Geoffrey Rothwell | Construction Management | Best Researcher Award

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Dr. Geoffrey Rothwell | Construction Management | Best Researcher Award

 Stanford University – United States

AUTHOR PROFILE

Summary

Dr. Geoffrey Rothwell combines rigorous scholarship with demonstrable real‑world impact. Over four decades, he has shaped how governments and industry understand nuclear‑project cost risk and market competition. His record checks every box the Best Researcher Award typically values—productivity, originality, funding success, and societal benefit. Minor enhancements in methodological breadth and fresh competitive recognitions would make an already strong dossier virtually unassailable.

🎓 Education

Dr. Rothwell’s academic journey is both diverse and distinguished. He earned his Ph.D. in Economics from the University of California, Berkeley in August 1985, with a dissertation on Electric Utility Power Plant Choice under Investment Regulation under the guidance of Professor Richard Gilbert. He also holds an M.A. in Jurisprudence and Social Policy (1984) and an M.A. in Economics (1981) from UC Berkeley. He was a Post-Doctoral Fellow at the California Institute of Technology from 1985 to 1986 and a Visiting Doctoral Student in Engineering Economic Systems at Stanford University (1982–1983). His undergraduate degree, a B.A. in Political Economy, was awarded by The Evergreen State College in 1975. Additionally, his early education includes studies in France (Université de Nice and Lycée François Premier) and the U.S. (Hanford High School).

🧠 Experience and Skills

Dr. Rothwell has held a wide range of influential academic, advisory, and consulting roles. Notably, he was Principal Economist at the OECD’s Nuclear Energy Agency (2013–2018), and Chief Consulting Economist at Turner|Harris in the UK (2018–2021). He has consulted for leading organizations such as Google, Woodruff Scientific, and Longenecker & Associates. He has also managed multimillion-dollar research grants from the NSF and DOE, serving as Principal Investigator and Co-Principal Investigator on several energy-related research projects. His areas of expertise include nuclear economics, cost estimation, investment analysis, energy policy, and technology assessment.

🔬 Research Focus

Dr. Rothwell’s research concentrates on the economics of nuclear energy, including power plant cost estimation, fuel cycle sustainability, and nuclear market competition. He is a leading voice on contingency and cost escalation in nuclear remediation and decommissioning, and has published widely on international nuclear policy, uranium enrichment markets, and regulatory economics. His work integrates applied microeconomics, real options analysis, and industrial organization to address critical issues in energy infrastructure and public policy.

🏆 Awards and Honors

Dr. Rothwell’s contributions have been recognized through various accolades. He was featured in “Titans of Nuclear” (Energy Impact, 2018), and his graduate work won the Western Economics Association’s Graduate Student Paper Competition in 1984. As a high school student, he was selected as an AFS foreign exchange scholar to France (1971–1972).

👨‍🏫 Teaching and Academic Leadership

With over three decades of teaching experience, Dr. Rothwell has made significant contributions to higher education. At Stanford University (1996–2012), he was a Senior Lecturer in Economics and Public Policy, Director of Honors Programs, and Associate Director of the Public Policy Program. He taught a wide array of undergraduate and graduate courses, ranging from econometrics and macroeconomic analysis to energy economics and regulation. He also served as a Visiting Professor at EPFL in Switzerland and taught at UC Berkeley, UC Santa Cruz, and the New Economics School in Moscow.

📚 Selected Publications of Dr. Geoffrey Rothwell

Title: Electricity Economics
Author(s): G. Rothwell, T. Gomez
Year: 2003

Title: A Real Options Approach to Evaluating New Nuclear Power Plants
Author(s): G. Rothwell
Year: 2006

Title: A Comparative Institutional Analysis of the Fukushima Nuclear Disaster: Lessons and Policy Implications
Author(s): M. Aoki, G. Rothwell
Year: 2013

Title: Standardization, Diversity and Learning: Strategies for the Coevolution of Technology and Industrial Capacity
Author(s): P.A. David, G.S. Rothwell
Year: 1996

Title: On the Optimal Lifetime of Nuclear Power Plants
Author(s): G. Rothwell, J. Rust
Year: 1997

Title: Economics of Nuclear Power
Author(s): G.S. Rothwell
Year: 2016

Title: Optimal Response to a Shift in Regulatory Regime: The Case of the US Nuclear Power Industry
Author(s): J. Rust, G. Rothwell
Year: 1995

Title: Subsidy to Nuclear Power Through Price-Anderson Liability Limit
Author(s): J.A. Dubin, G.S. Rothwell
Year: 1990

Title: Subsidy to Nuclear Power Through Liability Limits
Author(s): J.A. Dubin, G.S. Rothwell
Year: 1990

Title: Market Power in Uranium Enrichment
Author(s): G. Rothwell
Year: 2009

✅ Conclusion

Given his seminal contributions to nuclear‑energy economics, breadth of policy influence, and ongoing publication momentum, Dr. Rothwell is highly suitable—indeed, a standout candidate—for the Best Researcher Award. Addressing the noted improvement areas will further amplify the long‑term legacy of his work, but they in no way diminish his present qualification for top honors.

