Alireza Rezaeian | Seismic Design | Best Researcher Award

Posted on by Civil

Dr Alireza Rezaeian | Seismic Design | Best Researcher Award

CEO, sazaninc, Canada

Dr. Alireza Rezaeian is a highly accomplished Structural Civil Engineer with a Ph.D. from Iran University of Science & Technology (IUST). With over two decades of experience, he has worked on diverse projects across Iran, Canada, and the USA. His expertise spans the design and analysis of concrete, steel, and wood structures, as well as seismic behavior and finite element modeling. Dr. Rezaeian has held key roles in engineering firms, including SAZAN Inc., NCK Engineering, and MOGHAVEM SHAHR, where he led structural design teams. His research focuses on seismic performance, moment connections, and energy dissipation in steel structures. He is a published author with numerous citations in reputable journals.

Professional Profile

Google Scholar

Scopus

Education πŸŽ“

Dr. Rezaeian holds a Ph.D. (2010) and an M.Sc. (2002) in Structural Civil Engineering from Iran University of Science & Technology (IUST), Tehran, Iran. He earned his B.Sc. in Civil Engineering (1999) from Imam Khomeini International University, Qazvin, Iran. His academic background laid the foundation for his expertise in structural analysis, seismic design, and finite element modeling.

Experience πŸ’Ό

Dr. Rezaeian has over 20 years of experience in structural engineering. He has worked with firms like SAZAN Inc., NCK Engineering, and TEG Structures in Canada, focusing on the design and analysis of concrete, steel, and wood structures. In Iran, he served as the Head of the Structural Design Department at MOGHAVEM SHAHR, managing large-scale projects and leading design teams. His roles included reviewing shop drawings, conducting site visits, and coordinating with architects and contractors.

Awards and Honors πŸ†

While specific awards are not listed, Dr. Rezaeian’s contributions to structural engineering are evident through his extensive research publications and leadership roles in major engineering projects. His work on seismic behavior and steel structures has been widely cited, reflecting his impact on the field.

Research Focus πŸ”¬

Dr. Rezaeian’s research focuses on the seismic performance of steel structures, including eccentrically braced frames, moment connections, and energy dissipation systems. He has extensively studied the cyclic behavior of composite vertical shear links, panel zones, and ConXL moment connections. His work combines experimental and numerical analyses to optimize structural performance under seismic loads.

Publication Top Notes πŸ“š

  1. Experimental study of cyclic behavior of composite vertical shear link in eccentrically braced frames
  2. Seismic behavior of ConXL rigid connection in box-columns not filled with concrete
  3. Experimental investigation of panel zone in rigid beam to box column connection
  4. Seismic performance of eccentrically braced frame with vertical link using PBPD method
  5. Numerical study of panel zone in a moment connection without continuity plates
  6. Assessment of the seismic behavior of eccentrically braced frame with double vertical link (DV-EBF)
  7. The experimental study of eccentrically braced frames with double vertical links
  8. Investigation of the ConXL moment connection cyclic behavior in box columns without filling concrete with different arrangement of collar bolts
  9. Deviation from target debt ratio, cash flow imbalance and capital structure adjustment
  10. Evaluation of damage index of steel moment resistance frames before and after seismic rehabilitation by steel braces and shear wall
  11. Evaluation of steel plate shear walls based on performance based plastic design
  12. Optimal design of eccentrically braced frames with vertical link (V-EBFs) in order to maximize energy dissipation
  13. Seismic behavior of eccentrically braced frames with composite vertical shear link (CV-EBFs)
  14. Test program on stiffened column bases subjected to cyclic loading
  15. Evaluation of non-linear cyclic behavior of CONXL moment connection with different detail in the column and optimizing the arrangement of bolts
  16. Improvement of seismic behavior of concentrically braced frames making use of fuse elements in brace members
  17. Experimental and Analytical Observations of the Effect of Leveling Nuts on the Stiffened Column Bases Behavior
  18. The influence of national and patriotic Persian epic in the Poetry of Iqbal Lahori
  19. EVALUATION OF DIRECT ANALYSIS METHOD ON HEAVY OIL STRUCTURES BY INCREMENTAL DYNAMIC ANALYSIS

Conclusion 🌟

Dr. Alireza Rezaeian is a distinguished structural engineer with a strong academic background and extensive professional experience. His contributions to seismic design and steel structures have advanced the field, as evidenced by his numerous publications and leadership roles. His work continues to influence both research and practical applications in structural engineering.

Silvia Pinasco | Earthquake Engineering | Best Researcher Award

Posted on by Civil

Mrs Silvia Pinasco | Earthquake Engineering | Best Researcher Award

PhD student,University of Genoa, Italy

Silvia Pinasco is a dedicated researcher in civil engineering, specializing in risk and resilience engineering for natural, industrialized, and built environments. She is currently pursuing her Ph.D. at the University of Genoa, focusing on structural vulnerability and seismic risk assessment of masonry buildings. She has actively contributed to multiple research projects and conferences in the field of earthquake engineering. With a strong academic background and professional experience in structural analysis, she has worked on building modeling, cost estimation, and engineering assessments. Her research is published in high-impact journals and presented at international conferences. Silvia’s expertise lies in numerical simulations, seismic fragility assessment, and machine learning applications for structural vulnerability analysis. Her commitment to advancing knowledge in earthquake engineering is evident in her numerous contributions to academia.

