Professor/Director at Technical University of Cluj-Napoca, Romania

Professor Claudia Păcurar 🎓, a distinguished academic at the Technical University of Cluj-Napoca 🇷🇴, is a trailblazer in electrical engineering ⚡. With over two decades of experience in academia, she has progressed from assistant professor to full professor, demonstrating exemplary leadership 📘. Her research spans electromagnetic field modeling, spiral inductors, wireless power transfer, and antenna design 📡. She has authored 7 books 📚 and over 150 scientific papers, including 57 ISI-indexed works, showcasing her dedication to innovation and scientific excellence 🧠. Fluent in multiple languages 🌍 and a skilled communicator, she actively contributes to national and international conferences and research projects 🌐. Her technical acumen, organizational finesse, and commitment to student success make her a respected mentor and influential scholar 👩‍🏫. With a visionary focus on advanced electrotechnics and practical applications, Professor Păcurar continues to shape the future of engineering education and research 🔬🚀.

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🎓 Education

Professor Claudia Păcurar’s academic path reflects a lifelong devotion to mastering the intricacies of electrical engineering and applied sciences. She earned her undergraduate degree from the Technical University of Cluj-Napoca in 2001, followed by a PhD in Electrical Engineering in 2008 with a thesis on micrometer spiral inductors 🔁. Her commitment to scholarly advancement led her to earn the prestigious Habilitation Degree in 2022, a milestone that reflects her qualification to mentor doctoral students and lead pioneering research. Throughout her educational trajectory, she has balanced foundational theory with practical innovation, combining mathematics 🧮, electromagnetism 🌐, and computational design into a cohesive and forward-thinking academic philosophy. Her deep understanding of electromagnetic systems and smart technologies has laid a firm foundation for a transformative career in academia, innovation, and engineering leadership 🚀.

👩‍💼 Professional Experience

Professor Păcurar has steadily ascended the academic ranks at the Technical University of Cluj-Napoca, demonstrating versatility, vision, and value. Since joining in 2001 as a teaching assistant, she progressed to Lecturer, then Associate Professor, and ultimately became a Full Professor in 2022 🏛️. Her administrative roles—including Director of the Alumni Department—highlight her ability to harmonize academic excellence with institutional strategy and student engagement 🎯. She has served as a project manager, course coordinator, and technical organizer for international conferences, showcasing her multifaceted expertise and leadership capabilities 🔧. Beyond lectures and laboratories, she has mentored countless students, led educational initiatives, and co-developed cutting-edge software for electromagnetic design tools 💻. Professor Păcurar’s professional trajectory embodies dedication to teaching, research, and engineering advancement, underscoring her status as a pillar of the university and a prominent contributor to the broader scientific community 🌍.

🔬 Research Interest

Professor Păcurar’s research is rooted in the magnetic forces that power modern technologies and the numerical models that optimize them. Her interests center around electromagnetic field theory, the design and simulation of planar spiral inductors, antennas 📡, filters, and wireless power transfer systems ⚙️. A specialist in numerical modeling, she integrates advanced simulation methods with real-world engineering problems to craft innovative, energy-efficient solutions. Her work bridges the theoretical and the practical, often involving in-house software development such as CIBSOC and ABSIF for inductor optimization 💡. She explores nonlinear behavior, eddy currents, optimization algorithms, and smart system integration—all aligned with the growing demand for sustainable and intelligent electronics 🌱. Her interdisciplinary approach connects electronics, computer-aided design, and materials science, enabling her to address emerging challenges in telecommunication, medical devices, and energy systems with accuracy, elegance, and originality 🎇.

🏅 Awards and Honors

Professor Păcurar has earned well-deserved recognition for her academic and research accomplishments through numerous accolades. She was honored with the Diploma of Excellence by the Technical University of Cluj-Napoca for her substantial contributions to research, teaching, and university development 🎓. Her work has also received attention at national and international levels, evidenced by frequent invitations to serve as conference chair, reviewer, and program committee member across various global events 🌍. Her publications—especially those indexed by ISI and Scopus—have garnered citations and acclaim, confirming the high impact of her work 📖. Her dedication to educational excellence, innovation, and mentorship has made her a role model within the engineering faculty 👩‍🏫. These distinctions are not merely titles, but reflections of her continual drive to push scientific boundaries and inspire future generations of engineers and researchers 🔭.

Conclusion

Professor Claudia Păcurar stands as a beacon of academic integrity, research innovation, and educational leadership. From her formative years as a scholar to her current stature as a full professor and institutional leader, she has consistently exemplified excellence, creativity, and service 👩‍🔬. Her interdisciplinary mindset, combined with technical precision and a passion for teaching, positions her at the forefront of electromagnetic and wireless systems research 📶. As an author, mentor, and software innovator, she has made a lasting impact on students, colleagues, and the scientific community alike. Her journey, defined by curiosity and achievement, continues to fuel advancements in engineering education and applied technology 🔋. Professor Păcurar is not just shaping circuits—she is shaping minds, systems, and the future of intelligent infrastructure with every line of code, formula, and lecture 💫.

Publications Top Notes

📘 Title: Inductance calculation and layout optimization for planar spiral inductors
Authors: C. Pacurar, V. Topa, A. Racasan, C. Munteanu
Year: 2012
Citations: 37
Source: 13th International Conference on Optimization of Electrical and Electronic Equipment (OPTIM), 2012

📘 Title: Studies of Inductance Variation for Square Spiral Inductors using CIBSOC Software
Authors: C. Pacurar, V. Topa, C. Munteanu, A. Racasan, C. Hebedean
Year: 2013
Citations: 30
Source: Environmental Engineering & Management Journal (EEMJ), Vol. 12, Issue 6

📘 Title: Minimization of the equivalent parallel capacitance in planar magnetic EMI filters
Authors: A. Racasan, C. Munteanu, V. Tapa, C. Pacurar, C. Hebedean
Year: 2012
Citations: 17
Source: International Conference and Exposition on Electrical and Power Engineering (EPE), 2012