Nikola Vavřínová | Low-carbon Wooden Building | Young Scientist Award

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Ms. Nikola Vavřínová | Low-carbon Wooden Building | Young Scientist Award

Academician at VSB-TU Ostrava, Czech Republic

Dr. Nikola Vavřínová, a dedicated academic and researcher in Civil Engineering, is highly eligible for the Young Scientist Award. At 32 years old, she has already made significant contributions to sustainable construction, particularly in the development and thermal analysis of composite materials and energy-efficient building systems. Her active role as academic staff at VSB – Technical University of Ostrava, along with leadership in multiple funded research projects, demonstrates her strong scientific potential. She has published extensively in international journals and presented at global conferences. In addition to research, she has shown excellence in teaching and mentoring students in both Czech and English. Her accolades, including awards from the dean and city scholarships, highlight her recognized achievements. With advanced technical skills and a growing international research presence, Dr. Vavřínová stands out as a promising young scientist whose work aligns with contemporary challenges in sustainable engineering. She is a deserving candidate for this prestigious award.

Professional Profile

Education🎓

Dr. Nikola Vavřínová has pursued a focused and progressive academic path in the field of Civil Engineering at VSB – Technical University of Ostrava. She began her higher education with a Bachelor’s degree (2012–2016) in Construction Preparation and Implementation, followed by a Master’s degree (2016–2018) in Industrial and Building Construction. She further advanced her expertise by completing a Ph.D. (2018–2024) in the Theory of Constructions, demonstrating a strong commitment to deepening her knowledge and research skills in structural engineering and sustainable building practices. Prior to her university education, she laid a solid foundation at the Secondary Technical School of Construction in Valašské Meziříčí (2008–2012), specializing in Civil Engineering. Her academic journey reflects both consistency and dedication to the built environment, enabling her to gain comprehensive knowledge from practical construction principles to advanced theoretical and research-based approaches. This educational background has well-equipped her for her current academic and research roles.

Professional Experience📝

Dr. Nikola Vavřínová has built a solid professional career centered on academia and practical experience in the construction industry. Since January 2021, she has served as academic staff at the Department of Building Construction, VSB – Technical University of Ostrava, where she is actively involved in teaching, supervising theses, and conducting research in sustainable construction and building technologies. Her role includes delivering lectures in both Czech and English, covering topics such as Building Information Modeling (BIM), building failures, industrial construction, and project design. Prior to this, from May 2016 to February 2018, she worked as a designer in the construction industry at the university’s Research Energy Center, where she gained hands-on experience in practical design and technical solutions. This combination of academic and industry experience has provided her with a well-rounded perspective, enabling her to contribute effectively to both educational and research advancements in civil engineering and energy-efficient building systems.

Research Interest🔎

Dr. Nikola Vavřínová’s research interests lie primarily in sustainable civil engineering, with a strong focus on energy-efficient building design, thermal performance analysis, and the development of eco-friendly construction materials. She has been actively involved in the study of composite materials reinforced with natural fibers, such as gypsum-based materials enhanced with straw or wood fibers, aiming to improve mechanical and thermal properties while promoting environmental sustainability. Her work extends to experimental measurements and modeling of the internal microclimate of historic and modern buildings, contributing valuable insights into building performance and occupant comfort. She is also interested in applying Building Information Modeling (BIM) technologies in construction processes to improve design accuracy and energy efficiency. Dr. Vavřínová’s research bridges theoretical concepts and practical applications, supporting innovation in green construction and adaptive reuse of existing structures. Her interdisciplinary approach reflects a commitment to addressing current challenges in sustainable building and modern construction technologies.

Award and Honor🏆

Dr. Nikola Vavřínová has received several awards and honors that highlight her academic excellence and research contributions in civil engineering. She earned 3rd place in the 2016 faculty SVOČ (Student Scientific and Professional Activities) competition, demonstrating early recognition of her research potential. Her diploma thesis was honored by the Dean of the Faculty, acknowledging the quality and impact of her academic work. In the 2019/2020 academic year, she received a prestigious scholarship from the city of Ostrava, awarded to outstanding students for academic merit and achievements. Additionally, she was honored with the Dean’s Prize in the “MSK Construction 2019” competition, specifically for her successful involvement in civil engineering research projects. These accolades reflect her consistent dedication to excellence, innovation, and practical problem-solving in her field. They also underscore her growing reputation as a young leader in sustainable construction and academic research, further supporting her candidacy for prestigious awards.