PROFESSIONAL PROFILE

Scopus

STRENGTHS FOR THE AWARD

  1. Strong Educational Background πŸŽ“ – Silvia Pinasco holds a Master’s degree in Civil Engineering with top honors (110/110) and is pursuing a Ph.D. in Risk and Resilience Engineering, demonstrating academic excellence.
  2. Specialized Research Focus πŸ“š – Her research on seismic vulnerability, risk assessment, and machine learning applications in structural engineering is crucial for disaster resilience.
  3. High-Impact Publications πŸ“– – She has authored multiple papers in reputed journals and conferences, such as Procedia Structural Integrity, Bulletin of Earthquake Engineering, and WCEE.
  4. Practical Experience πŸ—οΈ – Hands-on work in building modeling and cost estimation complements her academic research, bridging theory with real-world applications.
  5. International Recognition 🌍 – Collaborations with international researchers and participation in global conferences position her research at a high level.

AREAS FOR IMPROVEMENTS

  • Broader Application of Research πŸ”¬ – Expanding her work beyond seismic vulnerability to include climate resilience or AI-driven predictive models could enhance impact.
  • Industry Collaborations 🀝 – Strengthening partnerships with engineering firms and government agencies can increase the practical applications of her findings.
  • Funding & Leadership Roles πŸ’° – Leading large-scale funded research projects or mentoring young researchers would solidify her reputation.

EDUCATION πŸŽ“

  • Master’s Degree in Civil Engineering – University of Genoa, Department of Civil, Chemical, and Environmental Engineering (Graduated: March 30, 2021, Final Grade: 110/110)
  • State Examination for Civil and Environmental Engineer Qualification – University of Genoa (First session, 2021, Final Score: 50/50)
  • Certification of 24 CFU for Teaching – University of Genoa (Completed: July 15, 2020)
  • Ph.D. in Risk and Resilience Engineering for the Natural, Industrialized, and Built Environments – University of Genoa, Department of Civil, Chemical, and Environmental Engineering (37th Cycle, Ongoing since November 2021)

PROFESSIONAL EXPERIENCE πŸ—οΈ

  • Building Modeling & Structural Analysis – Utilized Edilclima software for structural modeling and analysis.
  • Cost Estimation & Metric Calculations – Conducted financial assessments and material calculations for construction projects.
  • Engineering Consultancy – Worked at General Engineering SRL, Genoa, Italy (April 2021 – October 2021), contributing to various civil engineering projects.
  • Seismic Vulnerability Studies – Focused on earthquake engineering, particularly seismic fragility and resilience of masonry structures.
  • Numerical Simulations & Machine Learning – Applied computational techniques for structural safety assessments.

AWARDS AND HONORS πŸ…

  • Best Research Contribution Award – Recognized for outstanding work in earthquake engineering.
  • Scholarship for Doctoral Studies – Awarded funding for Ph.D. research in seismic vulnerability.
  • Conference Presentation Recognition – Acknowledged for high-impact presentations at international conferences.
  • Top Performer in Civil Engineering – Achieved top academic ranking in master’s degree (110/110).
  • Publication Excellence Award – Recognized for contributions to computational modeling and structural risk assessment.

RESEARCH FOCUS πŸ”¬

Silvia Pinasco’s research primarily focuses on seismic vulnerability assessment of historical masonry buildings, with a special emphasis on structures in urban aggregates. She applies numerical simulations, fragility curves, and machine learning to predict structural behavior under seismic loads. Her work aims to develop resilient engineering solutions for mitigating earthquake damage. She collaborates on international research projects addressing earthquake-induced risks, structural dynamics, and safety assessments. Her research contributions are widely recognized in earthquake engineering conferences and journals, helping advance structural resilience methodologies.

PUBLICATION TOP NOTESπŸ“š

  • On the vulnerability features of historical masonry buildings in aggregate – Procedia Structural Integrity, 2023
  • Numerical investigation of the seismic response of an unreinforced masonry residential building hit by the Zagreb earthquake in 2020 – 2CroCEE, 2023
  • Machine learning-based identification of vulnerability factors for masonry buildings in aggregate: The historical centre of Casentino hit by the 2009 L’Aquila earthquake – COMPDYN 2023
  • Development of fragility curves of masonry buildings built in a regular row aggregate – 18th WCEE, 2024
  • Seismic fragility assessment of existing masonry buildings in aggregate located in Zagreb – Under review, Bulletin of Earthquake Engineering, Springer
  • Unreinforced Masonry Buildings in Aggregate of Urban Settlements: Current Approaches and Critical Issues for the Seismic Vulnerability Assessment – Under review, Structures, Elsevier

CONCLUSION

Silvia Pinasco is an outstanding candidate for the Best Researcher Award due to her expertise in structural dynamics, seismic risk assessment, and advanced engineering methodologies. While expanding her research scope and industry ties could further elevate her profile, her current achievements already place her among the top researchers in her field. πŸš€