📘 Title: Spiral inductors inductance computation and layout optimization
Authors: C. Păcurar, V. Ţopa, C. Munteanu, A. Racasan, C. Hebedean
Year: 2012
Citations: 15
Source: International Conference and Exposition on Electrical and Power Engineering (EPE), 2012

📘 Title: High frequency analysis and optimization of planar spiral inductors used in microelectronic circuits
Authors: C. Pacurar, V. Topa, A. Giurgiuman, C. Munteanu, C. Constantinescu, …
Year: 2021
Citations: 14
Source: Electronics, Vol. 10, Issue 23, Article 2897

📘 Title: High Frequency Analysis of the Vivaldi Antenna Parameters
Authors: C. Constantinescu, C. Munteanu, L. Grindei, A. Giurgiuman, C. Pacurar, …
Year: 2020
Citations: 3
Source: 2020 International Conference and Exposition on Electrical and Power Engineering

📘 Title: High gain improved planar Yagi Uda antenna for 2.4 GHz applications and its influence on human tissues
Authors: C. Constantinescu, C. Pacurar, A. Giurgiuman, C. Munteanu, S. Andreica, …
Year: 2023
Citations: 10
Source: Applied Sciences, Vol. 13, Issue 11, Article 6678

📘 Title: Application of Windings Shifting for the Optimization of Planar Structures
Authors: C. Hebedean, C. Munteanu, A. Racasan, C. Pacurar
Year: 2013
Citations: 10
Source: Environmental Engineering & Management Journal (EEMJ), Vol. 12, Issue 6

📘 Title: Filter geometry optimization for the conduction electromagnetic interferences suppression
Authors: A. Racasan, C. Munteanu, V. Topa, C. Pacurar, C. Hebedean
Year: 2014
Citations: 9
Source: 2014 International Conference on Optimization of Electrical and Electronic Equipment (OPTIM)

📘 Title: Minimization of the equivalent parallel capacitance in planar magnetic integrated structures
Authors: A. Racasan, C. Munteanu, V. Topa, C. Pacurar, C. Hebedean
Year: 2012
Citations: 9
Source: 13th International Conference on Optimization of Electrical and Electronic Equipment (OPTIM), 2012

📘 Title: Optimum geometry for planar structures regarding their loss factor
Authors: C. Hebedean, C. Munteanu, R. Adina, C. Pacurar
Year: 2012
Citations: 9
Source: 7th International Conference and Exposition on Electrical and Power Engineering (EPE)

📘 Title: Advances on parasitic capacitance reduction of EMI filters
Authors: A. Racasan, C. Munteanu, V. Topa, C. Pacurar, C. Hebedean, S. Lup
Year: 2010
Citations: 9
Source: Annals of the University of Craiova, Electrical Engineering series

📘 Title: High frequency analysis of bowtie antennas
Authors: C. Constantinescu, C. Munteanu, C. Pacurar, A. Giurgiuman, M. Gliga, …
Year: 2019
Citations: 7
Source: 2019 11th International Symposium on Advanced Topics in Electrical Engineering (ATEE)

📘 Title: Analysis, identification and minimization of the parasitic effects of the multilayer spiral inductors
Authors: A. Racasan, C. Munteanu, C. Pacurar, V. Topa, C. Constantinescu, F. Pop, …
Year: 2016
Citations: 7
Source: 2016 International Conference and Exposition on Electrical and Power Engineering (EPE)

📘 Title: The influence of parameters on the parasitic capacitance values in a planar transformer
Authors: C. Hebedean, C. Munteanu, A. Racasan, C. Pacurar, D. Augustin
Year: 2015
Citations: 7
Source: 2015 9th International Symposium on Advanced Topics in Electrical Engineering (ATEE)

📘 Title: Technologies to improve high frequency characteristics of integrated EMI filters
Authors: A. Racasan, C. Munteanu, V. Topa, C. Racasan, O. Antonescu
Year: 2007
Citations: 7
Source: 6th International Conference on Electromechanical and Power Systems, Chisinau

Michael Todinov | Mathematical Engineering | Best Researcher Award

Posted on 25/04/202525/04/2025 by Math Scientist

Prof. Michael Todinov | Mathematical Engineering | Best Researcher Award

Professor in Mechanical Engineering at Oxford Brookes University, School of Engineering, Computing and Mathematics, United Kingdom

Professor Michael Todinov is a trailblazing mind in the realm of applied mathematics, reliability engineering, and risk analysis 🌐📊. Renowned for his pioneering contributions to flow networks, reliability modeling, and probabilistic safety assessment, he has authored numerous influential papers and books that have reshaped contemporary engineering thinking 📘⚙️. With a unique approach that blends mathematical innovation with practical utility, Prof. Todinov has introduced novel methodologies for optimizing system performance under uncertainty and complexity 🔍🔧. His work is widely applied across infrastructure, manufacturing, and safety-critical systems, cementing his status as a visionary scholar and problem-solver 🏗️🧠. As a respected educator and thought leader, he continues to inspire a new generation of engineers and researchers to embrace analytical rigor with creative foresight 🎓💡. Driven by curiosity and excellence, Prof. Todinov’s legacy is a testament to the power of mathematical insight in transforming real-world systems 🌟📐.

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🎓 Education

Prof. Michael Todinov’s educational journey 🌍 began with a First-Class Honours degree in Mechanical Engineering from the Technical University of Sofia 🎓, where his early fascination with precision and systems emerged. Driven by intellectual curiosity, he pursued a PhD at the University of Birmingham—an extraordinary accomplishment completed without formal supervision, based solely on published research 📚. Later, he earned a Doctor of Engineering (DEng), the UK’s equivalent of a DSc, for his pioneering work in probabilistic modeling and system reliability 🔍. This academic evolution reflects a rare synthesis of engineering insight ⚙️ and mathematical depth ➕, enabling him to approach challenges from a multidisciplinary perspective. His educational path has been marked by rigor, creativity, and trailblazing scholarship—qualities that continue to define his professional excellence today. 🧠

💼 Professional Experience

With over 30 years of experience 🌟, Prof. Todinov has held key roles across UK institutions, including his current position as Professor at Oxford Brookes University 🎓. Earlier, he led groundbreaking research as Head of Risk and Reliability at Cranfield University and served as a Research Scientist at the University of Birmingham 🧪. His professional journey blends academic excellence with real-world innovation 🌐, including collaborations with major organizations like BP, Total, and KIMM. His work spans failure modeling, flow network optimization, and engineering safety, using cutting-edge algorithms and simulation techniques 🧮. Whether developing industry solutions or mentoring PhD students 🎓, Prof. Todinov brings a unique fusion of creativity, logic, and leadership. His roles reflect a consistent dedication to advancing applied mathematics and making theory work in practice ⚒️.

