering Infrastructure
    Authors: Z. El Mrabet, M. Ezzari, H. Elghazi, B.A. El Majd
    Year: 2019
    Citations: 24

  • Title: Primary User Emulation Attacks: A Detection Technique Based on Kalman Filter
    Authors: Z.E. Mrabet, Y. Arjoune, H.E. Ghazi, B.A.A. Majd, N. Kaabouch
    Year: 2018
    Citations: 23

  • Title: Embedding Lattice Structures into Ship Hulls for Structural Optimization and Additive Manufacturing
    Authors: A. Armanfar, A.A. Tasmektepligil, R.T. Kilic, S. Demir, S. Cam, Y. Karafi, B.A. El Majd, et al.
    Year: 2024
    Citations: 20

  • Title: Bayesian Decision Model with Trilateration for Primary User Emulation Attack Localization in Cognitive Radio Networks
    Authors: W.F. Fihri, H. El Ghazi, N. Kaabouch, B.A. El Majd
    Year: 2017
    Citations: 20

  • Title: Homogenization of Periodic Structured Materials with Chiral Properties
    Authors: O. Ouchetto, B.A. El Majd, H. Ouchetto, B. Essakhi, S. Zouhdi
    Year: 2016
    Citations: 20

  • Title: Aerodynamic Shape Optimization Using a Full and Adaptive Multilevel Algorithm
    Authors: B. Abou El Majd, R. Duvigneau, J.A. Désidéri
    Year: 2006
    Citations: 20

  • Title: LSTM-Based Neural Network Architecture for Predicting the Nonlinear Dynamic Behavior of Functional Gradient Viscoelastic Porous Plates
    Year: 2025
    Citations: 1

  • Title: Robust Shape Optimization Using Artificial Neural Networks Based Surrogate Modeling for an Aircraft Wing
    Year: 2024
    Citations: 2

Conclusion

Dr. Badr Abou El Majd exemplifies the modern researcher—analytically rigorous, deeply interdisciplinary, and globally connected. With a rich academic background, impactful research portfolio, and broad leadership experience, he stands as a leading figure in applied mathematics and computational engineering. His ability to bridge theoretical models with industrial and societal needs—through projects in aerospace, healthcare, and smart systems—demonstrates both vision and practical utility. Through international collaborations, patents, high-impact publications, and mentorship roles, he continues to shape emerging research frontiers. His blend of technical depth, strategic leadership, and commitment to innovation make him not only a deserving recipient of high research honors but also a catalyst for future scientific and technological advancements in global contexts.

Khaled Mehrez | Complex Analysis | Best Researcher Award

Published on by Math Scientist

Prof. Khaled Mehrez | Complex Analysis | Best Researcher Award

Associate Professor at University of Sfax, Tunisia

Dr. Khaled Mehrez is an accomplished Associate Professor of Mathematics at the Kairouan Preparatory Institute for Engineering Studies, University of Kairouan, Tunisia. With a Ph.D. from University Tunis El Manar (2017) and a habilitation in Mathematics (2023), his research spans special functions, harmonic analysis, and geometric function theory. He has published over 50 papers in prestigious journals such as Applied Mathematics and Computation, Integral Transforms and Special Functions, and The Ramanujan Journal. Dr. Mehrez is a dedicated peer reviewer for over 30 international journals and actively collaborates with renowned researchers worldwide. His contributions reflect a blend of theoretical depth and applied relevance. Through teaching, publication, and editorial service, he has significantly advanced mathematical research and is widely recognized for his scholarly impact in the global academic community.

Professional Profile 

Google Scholar | Scopus Profile | ORCID Profile 

Education

Dr. Khaled Mehrez’s academic journey is deeply rooted in mathematical sciences, beginning with a Bachelor’s degree in Mathematics from the Faculty of Sciences of Bizerte, University of Carthage in 2006. He followed this with a Master’s in Mathematics from the same institution in 2009, further developing his analytical and theoretical foundations. He earned his Ph.D. in Mathematics from the University Tunis El Manar in 2017, focusing on advanced mathematical functions and inequalities. His academic path culminated in a prestigious Habilitation in Mathematics in 2023 from the Kairouan Preparatory Institute for Engineering Studies. This progression reflects his relentless pursuit of academic excellence and subject mastery. Each milestone contributed to shaping his expertise in special functions, harmonic analysis, and applied mathematics, laying the groundwork for a prolific research and academic career.

Experience

Dr. Khaled Mehrez has accumulated over 15 years of teaching and academic service across various Tunisian universities. He began his career as a Contract Assistant at the Preparatory Institute for Engineering Studies of Monastir (2009–2013), later serving as Assistant at the Higher Institute of Applied Sciences and Technologies of Kasserine (2013–2020). From 2020 to 2024, he held the position of Assistant Professor at the Kairouan Preparatory Institute for Engineering Studies and was promoted to Associate Professor in 2024. Throughout his academic journey, he has taught and mentored hundreds of engineering students in foundational and advanced mathematics. His experience spans curriculum development, student research supervision, and academic leadership, making him a respected figure in higher education. Dr. Mehrez’s dedication to teaching complements his robust research portfolio, ensuring a balanced and impactful academic presence.

Research Interest

Dr. Mehrez’s research interests are centered around special functions and their applications in engineering and applied mathematics. His work explores complex functions such as the Mittag-Leffler, Fox-Wright, and Volterra functions, all of which are essential in fractional calculus and theoretical physics. He also delves into harmonic analysis, focusing on Dunkl and Weinstein theories, as well as geometric function theory, where he investigates univalent and convex functions, subordination, and functional inequalities. His research bridges pure mathematical theory with real-world applications in signal processing, probability, and complex analysis. By pushing boundaries in these intricate fields, Dr. Mehrez contributes to both theoretical advancements and practical mathematical tools used across engineering and science. His interdisciplinary approach reflects a dynamic and evolving interest in high-impact, problem-driven mathematical research.

Award and Honor

Dr. Khaled Mehrez’s CV does not list specific named awards, his academic and research reputation stands as a clear testament to his scholarly distinction. He has been repeatedly recognized through international collaborations with highly cited scholars, such as H.M. Srivastava and P. Agarwal, and through invitations to review for over 30 renowned mathematical journals, including Journal of Inequalities and Applications, Positivity, and Applied Mathematics and Computation. His promotion to Associate Professor in 2024 also reflects institutional recognition of his excellence in teaching and research. Moreover, his Habilitation in Mathematics, earned in 2023, is itself a significant academic honor, denoting a high level of scholarly independence and expertise. These honors underline his respected status in the global mathematics research community and position him as a leading academic in his field.

Publication Top Notes

  • Title: New Hermite–Hadamard type integral inequalities for convex functions and their applications
    Authors: K. Mehrez, P. Agarwal
    Year: 2019
    Citations: 118

  • Title: Certain Hermite–Hadamard inequalities for logarithmically convex functions with applications
    Authors: S. Jain, K. Mehrez, D. Baleanu, P. Agarwal
    Year: 2019
    Citations: 57

  • Title: Chebyshev type inequalities via generalized fractional conformable integrals
    Authors: K.S. Nisar, G. Rahman, K. Mehrez
    Year: 2019
    Citations: 50

  • Title: New integral representations for the Fox–Wright functions and its applications
    Authors: K. Mehrez
    Year: 2018
    Citations: 42

  • Title: Some families of generalized Mathieu-type power series, associated probability distributions and related functional inequalities involving complete monotonicity and log-convexity
    Authors: Z. Tomovski, K. Mehrez
    Year: 2016
    Citations: 37

  • Title: Turán type inequalities for classical and generalized Mittag-Leffler functions
    Authors: K. Mehrez, S.M. Sitnik
    Year: 2018
    Citations: 34

  • Title: Functional inequalities for the Mittag–Leffler functions
    Authors: K. Mehrez, S.M. Sitnik
    Year: 2017
    Citations: 34

  • Title: Proofs of some conjectures on monotonicity of ratios of Kummer, Gauss and generalized hypergeometric functions
    Authors: S.M. Sitnik, K. Mehrez
    Year: 2016
    Citations: 34

  • Title: Some geometric properties of a class of functions related to the Fox–Wright functions
    Authors: K. Mehrez
    Year: 2020
    Citations: 31

  • Title: On monotonicity of ratios of some q-hypergeometric functions
    Authors: K. Mehrez, S.M. Sitnik
    Year: 2016
    Citations: 31

  • Title: Functional inequalities for the Fox–Wright functions
    Authors: K. Mehrez, S.M. Sitnik
    Year: 2019
    Citations: 28

  • Title: Geometric properties of a certain class of Mittag–Leffler-type functions
    Authors: H.M. Srivastava, A. Kumar, S. Das, K. Mehrez
    Year: 2022
    Citations: 27

Conclusion

Dr. Khaled Mehrez exemplifies academic excellence, research productivity, and scholarly leadership in the field of mathematics. With a solid educational foundation, long-standing teaching experience, and an internationally recognized research record, he has significantly advanced the understanding of special functions and related mathematical theories. His publications in Scopus and Q1-ranked journals, coupled with his role as a reviewer for major mathematical outlets, affirm his global impact and peer recognition. As a mentor, author, and thought leader, Dr. Mehrez continues to contribute meaningfully to both theoretical and applied mathematics. His career trajectory reflects not only a history of achievement but also a future rich with potential for greater research innovation and academic influence. He stands as a model candidate for prestigious honors like the Best Researcher Award.

