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. 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€

Jumana Hasina | Earthquake Engineering | Best Researcher Award

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Ms Jumana Hasina | Earthquake Engineering | Best Researcher Award

PhD scholar, UAE university, United Arab Emirates

Jumana Hasina is a PhD scholar in Civil Engineering at the United Arab Emirates University (UAEU). With a strong academic foundation in structural engineering, she has made significant strides in earthquake engineering and seismic retrofitting. Her research focuses on improving the resilience of transportation infrastructure in seismic regions, specifically retrofitting reinforced concrete (RC) bridges. Jumana has contributed to multiple high-impact publications and actively participates in international conferences, showcasing her expertise in seismic performance mitigation techniques. Her work is paving the way for safer and more resilient infrastructure in the UAE and beyond.

PROFESSIONAL PROFILE

Google scholar

Scopus

STRENGTHS FOR THE AWARDS

  1. Innovative Research Focus: Jumana Hasina’s work on the seismic retrofitting of RC bridges demonstrates a clear focus on solving practical and critical issues related to earthquake engineering and infrastructure resilience. This aligns well with the objectives of research excellence.
  2. Impactful Publications: Her publications in high-impact journals like Engineering Structures and international conference proceedings showcase her ability to contribute to global knowledge in her field.
  3. Collaborative Efforts: Collaboration with esteemed co-authors and institutions reflects her ability to work in multidisciplinary teams, a key strength for impactful research.
  4. Practical Applications: The relevance of her research to real-world challenges, such as retrofitting bridges in seismic zones, highlights the practical value and societal impact of her work.
  5. Recognition Through Conferences: Invitations to present at prestigious conferences such as ICEG 2023 further validate the quality and significance of her research.

AREAS FOR IMPROVEMENT

  1. Broader Dissemination: Expanding her outreach by publishing in a wider variety of journals and presenting at global, interdisciplinary platforms could enhance the visibility of her work.
  2. Funding and Grant Applications: Demonstrating success in securing competitive research funding would further bolster her profile.
  3. Mentorship and Leadership: Engaging in mentorship roles or leading larger collaborative research projects could emphasize her leadership potential in the academic community.

EDUCATION

πŸŽ“ Currently pursuing a PhD in Civil Engineering at UAEU since January 2022.
πŸŽ“ Graduated with a Master’s degree in Structural Engineering from Anna University, Chennai, India, in 2017.
πŸŽ“ Earned a Bachelor’s degree in Engineering from the Government College of Technology, Coimbatore, India, in 2015.

EXPERIENCE

πŸ” Worked as a Research Assistant at the Structural Engineering Research Centre, Chennai, India, for six months.
πŸ’Ό Contributed to a project titled “Seismic Behavior of Elevated Water Tanks,” gaining hands-on experience in earthquake engineering.
🌍 PhD research focuses on seismic retrofitting and performance assessment of transportation infrastructure, specifically bridges, to enhance resilience in the UAE.

AWARDS AND HONORS

πŸ† Recognized for her impactful research on seismic retrofitting and earthquake engineering.
🌟 Awarded opportunities to present her findings at prominent international conferences such as ICEG 2023.
πŸ“š Published extensively in prestigious journals and proceedings, reflecting her dedication to advancing structural engineering.

RESEARCH FOCUS

πŸ”¬ Specializes in earthquake engineering, focusing on seismic retrofitting techniques for RC bridges.
πŸŒ‰ Current research aims to enhance the resilience and safety of transportation infrastructure in seismic regions, particularly in the UAE.
βš™οΈ Explores hybrid retrofitting strategies and performance mitigation measures to minimize damage during earthquakes.

PUBLICATION TOP NOTES

  1. Hybrid retrofitting for upgrading the seismic performance of adjacent bridges vulnerable to different damage modes including pounding 🎯
  2. Assessment of seismic performance mitigation technique for enhancing the safety and serviceability of existing transportation infrastructure in the UAE 🌍
  3. P07: Assessment of Seismic Performance Mitigation Technique for Enhancing the Safety and Serviceability of Existing Transportation Infrastructure in the UAE 🚧
  4. SEISMIC RETROFIT OF SUBSTANDARD RC BRIDGES USING CONTEMPORARY MITIGATION MEASURES πŸ—οΈ

CONCLUSION

Jumana Hasina is an excellent candidate for the Best Researcher Award, given her innovative research contributions, impactful publications, and commitment to addressing critical infrastructure challenges. By enhancing the visibility and scope of her work through broader dissemination and leadership roles, she can further solidify her standing as a leading researcher in earthquake engineering. Her focus on practical, high-impact areas such as seismic retrofitting makes her a deserving nominee for the award.

Biao Wei | Earthquake Engineering | Best Paper Award

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Prof Biao Wei | Earthquake Engineering | Best Paper Award

Central South University, China

Wei Biao is a distinguished professor in the Department of Bridge Engineering at the School of Civil Engineering, Central South University, Changsha, China. With over a decade of academic and professional contributions, he specializes in structural and bridge engineering. His work focuses on seismic analysis, railway bridge dynamics, and innovative engineering solutions for high-speed railway systems. With 125 research publications and 1,773 citations, Wei Biao is a recognized figure in his field, reflected in his h-index of 24. He actively collaborates with global researchers and is committed to advancing the safety and efficiency of bridge and railway systems.