🔬 Research Interests

Prof. Todinov’s research is a deep dive into the world of probability, optimization, and system reliability 🎯. He develops new theories and practical models that redefine how we assess risks and design safer, more efficient systems 💡. His focus areas include probabilistic risk reduction, algebraic inequalities, flow networks, and fracture mechanics 🧱. Notably, he challenged and corrected traditional reliability models 🔄, offering innovative alternatives with real-world impact. His algorithm for maximizing flow through damaged networks is the fastest known, making it vital for industries like energy ⚡ and infrastructure 🚧. He also introduced methods for reverse-engineering algebraic inequalities—a breakthrough in mathematical logic 🧠. Prof. Todinov’s work is both foundational and futuristic, balancing theoretical brilliance with powerful applications that influence global engineering and safety practices. 🔧

🏅 Awards and Honors

Prof. Todinov has been recognized globally for his exceptional work 🥇. He received honors from the Institution of Mechanical Engineers (UK) for his influential contributions to engineering risk reduction 🛡️. His Doctor of Engineering (DEng) was conferred in acknowledgment of his career-long breakthroughs in mathematical modeling, an award rarely granted and held by only a select few 🔝. His books—published by Wiley, Elsevier, and CRC Press—have become foundational references across academic and industrial communities 📖. He’s a frequent keynote speaker, journal editorial board member, and award-winning educator 🎤📘. His blend of academic impact and practical innovation has earned him international respect, with accolades that confirm his status as a pioneer in risk science and reliability engineering ⚙️. These honors reflect not just achievement, but lasting influence.

Conclusion

Prof. Michael Todinov stands as a brilliant example of how mathematics and engineering can shape real-world systems 🌐. His research has led to smarter designs, safer infrastructures, and more reliable systems worldwide 🛠️. By blending advanced theory with hands-on solutions, he’s redefined what it means to be an applied mathematician and engineer 🚀. Whether leading research, inspiring students 🎓, or developing the next breakthrough algorithm, his impact is wide-reaching and deeply rooted. As a thinker, educator, and innovator 💬, he’s left a legacy that transcends borders and disciplines. His work continues to elevate global standards in risk management, optimization, and system resilience, earning him a well-deserved place among the world’s top research minds 🧩. Prof. Todinov’s journey reminds us that the intersection of logic and creativity is where true innovation thrives. ✨

Publications Top Notes

📖 Title: Reverse Engineering of Algebraic Inequalities for System Reliability Predictions and Enhancing Processes in Engineering
✍️ Authors: M.T. Todinov, Michael Todorov
📅 Year: 2024
🔢 Citations: 7
📖 Source: IEEE Transactions on Reliability 📰

📖 Title: Lightweight Designs and Improving the Load-Bearing Capacity of Structures by the Method of Aggregation
✍️ Authors: M.T. Todinov, Michael Todorov
📅 Year: 2024
🔢 Citations: 1
📖 Source: Mathematics 📐

📖 Title: Enhancing the Reliability of Series-Parallel Systems With Multiple Redundancies by Using System-Reliability Inequalities
✍️ Authors: M.T. Todinov, Michael Todorov
📅 Year: 2023
🔢 Citations: 2
📖 Source: ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part B: Mechanical Engineering 🛠️

📖 Title: Reliability-Related Interpretations of Algebraic Inequalities
✍️ Authors: M.T. Todinov, Michael Todorov
📅 Year: 2023
🔢 Citations: 5
📖 Source: IEEE Transactions on Reliability 🔧

📖 Title: Probabilistic Interpretation of Algebraic Inequalities Related to Reliability and Risk
✍️ Authors: M.T. Todinov, Michael Todorov
📅 Year: 2023
🔢 Citations: 1
📖 Source: Quality and Reliability Engineering International 📊

📖 Title: Improving Reliability by Increasing the Level of Balancing and by Substitution
✍️ Authors: M.T. Todinov, Michael Todorov
📅 Year: 2023
🔢 Citations: 1
📖 Source: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science ⚙️

📖 Title: Can System Reliability Be Predicted from Average Component Reliabilities?
✍️ Authors: M.T. Todinov, Michael Todorov
📅 Year: 2023
🔢 Citations: 1
📖 Source: Safety and Reliability 🔒

📖 Title: Improving System Reliability and the Probability of Selecting Reliable Components by Interpreting Algebraic Inequalities
✍️ Authors: M.T. Todinov, Michael Todorov
📅 Year: 2023
📖 Source: International Journal of Modelling, Identification and Control 🎯

📖 Title: On the Use of Analytical Inequalities for Improving Reliability and Reducing Risk
✍️ Authors: M.T. Todinov, Michael Todorov
📅 Year: 2023
📖 Source: International Journal of Risk Assessment and Management ⚖️

📖 Title: Risk-based Reliability Analysis and Generic Principles for Risk Reduction
✍️ Authors: M.T. Todinov
📅 Year: 2006
🔢 Citations: 114
📖 Source: Elsevier 📈

📖 Title: On Some Limitations of the Johnson–Mehl–Avrami–Kolmogorov Equation
✍️ Authors: M.T. Todinov
📅 Year: 2000
🔢 Citations: 80
📖 Source: Acta Materialia 🧪

📖 Title: Necessary and Sufficient Condition for Additivity in the Sense of the Palmgren–Miner Rule
✍️ Authors: M.T. Todinov
📅 Year: 2001
🔢 Citations: 75
📖 Source: Computational Materials Science 🔬