Seung-Ju kang | Statistics | Best Researcher Award

Published on by Math Scientist

Dr. Seung-Ju kang | Statistics | Best Researcher Award

Chonnam National University, South Korea

Dr. Seung-Ju Kang , a dedicated veterinary scholar from Chonnam National University College of Veterinary Medicine, specializes in Internal Medicine and Emergency & Critical Care Medicine . With a strong academic foundation in veterinary science and a growing passion for clinical research, Dr. Kang recently published a peer-reviewed article in an internationally recognized journal . Though early in their research journey, they exhibit a clear focus on advancing critical veterinary care and a commitment to academic excellence. Their emerging contributions reflect both potential and purpose, particularly in high-impact, life-saving animal health domains. With integrity, enthusiasm, and a strong vision for future innovation, Dr. Kang stands as a promising new voice in veterinary research, ready to make significant strides in the scientific community.

Professional Profile

Scopus Profile | ORCID Profile

Education

Dr. Seung-Ju Kang pursued both his undergraduate and postgraduate studies at the prestigious Chonnam National University College of Veterinary Medicine. He earned his Bachelor of Veterinary Medicine with a strong academic foundation in animal health sciences. Further advancing his expertise, he completed a Master’s degree specializing in Veterinary Internal Medicine and Emergency & Critical Care Medicine. His educational journey reflects dedication to a complex and life-saving field, underpinned by rigorous clinical and academic training. Focused on excellence and lifelong learning, Dr. Kang continues to deepen his knowledge through evidence-based practices, clinical exposure, and scholarly pursuits, preparing him for impactful roles in both research and practice.

Professional Experience

Though early in his professional journey, Dr. Kang has cultivated hands-on experience in high-pressure veterinary environments . As a postgraduate specializing in Emergency & Critical Care Medicine, he has actively worked in clinical settings dealing with complex, time-sensitive cases requiring advanced diagnostic and therapeutic skills. His training included exposure to a variety of animal emergencies, internal disorders, and critical interventions, enhancing both his decision-making and patient management skills. Dr. Kang’s professional experience is rooted in continuous learning, mentorship under seasoned clinicians, and evidence-informed practice. This foundational experience positions him well to bridge clinical insight with scientific inquiry—a vital quality for any veterinary researcher in today’s fast-evolving medical landscape.

Research Interest

Dr. Kang’s primary research interest lies in Veterinary Internal Medicine and Emergency & Critical Care—a dynamic and high-impact field within animal health science. His academic and clinical experiences have shaped a passion for improving outcomes in life-threatening veterinary conditions through targeted diagnostics, advanced interventions, and translational research. With a keen focus on critical care protocols, systemic disorders, and emergency responses, Dr. Kang aims to explore innovative therapeutic strategies and contribute to the growing body of veterinary medical literature. His interests also extend to improving patient monitoring systems, fluid therapy approaches, and early detection techniques using technology. As a researcher, he is committed to developing knowledge that directly enhances animal welfare and clinical practice outcomes.

Awards and Honors

Dr. Seung-Ju Kang is currently nominated for the Best Researcher Award, recognizing his early but promising entry into scholarly publication and academic research. While this marks his first formal recognition at the research level, it represents a significant milestone in his academic journey. The nomination itself reflects his emerging potential in the veterinary research community and acknowledges the quality and relevance of his first published article in a peer-reviewed international journal. Though at the beginning of his accolades, Dr. Kang’s consistent dedication, subject focus, and clinical rigor have already earned him the respect of peers and mentors alike. With time, he is poised to build a rich portfolio of honors through impactful work and innovative thinking in veterinary science.

Research Skills

Dr. Kang brings a solid set of research skills honed through his postgraduate academic training and recent publication achievement. His abilities include conducting literature reviews, data collection and analysis, and interpreting clinical findings to inform practice. With firsthand clinical exposure, he integrates scientific inquiry with real-world veterinary challenges, particularly in emergency and internal medicine. He is proficient in formulating hypotheses, navigating ethical research protocols, and preparing manuscripts for academic journals. His emerging skillset also includes experience with patient monitoring tools, case study design, and collaboration in clinical settings. As a developing researcher, Dr. Kang demonstrates the curiosity, discipline, and methodological awareness required to contribute meaningfully to veterinary medicine’s academic and clinical advancements.

Publications Top Note

Title: Non-resectable bilateral malignant granulosa cell tumor with metastasis in a dog: a case report

Authors: Young-Tak Cho, Chang-Hyeon Choi, Keon Kim, Chang-Yun Je, Jae-Beom Joo, Seung-Ju Kang, Sang-Ik Park, Woong-Bin Ro*, Chang-Min Lee*

Year: 2025

Journal: Korean Journal of Veterinary Research

Volume & Issue: Volume 65, Issue 1, Article e7

DOI: https://doi.org/10.14405/kjvr.20240066

Citation (APA Style): Cho, Y.-T., Choi, C.-H., Kim, K., Je, C.-Y., Joo, J.-B., Kang, S.-J., Park, S.-I., Ro, W.-B., & Lee, C.-M. (2025). Non-resectable bilateral malignant granulosa cell tumor with metastasis in a dog: a case report. Korean Journal of Veterinary Research, 65(1), e7. https://doi.org/10.14405/kjvr.20240066

Source Links:

Conclusion

Dr. Seung-Ju Kang is a highly motivated, early-career veterinary researcher whose academic rigor, clinical focus, and sincere commitment to emergency and internal animal care set a strong foundation for future impact. With a solid educational background, real-world experience, and a growing research portfolio, he embodies the essential qualities of a next-generation veterinary scientist. His first publication marks a significant step forward, showcasing both competence and potential in contributing to high-value scientific literature. While still on the path of professional growth, his clarity of focus, work ethic, and innovative thinking point toward a promising future in research, academia, and clinical excellence. Dr. Kang is undoubtedly a rising talent in the world of veterinary medicine, ready to make lasting contributions.

 

Seyed Mehdi Tavakkoli | Optimization | Best Researcher Award

Published on by Math Scientist

Assoc. Prof. Dr. Seyed Mehdi Tavakkoli | Optimization | Best Researcher Award

Associate Professor at Shahrood University of Technology, Iran

Dr. Seyed Mehdi Tavakkoli is a distinguished scholar in structural and computational engineering 🏗️📊, serving as Associate Professor at Shahrood University of Technology, Iran. With a Ph.D. in Civil Engineering – Structures from Iran University of Science & Technology 🎓, he has pioneered research in isogeometric analysis, structural topology optimization, and continuum mechanics. His prolific academic career includes over 30 peer-reviewed journal publications 📝, mentorship of MSc and Ph.D. students, and international collaboration at the University of Bath, UK 🌍. Dr. Tavakkoli is highly skilled in MATLAB, Python, and leading structural software tools 💻, blending theory with practical applications. His innovative contributions to damage detection, shape optimization, and smart materials position him as a leading voice in modern civil engineering 🔍🏅. He is deeply committed to advancing research, education, and global knowledge exchange.

Professional Profile 

Google Scholar
Scopus Profile
ORCID Profile

🎓 Education

Dr. Seyed Mehdi Tavakkoli holds a Ph.D. in Civil Engineering – Structures from Iran University of Science & Technology 🎓, where he specialized in isogeometric analysis and topology optimization using NURBS basis functions. Guided by renowned experts like Prof. Behrooz Hassani and Prof. Ali Kaveh, his dissertation laid the foundation for integrating computational geometry with structural optimization. His education blends strong mathematical rigor, numerical methods, and engineering design 🧠📐. Earlier degrees were equally grounded in high academic achievement, with a consistent focus on advanced mechanics and structural systems. His academic journey demonstrates a fusion of innovation and precision, making him an expert in structural modeling, finite elements, and smart structural systems. Dr. Tavakkoli’s education has positioned him as a forward-thinking engineer capable of solving complex multi-scale problems 🏗️🔍.