Research Skill🔬

Dr. Nikola Vavřínová possesses strong and diverse research skills, particularly in the field of sustainable civil engineering and building science. She has demonstrated expertise in experimental research, including the measurement and analysis of thermal and mechanical properties of composite materials reinforced with natural fibers. Her ability to model and simulate building microclimates and thermal behavior reflects a solid command of both theoretical knowledge and practical application. As a principal and co-researcher in multiple funded projects, she has showcased skills in research planning, data interpretation, scientific writing, and team collaboration. Her proficiency in software tools such as AutoCAD, SketchUp, and Svoboda software, along with basic knowledge of ArchiCAD and advanced use of Microsoft Office, enhances her ability to handle technical aspects of research efficiently. Additionally, her experience in writing and publishing scientific papers, and participating in international conferences, highlights her capability in academic communication and global knowledge exchange.

Conclusion💡

Dr. Nikola Vavřínová is highly suitable for the Young Scientist Award. She demonstrates a solid combination of research excellence, academic dedication, innovation in sustainable civil engineering, and leadership in both research and teaching. With her clear upward trajectory, she is a strong candidate deserving recognition and support to further amplify her contributions to the scientific community.

Publications Top Noted✍

  • Title: Analysis of the Thermal Engineering Properties of Low-Carbon Wooden Buildings Placed Above, Partly Below, and Completely Below Ground Level
    Authors: Kubenková Katerina, Vavřínová Nikola, Fojtík Roman, Plaček Michal
    Year: 2025
    Citation: DOI: 10.1016/j.csite.2025.106566

  • Title: Software for the Multi-Criteria Design of the External Walls Based on User Priority
    Authors: Jiří Majer, Nikola Vavřínová, Kateřina Stejskalová, Lenka Pentková
    Year: 2022
    Citation: DOI: 10.3390/buildings12050647

  • Title: Assessment of the Summer Thermal Stability of the Attic Room Using Two Different Software
    Authors: Kateřina Stejskalová, Nikola Vavřínová
    Year: 2020
    Citation: DOI: 10.2478/cee-2020-0036

  • Title: Assessment of Plinth of Energy-Efficient House Objects
    Authors: Jašek M., Kubenková K., Mynarzová L., Vavřínová N.
    Year: 2019
    Citation: DOI: 10.5593/sgem2019/6.2/S26.005

  • Title: Ignitability Small Attack Flame Fire Test of Gypsum Composite Reinforced with Natural Fibres
    Authors: Teslík J., Hošťálková M., Vavřínová N.
    Year: 2019
    Citation: DOI: 10.1556/1848.2019.0009

  • Title: Mechanical Properties of the Gypsum Composite Reinforcement with Wooden Fibers
    Authors: Hošťálková M., Vavřínová N., Longauerová V.
    Year: 2019
    Citation: DOI: 10.1556/1848.2019.0003

  • Title: The Research of Properties of Composite Materials Based on Plaster with Reinforcement of Natural Fibres
    Authors: Hošťálková M., Vavřínová N., Longauerová V.
    Year: 2018
    Citation: DOI: 10.5593/sgem2018/6.3/S26.055

Odey Alshboul | Construction management | Best Researcher Award

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Assoc. Prof. Dr Odey Alshboul | Construction management | Best Researcher Award

Assoc. Prof. Dr, THE HASHEMITE UNIVERSITY, Jordan

Dr. Odey AlShboul is an Associate Professor and Department Head of Civil Engineering at The Hashemite University, Jordan. With a Ph.D. in Civil Engineering from the University of Central Florida (2019), he has extensive academic and professional experience in construction engineering and management. Dr. AlShboul’s career spans various academic roles, including research and teaching assistant positions at international universities. He is dedicated to enhancing the civil engineering field through leadership in education, research, and industry collaborations.