📖 Title: Is Weibull Distribution the Correct Model for Predicting Probability of Failure Initiated by Non-Interacting Flaws?
✍️ Authors: M.T. Todinov
📅 Year: 2009
🔢 Citations: 58
📖 Source: International Journal of Solids and Structures 🏗️

📖 Title: Flow Networks: Analysis and Optimization of Repairable Flow Networks, Networks with Disturbed Flows, Static Flow Networks and Reliability Networks
✍️ Authors: M.T. Todinov
📅 Year: 2013
🔢 Citations: 54
📖 Source: Newnes 🌐

Arnulfo Luévanos Rojas | Mathematical Engineering | Mathematical Engineering Excellence Award

Posted on 03/04/202503/04/2025 by Math Scientist

Dr. Arnulfo Luévanos Rojas | Mathematical Engineering | Mathematical Engineering Excellence Award

Professor and Researcher at Universidad Autónoma de Coahuila, Mexico

Dr. Arnulfo Luévanos Rojas is a distinguished professor and researcher at Universidad Autónoma de Coahuila, with over 40 years of academic and research experience in mathematical engineering. Holding a PhD in Engineering with a specialization in Planning and Construction Systems, he has made significant contributions to mathematical modeling in structural engineering. He has authored 141 journal articles, 10 books, and served as a guest editor for Mathematics, with an h-index of 20 and over 1,186 citations. His groundbreaking research on beam and footing models has optimized structural design, minimizing cost and improving efficiency. Recognized with prestigious awards such as the Researcher of the Year and inclusion in the World’s Top 2% Scientists List, he has supervised 24 PhD theses and led multiple consultancy projects. His extensive collaborations in international journals and committees further underscore his influence, making him a leading figure in applied and computational mathematics within engineering.

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Education

Dr. Arnulfo Luévanos Rojas holds an extensive academic background in engineering and applied mathematics. He earned a degree in Civil Engineering, followed by a Master of Science specializing in Planning and Construction of Works. Further enhancing his expertise, he completed a Master’s in Administration and a specialization in Structural Engineering. His academic journey culminated with a PhD in Engineering, focusing on Planning and Construction Systems, which laid the foundation for his groundbreaking research in mathematical modeling and structural optimization. His multidisciplinary education has equipped him with the knowledge to integrate mathematical theories with real-world engineering applications, particularly in designing efficient and cost-effective structural models. His diverse academic training has enabled him to bridge the gap between engineering practice and advanced mathematical methodologies, making significant contributions to the field of mathematical engineering.

Professional Experience

Dr. Luévanos Rojas has over four decades of academic and research experience in engineering and applied mathematics. He began his teaching career in 1983 and served as a professor until 2006. From 2006 to 2014, he was a professor and researcher at Universidad Juárez del Estado de Durango, where he contributed to engineering education and research. Since 2015, he has been a professor and researcher at Universidad Autónoma de Coahuila, where he continues to make significant advancements in mathematical engineering. Over the years, he has supervised 24 PhD, 17 Master’s, and 24 Bachelor’s theses, demonstrating his strong mentorship and academic leadership. Additionally, he has contributed to four consultancy projects, collaborating with industry partners to apply his mathematical models to real-world engineering problems. His professional experience reflects a commitment to advancing engineering through applied mathematics, research, and education.

Research Interest

Dr. Luévanos Rojas specializes in mathematical models, applied and computational mathematics, optimization methods, and engineering applications. His research focuses on developing innovative mathematical models for structural components, such as beams and footings, considering both bending and shear deformations to enhance structural integrity and cost efficiency. His work addresses critical challenges in engineering by introducing precise and optimized modeling techniques, reducing dependency on trial-and-error methods. Additionally, his research extends to applied mathematics, where he develops advanced computational techniques for structural analysis. His contributions in optimization methods ensure the efficient use of materials and resources in construction projects. Through international collaborations and editorial roles, he continues to advance research in mathematical engineering, integrating computational approaches and theoretical advancements to improve real-world engineering applications.

Awards and Honors

Dr. Luévanos Rojas has received numerous prestigious awards recognizing his outstanding contributions to research and engineering. He was honored with the Benito Juárez Medal, the Best Scientific Article Award, and the Researcher of the Year title, reflecting his excellence in academic and applied research. He has also been acknowledged for his career-long contributions to scientific development, receiving a special mention at the 3rd International Symposium on Technological and Organizational Innovation (SITOI). His inclusion in the World’s Top 2% Scientists List further underscores his impact on global research. Additionally, he has been a member of Mexico’s National System of Researchers (SNI), advancing from Level I (2016-2022) to Level II (2023-2027), a recognition of his growing influence in the academic community. His leadership in international conferences, editorial boards, and professional committees highlights his commitment to advancing mathematical engineering research and education.

Conclusion

Dr. Arnulfo Luévanos Rojas is a highly accomplished researcher and professor whose contributions to mathematical engineering have significantly impacted structural modeling and optimization. His extensive academic background, spanning multiple engineering disciplines, provides a strong foundation for his research. With over 141 journal publications, 10 books, and an impressive citation record, he has established himself as a leading figure in applied and computational mathematics. His research on mathematical models for beams and footings has improved structural efficiency and cost-effectiveness, making a tangible impact on engineering practices. Recognized with multiple national and international awards, he continues to shape the future of mathematical engineering through research, mentorship, and collaboration. His dedication to advancing the field through innovative modeling techniques, industry partnerships, and academic leadership makes him a distinguished expert in mathematical and applied engineering sciences.