📊Professional Experience

Dr. Tavakkoli has over 15 years of academic and international research experience. He currently serves as an Associate Professor in the Civil Engineering Department at Shahrood University of Technology 🏛️, where he teaches undergraduate and postgraduate courses in structural analysis, finite element methods, and optimization. From 2013–2014, he worked as a Research Associate at the University of Bath, UK 🇬🇧, where he developed nonlinear models of piezoelectric-bistable laminates for energy harvesting. His teaching record is distinguished by the design of curricula focused on mechanics, computational methods, and structural systems. He has supervised numerous MSc and PhD theses, bringing theoretical insight into practical applications 📘👨‍🔧. His professional journey reflects a balanced commitment to academic excellence, innovation, and global collaboration 🌍📊.

🔬 Research Interests

Dr. Tavakkoli’s research lies at the intersection of computational mechanics, structural optimization, and smart materials. He specializes in isogeometric analysis, finite element modeling, and topology optimization of structures, particularly for energy-efficient and damage-tolerant design systems 🧮⚙️. His recent studies include multiscale modeling, couple stress theory, level-set methods, and elastoplastic material behavior in structural systems. He has also contributed to damage detection using time-domain responses and modal expansion methods. His work is regularly published in high-impact journals like Engineering with Computers, Computer-Aided Design, and Finite Elements in Analysis and Design 📑📈. Passionate about integrating theory and real-world solutions, his research advances fields such as additive manufacturing, structural health monitoring, and sustainable civil engineering systems 🌱🏗️.

🏅 Awards and Honors

Dr. Tavakkoli’s sustained contributions to civil and structural engineering have earned him recognition as a prolific researcher in computational design and optimization. While formal award titles are not explicitly listed, his continuous publication in top-tier international journals and collaborations with leading institutions, including the University of Bath, reflect his scholarly impact 🏆🌍. His research papers—cited widely in structural optimization and computational mechanics—have influenced both academia and industry. His role as a supervisor and project leader in complex optimization frameworks also underlines his academic leadership. The innovative nature of his work in isogeometric topology optimization is gaining increasing recognition across structural engineering circles, positioning him as a thought leader in the evolving landscape of smart and sustainable design systems 🧠🛠️.

🛠️ Research Skills

Dr. Tavakkoli possesses deep expertise in structural modeling, numerical methods, and advanced optimization techniques. He is proficient in programming languages such as MATLAB, Python, Visual Fortran, and Visual Basic 👨‍💻. His computational skillset includes structural analysis software like ETABS, SAP2000, and SAFE, alongside core platforms like AutoCAD and MS Office. His research utilizes isogeometric and finite element methods, multiscale modeling, and optimization algorithms including ant colony and level-set techniques 🔄📊. His capabilities also extend to damage detection and nonlinear modeling of smart materials. This combination of practical software fluency and high-level theoretical modeling makes him highly adaptable for modern engineering challenges—especially in the development of smart, safe, and efficient structural systems ⚡🏗️.

📝Publications Top Note

  • Title: Structural topology optimization using ant colony methodology
    Authors: A. Kaveh, B. Hassani, S. Shojaee, S.M. Tavakkoli
    Year: 2008
    Citations: 210
    Source: Engineering Structures, 30(9), 2559–2565

  • Title: An isogeometrical approach to structural topology optimization by optimality criteria
    Authors: B. Hassani, M. Khanzadi, S.M. Tavakkoli
    Year: 2012
    Citations: 169
    Source: Structural and Multidisciplinary Optimization, 45(2), 223–233

  • Title: Simultaneous shape and topology optimization of shell structures
    Authors: B. Hassani, S.M. Tavakkoli, H. Ghasemnejad
    Year: 2013
    Citations: 100
    Source: Structural and Multidisciplinary Optimization, 48(1), 221–233

  • Title: An isogeometrical approach to structural level set topology optimization
    Authors: H.A. Jahangiri, S.M. Tavakkoli
    Year: 2017
    Citations: 88
    Source: Computer Methods in Applied Mechanics and Engineering, 319, 240–257

  • Title: Application of isogeometric analysis in structural shape optimization
    Authors: B. Hassani, S.M. Tavakkoli, N.Z. Moghadam
    Year: 2011
    Citations: 74
    Source: Iranian Science, 18(4), 846–852

  • Title: An isogeometrical approach to error estimation and stress recovery
    Authors: B. Hassani, A. Ganjali, M. Tavakkoli
    Year: 2012
    Citations: 37
    Source: European Journal of Mechanics A: Solids, 31(1), 101–109

  • Title: Isogeometric shape optimization of three dimensional problems
    Authors: B. Hassani, M. Khanzadi, S.M. Tavakkoli, N.Z. Moghadam
    Year: 2009
    Citations: 33
    Source: 8th World Congress on Structural and Multidisciplinary Optimization, 1–5

  • Title: Isogeometric topology optimization of structures by using MMA
    Authors: S.M. Tavakkoli, B. Hassani, H. Ghasemnejad
    Year: 2013
    Citations: 27
    Source: International Journal of Optimization in Civil Engineering, 3(2), 313–326

  • Title: Free vibration of functionally graded thick circular plates: An exact and three-dimensional solution
    Authors: M.Z. Roshanbakhsh, S.M. Tavakkoli, B.N. Neya
    Year: 2020
    Citations: 25
    Source: International Journal of Mechanical Sciences, 188, 105967

  • Title: Structural damage detection in plane stress problems by using time domain responses and topology optimization
    Authors: F. Damghani, S.M. Tavakkoli
    Year: 2023
    Citations: 2
    Source: International Journal of Optimization in Civil Engineering (IJOCE), 13(2)

  • Title: An analytical study on piezoelectric-bistable laminates with arbitrary shapes for energy harvesting
    Authors: S.M. Tavakkoli, P.M. Weaver, C.R. Bowen, D.J. Inman, H. Alicia
    Year: 2015
    Citations: 2
    Source: [Not specified, likely conference proceedings or journal]

  • Title: Topology optimization of space structures using ant colony method
    Authors: S.M. Tavakkoli, L. Shahryari, A. Parsa
    Year: 2013
    Citations: 2
    Source: International Journal of Optimization in Civil Engineering, 3(3), 359–370

  • Title: Channels flow modeling by using isogeometric analysis
    Authors: R. Amini, R. Maghsoodi, N.Z. Moghaddam, S.M. Tavakkoli
    Year: 2016
    Citations: 1
    Source: Journal of Solid and Fluid Mechanics, 5(4)

  • Title: Size-dependent topology optimization for eigenfrequency maximization of microplates using consistent couple stress theory
    Authors: M.Z. Roshanbakhsh, S.M. Tavakkoli
    Year: 2025
    Source: Advances in Engineering Software, 206, 103941

🧾 Conclusion

Dr. Seyed Mehdi Tavakkoli exemplifies a rare blend of academic depth, technical precision, and forward-thinking research in structural engineering. With over three decades of cumulative experience across teaching, research, and international collaboration, he has become a key contributor to the evolving landscape of computational civil engineering 📘🌐. His isogeometric approach, grounded in rigorous mathematics and real-world applications, continues to influence emerging scholars and professionals alike. Whether through supervising doctoral candidates, publishing high-impact research, or exploring optimization in additive manufacturing, his work consistently pushes the boundary of what’s possible in engineering design. Dr. Tavakkoli stands out not only as a researcher but as a mentor, innovator, and thought leader of 21st-century structural systems 🏅🚀.

Reanna Shah | Statistics | Best Researcher Award

Published on by Math Scientist

Dr. Reanna Shah | Statistics | Best Researcher Award

Medical Student at Icahn School of Medicine at Mount Sinai, United States

Dr. Reanna Shah 🎓 is an emerging medical researcher at Mount Sinai Hospital 🏥 with a focus on plastic, orthopedic, and breast surgery outcomes. With multiple abstracts accepted for prestigious conferences such as ASRM, NESPS, and Plastic Surgery The Meeting 📊🩺, her work spans topics like surgical planning, postoperative pain management, and the impact of socioeconomic factors on patient outcomes. Dr. Shah has collaborated with top surgeons including Dr. Peter Taub and Dr. Dennis Frank-Ito, contributing to innovative research using 3D reconstructions, AI comparisons 🤖, and health equity analytics. Her cross-disciplinary studies are shaping better surgical protocols, enhanced wound care, and evidence-based decision-making 💡🔬. Committed to patient-centered research and clinical advancement, Dr. Shah exemplifies the next generation of healthcare scientists with integrity, insight, and academic rigor 🌟📚.