Professional Profile

Google Scholar

Strengths for the Award

  1. Strong Educational Background: Dr. Odey AlShboul has a robust academic foundation, holding a Ph.D. in Civil Engineering with a focus on Construction Engineering and Management from the University of Central Florida, alongside multiple relevant master’s degrees from prestigious institutions. This background positions him well for research and teaching excellence.
  2. Leadership and Management Experience: Dr. AlShboul is currently serving as the Civil Engineering Department Head at The Hashemite University, Jordan. His responsibilities include strategic direction, faculty management, ABET accreditation, and curriculum development. This leadership experience demonstrates his ability to guide academic and research teams, further enhancing his qualifications for a research-focused award.
  3. Research Excellence: Dr. AlShboul has made significant contributions to the field, with several influential publications in journals such as Automation in Construction, Sustainability, and Construction and Building Materials. His work in machine learning applications for construction management, geopolymer concrete, and risk assessment in construction is groundbreaking. His published works are highly cited, with contributions to both theory and practical applications in construction engineering.
  4. Innovative Use of Technology: His focus on machine learning, artificial intelligence, and predictive models for construction management and structural performance is notable. Dr. AlShboul’s work in applying these technologies to construction conflicts, cost prediction, and construction equipment residual value is a testament to his innovative approach.
  5. Collaboration and Networking: He has demonstrated his ability to establish research collaborations with various institutions and industry partners, enhancing his research output and the impact of his work.

Areas for Improvement

  1. Broadening Interdisciplinary Collaboration: While Dr. AlShboul has a strong foundation in civil engineering, particularly in construction management and machine learning, there is potential to expand his research into more interdisciplinary fields, such as sustainability, environmental impact, or smart infrastructure. This could further diversify the scope and reach of his work.
  2. Grant Acquisition and Funding: Although Dr. AlShboul has experience managing departmental budgets and seeking funding, his record of securing research grants could be further enhanced. Increased focus on securing funding for innovative research could elevate his career and broaden the scope of his projects.
  3. Industry Application: While his research is highly valuable to academia, further emphasis on translating his findings into industry practices could further strengthen the practical impact of his work. Increased collaboration with industry partners and government agencies might allow for greater real-world application of his research.

Education

Dr. AlShboul holds a Ph.D. in Civil Engineering (Construction Engineering and Management) from the University of Central Florida (2019). He also earned two M.S. degrees, one in Civil Engineering (Construction Engineering and Management) from the University of Central Florida (2018), and another in Civil Engineering (Structural) from Jordan University of Science and Technology (2014). His undergraduate degree in Civil Engineering is also from Jordan University of Science and Technology, obtained in 2012.

Experience

Dr. AlShboul’s professional experience includes roles as a Site Engineer and Assistant Project Manager in Jordan, where he managed project planning, budgeting, and scheduling. In academia, he has served as a teaching assistant, lecturer, and researcher in various prestigious institutions. At The Hashemite University, he is the Department Head, overseeing strategic direction, curriculum development, faculty management, and accreditation. He also provides consulting services in construction engineering.

Awards and Honors

Dr. AlShboul has received recognition for his significant contributions to construction engineering research, particularly in machine learning applications for construction management. His work has been cited extensively in academic journals. Additionally, his contributions to teaching, mentoring, and curriculum development have earned him awards and honors, highlighting his role as a thought leader in his field.

Research Focus

Dr. AlShboul’s research focuses on the intersection of construction engineering and machine learning, particularly in areas like construction equipment management, green building cost prediction, and structural optimization. He is deeply involved in using AI and data-driven approaches to enhance construction efficiency and sustainability. His recent studies explore forecasting residual values, predicting construction costs, and improving material performance.

Publication Top Notes

  1. Machine learning models for predicting the residual value of heavy construction equipment: An evaluation of modified decision tree, LightGBM, and XGBoost regression 📊
  2. Production of geopolymer concrete using natural pozzolan: A parametric study 🏗️
  3. Extreme gradient boosting-based machine learning approach for green building cost prediction 🌱
  4. Selection of heavy machinery for earthwork activities: A multi-objective optimization approach using a genetic algorithm 🛠️
  5. Risk assessment model for optimal gain–pain share ratio in target cost contract for construction projects ⚖️
  6. Evaluating the impact of external support on green building construction cost 🌍
  7. Deep and machine learning approaches for forecasting the residual value of heavy construction equipment: A management decision support model 📉
  8. Forecasting liquidated damages via machine learning-based modified regression models for highway construction projects 🛣️
  9. Prediction liquidated damages via ensemble machine learning model: Towards sustainable highway construction projects 🔮
  10. Machine learning algorithm for shear strength prediction of short links for steel buildings 🏗️

Conclusion

Dr. Odey AlShboul is an excellent candidate for the Best Researcher Award, based on his significant academic achievements, strong leadership, and impactful research contributions in construction engineering and management. His work demonstrates an innovative use of technology, particularly in machine learning, which sets him apart from many other researchers in the field. By focusing on expanding interdisciplinary collaborations and securing more industry partnerships, Dr. AlShboul could further amplify the practical significance and global reach of his work. With his proven track record and ongoing contributions to advancing construction technology, he is well-deserving of recognition through such an award.