Publications Top Notes

Title: Optimal Surface in Plan for Hollow Circular Footings Assuming That the Contact Surface with Soil Works Partially Under Compression
Authors: E.R. Díaz-Gurrola, Eyrán Roberto; A. Luévanos-Rojas, A.; G.J. Montiel-Sánchez, Gloria Josefina; C. Martínez-Aguilar, Carmela
Year: 2025
Source: International Journal of Innovative Computing, Information and Control
Title: Optimal Cost Design of RC T-Shaped Combined Footings
Authors: V.M. Moreno-Landeros, Victor Manuel; A. Luévanos-Rojas, A.; G. Santiago-Hurtado, Griselda; A.L. López León, Abraham Leonel; A.E. Landa-Gómez, Aldo Emelio
Year: 2024
Source: Buildings
Title: Optimal Area for Rectangular Foundation Slabs in Plan Supported on Soil
Authors: M.I.L. Ávila-García, María Ilce Leticia; A. Luévanos-Rojas, A.; C. Martínez-Aguilar, Carmela; L.L. Gaona-Tamez, Laura Leticia
Year: 2024
Source: International Journal of Innovative Computing, Information and Control
Title: Optimal Area for a Rectangular Isolated Footing with an Eccentric Column and Partial Ground Compression
Authors: V.M. Moreno-Landeros, Victor Manuel; A. Luévanos-Rojas, A.; G. Santiago-Hurtado, Griselda; L.D. López León, Luis Daimir; E.R. Díaz-Gurrola, Eyrán Roberto
Year: 2024
Source: Applied Sciences (Switzerland)
Citations: 1
Title: Mathematical Modeling for the Optimal Cost Design of Circular Isolated Footings with Eccentric Column
Authors: A. Luévanos-Rojas, A.; V.M. Moreno-Landeros, Victor Manuel; G. Santiago-Hurtado, Griselda; M.A. Baltazar-Zamora, Miguel Angel; E.R. Díaz-Gurrola, Eyrán Roberto
Year: 2024
Source: Mathematics
Citations: 2
Title: Modelling for Mechanical Elements of T-Shaped Cross-Sectional Beams with Straight Haunches: Part II
Authors: O. Sierra-Andrade, Omar; A. Luévanos-Rojas, A.; B.E. Montano-Pérez, Blanca Estela
Year: 2024
Source: International Journal of Innovative Computing, Information and Control
Title: Modelling for Mechanical Elements of T-Shaped Cross-Sectional Beams with Straight Haunches: Part I
Authors: C. Rodríguez-Reyes, Cynthia; A. Luévanos-Rojas, A.; C. Martínez-Aguilar, Carmela
Year: 2024
Source: International Journal of Innovative Computing, Information and Control
Title: Minimum Cost Design for Circular Isolated Footings with Eccentric Column Taking Into Account That the Surface in Contact with the Ground Works Partially in Compression
Authors: I. Luévanos-Soto, Inocencio; A. Luévanos-Rojas, A.; V.M. Moreno-Landeros, Victor Manuel; G. Santiago-Hurtado, Griselda
Year: 2024
Source: Coupled Systems Mechanics
Title: Deflections in Beams of Rectangular Cross Section with Parabolic Haunches Subjected to a Concentrated Load
Authors: R. Barraza-Saucedo, Rogelio; A. Luévanos-Rojas, A.
Year: 2024
Source: Computacion y Sistemas
Title: Design of Isolated Footings of Rectangular Form Using a New Model
Authors: A. Luévanos Rojas, J.G. Faudoa Herrera, R.A. Andrade Vallejo, …
Year: 2013
Source: International Journal of Innovative Computing, Information and Control
Citations: 44
Title: Optimal Design for Rectangular Isolated Footings Using the Real Soil Pressure
Authors: A. Luévanos-Rojas, S. López-Chavarría, M. Medina-Elizondo
Year: 2017
Source: Ingeniería e Investigación
Citations: 38
Title: Optimal Dimensioning for the Corner Combined Footings
Authors: S. López Chavarría, A. Luévanos Rojas, M. Medina Elizondo
Year: 2017
Source: Advances in Computational Design
Citations: 35
Title: Design of Isolated Footings of Circular Form Using a New Model
Authors: A. Luévanos Rojas
Year: 2014
Source: Structural Engineering and Mechanics
Citations: 33
Title: Method of Structural Analysis for Statically Indeterminate Beams
Authors: A. Luévanos Rojas
Year: 2012
Source: International Journal of Innovative Computing, Information and Control
Citations: 32
Title: Design of Boundary Combined Footings of Rectangular Shape Using a New Model
Authors: A. Luévanos Rojas
Year: 2014
Source: Dyna
Citations: 30
Title: A Mathematical Model for Dimensioning of Footings Rectangular
Authors: A. Luévanos Rojas
Year: 2013
Source: ICIC Express Letters, Part B, Applications
Citations: 29
Title: Numerical Experimentation with a Human Migration Model
Authors: V. Kalashnikov, N. Kalashnykova, R. Luévanos Rojas, M. Méndez Muños, …
Year: 2008
Source: European Journal of Operational Research
Citations: 28
Title: A New Model for T-Shaped Combined Footings Part I: Optimal Dimensioning
Authors: A. Luévanos Rojas, S. López Chavarría, M. Medina Elizondo
Year: 2018
Source: Geomechanics and Engineering
Citations: 27
Title: Numerical Experimentation for the Optimal Design for Reinforced Concrete Rectangular Combined Footings
Authors: F. Velázquez Santillán, A. Luévanos Rojas, S. López Chavarría, …
Year: 2018
Source: Advances in Computational Design
Citations: 26
Title: Design of Boundary Combined Footings of Trapezoidal Form Using a New Model
Authors: A. Luévanos Rojas
Year: 2015
Source: Structural Engineering and Mechanics
Citations: 26

Sorin Vlase | Applied Mathematics | Excellence in Applied Mathematics

Posted on 28/02/202528/02/2025 by Math Scientist

Prof. Sorin Vlase | Applied Mathematics | Excellence in Applied Mathematics

Professor at Transilvania University of Brasov, Romania

Prof. Sorin Vlase is a distinguished researcher and full professor at Transilvania University of Brasov, Romania, specializing in Mechanics, Computational Mechanics, Finite Element Method, and Multibody Systems. With an academic career spanning nearly five decades, he has made significant contributions to mechanical engineering and applied mathematics. He has served as the head of multiple departments, organized prestigious international awards, and led over 15 scientific projects while participating in more than 50. His extensive publication record includes 244 ISI-indexed papers, 21 books, and numerous award proceedings. He has played a key role in advancing computational mechanics, composite materials, and automotive engineering, securing national and international research grants, including NATO-funded projects. His expertise is recognized through his editorial contributions, scientific committee memberships, and honorary professor titles. Prof. Vlase’s work continues to impact the global research community, making him a strong candidate for recognition as a leading researcher in his field.

