Silvia Pinasco | Earthquake Engineering | Best Researcher Award

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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. Silviaโ€™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 ๐ŸŽ“ โ€“ Silvia Pinasco holds a Masterโ€™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 ๐Ÿ“š โ€“ Her research on seismic vulnerability, risk assessment, and machine learning applications in structural engineering is crucial for disaster resilience.
  3. High-Impact Publications ๐Ÿ“– โ€“ She has authored multiple papers in reputed journals and conferences, such as Procedia Structural Integrity, Bulletin of Earthquake Engineering, and WCEE.
  4. Practical Experience ๐Ÿ—๏ธ โ€“ Hands-on work in building modeling and cost estimation complements her academic research, bridging theory with real-world applications.
  5. International Recognition ๐ŸŒ โ€“ Collaborations with international researchers and participation in global conferences position her research at a high level.

AREAS FOR IMPROVEMENTS

  • Broader Application of Research ๐Ÿ”ฌ โ€“ Expanding her work beyond seismic vulnerability to include climate resilience or AI-driven predictive models could enhance impact.
  • Industry Collaborations ๐Ÿค โ€“ Strengthening partnerships with engineering firms and government agencies can increase the practical applications of her findings.
  • Funding & Leadership Roles ๐Ÿ’ฐ โ€“ Leading large-scale funded research projects or mentoring young researchers would solidify her reputation.

EDUCATION ๐ŸŽ“

  • Master’s Degree in Civil Engineering โ€“ 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 โ€“ University of Genoa (First session, 2021, Final Score: 50/50)
  • Certification of 24 CFU for Teaching โ€“ University of Genoa (Completed: July 15, 2020)
  • Ph.D. in Risk and Resilience Engineering for the Natural, Industrialized, and Built Environments โ€“ University of Genoa, Department of Civil, Chemical, and Environmental Engineering (37th Cycle, Ongoing since November 2021)

PROFESSIONAL EXPERIENCE ๐Ÿ—๏ธ

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

AWARDS AND HONORS ๐Ÿ…

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

RESEARCH FOCUS ๐Ÿ”ฌ

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 NOTES๐Ÿ“š

  • On the vulnerability features of historical masonry buildings in aggregate โ€“ Procedia Structural Integrity, 2023
  • Numerical investigation of the seismic response of an unreinforced masonry residential building hit by the Zagreb earthquake in 2020 โ€“ 2CroCEE, 2023
  • Machine learning-based identification of vulnerability factors for masonry buildings in aggregate: The historical centre of Casentino hit by the 2009 Lโ€™Aquila earthquake โ€“ COMPDYN 2023
  • Development of fragility curves of masonry buildings built in a regular row aggregate โ€“ 18th WCEE, 2024
  • Seismic fragility assessment of existing masonry buildings in aggregate located in Zagreb โ€“ 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 โ€“ 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. ๐Ÿš€

IรLYSSON DA SILVA MEDEIROS – Dynamics of structures – Best Researcher Award

Published on by Civil

IรLYSSON DA SILVA MEDEIROS - Dynamics of structures - Best Researcher Award

Federal University of Pernambuco - Brazil

AUTHOR PROFILE

GOOGLE SCHOLAR

EDUCATION AND ACADEMIC ACHIEVEMENTS

Iรกlysson da Silva Medeiros is a Civil Engineering professional with a robust academic background and extensive research experience. He completed his Master's degree in Civil and Environmental Engineering at the Federal University of Pernambuco (UFPE) in 2023, specializing in Reinforced Concrete Structures at Faculdade รšnica de Ipatinga (FUNIP) in 2021, following his Bachelor's degree in Civil Engineering from UFPE in 2019. His academic journey includes international exposure through a mission at the Faculty of Engineering, University of Porto (FEUP), Portugal.

EXPERIENCE AND PROFESSIONAL CONTRIBUTIONS

Throughout his career, Iรกlysson has made significant contributions to Structural Engineering, focusing on research areas such as concrete and steel structures, structural dynamics, and soil-structure interaction. He excelled in the Simplified Public Selection for Substitute Professor at UFPE in 2021, teaching in both Civil Engineering and Production Engineering programs. His research projects have centered on innovative topics like vibration control of steel towers for wind turbines and geotechnical studies of foundation systems.

RESEARCH & DEVELOPMENT, INNOVATIONS, AND EXTENSION ACTIVITIES

In the realm of Research & Development, Iรกlysson has led diverse projects from inception to implementation, ensuring scientific rigor and technical precision in drafting and revising papers. He has supervised research teams, managed projects effectively, and applied advanced methodologies to investigate structural behaviors under varying loads. His work aims to bridge knowledge gaps in Structural Engineering, contributing to practical advancements that enhance structural safety, efficiency, and sustainability globally.

NOTABLE PUBLICATIONS

Influรชncia da interaรงรฃo solo-estrutura no comportamento do conjunto torre-fundaรงรฃo de aerogeradores de eixo horizontal 2023.