Jinting Huang | Intelligent construction | Best Researcher Award

Published on by Civil Engineering Awards

Mr Jinting Huang | Intelligent construction | Best Researcher Award

Master, Huazhong University of Science and Technology, China

Huang Jinting is a distinguished civil engineer specializing in intelligent construction and sustainable project management. He is currently pursuing a graduate degree in Civil Engineering at Huazhong University of Science and Technology, focusing on data-driven optimization and artificial intelligence in construction. With extensive experience in strategic planning and large-scale infrastructure projects, including Kuala Lumpur Metro phases, Huang has developed expertise in tunnel engineering, structural design, and construction management. His work has been published in reputed journals, emphasizing innovative engineering applications.

PROFILE

Scopus

STRENGTHS FOR THE AWARD

  1. Extensive Academic Background: Huang Jinting has pursued advanced studies in Civil Engineering, with a focus on intelligent construction. His education is enriched with expertise in artificial intelligence, safety management, and energy-saving construction principles, providing a solid foundation for innovative research.
  2. Professional Experience: With diverse roles in multinational projects, including strategic planning, site management, and tunnel engineering, Huang has demonstrated a practical understanding of complex civil engineering challenges. His leadership roles underline his ability to manage high-stakes projects.
  3. Published Research Contributions: His publications in reputable journals, such as Engineering Applications of Artificial Intelligence and Engineering, Construction and Architectural Management, highlight cutting-edge advancements in excavation efficiency and cost optimization.
  4. Integration of AI in Engineering: Huang’s focus on integrating AI to optimize construction processes addresses modern engineering challenges, aligning with trends in smart construction and sustainability.

AREAS FOR IMPROVEMENT

  1. Research Diversity: Expanding the scope of research to encompass additional areas of intelligent construction, such as sustainability metrics and lifecycle analysis, could further strengthen his contributions.
  2. Collaborations and Funding: Enhancing collaborations with global research institutions and securing grants could elevate the impact and visibility of his work.
  3. Citation Metrics: Improving citation counts by actively promoting research findings through conferences, workshops, and interdisciplinary collaborations would add weight to his candidacy for the award.

EDUCATION

  • 2022.09–2025.06: Graduate Student in Civil Engineering, Huazhong University of Science and Technology, Wuhan, China 📘
    • Focus: Intelligent Construction
    • Courses: Advanced Engineering Mathematics, AI in Civil Engineering, Energy-Saving Construction Principles
  • 2010.09–2014.06: Undergraduate in Civil Engineering and Hubei Institute of Engineering 🎓
    • Focus: Road and Bridge Engineering
    • Courses: Structural Mechanics, Pavement Engineering, Bridge Construction

EXPERIENCE

  • 2018.1–2020: Country Development Team Leader, China Railway Oriental International Group 🌏
    • Spearheaded projects in the Indonesian market, strategic planning, and technical marketing.
  • 2016.8–2018.1: Site Manager, Kuala Lumpur Metro Phase II Project 🏗️
    • Managed tunnel construction design, quality control, and safety.
  • 2015.6–2016.8: Assistant Structural Engineer, Kuala Lumpur Metro Phase I Project 🛠️
    • Optimized designs for MRT stations and related infrastructure.
  • 2014.7–2015.6: Trainee, Nanyang Tunnel Company, China Railway Oriental International Group 🛤️

AWARDS AND HONORS

  • Recognized for innovative design and execution in metro tunnel construction. 🏅
  • Honored for excellence in the strategic planning and market development for Indonesian projects. 🎖️
  • Achieved commendations for contributions to intelligent construction methodologies. 🏆

RESEARCH FOCUS

Huang Jinting’s research revolves around intelligent construction and particularly data-driven optimization in tunnel excavation and high-rise building project management. His Intelligent Construction work integrates artificial intelligence and modern construction techniques to enhance efficiency, reduce costs, and manage uncertainty.

PUBLICATION TOP NOTES

  • Data-driven optimization for enhanced excavation efficiency in tunnel construction: A case study” 📄
  • “Schedule-cost optimization in high-rise buildings considering uncertainty” 📊

CONCLUSION

Huang Jinting is a highly promising candidate for the Best Researcher Award due to his strong academic credentials, impactful professional experience, and innovative research contributions. With a focus on intelligent construction and AI-driven optimization, he demonstrates significant potential for influencing the future of civil engineering. Intelligent Construction addressing minor areas for improvement could further solidify his position as an outstanding researcher in his field.