Professional Profile

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ORCID Profile

Education

Prof. Sorin Vlase has a strong academic background in mechanical engineering and applied mathematics. He earned his B.Sc. and M.Sc. in Mechanical Engineering with a specialization in Automotive Engineering from Transilvania University of Brasov (1971–1976). In addition, he pursued a degree in mathematics from the University of Bucharest (1977–1982), further strengthening his analytical expertise. He obtained his Ph.D. from Transilvania University of Brasov in 1989, focusing on advanced computational mechanics. His academic journey culminated in a Habilitation in Automotive Engineering in 2015, allowing him to mentor doctoral students. His multidisciplinary education has played a crucial role in shaping his expertise in mechanics, computational analysis, and finite element methods, making him a highly respected scholar in his field. Throughout his academic career, he has been associated with Transilvania University, significantly contributing to its research and educational framework through his teaching, mentorship, and leadership in various scientific projects.

Professional Experience

Prof. Vlase has had an extensive professional career, primarily at Transilvania University of Brasov, where he has been a faculty member since 1980. His career progression includes roles as an Assistant Professor (1980–1984), Lecturer (1984–1991), Associate Professor (1991–1996), and Full Professor (1996–present). He also served as the Head of the Department of Mechanics (2004–2011), Head of the Department of Automotive Engineering and Mechanics (2011–2012), and Head of the Department of Mechanical Engineering (2012–2020). Prior to joining academia, he worked as a research engineer at the Automotive Research Institute and ROMAN SA Brasov (1976–1980), gaining valuable industry experience. His expertise spans mechanical stability, numerical methods, kinematics, and dynamics of multibody systems. Additionally, he has organized numerous international awards and contributed to over 50 scientific projects, demonstrating his leadership and commitment to advancing mechanical engineering and applied sciences.

Research Interests

Prof. Vlase’s research is centered on Mechanics, Computational Mechanics, Finite Element Method, Vibrations, and Multibody Systems. His interdisciplinary approach integrates mathematical modeling, numerical simulations, and experimental mechanics, with applications in automotive engineering and composite materials. He has made significant contributions to computational analysis, particularly in the dynamic behavior of mechanical structures. His work also explores nonlinear analysis, virtual prototyping, and the optimization of mechanical systems. His research extends to white noise in urban environments and mechanical identifiability in automotive engineering, reflecting his ability to bridge theoretical research with real-world applications. His leadership in national and international research grants, including NATO-funded projects, underscores his influence in the field. Through his extensive publication record, including books, journal articles, and award proceedings, he continues to contribute to the development of cutting-edge technologies in engineering and applied mechanics.

Awards and Honors

Prof. Sorin Vlase has been widely recognized for his contributions to mechanical engineering and computational mechanics. He has received numerous accolades for his research, teaching, and leadership in the scientific community. He was awarded an Honorary Professorship at Ovidius University in Constanta, a testament to his influence in academia. He has served as an editor for 15 scientific publications and has been a key organizer of several prestigious international awards, including the Computational Mechanics and Virtual Engineering (COMEC) series and the Advanced Composite Materials Engineering (COMAT) awards. His research excellence has been acknowledged through multiple national and international grants, including NATO-sponsored projects. His role as a principal investigator in over 15 projects and a participant in more than 50 research initiatives further highlights his impact. Prof. Vlase’s commitment to advancing the field of mechanics has earned him a distinguished reputation in the global academic community.

Conclusion

Prof. Sorin Vlase is a highly accomplished researcher, educator, and leader in the fields of mechanics, computational analysis, and automotive engineering. His academic journey, spanning decades, has been marked by significant contributions to research, teaching, and scientific collaboration. With over 244 ISI-indexed papers, 21 books, and leadership in numerous research projects, he has left a lasting impact on engineering sciences. His interdisciplinary expertise, bridging mechanical engineering and applied mathematics, has led to innovative solutions in computational mechanics and material science. His role in organizing international awards and securing competitive research grants further underscores his dedication to advancing scientific knowledge. Recognized through prestigious awards and honorary titles, Prof. Vlase continues to shape the future of mechanical engineering. His extensive contributions make him a strong candidate for any distinguished research award, reflecting his outstanding achievements in academia, research, and professional service.