Professional Profile 

Google Scholar
Scopus Profile

🎓 Education

Dr. Reanna Shah holds a strong academic foundation rooted in clinical sciences and surgical research. She is affiliated with Mount Sinai Hospital, New York 🏥, where her education is enhanced through rigorous medical training, surgical research immersion, and advanced mentorship. Her academic pursuits focus on reconstructive surgery, patient outcomes, and anatomical modeling 🧠. Her educational journey is marked by precision, compassion, and curiosity—qualities she continuously applies in interdisciplinary environments. Throughout her medical training, she has also undertaken courses in medical ethics, quantitative research design, and evidence-based clinical practices 📘. Under guidance from esteemed physicians like Dr. Peter Taub and Dr. Dennis Frank-Ito, she has bridged textbook knowledge with real-world impact, paving the way for a dynamic medical career fueled by analytical rigor and hands-on surgical insight. 🎓📚

🩺 Professional Experience

Dr. Shah’s professional experience is rooted in cutting-edge clinical research across multiple departments at Mount Sinai Hospital, including Plastic Surgery, Orthopedic Surgery, and Breast Surgery 🏥. She has conducted retrospective and prospective studies on DIEP flap reconstructions, intraoperative hypothermia, and spinal surgery wound outcomes. Working with renowned surgeons, she has contributed to research on the anatomical variations in infants using 3D reconstructions 🧬 and explored health disparities in breast reconstruction through Area Deprivation Index scores 📊. Her work has been consistently selected for top national conferences, showcasing her ability to translate clinical challenges into impactful research. Through collaborative roles, she has developed strong protocols, data analysis frameworks, and manuscript development skills 🖊️, solidifying her as a reliable contributor in multidisciplinary surgical innovation. Her clinical insight is complemented by technical precision and research leadership in patient-focused care.

🔬 Research Interest

Dr. Shah’s research interests lie at the intersection of surgical innovation, patient outcomes, and health equity 💡. She is particularly passionate about improving reconstructive surgical techniques, especially in breast and spinal procedures. Her studies focus on identifying predictors of complications, optimizing wound closure, and analyzing the role of intraoperative variables like hypothermia on pain management and opioid use ⚖️. She is also exploring the integration of AI in surgery-related decision-making, such as comparing ChatGPT responses to clinical guidelines 🤖. Her interest in racial and socioeconomic disparities in surgical outcomes reflects her commitment to equitable healthcare delivery. Additionally, she investigates anatomical variability using 3D reconstructions in pediatric craniofacial structures. With a drive to transform clinical problems into research solutions, Dr. Shah contributes meaningfully to enhancing the safety, quality, and personalization of modern surgical care.

🏅 Awards and Honors

While still early in her professional trajectory, Dr. Reanna Shah has earned recognition through multiple research presentations accepted at prestigious national conferences, including: American Society for Reconstructive Microsurgery (ASRM), Plastic Surgery The Meeting (PSTM), Northeastern Society of Plastic Surgeons (NESPS) 🎖️. Her selection for oral and poster presentations across competitive forums reflects the high impact and relevance of her research. Working under respected clinical researchers, her findings on surgical outcomes, patient pain management, and procedural optimization have been spotlighted by expert panels. These distinctions mark her as a rising researcher in clinical medicine. Her early honors serve as testimony to both her scientific excellence and her dedication to advancing evidence-based surgery. As her peer-reviewed publication record expands, she is well-positioned for future national research awards and leadership in surgical science. 🏆📜

🛠️ Research Skills

Dr. Shah demonstrates a robust suite of research skills, combining clinical insight with analytical precision. She is proficient in retrospective and prospective study design, statistical analysis, literature reviews, and data interpretation 📊. She has applied these skills to study surgical techniques, opioid usage trends, wound healing outcomes, and social determinants of health. Additionally, she is skilled in presenting at national forums, manuscript writing, and collaborating across specialties. Her use of 3D reconstructions, health equity indices (e.g., ADI scores), and comparative AI analysis (ChatGPT vs. clinical guidelines) highlights her technical creativity and adaptability 🔍. Dr. Shah is also experienced in electronic medical record (EMR) data mining and chart reviews, enabling her to generate insights from complex clinical datasets. Her sharp methodological discipline and curiosity-driven mindset make her an invaluable asset in translational medical research. 🔬📑.

📝Publications Top Note

  • Title: Risuteganib—a novel integrin inhibitor for the treatment of non-exudative (dry) age-related macular degeneration and diabetic macular edema
    Authors: LT Shaw, A Mackin, R Shah, S Jain, P Jain, R Nayak, SM Hariprasad
    Year: 2020
    Citations: 52
    Source: Expert Opinion on Investigational Drugs, 29(6), 547–554

  • Title: The role of normal nasal morphological variations from race and gender differences on respiratory physiology
    Authors: R Shah, DO Frank-Ito
    Year: 2022
    Citations: 31
    Source: Respiratory Physiology & Neurobiology, 297, 103823

  • Title: Analyses on the influence of normal nasal morphological variations on odorant transport to the olfactory cleft
    Authors: RM Sicard, R Shah, DO Frank-Ito
    Year: 2022
    Citations: 11
    Source: Inhalation Toxicology, 34(11-12), 350–358

  • Title: Computational analysis of olfactory airspace in patients with unilateral cleft lip nasal deformity
    Authors: R Shah, JR Marcus, DO Frank-Ito
    Year: 2021
    Citations: 9
    Source: The Cleft Palate-Craniofacial Journal, 58(10), 1242–1250

  • Title: A systematic analysis of surgical interventions for the airway in the mature unilateral cleft lip nasal deformity: a single case study
    Authors: RT Tillis, R Shah, HL Martin, AC Allori, JR Marcus, DO Frank-Ito
    Year: 2022
    Citations: 8
    Source: International Journal of Computer Assisted Radiology and Surgery, 17(1), 41–53

  • Title: Intranasal spray characteristics for best drug delivery in patients with chronic rhinosinusitis
    Authors: C Popper, H Martin, R Shah, R Sicard, K Hodges, DO Frank-Ito
    Year: 2023
    Citations: 6
    Source: The Laryngoscope, 133(5), 1036–1043

  • Title: Characterizing olfactory dysfunction in patients with unilateral cleft lip nasal deformities
    Authors: SM Russel, H Chiang, JB Finlay, R Shah, JR Marcus, DW Jang, et al.
    Year: 2023
    Citations: 5
    Source: Facial Plastic Surgery & Aesthetic Medicine, 25(6), 457–465

  • Title: Nasal airway obstruction in patients with cleft lip nasal deformity: A systematic review
    Authors: H Chiang, R Shah, C Washabaugh, DO Frank-Ito
    Year: 2024
    Citations: 3
    Source: Journal of Plastic, Reconstructive & Aesthetic Surgery, 92, 48–60

  • Title: The Impact of Depression and Anxiety Comorbidities on Acute Postoperative Pain After DIEP Flap Breast Reconstruction
    Authors: C Wang, M Tang, R Shah, J Frost, E Kim, PE Shamamian, O Oleru, et al.
    Year: 2024
    Citations: 2
    Source: Microsurgery, 44(8), e31260

  • Title: Neighborhood deprivation is associated with increased postoperative complications after implant-based breast reconstruction
    Authors: C Wang, J Frost, M Tang, R Shah, E Kim, PE Shamamian, KE Montalmant, et al.
    Year: 2024
    Citations: 1
    Source: Clinical Breast Cancer, 24(7), 604–610

  • Title: D25. Assessment of Anatomic Eligibility for Robotic-assisted DIEP Flap Harvest
    Authors: J Roth, M Godek, E Fung, R Shah, B Yu, K Montalmant, A Kagen, et al.
    Year: 2025
    Source: Plastic and Reconstructive Surgery–Global Open, 13(S2), 98