Gholamreza Baghban Golpasand – Fiber Reinforced Concrete – Environmental Leadership in Civil Engineering Award

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Gholamreza Baghban Golpasand - Fiber Reinforced Concrete - Environmental Leadership in Civil Engineering Award

Seraj higher education of institute - Iran

AUTHOR PROFILE

GOOGLE SCHOLAR

GHOLAMREZA BAGHBAN GOLPASAND: EXPERT IN STEEL FIBER REINFORCED CONCRETE 🏗️

Gholamreza Baghban Golpasand is a distinguished researcher at Seraj Higher Education Institute, specializing in the behavior of recycled steel fiber reinforced concrete (SFRC) under various stress conditions. His work delves into the uniaxial cyclic compression and biaxial tests of SFRC, significantly contributing to the understanding and improvement of construction materials.

PIONEER IN STEEL FIBER REINFORCED CONCRETE RESEARCH 🏢

Gholamreza has made notable advancements in the study of steel fiber reinforced concrete, focusing on its performance under uniaxial cyclic compression and biaxial tests. His research is crucial for enhancing the durability and resilience of construction materials, which is vital for modern infrastructure.

FEM INVESTIGATION OF SFRCs USING SUBSTEPPING INTEGRATION 📊

One of his significant research contributions includes the finite element method (FEM) investigation of SFRCs. He employs a substepping integration approach for constitutive equations, providing a more accurate and detailed analysis of SFRC behavior. This method improves the predictive capabilities for the material's performance under various conditions.

CITATIONS AND RESEARCH IMPACT 📚

Since 2019, Gholamreza's work has garnered 49 citations, reflecting the impact and relevance of his research in the field of concrete technology. His citation count is a testament to the significance of his contributions to the academic and engineering communities.

ACADEMIC INFLUENCE: H-INDEX AND I10-INDEX 📈

Gholamreza boasts an h-index of 2 and an i10-index of 1, indicating his research's influence and the number of publications that have received significant citations. These metrics highlight his role as a leading researcher in the field of steel fiber reinforced concrete.

ADVANCING CONSTRUCTION MATERIALS SCIENCE 🔧

Through his work, Gholamreza is advancing the science of construction materials, particularly recycled steel fiber reinforced concrete. His research addresses critical aspects of material performance, contributing to the development of more sustainable and durable construction practices.

EDUCATOR AND MENTOR AT SERAJ HIGHER EDUCATION INSTITUTE 🎓

At Seraj Higher Education Institute, Gholamreza is not only a researcher but also an educator, guiding the next generation of engineers and researchers. His expertise and dedication to teaching ensure that his knowledge and innovations are passed on to future leaders in the field.

COMMITTED TO SUSTAINABILITY AND INNOVATION 🌍

Gholamreza's research emphasizes the use of recycled materials, promoting sustainability in construction. His innovative approaches to material testing and analysis are paving the way for more eco-friendly and efficient building practices, reflecting his commitment to sustainable development.

NOTABLE PUBLICATION

Triaxial behavior of concrete containing recycled fibers-an experimental study 2023

Investigation on the efficiency of different methods for evaluation of ground settlement due to excavation of Tabriz metro tunnel, line 2 2022 (1)

Behavior of recycled steel fiber reinforced concrete under uniaxial cyclic compression and biaxial tests 2020 (39)

Experimental and numerical investigation of the effect of steel fiber on fiber reinforced concrete under multiaxial compression 2021 (2)

Dong Zikai – TBM Intelligent construction – Best Researcher Award

Published on by Civil Engineering Awards

Dong Zikai - TBM Intelligent construction - Best Researcher Award

Beijing Jiaotong University - China

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Dong Zikai embarked on his academic journey with a Bachelor's degree in Civil Engineering from Southwest Jiaotong University, Chengdu, China, in 2015. He continued his studies with a Master's degree in Architecture and Civil Engineering from Beijing Jiaotong University in 2019. Currently, he is pursuing a Ph.D. in Civil Engineering at Beijing Jiaotong University, where his research focuses on intelligent assistance technology for Tunnel Boring Machine (TBM) tunnelling.

PROFESSIONAL ENDEAVORS

As a doctoral student in the Department of Geotechnical Engineering at Beijing Jiaotong University, Dong Zikai has made significant contributions to his field. Under the guidance of Professor Li Xu, he has been involved in several research projects and has demonstrated exceptional academic performance. Dong has also participated in competitions such as the TBM competition and the "Huawei Cup" Chinese Graduate Students Artificial Intelligence Innovation Competition, where he achieved notable success.

