Pei Bida – Construction Management – Best Researcher Award

Published on by Civil Engineering

Pei Bida | Construction Management | Best Researcher Award

Lecture | Changsha University of Science & Technology | China

Pei Bida has focused research efforts on advancing the field of civil and environmental engineering with a strong emphasis on modern methods and technologies that enhance the performance, safety, and sustainability of large-scale infrastructure systems. His primary interests include Building Information Modeling (BIM), which he employs to improve project coordination, optimize resource use, and advance the integration of digital solutions into engineering practices. A significant portion of his work is devoted to the numerical simulation of large-span bridges, where he applies computational techniques to analyze structural responses under varying conditions, thereby providing more accurate assessments of safety, serviceability, and durability. This direction in research contributes to the efficient design, construction, and maintenance of bridge systems, ensuring that they meet the increasing demands of modern transportation networks. Another key area of his expertise lies in the fatigue analysis of steel bridges, where he examines the long-term behavior of materials and structural components subjected to cyclic loading. Through such investigations, he seeks to address critical issues of degradation and performance loss, thereby extending the service life of important infrastructure while reducing maintenance costs. His research not only contributes to academic understanding but also has direct practical applications in engineering practice, offering solutions to pressing challenges faced in bridge construction and management. By integrating BIM, advanced simulations, and fatigue studies, Pei Bida is shaping a holistic approach to modern civil engineering that bridges theoretical insights with engineering applications. His contributions demonstrate a commitment to advancing safe, efficient, and technologically driven infrastructure solutions that align with the evolving needs of society. This ongoing body of work underlines his role as a significant contributor to civil engineering research, and his scholarly impact is reflected in 231 Citations by 217 documents, 23 Documents, and a 9 h-index View.

Profile: Scopus
Publications

  1. Experimental and analytical study on the flexural behavior of a novel steel-NC-UHPC composite bridge deck system. (2025).

  2. Experimental study on negative bending resistance of steel-NC-UHPC composite bridge deck. (2025).

Dr. C. Vigneshkumar | Construction Management | Best Researcher Award

Published on by Civil Engineering

Dr. C. Vigneshkumar | Construction Management | Best Researcher Award

Postdoctoral Fellow | The Hong Kong Polytechnic University | India 

Dr. Vigneshkumar Chellappa has established a strong research foundation in the domains of human factors, ergonomics, construction safety, and design innovation, with a particular emphasis on prevention through design and occupational health in construction industries. His work focuses on integrating ergonomic principles with construction safety management, aiming to minimize risks and enhance well-being through effective strategies. Vigneshkumar has contributed significantly to developing frameworks and applications of game-based learning, immersive virtual reality, and digital technologies to strengthen hazard recognition skills, improve knowledge management practices, and create innovative training methods for construction workers. His research also investigates barriers to safety implementation, risk assessment processes, and user-centered design approaches, addressing both technological and human-centered challenges in construction. Collaborations with international institutions have broadened his work on safety culture, sustainability in education, and inclusive design practices. He has advanced the discourse on safety helmet redesign, corporate social responsibility in construction, and ergonomic risk assessment using digital human modeling and digital twin technologies. Vigneshkumar’s contributions extend to cross-disciplinary applications of ergonomics, psychological well-being, and design education, with notable publications in leading journals and conferences. His research outcomes emphasize practical strategies for safety improvement while bridging gaps between theory and practice in civil engineering and design. His dedication to occupational safety, risk management, and innovative design-based methodologies continues to gain recognition through awards, fellowships, and scholarly impact across global academic and professional communities. With 42 publications, 229 citations from 139 documents, and an h-index of 7.

Profile: Google Scholar | Scopus | ORCID
Publications:

  1. Safety knowledge management practices in Indian construction companies. (2022). Cited by 9.

  2. Digital twin approach for the ergonomic evaluation of vertical formwork operations in construction. (2023). Cited by 8.

  3. Digital technologies (DTs) for safety education and training in construction. (2024). Cited by 7.

  4. Analysis of workers’ fall accidents due to formwork operations. (2022). Cited by 7.

  5. Application of multiple-criteria decision making methods for construction safety research. (2024). Cited by 6.

WoonSeong Jeong | Information Technology using BIM | Best Researcher Award

Published on by Civil Engineering

WoonSeong Jeong | Information Technology using BIM | Best Researcher Award

Associate Professor | Chungbuk National University | South Korea

WoonSeong Jeong is an accomplished researcher and academic in the field of architectural engineering, specializing in Building Information Modeling (BIM), object-oriented physical modeling, building energy simulation, and digital twin frameworks for construction and operation. His work integrates computational methods with sustainable design practices, bridging BIM technologies with multi-domain performance analysis to advance construction management, thermal simulations, and off-site construction processes. His research portfolio includes several major projects funded by the National Research Foundation of Korea, focusing on immersive BIM-based off-site construction simulations, digital twin model development, and intelligent operation management frameworks. Earlier contributions include collaborative projects supported by the U.S. National Science Foundation, the American Society of Heating, Refrigerating, and Air Conditioning Engineers, and the U.S. Department of Energy, where he explored applications of BIM in solar building design, nuclear plant cooling systems, and thermal compliance testing. Jeong’s publications in international journals such as Applied Sciences, Sustainability, Advances in Civil Engineering, and Automation in Construction demonstrate his expertise in developing automated frameworks for translating sketches and spatial data into BIM environments, enhancing efficiency in performance analysis, and optimizing construction operations. His conference presentations span global platforms, where he introduced innovative methods for lean production management, energy performance visualization, and parametric modeling. Recognized with awards including the Charles M. Eastman Top PhD Paper Award, fellowships, and scholarships from professional bodies such as the International Facility Management Association and Texas A&M University, Jeong has consistently contributed to advancing knowledge in digital construction and sustainable architectural engineering. Alongside journal articles, he has co-authored books and technical reports on BIM integration, parametric modeling, and lifecycle cost analysis, further strengthening his role as a thought leader in the digital transformation of construction and building performance research. His membership in professional associations such as IFMA, ACADIA, and KSEA reflects his active engagement in global research communities.

Profile: ORCID | Google Scholar
Publications

Developing a physical BIM library for building thermal energy simulation. (2015). Cited by 293.

BIM-integrated construction operation simulation for just-in-time production management. (2016). Cited by 117.

Translating building information modeling to building energy modeling using model view definition. (2014). Cited by 83.

Interfacing BIM with building thermal and daylighting modeling. (2013). Cited by 78.

A framework to integrate object-oriented physical modelling with building information modelling for building thermal simulation. (2016). Cited by 70.