laila taoufiq | Earthquake Engineering | Women Researcher Award

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Ms . laila taoufiq | Earthquake Engineering | Women Researcher Award

professor at ecole polytechnique d’agadir , Morocco

Dr. Laila Taoufiq is a highly capable and dedicated researcher in the field of materials physics, with a strong focus on sustainable construction and environmental engineering. Her work addresses pressing issues such as structural resilience, indoor air quality, and the recycling of industrial waste in building materials. With six peer-reviewed publications, including recent contributions on the 2023 Al Haouz earthquake and radioactivity in indoor environments, her research demonstrates both scientific relevance and societal impact. Dr. Taoufiq combines academic rigor with practical teaching across multiple engineering institutions, bringing valuable expertise in structural modeling and materials testing. While her international exposure and publication volume could be further developed, her contributions to applied research and education are commendable. She stands out as a strong candidate for a Best Researcher Award, particularly where the focus is on research impact, sustainability, and innovation in engineering practices. Her academic dedication and real-world focus merit formal recognition.

Professional Profile

Education🎓

Dr. Laila Taoufiq has a solid and multidisciplinary academic background in engineering and materials science. She earned her Doctorate in Materials Physics from the University Chouaib Doukkali, El Jadida, in 2018, where she conducted extensive research on the environmental and technical feasibility of recycling industrial waste, such as ash, in construction materials. Her doctoral thesis was awarded with high honors and jury congratulations. Prior to that, she completed her engineering degree in 2011 from the prestigious Ecole Nationale Supérieure des Mines de Rabat (ENIM), specializing in materials and structural engineering. Her academic journey began with a Master’s degree in Materials Science from the Faculty of Sciences and Technologies (FST) in Settat between 2005 and 2009. This well-rounded education has equipped her with both theoretical knowledge and practical skills in material behavior, structural analysis, and sustainable engineering, forming a strong foundation for her current research and teaching activities.

Professional Experience📝

Dr. Laila Taoufiq has accumulated extensive professional experience in both research and higher education. Since September 2022, she has been serving as a lecturer and researcher at the École Polytechnique d’Agadir, where she teaches key engineering subjects such as reinforced and prestressed concrete, structural analysis, and modeling using structural software like Robot. Her teaching approach is highly practical, incorporating lab work and applied mechanics. Prior to this, she held teaching positions at several respected institutions, including ENSA Agadir, ESEFA, and ENSAM Casablanca, where she led courses and laboratory sessions in construction materials, solid mechanics, and resistance of materials. Her hands-on teaching style involves conducting a wide range of technical experiments in concrete behavior, materials testing, and structural analysis. Dr. Taoufiq’s professional experience reflects a strong integration of academic knowledge and real-world application, making her a valuable contributor to engineering education and applied research in sustainable building practices.

Research Interest🔎

Dr. Laila Taoufiq’s research interests lie at the intersection of sustainable construction, environmental engineering, and materials science. She focuses on the reuse and valorization of industrial by-products, such as coal ash and bottom ash, in concrete manufacturing to promote eco-friendly and cost-effective construction solutions. Her work aims to reduce environmental impact while improving the mechanical and radiological properties of construction materials. She is also deeply engaged in structural safety research, as evidenced by her recent study on building failures during the 2023 Al Haouz earthquake. Additionally, Dr. Taoufiq investigates indoor air quality and natural radioactivity exposure in built environments, contributing to public health and safety. Her research combines experimental lab work, field assessments, and structural modeling to develop practical solutions for current engineering challenges. Through these interdisciplinary efforts, she strives to enhance building performance, environmental sustainability, and resilience, making her work highly relevant to modern civil and environmental engineering needs.

Award and Honor🏆

Dr. Laila Taoufiq has been recognized for her academic excellence and research contributions throughout her career. Most notably, she was awarded a Doctorate in Materials Physics with the highest distinction—“Très Honorable avec Félicitations du Jury”—by the University Chouaib Doukkali in 2018, a clear acknowledgment of the quality, relevance, and originality of her doctoral research. Her thesis on the technical and environmental feasibility of valorizing industrial ashes in construction materials earned praise for its innovative approach to sustainability in civil engineering. While no specific awards beyond her doctoral honors are listed, her consistent involvement in impactful research and her active teaching roles at prominent Moroccan engineering institutions demonstrate professional recognition and trust in her expertise. Dr. Taoufiq’s growing portfolio of peer-reviewed publications, particularly on high-impact topics such as earthquake resilience and indoor environmental health, further establishes her as a respected figure in her field and a deserving candidate for future academic and research honors.