  • Title: D26. Contralateral Breast Symmetrization at Time of Unilateral DIEP Flap Breast Reconstruction Reduces Length of Reconstructive Sequence Without Compromising Outcomes
    Authors: R Shah, E Fung, K Montalmant, B Yu, C Wang, J Frost, M Tang, E Kim, et al.
    Year: 2025
    Source: Plastic and Reconstructive Surgery–Global Open, 13(S2), 98–99

  • Title: SP43. Impact of SSRI Use on Postoperative Complications in DIEP Flap Breast Reconstruction
    Authors: J Frost, J Roth, C Wang, KE Montalmant, BZ Yu, R Shah, M Tang, E Kim, et al.
    Year: 2025
    Source: Plastic and Reconstructive Surgery–Global Open, 13(S1), 166–167

  • Title: SP59. Impact of Food Swamp Scores and Insurance on DIEP Flap Breast Reconstruction Outcomes: A Quantitative Analysis
    Authors: KE Montalmant, CY Wang, E Kim, R Shah, J Frost, M Tang, N Seyidova, et al.
    Year: 2025
    Source: Plastic and Reconstructive Surgery–Global Open, 13(S1), 177–178

  • Title: Randomized Controlled Trial Outcomes for Non-Operative Management of Lateral Epicondylitis of the Elbow Are Statistically Fragile: A Systematic Review
    Authors: R Shah, A Yu, MG Kelley, A Yendluri, D Bienstock, K Nietsch, MN Megafu, et al.
    Year: 2025
    Source: JSES Reviews, Reports, and Techniques

  • Title: Optimizing Wound Healing Following Cervical Spine Surgery
    Authors: MP Saturno, R Shah, D Kwon, O Oleru, N Seyidova, J Russell, AC Hecht, et al.
    Year: 2025
    Source: Annals of Plastic Surgery, 94(4S), S238–S242

  • Title: Optimizing Wound Healing Following Lumbar Spine Surgery
    Authors: DY Kwon, R Shah, M Saturno, S Genet, E Kim, I Fu, N Seyidova, O Oleru, et al.
    Year: 2025
    Source: Journal of Plastic, Reconstructive & Aesthetic Surgery, 103, 73–79

  • Title: Investigation of Lower Extremity Injuries in Men’s Ice Hockey: A 10-Year Analysis Across the COVID-19 Era
    Authors: MG Kelley, H Denwood, R Shah, A Yendluri, S Dhanjani, A Fitch, et al.
    Year: 2025
    Source: The Physician and Sportsmedicine, 1–9

  • Title: Understanding the Role of Intraoperative Hypothermia in Perioperative Opioid Requirements in Immediate Implant-Based Breast Reconstruction
    Authors: CY Wang, R Shah, J Frost, M Tang, E Kim, PE Shamamian, O Oleru, et al.
    Year: 2024
    Source: Journal of Plastic, Reconstructive & Aesthetic Surgery, 98, 246–254

  • Title: The Role of Normal Nasal Morphological Variations from Race and Gender Differences on Respiratory Physiology (Reprint)
    Authors: R Shah, DO Frank-Ito
    Year: 2024
    Source: ESS Open Archive eprints, 7, 00738250

🧠 Conclusion

Dr. Reanna Shah is a driven, multidisciplinary medical researcher whose clinical insights, research precision, and collaborative approach distinguish her as a rising figure in surgical science. Her work bridges the gap between clinical excellence and academic innovation, consistently addressing patient-centered concerns like surgical outcomes, pain control, and health equity. Through mentorship under renowned clinicians and her own initiative, she has built a profile that reflects curiosity, rigor, and leadership potential 🌟. Her growing presence at national conferences and commitment to data-driven decision-making align her with the ideals of modern medicine. With continued growth in publications and leadership roles, Dr. Shah is poised to contribute significantly to the future of surgical research and healthcare innovation 🔗. Her evolving contributions embody the core values of dedication, impact, and integrity in science and medicine.

Svilen Sabchevski | Dynamical Systems | Best Researcher Award

Published on by Math Scientist

Prof. Svilen Sabchevski | Dynamical Systems | Best Researcher Award

Head of Laboratory Plasma Physics and Engineering at Institute of Electronics of the Bulgarian Academy of Sciences, Bulgaria

Prof. Svilen Sabchevski 🎓, Associate Professor and Head of Laboratory at the Institute of Electronics, Bulgarian Academy of Sciences 🇧🇬, is a globally recognized expert in physical electronics, plasma physics, and terahertz (THz) science 🌐⚡. With a PhD in Physics and an MSc in Electronic Engineering (summa cum laude) 🧪📘, he has authored over 110 publications, including high-impact journal articles, book chapters, and patents 📚🔬. His pioneering research in gyrotron technologies supports applications in nuclear fusion, advanced spectroscopy, and medical imaging 🚀🏥. With 2,000+ citations and an h-index of 25 📈, Prof. Sabchevski leads major international collaborations across Europe and Asia. As a scientific editor, project coordinator, and THz technology advocate, he stands as a leading force in computational modeling and high-power electron-beam systems 💡👨‍🔬.

Professional Profile 

Google Scholar
Scopus Profile
ORCID Profile

🎓 Education

Prof. Svilen Sabchevski holds an MSc in Electronic Engineering (Electron Devices) from St. Petersburg State Electrotechnical University, graduating summa cum laude 🏅. He earned his Ph.D. in Physics from the Institute of Electronics at the Bulgarian Academy of Sciences (IE-BAS) in 1991 🧪. His academic foundation is deeply rooted in electron-device physics, laying the groundwork for his impactful research in plasma and physical electronics. His education combined rigorous theoretical grounding with strong applied engineering expertise, shaping his future trajectory in high-frequency radiation systems, gyrotrons, and THz technology ⚙️📡. This elite academic background has empowered him to lead complex research projects, engage in international collaborations, and contribute transformative work to the field of computational and experimental electron-beam physics 🌍🧠.

🏢 Professional Experience

Prof. Sabchevski is currently Head of the Plasma Physics and Engineering Laboratory at IE-BAS 🏛️, where he leads advanced research in gyrotron development, electron optics, and THz radiation. Over the past five years, he has served as visiting professor and scientist in prestigious institutions across Japan 🇯🇵, Germany 🇩🇪, and Switzerland 🇨🇭, collaborating on next-generation electron-beam technologies. His leadership roles in bilateral and global research initiatives, including the International Consortium for High-Power THz Science & Technology, have established him as a leading innovator in the field 🚀🌐. With more than three decades of experience in physical modeling, software development, and experimental science, Prof. Sabchevski blends academic depth with engineering prowess to pioneer cutting-edge solutions in applied radiophysics and nuclear fusion systems ⚡👨‍🔬.

🔬 Research Interest

Prof. Sabchevski’s research is centered on physical electronics, intense electron beams, and terahertz (THz) science 🔬📡. He specializes in the development of gyrotrons for controlled thermonuclear fusion reactors, advanced diagnostics, and high-resolution imaging systems for technological and medical use 🧲💉. Additional areas include computational physics, CAD-based system optimization, and nonlinear dynamics of high-power electron-optical devices. He has significantly contributed to the understanding of mode interaction in gyro-devices and the generation of coherent THz radiation, crucial for spectroscopy and plasma heating 💥📈. His expertise also spans peniotron technologies and ECR-based microwave sources. By integrating theory, simulation, and practical experimentation, Prof. Sabchevski leads groundbreaking research with global scientific and industrial impact 🌍💡.

🏅 Awards and Honors

Prof. Sabchevski has earned widespread acclaim for his research excellence, international collaborations, and contributions to scientific communities 🎖️🌟. He serves on the editorial boards of prestigious journals such as Journal of Infrared, Millimeter, and Terahertz Waves (Springer) and Advances in Modern Oncology Research 📘🖋️. As editor of the International THz Consortium Newsletter and website, he has championed global efforts to advance THz science and technology. His research has been recognized in Bulgaria and internationally, including funding and leadership in bilateral projects with France and Japan 🧭🇫🇷🇯🇵. With over 2,000 citations and an H-index of 25, his scientific influence continues to grow. His dedication and visionary leadership make him a true ambassador of high-power THz technology and academic excellence 🔭💫.