Publications Top Noted

Title: On the partition of energies for the backward in time problem of thermoelastic materials with a dipolar structure
Authors: M. Marin, S. Vlase, R. Ellahi, M.M. Bhatti
Year: 2019
Citations: 127
Source: Symmetry, 11(7), 863
Title: Motion equation for a flexible one-dimensional element used in the dynamical analysis of a multibody system
Authors: S. Vlase, M. Marin, A. Öchsner, M.L. Scutaru
Year: 2019
Citations: 122
Source: Continuum Mechanics and Thermodynamics, 31, 715-724
Title: Improved rigidity of composite circular plates through radial ribs
Authors: C. Itu, A. Öchsner, S. Vlase, M.I. Marin
Year: 2019
Citations: 115
Source: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications
Title: New analytical method based on dynamic response of planar mechanical elastic systems
Authors: M.L. Scutaru, S. Vlase, M. Marin, A. Modrea
Year: 2020
Citations: 113
Source: Boundary Value Problems, 2020, 1-16
Title: A method for the study of the vibration of mechanical bars systems with symmetries
Authors: S. Vlase, C. Năstac, M. Marin, M. Mihălcică
Year: 2017
Citations: 107
Source: Acta Technica Napocensis-Series: Applied Mathematics, Mechanics, and Engineering
Title: Considerations on double porosity structure for micropolar bodies
Authors: M. Marin, S. Vlase, M. Paun
Year: 2015
Citations: 107
Source: AIP Advances, 5(3)
Title: On mixed problem in thermoelasticity of type III for Cosserat media
Authors: M. Marin, A. Seadawy, S. Vlase, A. Chirila
Year: 2022
Citations: 100
Source: Journal of Taibah University for Science, 16(1), 1264-1274
Title: On the decay of exponential type for the solutions in a dipolar elastic body
Authors: M. Marin, R. Ellahi, S. Vlase, M.M. Bhatti
Year: 2020
Citations: 95
Source: Journal of Taibah University for Science, 14(1), 534-540
Title: Coupled transverse and torsional vibrations in a mechanical system with two identical beams
Authors: S. Vlase, M. Marin, M.L. Scutaru, R. Munteanu
Year: 2017
Citations: 95
Source: AIP Advances, 7(6)
Title: Effect of microtemperatures for micropolar thermoelastic bodies
Authors: M. Marin, D. Baleanu, S. Vlase
Year: 2017
Citations: 88
Source: Structural Engineering and Mechanics, 61(3), 381-387
Title: Homogenization and averaging methods to predict elastic properties of pre-impregnated composite materials
Authors: H. Teodorescu-Draghicescu, S. Vlase
Year: 2011
Citations: 88
Source: Computational Materials Science, 50(4), 1310-1314
Title: Finite element method analysis of some fibre-reinforced composite laminates
Authors: H. Teodorescu-Draghicescu, A. Stanciu, S. Vlase, L. Scutaru, M.R. Calin
Year: 2011
Citations: 78
Source: Optoelectronics and Advanced Materials-Rapid Communications, 5(7), 782-785
Title: A method of eliminating Lagrangian multipliers from the equation of motion of interconnected mechanical systems
Authors: S. Vlase
Year: 1987
Citations: 76
Source: Not available
Title: Hysteresis effect in a three-phase polymer matrix composite subjected to static cyclic loadings
Authors: H. Teodorescu-Draghicescu, S. Vlase, L. Scutaru, L. Serbina, M.R. Calin
Year: 2011
Citations: 74
Source: Optoelectronics and Advanced Materials-Rapid Communications, 5 (March 2011)
Title: Influence of B4C and industrial waste fly ash reinforcement particles on the microstructural characteristics and mechanical behavior of aluminium (Al–Mg–Si-T6) hybrid metal matrix composites
Authors: M.S. Kumar, M. Vasumathi, S.R. Begum, S.M. Luminita, S. Vlase, C.I. Pruncu
Year: 2021
Citations: 61
Source: Journal of Materials Research and Technology, 15, 1201-1216
Title: Behavior of multiphase fiber-reinforced polymers under short time cyclic loading
Authors: S. Vlase, H. Teodorescu-Draghicescu, D.L. Motoc, M.L. Scutaru, L. Serbina
Year: 2011
Citations: 59
Source: Optoelectronics and Advanced Materials-Rapid Communications, 5, 419-423
Title: Mechanical behavior of CSM450 and RT800 laminates subjected to four-point bend tests
Authors: A. Stanciu, H. Teodorescu-Drăghicescu, S. Vlase, M.L. Scutaru, M.R. Cǎlin
Year: 2012
Citations: 58
Source: Optoelectronics and Advanced Materials-Rapid Communications, 6 (March-April 2012)
Title: Advanced pultruded glass fibers-reinforced isophtalic polyester resin
Authors: H. Teodorescu-Draghicescu, S. Vlase, M.D. Stanciu, I. Curtu, M. Mihalcica
Year: 2015
Citations: 56
Source: Mater. Plast, 52(1), 62-64
Title: Properties of advanced new materials used in automotive engineering
Authors: A. Modrea, S. Vlase, H. Teodorescu-Draghicescu, M. Mihalcica, M.R. Calin
Year: 2013
Citations: 55
Source: Optoelectronics and Advanced Materials-Rapid Communications, 7 (May-June 2013)
Title: Simulation of the elastic properties of some fiber-reinforced composite laminates under off-axis loading system
Authors: S. Vlase, H. Teodorescu-Draghicescu, M.R. Calin, L. Serbina
Year: 2011
Citations: 55
Source: Optoelectronics and Advanced Materials-Rapid Communications, 5 (April 2011)

LinTian Luh | Applied Mathematics | Numerical Analysis Research Award

Posted on 25/02/202526/02/2025 by Math Scientist

Dr. LinTian Luh | Applied Mathematics | Numerical Analysis Research Award

Dr. Lin-Tian Luh is a distinguished mathematician specializing in radial basis functions, approximation theory, numerical mathematics, and topology. With a Ph.D. from the University of Göttingen, he has made significant contributions to the field, particularly in developing error bounds for high-dimensional interpolation and advancing the choice theory of shape parameters. Over his academic career at Providence University, where he served as a lecturer, associate professor, and full professor, he has been instrumental in enhancing research environments and collaborating internationally, notably with Professor R. Schaback. Dr. Luh has published extensively in high-impact journals, presented at major awards worldwide, and held editorial roles in reputable mathematical journals. His groundbreaking work on shape parameter selection has gained international recognition, solving longstanding challenges in the field. Honored multiple times for research excellence, he continues to push the boundaries of numerical analysis and computational mathematics, making profound impacts on scientific advancements.

Professional Profile

Scopus Profile
ORCID Profile

Education

Dr. Lin-Tian Luh obtained his Ph.D. in Mathematics from the University of Göttingen, Germany, where he studied under leading experts in numerical analysis and approximation theory. His doctoral research focused on radial basis functions and their applications in high-dimensional interpolation. Prior to his Ph.D., he completed his undergraduate and master’s studies in Taiwan, building a strong foundation in pure and applied mathematics. Throughout his academic journey, he demonstrated exceptional analytical skills and a deep passion for solving complex mathematical problems. His international education provided him with a broad perspective, allowing him to integrate diverse mathematical techniques into his research. Exposure to rigorous mathematical training at Göttingen further refined his expertise in error estimation and shape parameter selection. His academic achievements laid the groundwork for a successful career in both theoretical and applied mathematics, enabling him to contribute significantly to the advancement of numerical methods in scientific computation.