CONTRIBUTIONS AND RESEARCH FOCUS

Dong Zikai's research is centered on TBM intelligent construction, with a specific focus on developing intelligent assistance technology. His work has led to the publication of several academic papers in reputable journals, including Automation in Construction and Georisk. His research contributions extend to the development of convolutional neural network-based models for recognizing TBM rock chip gradation, denoising methods in TBM rock fragmenting data, and classification prediction of surrounding rock based on TBM muck images.

IMPACT AND INFLUENCE

Dong Zikai's research has made a significant impact on the field of geotechnical engineering, particularly in the realm of TBM intelligent construction. His innovative approaches and methodologies have advanced our understanding of TBM tunnelling processes and have practical implications for improving construction efficiency and safety. Dong's publications have garnered attention within the academic community, further solidifying his influence and recognition in the field.

ACADEMIC CITES

Dong Zikai's research findings have been published in prestigious academic journals and have been cited by fellow scholars and researchers. His work on TBM intelligent construction has contributed to the body of knowledge in geotechnical engineering and has been referenced in related studies and publications. Dong's citations reflect the relevance and impact of his research on the broader academic community.

LEGACY AND FUTURE CONTRIBUTIONS

As Dong Zikai continues his doctoral studies and research endeavors, he is poised to make further contributions to the field of geotechnical engineering, particularly in the area of TBM intelligent construction. His innovative research methodologies and technological advancements have the potential to revolutionize TBM tunnelling practices, leading to safer, more efficient, and sustainable infrastructure development. Dong's commitment to academic excellence and his dedication to advancing the field ensure a promising legacy and future contributions in geotechnical engineering.

NOTABLE PUBLICATION

Experimental Study on Instant Grouting with Formwork for Tunnels 2022 (2)

Classification Prediction of Surrounding Rock Based on TBM Muck Images 2023

Experimental Investigation on Mechanical Characteristics of Waterproof System for Near-Sea Tunnel: A Case Study of the Gongbei Tunnel 2020 (11)

Xu Li – TBM Intelligent construction – Best Researcher Award

Published on by Civil Engineering Awards

Xu Li - TBM Intelligent construction - Best Researcher Award

Beijing Jiaotong University - China

AUTHOR PROFILE

Scopus
ORCID

EARLY ACADEMIC PURSUITS

Dr. Xu Li embarked on his academic journey with a Bachelor's degree in Hydraulic and Hydropower Engineering from Tsinghua University, Beijing, China, in 2001. He continued his studies with a Master's degree in Hydraulic Structure Engineering from Tsinghua University in 2004. Dr. Li further pursued a Ph.D. in Civil Engineering at The University of Science and Technology, Hong Kong, graduating in 2009. His academic pursuits laid a solid foundation for his future endeavors in the field of geotechnical engineering, with a focus on special soil mechanics and TBM automatic control algorithms.

PROFESSIONAL ENDEAVORS

Dr. Xu Li has accumulated a wealth of professional experience throughout his career. He served as a Post-Doctoral Fellow at The University of Science and Technology, Hong Kong, from January to June 2009, where he conducted research on the failure mechanisms of rainfall-induced landslides. Subsequently, he worked as an Associate Professor at the Department of Geotechnical Engineering, School of Civil Engineering, Beijing Jiaotong University, China, from September 2009 to November 2016, and later as a Professor from December 2016 to the present. His responsibilities included teaching undergraduate and postgraduate courses in soil mechanics, consulting on geotechnical engineering projects, and supervising student research.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Xu Li's research primarily focuses on TBM (Tunnel Boring Machine) intelligent construction and special soil mechanics. He has made significant contributions to the field through his publications and projects. His research endeavors have led to advancements in the prediction of TBM performance, real-time perception methods for rock conditions in TBM construction, and cross-project utilization of TBM construction data. Dr. Li's work has not only enhanced our understanding of geotechnical engineering but also contributed to the development of innovative technologies for infrastructure projects.

IMPACT AND INFLUENCE

Dr. Xu Li's research has had a notable impact on the field of geotechnical engineering. His publications have been widely cited in academic literature, indicating the relevance and significance of his work. Moreover, Dr. Li's involvement in professional societies and committees, such as the International Society of Soil Mechanics and Geotechnical Engineering (ISSMGE), underscores his influence and recognition within the global geotechnical community. His contributions to TBM intelligent construction and special soil mechanics continue to shape the future of geotechnical engineering practice.