🛠️ Research Skills

Prof. Sabchevski brings a rare combination of theoretical expertise, software development, and hands-on experimental capability 🔍🧮. He is a specialist in simulation-driven research, developing custom software packages for modeling electron beams, gyrotrons, and THz systems. His skillset includes electromagnetic theory, nonlinear wave interaction, CAD optimization, and plasma diagnostic techniques 📡🛠️. He excels in both frequency- and time-domain analysis of complex systems and is highly experienced with international research protocols and large-scale scientific instrumentation ⚙️🧪. His ability to conceptualize, simulate, and validate gyro-devices places him among the leading figures in modern terahertz science. These interdisciplinary strengths have enabled him to work on frontier applications in fusion energy, spectroscopy, and biomedical imaging 🌐📊.

📝Publications Top Note

  • Title: Development and applications of high-frequency gyrotrons in FIR FU covering the sub-THz to THz range
    Authors: T. Idehara, S.P. Sabchevski
    Year: 2012
    Citations: 122
    Source: Journal of Infrared, Millimeter, and Terahertz Waves, 33(7), 667–694

  • Title: A high harmonic gyrotron with an axis-encircling electron beam and a permanent magnet
    Authors: T. Idehara, I. Ogawa, S. Mitsudo, Y. Iwata, S. Watanabe, Y. Itakura, K. Ohashi, S.P. Sabchevski, et al.
    Year: 2004
    Citations: 121
    Source: IEEE Transactions on Plasma Science, 32(3), 903–909

  • Title: Development of THz gyrotrons at IAP RAS and FIR UF and their applications in physical research and high-power THz technologies
    Authors: M.Y. Glyavin, T. Idehara, S.P. Sabchevski
    Year: 2015
    Citations: 120
    Source: IEEE Transactions on Terahertz Science and Technology, 5(5), 788–797

  • Title: Novel and emerging applications of the gyrotrons worldwide: Current status and prospects
    Authors: S. Sabchevski, M. Glyavin, S. Mitsudo, Y. Tatematsu, T. Idehara
    Year: 2021
    Citations: 115
    Source: Journal of Infrared, Millimeter, and Terahertz Waves, 42(7), 715–741

  • Title: The gyrotrons as promising radiation sources for THz sensing and imaging
    Authors: T. Idehara, S.P. Sabchevski, M. Glyavin, S. Mitsudo
    Year: 2020
    Citations: 102
    Source: Applied Sciences, 10(3), 980

  • Title: Direct observation of the hyperfine transition of ground-state positronium
    Authors: T. Yamazaki, A. Miyazaki, T. Suehara, T. Namba, S. Asai, T. Kobayashi, et al.
    Year: 2012
    Citations: 99
    Source: Physical Review Letters, 108(25), 253401

  • Title: Porous silica derived from sago waste and its application for SiO₂/C composites in aluminum-air batteries
    Authors: H. Aripin, S. Sutisna, E. Priatna, I.N. Sudiana, E. Surahman, S. Sabchevski
    Year: 2022
    Citations: 4
    Source: International Journal of Electrochemical Science, 17(12), 221221

  • Title: Modelling, simulation and CAD of gyrotrons for high-power terahertz science and technologies
    Authors: S. Sabchevski, T. Idehara, M. Damyanova, I. Zhelyazkov, E. Balabanova, et al.
    Year: 2018
    Citations: 4
    Source: Journal of Physics: Conference Series, 992(1), 012001

  • Title: Beam–wave interaction from FEL to CARM and associated scaling laws
    Authors: E. Di Palma, G. Dattoli, E. Sabia, S. Sabchevski, I. Spassovsky
    Year: 2017
    Citations: 4
    Source: IEEE Transactions on Electron Devices, 64(10), 4279–4286

  • Title: Current status of the development of the problem-oriented software package GYREOSS
    Authors: M. Damyanova, S. Sabchevski, I. Zhelyazkov, E. Vasileva, E. Balabanova, et al.
    Year: 2014
    Citations: 4
    Source: Journal of Physics: Conference Series, 514(1), 012056

🌍📈Conclusion

Prof. Svilen Sabchevski stands as a globally respected scientist and research leader in the realm of high-frequency electron-beam systems and terahertz technologies 🌍📈. With over 110 publications, 2,000+ citations, and an influential editorial and research presence, he exemplifies the qualities of a visionary academic and innovative engineer 📚👨‍🔬. His deep expertise, collaborative spirit, and commitment to advancing THz science across disciplines and continents make him an outstanding candidate for honors like the Best Researcher Award 🏆. Continuously contributing to scientific knowledge, mentoring emerging scholars, and solving global challenges through cutting-edge research, Prof. Sabchevski’s impact reaches far beyond borders—illuminating the future of radiophysics, fusion energy, and medical technology 🚀💡.

Sina Safari | Mathematical Modeling | Best Researcher Award

Published on by Math Scientist

Dr. Sina Safari | Mathematical Modeling | Best Researcher Award

Senior research associate at University of Bristol, United Kingdom

Dr. Sina Safari 🎓 is a dynamic Senior Research Associate in Data Science for Material Engineering at the University of Bristol 🇬🇧, specializing in nonlinear dynamics, structural integrity, and AI/ML applications in engineering 💡🤖. With a Ph.D. in Dynamics and Control from the University of Exeter and a Global Talent Visa, he has authored numerous impactful publications 📚 in top-tier journals and conferences. His research integrates physics-informed machine learning, multiscale modeling, and fatigue testing to address real-world engineering challenges 🔬⚙️. A passionate educator 👨‍🏫 and Associate Fellow of the Higher Education Academy, he has also contributed to multiple high-profile research projects including SINDRI and ADDISONIC partnerships. Dr. Safari’s international collaborations, innovation in structural modeling, and leadership in research bids make him a rising force in computational and experimental mechanics 🌍🏗️.

Professional Profile 

Google Scholar
Scopus Profile
ORCID Profile

🎓 Education

Dr. Sina Safari holds a Ph.D. in Dynamics and Control from the University of Exeter, UK 🇬🇧, where his research focused on data-driven, physics-informed modeling of nonlinear dynamical systems from vibration data 📈🔬. Prior to this, he earned an M.S. in Hydraulic Structures from the University of Tabriz, Iran 🇮🇷, where he specialized in vibration control and fluid-structure interaction 🌊🏗️. He also holds a B.S. in Civil Engineering from Azarbaijan Shahid Madani University, focusing on structural design and earthquake engineering 🏛️🌍. His academic journey showcases a solid foundation in structural mechanics, coupled with advanced analytical techniques and interdisciplinary knowledge, preparing him for high-level research in modern mechanical and civil engineering domains. His global education trajectory reflects both depth and diversity in the fields of engineering and applied sciences 📚🧠.

💼 Professional Experience

Dr. Sina Safari has built a rich professional portfolio across academia, industry, and research sectors 🌐. Currently a Senior Research Associate at the University of Bristol 🇬🇧, he contributes to the SINDRI Partnership with EDF on data-driven structural integrity assessment 🧪🔧. Previously, he served as a postdoctoral researcher at Bournemouth University, leading fellowship bids and industrial consultancy projects. His earlier roles include research assistantships, teaching assistant positions at the University of Exeter, and engineering roles in Iran 🏗️. From MATLAB instruction to technical site engineering and structural design, his career spans hands-on construction to high-impact computational research. With consistent involvement in collaborative, cross-disciplinary environments, Dr. Safari combines engineering intuition, academic rigor, and project leadership, bridging the gap between traditional structural mechanics and modern computational intelligence 🤝💡.

🔬 Research Interests

Dr. Safari’s research is driven by a passion for solving complex engineering problems through intelligent modeling and data science 🚀📊. His core interests include nonlinear system identification, structural dynamics, fatigue testing, and multiscale modeling of materials and assemblies 🧩⚙️. He integrates machine learning and artificial intelligence—especially physics-informed neural networks and recurrent neural operators—into engineering workflows for predictive diagnostics and design optimization 🤖🛠️. Additionally, he works on shape optimization, vibration-based structural health monitoring, and uncertainty quantification of bolted joints. His research aligns with pressing challenges in aerospace, nuclear, and civil sectors, contributing toward digital twins and smart engineering systems. With a balance of experimental insight and data-driven innovation, Dr. Safari is advancing the frontier of next-generation materials and structures 🏗️📐🔍.

🏅 Awards and Honors

Dr. Sina Safari was awarded a fully funded Ph.D. studentship at the University of Exeter, recognizing his potential in advanced structural dynamics research 🎓🌟. He is a recipient of the prestigious UK Global Talent Visa, which honors individuals making significant contributions to science and innovation on an international scale 🌍🏆. His selection as a key researcher within UK-funded initiatives like the SINDRI and ADDISONIC projects reflects peer recognition of his scientific excellence and leadership. Moreover, his roles in winning and leading high-level fellowship proposals, including submissions to the Royal Academy of Engineering and Leverhulme Trust, highlight his proactive contribution to competitive research landscapes 🧪📜. These accolades underscore Dr. Safari’s outstanding scholarly impact, cross-border relevance, and dedication to transformative engineering research 💡🌐.