Research Skill🔬

Dr. Laila Taoufiq possesses a diverse and well-developed set of research skills that span experimental work, data analysis, and applied engineering. She is highly skilled in the characterization of construction materials, particularly in assessing mechanical, environmental, and radiological properties. Her expertise includes designing and conducting laboratory experiments, such as concrete strength testing, adsorption of heavy metals, and evaluating the performance of recycled materials like coal ash in construction applications. Dr. Taoufiq is proficient in using analytical tools and structural modeling software, such as Autodesk Robot, for simulating and analyzing the behavior of concrete and steel structures under different loading conditions. Her research is grounded in real-world applications, often addressing critical challenges such as earthquake damage assessment, indoor air quality, and sustainable construction practices. She also demonstrates strong abilities in academic writing, data interpretation, and interdisciplinary collaboration, making her a capable and solution-oriented researcher in materials science and structural engineering.

Conclusion💡

Dr. Laila Taoufiq is a strong candidate for the Women Researcher Award, especially in contexts that emphasize research relevance, societal impact, sustainability, and interdisciplinary contributions. Her work is technically sound, environmentally significant, and aligned with global development goals. With greater international engagement and expanded publication output, she has the potential to emerge as a leading figure in her field. Her combination of academic excellence, teaching, and research makes her highly deserving of recognition under this award.

Publications Top Noted✍

  • Title: Structural failure of reinforced concrete buildings: The case of Al Haouz earthquake on 8 September 2023, Morocco

  • Authors:

    • L. Taoufiq, Laila

    • M. Chourak, Mimoun

    • E.M. Guendouli, El Mehdi

    • F.Z. Arrakhiz, Fatimaezzahra Z.

  • Journal: Structures (Published by Elsevier)

  • Year: 2025

  • Citation Format (APA Style):
    Taoufiq, L., Chourak, M., Guendouli, E. M., & Arrakhiz, F. Z. (2025). Structural failure of reinforced concrete buildings: The case of Al Haouz earthquake on 8 September 2023, Morocco. Structures. (Link not available)

 

Po-Chien Hsiao | Seismic Design of Steel Structures | Best Researcher Award

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Prof Po-Chien Hsiao | Seismic Design of Steel Structures | Best Researcher Award

Full Professor, National Taiwan University of Science and Technology, Taiwan

Po-Chien Hsiao, Ph.D., is a distinguished Professor in the Department of Civil and Construction Engineering at the National Taiwan University of Science and Technology (NTUST). With a Ph.D. in Civil and Environmental Engineering from the University of Washington, USA, he has made significant contributions to seismic engineering, steel structure design, and innovative structural systems. His research focuses on developing advanced seismic assessment methods, performance-based design, and large-scale structural testing. Dr. Hsiao has received numerous accolades for his research and teaching, including the NSTC Excellent Young Scholar Research Project Award and the Outstanding Research Award from NTUST. He is also recognized for his innovative teaching methods, particularly in problem-based learning (PBL) courses. Dr. Hsiao’s work has been widely published in top-tier journals, and he actively participates in international conferences, sharing his expertise in earthquake-resistant structural systems.

Professional Profile

Orcid

Scopus

Education 🎓

Dr. Hsiao earned his Ph.D. in Civil and Environmental Engineering from the University of Washington, USA, in 2012. Prior to that, he completed his M.S. (2004) and B.S. (2002) in Civil Engineering at National Taiwan University, Taiwan. His academic journey reflects a strong foundation in structural engineering, with a focus on seismic resilience and innovative construction techniques. His doctoral research at the University of Washington laid the groundwork for his expertise in seismic performance evaluation and advanced structural systems, which he has further developed throughout his career.

Experience 💼

Dr. Hsiao has held various academic and professional positions, including Assistant Professor at National Chung Hsing University (2016-2018) and Technical Director at Broad-Hand Enterprise Ltd. Co. (2014-2016). He also served as a JSPS Post-Doctoral Fellow at Kyoto University, Japan (2012-2014). Since 2018, he has been with NTUST, progressing from Assistant Professor to Associate Professor and now Professor. His roles have involved teaching, research, and leading projects on seismic engineering, structural testing, and performance-based design. Dr. Hsiao’s industry experience has enriched his academic work, bridging theoretical research with practical applications.

Awards and Honors 🏆

Dr. Hsiao has received numerous awards, including the NSTC Excellent Young Scholar Research Project Award (2024-2026), the MOST Excellent Young Scholar Research Project Award (2022-2023), and the Outstanding Research Award from NTUST (2023). He has also been recognized for his innovative teaching, winning the PBL Teaching Award multiple times. His research has earned him accolades such as the Best Paper Award at the SEEBUS 2021 International Conference and the 1st Place in the National College Student Practical Project Competition (2022). These honors highlight his contributions to both academia and the field of civil engineering.