Professional Experience

Dr. Lin-Tian Luh has had a distinguished academic career, spanning decades of research, teaching, and mentorship. He began as a lecturer at Providence University in Taiwan, where he quickly established himself as an authority in numerical mathematics. Rising through the ranks to associate professor and later full professor, he played a pivotal role in shaping the university’s mathematics curriculum and fostering a strong research environment. He has collaborated extensively with international scholars, including Professor R. Schaback, contributing to groundbreaking advancements in radial basis function interpolation. Dr. Luh has also held visiting research positions at prestigious institutions, further strengthening his global academic impact. His dedication to teaching has inspired numerous students to pursue research in computational mathematics. Beyond academia, he has served on editorial boards of leading mathematical journals and as a reviewer for high-impact publications, solidifying his reputation as a key figure in numerical analysis and approximation theory.

Research Interest

Dr. Lin-Tian Luh’s research interests lie in numerical analysis, radial basis function (RBF) interpolation, approximation theory, and topology. He has made substantial contributions to high-dimensional interpolation techniques, particularly in error estimation and shape parameter selection for RBF methods. His work on developing optimal strategies for shape parameter choice has addressed longstanding challenges in computational mathematics, influencing applications in engineering, data science, and machine learning. He is also deeply engaged in the theoretical aspects of approximation theory, exploring new methods to improve the efficiency and accuracy of numerical algorithms. Dr. Luh’s research extends into applied topology, where he investigates connections between geometric structures and computational models. His interdisciplinary approach has led to collaborations across various fields, reinforcing the importance of mathematical theory in real-world problem-solving. With numerous publications in top-tier journals, his work continues to shape the evolving landscape of numerical mathematics and scientific computation.

Awards and Honors

Dr. Lin-Tian Luh has received multiple accolades for his exceptional contributions to mathematics, particularly in numerical analysis and approximation theory. He has been recognized by prestigious mathematical societies and institutions for his pioneering work in radial basis function interpolation. His research on shape parameter selection has earned international acclaim, leading to invitations as a keynote speaker at major mathematical awards. Dr. Luh has also been honored with excellence in research awards from Providence University, where his work has significantly advanced the institution’s academic reputation. In addition, he has received grants and fellowships supporting his innovative research, further validating his impact in the field. His editorial contributions to leading mathematical journals have also been acknowledged, highlighting his influence in shaping contemporary numerical mathematics. These honors reflect his dedication, originality, and profound impact on both theoretical and applied mathematics, reinforcing his legacy as a leader in computational and approximation theory.

Conclusion

Dr. Lin-Tian Luh is a renowned mathematician whose work in numerical analysis, radial basis function interpolation, and approximation theory has significantly influenced the field. With a strong educational background from the University of Göttingen and an illustrious academic career at Providence University, he has played a crucial role in advancing research and mentoring future generations of mathematicians. His collaborations with international scholars and contributions to high-dimensional interpolation techniques have provided groundbreaking insights into shape parameter selection and error estimation. Recognized globally for his research excellence, he has received multiple awards and honors, further establishing his prominence in mathematical sciences. Dr. Luh’s work continues to inspire and drive progress in numerical computation, bridging theoretical advancements with practical applications. His dedication to expanding mathematical knowledge and fostering innovation ensures that his contributions will have a lasting impact on the field, shaping the future of approximation theory and scientific computing.

Publications Top Noted

The Shape Parameter in the Shifted Surface Spline—A Sharp and Friendly Approach
- Author: Lin-Tian Luh
- Year: 2024
- Source: Mathematics (MDPI)
Solving Poisson Equations by the MN-Curve Approach
- Author: Lin-Tian Luh
- Year: 2022
- Source: Mathematics (MDPI)
A Direct Prediction of the Shape Parameter in the Collocation Method of Solving Poisson Equation
- Author: Lin-Tian Luh
- Year: 2022
- Source: Mathematics (MDPI)
The Shape Parameter in the Shifted Surface Spline—An Easily Accessible Approach
- Author: Lin-Tian Luh
- Year: 2022
- Source: Mathematics (MDPI)
A Direct Prediction of the Shape Parameter—A Purely Scattered Data Approach
- Author: Lin-Tian Luh
- Year: 2020
- Source: Engineering Analysis with Boundary Elements (EABE)
The Choice of the Shape Parameter–A Friendly Approach
- Author: Lin-Tian Luh
- Year: 2019
- Source: Engineering Analysis with Boundary Elements (Elsevier)
The Mystery of the Shape Parameter III
- Author: Lin-Tian Luh
- Year: 2016
- Source: Applied and Computational Harmonic Analysis (Elsevier)
The Mystery of the Shape Parameter IV
- Author: Lin-Tian Luh
- Year: 2014
- Source: Engineering Analysis with Boundary Elements (Elsevier)
The Shape Parameter in the Gaussian Function II
- Author: Lin-Tian Luh
- Year: 2013
- Source: Engineering Analysis with Boundary Elements (Elsevier)
The Shape Parameter in the Gaussian Function
- Author: Lin-Tian Luh
- Year: 2012
- Source: Computers and Mathematics with Applications (Elsevier)
The Shape Parameter in the Shifted Surface Spline III
- Author: Lin-Tian Luh
- Year: 2012
- Source: Engineering Analysis with Boundary Elements (Elsevier)
Evenly Spaced Data Points and Radial Basis Functions
- Author: Lin-Tian Luh
- Year: 2011
- Source: WIT Transactions on Modelling and Simulation
The Crucial Constants in the Exponential-Type Error Estimates for Gaussian Interpolation
- Author: Lin-Tian Luh
- Year: 2008
- Source: Analysis in Theory and Applications
A Direct Prediction of the Shape Parameter in the Collocation Method of Solving Poisson Equation (Preprint)
- Author: Lin-Tian Luh
- Year: 2022
- Source: Multidisciplinary Digital Publishing Institute (MDPI Preprints)