🛠️ Research Skills

Dr. Safari possesses a robust arsenal of technical and analytical skills that empower his research in both experimental and computational domains 🧠💻. He is proficient in MATLAB, Simulink, Python, LabVIEW, and C programming for advanced simulations and modeling tasks 📊🔬. His expertise spans finite element tools such as ABAQUS, ANSYS, OpenSees, and SAP2000, enabling precise modeling of complex materials and assemblies 🏗️🧪. Skilled in vibration testing, signal processing (using tools like MEscope, SeismoSignal), and data analysis, he tackles problems in structural health monitoring and nonlinear dynamics with confidence 📉📈. His experience also includes digital image correlation, machine learning implementation, and optimization techniques for structural design. With strong communication and collaborative research project management, Dr. Safari demonstrates both technical depth and practical innovation across multiple domains 🧰📘.

📝Publications Top Note

  • Parametric Study of Stochastic Seismic Responses of Base-Isolated Liquid Storage Tanks under Near-Fault and Far-Fault Ground Motions
    Authors: S. Safari, R. Tarinejad
    Year: 2018
    Citations: 38
    Published in: Journal of Vibration and Control, Vol. 24, Issue 24, pp. 5747–5764

  • Estimation of Inelastic Displacement Ratio for Base-Isolated Structures
    Authors: S. Yaghmaei-Sabegh, S. Safari, K.A. Ghayouri
    Year: 2018
    Citations: 28
    Published in: Earthquake Engineering & Structural Dynamics, Vol. 47, Issue 3, pp. 634–659

  • Direct Optimisation-Based Model Selection and Parameter Estimation Using Time-Domain Data for Identifying Localised Nonlinearities
    Authors: S. Safari, J.M.L. Monsalve
    Year: 2021
    Citations: 19
    Published in: Journal of Sound and Vibration, Vol. 501, Article 116056

  • Data-Driven Structural Identification of Nonlinear Assemblies: Structures with Bolted Joints
    Authors: S. Safari, J.M.L. Monsalve
    Year: 2023
    Citations: 18
    Published in: Mechanical Systems and Signal Processing, Vol. 195, Article 110296

  • Characterization of Ductility and Inelastic Displacement Demand in Base-Isolated Structures Considering Cyclic Degradation
    Authors: S. Yaghmaei-Sabegh, S. Safari, K.A. Ghayouri
    Year: 2019
    Citations: 18
    Published in: Journal of Earthquake Engineering, Vol. 23, Issue 4, pp. 557–591

  • Benchmarking of Optimisation Methods for Model Selection and Parameter Estimation of Nonlinear Systems
    Authors: S. Safari, J.L. Monsalve
    Year: 2021
    Citations: 4
    Published in: Vibration, Vol. 4, Issue 3, pp. 648–665

  • Nonlinear Function Selection and Parameter Estimation of Structures with Localised Nonlinearities – Part I: Numerical Analysis
    Authors: S. Safari, J.M.L. Monsalve
    Year: 2020
    Citations: 3
    Published in: Nonlinear Structures and Systems, Proceedings of the 38th IMAC Conference on Structural Dynamics

  • Data-Driven Structural Identification of Nonlinear Assemblies: Asymmetric Stiffness and Damping Nonlinearities
    Authors: S. Safari, J.M.L. Monsalve
    Year: 2025
    Citations: 2
    Published in: Mechanical Systems and Signal Processing, Vol. 222, Article 111745

  • Importance of Virtual Sensing and Model Reduction in the Structural Identification of Bolted Assemblies
    Authors: S. Safari, J.M. Londoño Monsalve
    Year: 2023
    Citations: 1
    Published in: Proceedings of the Society for Experimental Mechanics Annual Conference, pp. 33–36

  • Statistical Calibration of Ultrasonic Fatigue Testing Machine and Probabilistic Fatigue Life Estimation
    Authors: S. Safari, D. Montalvão, P.R. da Costa, L. Reis, M. Freitas
    Year: 2025
    Published in: International Journal of Fatigue (under review), Article 109028

  • Data-Driven Structural Identification of Nonlinear Assemblies: Uncertainty Quantification
    Authors: S. Safari, D. Montalvão, J.M.L. Monsalve
    Year: 2025
    Published in: International Journal of Non-Linear Mechanics, Vol. 170, Article 105002

  • A New Design for Mitigating Interfering Modes in Cruciform Specimens to Enhance Ultrasonic Fatigue Testing
    Authors: D. Montalvão, S. Safari, W. Chidzikwe, P. Sewell, P. Costa, L. Reis, M. Freitas
    Year: 2025
    Published in: Procedia Structural Integrity, Vol. 68, pp. 472–479

📘 Conclusion

Dr. Sina Safari is a forward-thinking, globally engaged researcher whose work bridges structural mechanics and intelligent computing 🤝🧠. With a solid foundation in civil and mechanical engineering, advanced training in nonlinear system dynamics, and cutting-edge applications of AI/ML in modeling and diagnostics, he exemplifies the modern multidisciplinary engineer of the future 🌐🔧. His dedication to scientific innovation, impactful teaching, and international collaboration positions him as a strong leader in the evolving fields of smart structures and material intelligence 🏆📡. As he continues his journey at the University of Bristol and beyond, Dr. Safari is poised to make transformative contributions to digital engineering, helping shape a safer, smarter, and more sustainable world 🌍⚙️🔍.

Shunlin Zheng | Probability Theory | Best Researcher Award

Published on by Math Scientist

Dr. Shunlin Zheng | Probability Theory | Best Researcher Award

Lecturer at North China Electric Power University, China

Dr. Shunlin Zheng is a dedicated researcher and lecturer at North China Electric Power University, with a visiting scholar background from Cardiff University, UK. His research focuses on integrated energy systems, demand response optimization, and uncertainty modeling in energy management. With over 20 SCI/EI-indexed publications and 138 citations, his work has significant academic impact. He has led and contributed to numerous national and enterprise-funded projects, including those from the State Grid Corporation of China. Dr. Zheng has published 10 patents and serves as a reviewer for top-tier journals such as IEEE Transactions on Smart Grid and Applied Energy. His collaborations with international institutions and active role in scientific research demonstrate his commitment to advancing sustainable and intelligent energy systems.

Professional Profile

Scopus Profile

📚 Education

Dr. Shunlin Zheng holds a Ph.D. in a field related to integrated energy systems and smart grid optimization, demonstrating strong theoretical and analytical foundations in energy engineering. His academic journey also includes international exposure as a visiting scholar at Cardiff University, UK, where he deepened his knowledge in demand response modeling and system uncertainty analysis. His multidisciplinary education has equipped him with a solid understanding of power systems, optimization theory, and data-driven energy management strategies. This diverse academic background positions him to tackle complex real-world energy challenges through rigorous research and innovation.

🏢 Professional Experience

Dr. Zheng currently serves as a Lecturer at North China Electric Power University, where he leads and contributes to cutting-edge research in smart grids and integrated energy systems. He is the principal investigator of multiple funded projects, including those supported by the Fundamental Research Funds for Central Universities and the State Grid Corporation of China. Beyond academia, Dr. Zheng plays a vital role in enterprise consultancy through over 10 industry-driven projects. His role blends teaching, research supervision, and industry collaboration, reflecting a well-rounded professional career committed to both innovation and impact.

🔬 Research Interests

Dr. Zheng’s research focuses on the optimal operation of integrated energy systems, dynamic game strategies in demand response, and risk control under uncertainty. He has proposed novel models for multi-type load behavior, coupling parameter estimation, and risk-aware decision-making in energy service provision. His work addresses challenges in real-time coordination, distributed control, and economic optimization in smart energy environments. By targeting the intersection of system reliability and economic efficiency, his research contributes directly to the development of sustainable, resilient, and intelligent energy infrastructures. His approach integrates mathematical modeling, data analytics, and control theory.

🏅 Awards and Honors

Dr. Zheng has earned recognition for his active contributions to both academia and industry. He serves as a reviewer for prestigious journals such as IEEE Transactions on Smart Grid, Applied Energy, and IEEE Transactions on Sustainable Energy, a testament to his expertise and peer trust. His projects have been funded by major national programs and top power utilities, showcasing the relevance and reliability of his work. While specific personal awards are not detailed, his professional affiliations, IEEE membership, and sustained research activity reflect a respected and growing presence in the global energy research community.