Research Focus 🔍

Dr. Hsiao’s research focuses on seismic engineering, steel structure design, and innovative structural systems. He specializes in developing advanced seismic assessment methods, performance-based design, and large-scale structural testing. His work includes the development of naturally buckling braces, seismic strengthening methods for RC frames, and the use of ultra-high-performance concrete in structural systems. Dr. Hsiao’s research aims to enhance the resilience of structures against earthquakes, contributing to safer and more sustainable construction practices.

Publication Top Notes 📚

  1. Improved Cross-sectional Configuration and Strength-curve Estimations of Naturally Buckling Braces (2025)
  2. Hysteretic modelling and strength-envelope estimation models of concrete filled steel tubular members (2025)
  3. A novel seismic strengthening method for RC frames: Precast ultra-high performance concrete braces (2023)
  4. Shaking table test of multiple-type isolation control strategies for high-rise structure based on friction pendulum (2023)
  5. Development and testing of knife-plate connected steel panel dampers (2023)
  6. Seismic upgrading of existing RC frames with displacement-restraint cable bracing (2023)
  7. Seismic performance assessments of naturally buckling braced frame building structures (2023)
  8. Diploneis serrata (Bacillariophyceae): The use of structural mechanistic analysis to resolve morphological classification and molecular identification of a new record diatom species from Kenting, Taiwan (2022)
  9. Investigation of five different low-cost locally available isolation layer materials used in sliding base isolation systems (2022)
  10. An improved first-mode-based pushover analytical procedure for assessing seismic performance of special moment resisting frame building structures (2022)
  11. Experimental investigation on the seismic performance of cored moment resisting stub columns (2021)
  12. Numerical analysis of square concrete-filled double skin steel tubular columns with rubberized concrete (2021)
  13. The effects of cross-sectional shapes on the axial performance of concrete-filled steel tube columns (2021)
  14. Nonlinear analysis of square concrete-filled double-skin steel tubular columns under axial compression (2020)
  15. Effects of Far-Field and Near-Fault Cyclic Loadings on Seismic Performance of Naturally Buckling Braces in Pairs (2020)
  16. Hysteretic Behaviour of Composite Vertical Connection Structures used in Prefabricated Shear Wall Systems (2020)
  17. Development and Testing of Cored Moment Resisting Stub Column Dampers (2020)
  18. Slenderness Effects in Naturally Buckling Braces Under Seismic Loads (2020)
  19. Effects of Hysteretic Properties of Stud-type Dampers on Seismic Performance of Steel Moment Resisting Frame Buildings (2019)
  20. Gusset Plate Connections for Naturally Buckling Braces (2017)
  21. Development and Testing of Naturally Buckling Steel Braces (2016)
  22. Investigation of concrete-filled double-skin steel tubular columns with ultra-high-strength steel (2015)
  23. Seismic Vulnerability of Older Braced Frames (2014)
  24. A Model to Simulate Special Concentrically Braced Frames Beyond Brace Fracture (2013)
  25. Evaluation of the Response Modification Coefficient and Collapse Potential of SCBFs (2013)
  26. Improved Analytical Model for Special Concentrically Braced Frames (2012)
  27. Investigation of the Seismic Response of Multi-story Braced Frames (2012)
  28. Pseudo-Dynamic Tests of A Full-Scale CFT/BRBF Frame – Part 1: Specimen Design, Experiment and Analysis (2008)
  29. Pseudo-dynamic test of a full-scale CFT/BRBF frame – Part 2: Seismic Performance of Buckling-Restrained Braces and Connections (2008)

Conclusion 🌟

Dr. Po-Chien Hsiao is a leading figure in seismic engineering and structural design, with a career marked by groundbreaking research, innovative teaching, and numerous accolades. His work has significantly advanced the field of earthquake-resistant structures, contributing to safer and more resilient infrastructure. Through his publications, awards, and international collaborations, Dr. Hsiao continues to shape the future of civil engineering, inspiring both students and professionals worldwide.

 

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

  • 🌉 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
  • 📈 Effect of ground motion time-frequency non-stationarity on seismic response of high-speed railway simply supported bridges
  • 🚆 Energy response analysis and seismic isolation strategy optimization of high-speed railway bridge-track system under earthquake action
  • 🔄 An improved model for nonlinear simulation of high-speed vehicle-track-bridge coupling system under seismic shaking
  • 🏗️ Influence of pier height and ground motion parameters on seismic response and energy dissipation of isolated railway bridges
  • 🛠️ Experimental and numerical study on honeycomb T-beam bridge deck
  • 🔗 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
  • 🤖 Seismic response prediction and fragility assessment of high-speed railway bridges using machine learning technology

CONCLUSION 

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.