Avaliaรงรฃo dos impactos das precipitaรงรตes pluviomรฉtricas na manutenรงรฃo da rede de esgotamento sanitรกrio no Municรญpio de Caruaru, Agreste de Pernambuco. 2022 (1)

Avaliaรงรฃo da significรขncia entre mรฉdias de recalques medidos nos pilares de um reservatรณrio atravรฉs de mรฉtodos estatรญsticos 2022

Elaboraรงรฃo dos mapas de suscetibilidade dos solos de Pombos (PE) aplicando o geoprocessamento com software QGIS 2021

Soluรงรฃo estrutural de galpรฃo em aรงo 2022 (4)

Hao Zhou – Structural Dynamics – Best Researcher Award

Published on by Civil

Hao Zhou - Structural Dynamics - Best Researcher Award

Beijing Institute of Technology - China

AUTHOR PROFILE

Scopus

ACADEMIC BACKGROUND ๐ŸŽ“

Hao Zhou is a distinguished scholar in the field of mechanics and civil engineering, currently pursuing his Ph.D. in Mechanics at the School of Mechatronical Engineering at Beijing Institute of Technology, Beijing, China (September 2020 โ€“ June 2024). He holds a Master of Science in Civil Engineering from the School of Civil Engineering and Architecture at Southwest University of Science and Technology, Sichuan, China (September 2017 โ€“ June 2020), and a Bachelor of Science in Civil Engineering from the School of Architectural Engineering at Weifang University of Science and Technology, Shandong, China (September 2013 โ€“ June 2017).

RESEARCH EXPERIENCES ๐Ÿ”ฌ

Hao Zhou has conducted extensive research in various areas of mechanics and civil engineering. His work includes the development of dynamic stiffness modeling and solving methods for element-module-structure across different scales, from macro-scale mechanical structures to micro/nano-scale MEMS devices. His innovative approach has enabled dynamic analysis with high solution accuracy and efficiency. Additionally, he has made significant contributions to the field of fiber-reinforced composite materials (FRP), focusing on their application in aerospace, civil engineering, and mechanical bridges.

KEY TECHNOLOGIES FOR FRP MATERIALS ๐Ÿ—๏ธ

Zhou's research on high-performance fiber-reinforced composite materials (FRP) addresses critical issues in developing new FRP materials and structural components. His work includes the design and mechanical performance prediction of FRP concrete, FRP-steel, and cementitious composites (ECC). He has also developed key technologies for FRP bar connections, including adhesive-bolt hybrid joints, enhancing the bending performance and stability of FRP-steel beams and FRP bar-reinforced concrete beams.

DYNAMIC STIFFNESS MODELING AND SOLVING METHODS ๐Ÿ”ง

In his Ph.D. research, Hao Zhou has proposed a unified dynamic stiffness model that integrates various beam theories, significantly enhancing the efficiency of dynamic solving. His methods, including FEM (finite element method)-DSM (dynamic stiffness method)-TMM (transfer matrix method) hybrid methods, have been successfully applied to analyze complex structures like irregular beam elements and rigid body-beam modules, contributing to advancements in precision positioning platforms and robotic arms.

AWARDS AND RECOGNITION ๐Ÿ…

Hao Zhou's outstanding research and academic performance have earned him numerous awards and scholarships. He has received Graduate Academic Scholarships from the Beijing Institute of Technology and the China Academy of Engineering Physics multiple times. His exceptional presentations and papers have been recognized at various academic conferences, including the 1st and 2nd Academic Conferences of the China Academy of Engineering Physics and the iCANX Science Conference Xi'an Summit.

RESEARCH INTERESTS AND SKILLS ๐Ÿ”

Hao Zhou's research interests encompass mechanics in compliant mechanisms, mechanical metamaterials, robotics, and MEMS. He focuses on improving dynamic modeling theories and solution methods and fostering interdisciplinary collaboration. His technical skills include programming and data analytics with Matlab and Origin, and proficiency in modeling and analysis tools such as AutoCAD, Abaqus, and Comsol. He is fluent in Chinese and English.

KEY TECHNOLOGIES FOR FIBER REINFORCED COMPOSITE MATERIALS AND NEW STRUCTURES๐Ÿ—๏ธ

Zhou has also delved into the development of high-performance fiber reinforced composite materials (FRP) used in aerospace, mechanical bridges, and civil engineering. His research addresses critical issues in new FRP materials, structural components, and component connections. Notable works include the design of new FRP building materials, key technologies for FRP bar connections, and design methods based on safety margins for FRP bar reinforced concrete structures.

PERSONAL INTERESTS AND HOBBIES ๐ŸŽ‰๐Ÿ“

Outside of his academic and research pursuits, Hao Zhou enjoys table tennis, billiards, watching movies, and exploring the history of different countries. He is also skilled in traditional Chinese activities like dragon dance and walking on stilts, showcasing his diverse interests and talents.

NOTABLE PUBLICATION

Achieve the effective connection of FRP bars by blocking resistance and adhesive Force: Adhesive-Bolt hybrid joint 2022 (3)

Experimental Study and Analysis on Compressive and Tensile Behavior of Basalt Fibre Reinforced Concrete 2020

Experimental Study on Basic Mechanical Properties of Basalt Fiber Reinforced Concrete 2020 (99)