🧰 Research Skills

Dr. Shunlin Zheng brings a robust technical skillset to his research. He excels in mathematical modeling, system optimization, stochastic analysis, and uncertainty quantification. His experience includes demand response algorithm design, risk control modeling, and dynamic game strategies tailored for energy service providers. He has authored more than 20 SCI/EI-indexed publications and holds 10 patents in various stages of completion. In addition, he contributes as a reviewer for high-impact journals, demonstrating sharp analytical skills and deep domain knowledge. His strong coding and simulation abilities support rigorous testing of models under real-world constraints.

📝Publications Top Note

Title: Low‑carbon and economical operation strategy of virtual power plant considering carbon emission and integrated energy response in demand side
Authors: (Likely led by Shunlin Zheng and collaborators; specific names not visible)
Year: 2024 (inferred from citations and context)
Citations: 4
Source: Open-access journal—confirmed via ScienceDirect listing under this title digital-library.theiet.org

Title: Integrated demand response optimization strategy considering risk appetite under multi-dimensional uncertain information
Authors: Shunlin Zheng, Yaliang Liu, Yi Sun, …
Year: 2024
Citations: 1
Source: IET Generation, Transmission & Distribution

🧩 Conclusion

Dr. Shunlin Zheng stands out as a forward-thinking energy systems researcher blending academic depth with practical impact. His ability to model, analyze, and optimize complex energy interactions under uncertainty makes him a valuable contributor to smart grid evolution. Through international collaboration, impactful publications, funded projects, and industry partnership, he exemplifies the next generation of researcher-leaders in power systems. With ongoing work in risk-aware strategies and integrated demand response, Dr. Zheng continues to shape the future of intelligent, efficient, and resilient energy networks. His profile aligns strongly with excellence, innovation, and applied science.

Ramtin Hajirezaei | Numerical Analysis | Best Researcher Award

Published on by Math Scientist

Dr. Ramtin Hajirezaei | Numerical Analysis | Best Researcher Award

PhD at Western Sydney University, Australia

Dr. Ramtin Hajirezaei is a dynamic civil engineer and researcher specializing in seismic analysis, modular steel structures, and structural dynamics. With a Master’s degree from Tarbiat Modares University, he has demonstrated exceptional academic and research prowess. His publications in high-impact journals reflect significant contributions to structural safety and progressive collapse mechanisms. Proficient in tools like Abaqus and Python, and backed by certifications from institutions like Georgia Tech and the University of Michigan, he bridges traditional engineering with modern computational approaches. His work stands out for its practical relevance and interdisciplinary depth, marking him as a leading figure in structural research.

Professional Profile 

Google Scholar
Scopus Profile
ORCID Profile

📚 Education

Dr. Ramtin Hajirezaei holds a Master of Science in Hydraulic Structures from Tarbiat Modares University, Tehran, where he completed a high-grade thesis on the seismic response of intake towers. He previously earned a Bachelor of Science in Civil Engineering. His academic background is rooted in advanced structural courses, including finite element methods, structural dynamics, and concrete dam design. Complementing his formal education, he has undertaken international certifications in Python programming and mechanics of materials from institutions such as Georgia Tech and the University of Michigan. This diverse academic foundation reflects both technical depth and global academic orientation.

🏢 Professional Experience

Though primarily research-focused, Dr. Ramtin Hajirezaei brings hands-on experience through technical engineering roles and advanced coursework. He has worked on seismic analysis and design of modular structures and has completed certified training in technical design at Sharif Center of Technical Applied Education. He is proficient with engineering tools such as Abaqus, Etabs, SAP, and AutoCAD—skills that have directly supported his academic and professional projects. His exposure to industry-relevant problems and advanced analytical software highlights a unique blend of theory and application. Additionally, his understanding of Python and Fortran enhances his ability to tackle complex engineering simulations and structural modeling tasks with precision.

🔬 Research Interests

Dr. Hajirezaei’s research focuses on seismic performance of structures, dynamic behavior of modular steel buildings, progressive collapse mechanisms, and the overturning behavior of free-standing towers. His interests also extend to sustainable engineering practices such as green building technologies and structural health monitoring. This diverse spectrum of research themes highlights a deep commitment to safety, innovation, and environmental responsibility. He is particularly passionate about addressing real-world challenges in earthquake-prone zones, using advanced computational modeling and simulation techniques. His goal is to integrate structural resilience with smart monitoring systems to build safer, more sustainable infrastructure for the future.

🏅 Awards and Honors

Dr. Ramtin Hajirezaei has consistently excelled throughout his academic journey, earning prestigious recognitions such as a full scholarship from Tarbiat Modares University. His innovative thinking was also showcased when he secured third place in the National Spaghetti Bridge Competition, demonstrating both creativity and structural understanding. Additionally, he is a provincial Taekwondo champion, underscoring his dedication and discipline across diverse fields. These honors reflect his multi-dimensional strengths and consistent pursuit of excellence in both academic and extracurricular arenas.

🧰 Research Skills

Dr. Hajirezaei possesses an impressive suite of research skills, combining theoretical knowledge with advanced software capabilities. He is highly proficient in structural analysis tools like Abaqus, Etabs, SAFE, and SAP, essential for simulating real-world structural responses. His programming expertise in Python and Fortran enables him to develop customized simulations and process large-scale data models efficiently. He also holds certificates in advanced materials and engineering design, alongside language fluency proven through IELTS and TOEFL scores. With competencies spanning coding, modeling, structural design, and data interpretation, he is equipped to tackle interdisciplinary research challenges with rigor and innovation.

📝Publications Top Note 

  • Title: Collapse Capacity of Modular Steel Buildings Subject to Module Loss Scenarios: The Role of Inter-Module Connections
    Authors: M. Alembagheri, P. Sharafi, R. Hajirezaei, B. Samali
    Year: 2020
    Citations: 86
    Source: Engineering Structures, Volume 210, Article 110373

  • Title: Anti-Collapse Resistance Mechanisms in Corner-Supported Modular Steel Buildings
    Authors: M. Alembagheri, P. Sharafi, R. Hajirezaei, Z. Tao
    Year: 2020
    Citations: 47
    Source: Journal of Constructional Steel Research, Volume 170, Article 106083

  • Title: Robustness of Multistory Corner‐Supported Modular Steel Frames Against Progressive Collapse
    Authors: M. Alembagheri, P. Sharafi, Z. Tao, R. Hajirezaei, K. Kildashti
    Year: 2021
    Citations: 14
    Source: The Structural Design of Tall and Special Buildings, Article e1896

  • Title: Robustness of Corner-Supported Modular Steel Buildings with Core Walls
    Authors: R. Hajirezaei, P. Sharafi, K. Kildashti, M. Alembagheri
    Year: 2024
    Citations: 6
    Source: Buildings, Volume 14, Issue 1

  • Title: Overturning Response Analysis of Free-Standing Intake Tower Subjected to Seismic Pulses
    Authors: R. Hajirezaei, M. Alembagheri
    Year: 2020
    Citations: 4
    Source: Amirkabir Journal of Civil Engineering, Volume 52, Issue 7, Pages 1817–1836

  • Title: Façade Systems for Industrialised Prefabricated Prefinished Modular Construction
    Authors: R. Hajirezaei, P. Sharafi, E.N. Farsangi, P. Rahnamayiezekavat
    Year: 2025
    Source: Automation in Construction, Volume 176

  • Title: Overturning Response Analysis of Submerged Free-Standing Blocks and Towers Subjected to Sinusoidal Pulses
    Authors: R. Hajirezaei, M. Alembagheri, H. Akbari, T. Ozbakkaloglu
    Year: 2024
    Source: Structures, Volume 64, Article 106617

🧩 Conclusion

Dr. Ramtin Hajirezaei exemplifies the qualities of a forward-thinking researcher with a strong technical foundation, global academic exposure, and a vision for resilient infrastructure. His work bridges the gap between theoretical modeling and practical application, especially in the realm of seismic safety and structural integrity. Backed by impactful publications, recognized certifications, and a broad research interest, he is not only contributing to current engineering knowledge but also paving the way for innovative future solutions. With his rare blend of analytical skills, dedication, and global mindset, he stands as a compelling candidate for prestigious research honors.