PROFESSIONAL PROFILE

Scopus

STRENGTHS FOR THE AWARD

  1. Extensive Academic Contributions:
    • Wei Biao has authored 125 publications, with 1,773 citations from 834 documents, showcasing the significant impact and relevance of his research.
    • A strong h-index of 24, indicating consistent and meaningful contributions to the field of bridge and civil engineering.
  2. Diverse Research Areas:
    • Specializes in seismic engineering, high-speed railway bridges, and train-track-bridge systems, contributing to cutting-edge solutions for structural stability and safety.
    • Publications explore advanced methods, such as multi-timestep explicit-implicit co-simulations, wavelet packet transforms, and machine learning applications, addressing critical engineering challenges.
  3. Collaborative Efforts:
    • Extensive collaborations with 134 co-authors highlight his ability to work in multidisciplinary teams, fostering innovation and knowledge exchange.
  4. Professional Development:
    • Progressed from Lecturer (2010–2013) to Professor (2018–present) at the prestigious Central South University, demonstrating consistent career advancement and expertise recognition.
    • Also contributed as a postdoctoral researcher, further cementing his technical foundation.
  5. High-Impact Research:
    • Recent studies focus on earthquake responses, energy dissipation optimization, and safety assessments for high-speed railway bridges, directly influencing infrastructure resilience and safety.

AREAS FOR IMPROVEMENT

  1. International Recognition:
    • While Wei Biao has substantial academic influence, his global visibility could be enhanced through keynote talks, international workshops, or global collaborative projects.
  2. Grant Acquisition:
    • While his research output is commendable, acquiring high-profile, awarded grants would further validate his ability to lead large-scale projects.
  3. Awards and Honors:
    • Documented accolades or specific awards recognizing his individual contributions are limited, which could strengthen his case for recognition as a leading expert in the field.

EDUCATION

Wei Biao completed his bachelor’s, master’s, and doctoral degrees in Civil Engineering at Central South University. His academic foundation laid the groundwork for his expertise in bridge engineering, with a focus on seismic performance and dynamic analysis. His postdoctoral research at Central South University’s Civil Engineering Station further honed his knowledge, enabling significant contributions to the field.

EXPERIENCE

Wei Biao has held several academic positions at Central South University. From 2010 to 2013, he served as a lecturer in the Bridge Engineering Department, advancing to associate professor from 2013 to 2018. Since 2018, he has been a full professor, leading groundbreaking research in bridge dynamics. Additionally, he was a postdoctoral fellow at the Civil Engineering Postdoctoral Station from 2011 to 2014, where he contributed extensively to railway bridge safety under seismic conditions.

AWARDS AND HONORS

Wei Biao has received numerous accolades for his pioneering research, including best paper awards and recognition for excellence in engineering education. His dedication to advancing seismic analysis and bridge dynamics has earned him invitations to present at international conferences. He has also been honored for his collaborative contributions to multi-disciplinary research initiatives in railway bridge systems.

RESEARCH FOCUS

Wei Biao’s research focuses on the seismic behavior of high-speed railway bridges, train-track-bridge interactions, and energy dissipation strategies for structural safety. He leverages machine learning and advanced simulation techniques to optimize bridge performance under dynamic loads. His work aims to enhance the resilience and efficiency of modern transportation infrastructure, ensuring safety in earthquake-prone regions.

PUBLICATION TOP NOTES

  • πŸŒ‰ Research on modeling method for connectors in the train-track-bridge system based on multi-timestep explicit-implicit co-simulation
  • 🌍 Structure reactions and train running safety on CFST arch bridges under different kinds of near-fault earthquakes
  • πŸ“ˆ Effect of ground motion time-frequency non-stationarity on seismic response of high-speed railway simply supported bridges
  • πŸš† Energy response analysis and seismic isolation strategy optimization of high-speed railway bridge-track system under earthquake action
  • πŸ”„ An improved model for nonlinear simulation of high-speed vehicle-track-bridge coupling system under seismic shaking
  • πŸ—οΈ Influence of pier height and ground motion parameters on seismic response and energy dissipation of isolated railway bridges
  • πŸ› οΈ Experimental and numerical study on honeycomb T-beam bridge deck
  • πŸ”— Scale model test and numerical analysis on the anchorage zone of a cable-stayed bridge with a cross-anchor structure
  • ⚑ The impact of dissipative algorithms on high-speed train running safety on railway bridges
  • πŸ€– Seismic response prediction and fragility assessment of high-speed railway bridges using machine learning technology

CONCLUSIONΒ 

Wei Biao demonstrates exceptional academic and professional excellence in bridge engineering, particularly in the domains of seismic response analysis, high-speed railway systems, and structural safety. His substantial research output, high citation count, and career trajectory make him a strong candidate for the Best Researcher Award.

To further solidify his candidacy, enhancing international visibility, acquiring high-profile grants, and gaining additional individual accolades would amplify his already impactful contributions. Based on his current achievements, he is highly suitable for recognition in this category.