ACADEMIC CITES

Dr. Xu Li's research findings have been published in reputable journals and conference proceedings, garnering citations from scholars and researchers worldwide. His work on TBM construction methods, rock condition characterization, and soil mechanics has contributed to the advancement of knowledge in geotechnical engineering. The impact of his research is evident in the numerous citations his publications have received, highlighting the significance of his contributions to the field.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Xu Li's dedication to TBM intelligent construction and special soil mechanics positions him as a leading figure in geotechnical engineering. His ongoing research and collaborations are poised to further expand our understanding of underground construction methods and soil behavior. Through his continued efforts, Dr. Li aims to address emerging challenges in infrastructure development and pave the way for sustainable and efficient construction practices.

NOTABLE PUBLICATION

MDG: A Multi-Task Dynamic Graph Generation Framework for Multivariate Time Series Forecasting 2024

Transfer learning for collapse warning in TBM tunneling using databases in China 2024

Rock fragmentation indexes reflecting rock mass quality based on real-time data of TBM tunnelling 2023 (1)

Zuzanna Woźniak – Construction Processes – Best Researcher Award

Published on by Civil Engineering Awards

Zuzanna Woźniak - Construction Processes - Best Researcher Award

Wrocław University of Science and Technology -Poland

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Zuzanna Woźniak commenced her academic journey at Wrocław University of Science and Technology in September 2017, where she pursued her Bachelor of Engineering degree in Civil Engineering with a specialization in Building Engineering (IBB). During her undergraduate studies, she exhibited a keen interest in construction processes, materials engineering, and occupational safety in construction. Her commitment to academic excellence led to the completion of her bachelor's thesis titled "Design of a Small Residential Building with a Green Roof," which showcased her proficiency in structural design and sustainability principles.

PROFESSIONAL ENDEAVORS

After obtaining her bachelor's degree, Zuzanna Woźniak continued her academic journey by enrolling in a second-cycle Master of Engineering program at Wrocław University of Science and Technology. She graduated with honors, earning recognition as the best graduate of the Civil Engineering program and the second-best graduate among all faculties of the university. During her master's studies, she focused on building structures and conducted research on utilizing waste materials for mortar production in construction, demonstrating her dedication to advancing sustainable construction practices.

Following her master's degree, Zuzanna Woźniak gained valuable practical experience in the construction industry. She worked as an assistant construction manager at TAKENAKA Europe GmbH, where she was involved in overseeing various industrial hall construction projects. Her roles included supervising construction activities, ensuring adherence to safety protocols, and coordinating project timelines. Additionally, she served as an assistant to the project manager at Energopiast, where she supervised the installation of acoustic enclosures for pump stations, further enhancing her expertise in construction management and site supervision.

CONTRIBUTIONS AND RESEARCH FOCUS

Zuzanna Woźniak's research primarily focuses on construction processes, materials engineering, and occupational safety in construction. Her doctoral thesis titled "Modelling the Impact of Near Misses on Occupational Accidents in the Construction Industry" addresses the significance of near misses in predicting and preventing workplace accidents. Through her research projects and publications, she aims to contribute to enhancing safety measures and promoting sustainable practices within the construction industry.

IMPACT AND INFLUENCE

Zuzanna Woźniak's contributions to the field of construction engineering and occupational safety have been recognized through her publications in reputable journals and presentations at international conferences. Her research findings on waste reduction methods, accident prediction indices, and the influence of construction materials on safety outcomes have provided valuable insights for industry professionals and researchers alike.

ACADEMIC CITATIONS

Zuzanna Woźniak's publications have garnered attention within the academic community, as evidenced by citations in peer-reviewed journals and conference proceedings. Her research on the causes of occupational accidents, waste reduction methods, and the utilization of waste materials in construction has contributed to advancing knowledge in the field of civil engineering and construction management.

LEGACY AND FUTURE CONTRIBUTIONS

As a dedicated researcher and practitioner in the field of civil engineering, Zuzanna Woźniak continues to strive for excellence in her academic and professional endeavors. Her legacy lies in her commitment to promoting safety, sustainability, and innovation within the construction industry. Through her ongoing research and collaborative efforts, she aims to shape the future of construction processes and contribute to creating safer and more sustainable built environments.

CONSTRUCTION PROCESSES

Zuzanna Woźniak's academic and professional journey has been deeply rooted in understanding and optimizing construction processes. From her early academic pursuits to her practical experiences in the construction industry, she has demonstrated a comprehensive understanding of project management, site supervision, and safety protocols. Through her research focus on modeling the impact of near misses on occupational accidents, she seeks to enhance construction processes and promote safer working environments for construction workers.

NOTABLE PUBLICATION

Qualitative and Quantitative Analysis of the Causes of Occupational Accidents Related to the Use of Construction Scaffoldings.  2022 (3)