Izzettin Alhalil – seismic analysis and nonlinear modeling – Best Researcher Award

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Izzettin Alhalil - seismic analysis and nonlinear modeling - Best Researcher Award

Harran University - Turkey

AUTHOR PROFILE

GOOGLE SCHOLAR

IZZETTIN ALHALIL 👷‍♂️

Izzettin Alhalil is a dedicated Civil Engineer with a strong interest in the design and analysis of Reinforced Concrete (RC) structures. With a solid foundation in construction and management, he aims to enhance the efficiency and safety of building designs. His passion for engineering drives him to explore innovative approaches in structural analysis, making significant contributions to the field. Izzettin is committed to applying his expertise to create resilient infrastructure that meets modern demands.

RESEARCH INNOVATIONS 🔍

Izzettin's research focuses on advancing the predictive capabilities of RC building characteristics through machine learning applications. His ongoing study, “Advancements in Predicting Main Characteristics of RC Buildings,” explores state-of-the-art methodologies in structural engineering. By integrating novel databases and innovative analytical techniques, he aims to refine the design processes for RC structures. His work reflects a commitment to improving the reliability and performance of buildings in various environments.

COMPARATIVE ANALYSES 📊

His recent article, “Structural Response Comparison of Tall Buildings,” investigates the impact of twisting rates and core wall configurations on structural integrity. By analyzing different design variables, Izzettin seeks to provide insights into optimizing tall building designs. This comparative analysis contributes to the body of knowledge essential for engineers involved in high-rise construction, promoting safer and more efficient structural solutions.

MACHINE LEARNING APPLICATIONS 🧠

Izzettin's Ph.D. seminar emphasizes the applications of machine learning techniques in structural engineering. By harnessing advanced computational tools, he explores how machine learning can enhance predictive models in civil engineering. This focus on technology integration reflects his dedication to staying at the forefront of engineering advancements and ensuring that traditional practices evolve to meet contemporary challenges.

ACADEMIC COURSES & CERTIFICATES 🎓

To further enrich his expertise, Izzettin has completed various courses, including "Analytics for Decision Making" from the University of Minnesota and "Neural Networks and Deep Learning" from DeepLearningAI. These certifications showcase his commitment to continuous learning and adapting to the rapidly evolving field of engineering. Izzettin's diverse educational background equips him with the skills necessary to innovate in structural analysis and design.

CONFERENCES AND SEMINARS 🎤

Izzettin actively participates in international conferences, presenting his findings and sharing insights with fellow researchers and practitioners. His conference paper on “A Simple Method for Considering the Effect of Masonry Infill Walls” highlights his engagement with the academic community. Through these platforms, he not only disseminates knowledge but also collaborates with others to enhance the understanding of structural engineering challenges.

FUTURE GOALS & ASPIRATIONS 🌍

Looking ahead, Izzettin aspires to further explore the intersection of technology and structural engineering. He aims to contribute to the development of innovative solutions that address the complexities of modern construction. By combining his technical skills with his passion for research, Izzettin hopes to influence the future of civil engineering, ensuring that structures are not only safe and efficient but also sustainable.

NOTABLE PUBLICATION

Title: Investigating the Effect of Masonry Infill Walls on the 2D RC Structural Systems with Asymmetry along the Elevation
Authors: İ. Alhalil, M.F. Güllü
Year: 2021
Journal: Bitlis Eren University Journal of Science, 10(3), 1019-1039

Title: A Simple Method for Considering the Effect of Masonry Infill Walls on RC 2D Frame Systems
Authors: İ. Alhalil, M.F. Güllü
Year: 2021
Conference: The 10th International Scientific Research Congress - Science and Engineering

Title: Investigating Infill Wall Configurations on 3-D Structural Systems with a Generalized Modeling Approach
Authors: İ. Alhalil
Year: 2023
Journal: Arabian Journal for Science and Engineering, 48(8)

Title: Evaluation of RC Multi-Story Structural Systems Having Masonry Infill Walls with Irregular Configurations
Authors: İ. Alhalil
Year: 2022
Institution: Harran University

Title: Predicting Main Characteristics of Reinforced Concrete Buildings Using Machine Learning
Authors: İ. Alhalil, M.F. Güllü
Year: 2024
Journal: Buildings, 14(9), 2967