Dongwook Kim | Construction Management | Best Researcher Award

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Dr. Dongwook Kim | Construction Management | Best Researcher Award

DL E&C | South Korea

Dr. Dongwook Kim is a distinguished civil engineer and senior manager at DL E&C’s Civil Smart Engineering Team, specializing in smart construction, Building Information Modeling (BIM), and modular infrastructure systems. He earned his Ph.D. in Civil Engineering from Chung-Ang University with exceptional academic performance, following master’s and bachelor’s degrees from the same institution. With over 18 years of professional and research experience, Dr. Kim has significantly contributed to the integration of digitalization, automation, and AI-based predictive maintenance in infrastructure engineering. His expertise spans modular composite structures, precast bridge systems, and machine learning applications for structural performance prediction. Dr. Kim has authored more than 25 SCI/SCIE-indexed papers and multiple domestic publications, and has contributed to three book chapters and several national patents on structural innovation and BIM applications. He has been a key technical advisor and committee member for leading Korean organizations such as the Ministry of Land, Infrastructure and Transport (MOLIT), Korea Institute of Civil Engineering and Building Technology (KICT), Korea Expressway Corporation (EX), and Korea National Railway (KR), helping develop BIM standards, digital construction guidelines, and smart infrastructure frameworks. His collaborative research includes international engagements with experts from Europe and Asia, fostering global knowledge exchange in smart civil engineering. Recognized for his contributions, Dr. Kim has received prestigious honors including the Ministerial Best Innovation Award (2021) and the International Young Scientist Best Researcher Award (2024), and has been listed in Marquis Who’s Who in the World for multiple consecutive years. His research continues to advance sustainable, data-driven infrastructure management and the implementation of AI-empowered digital twin technologies, contributing to the global transition toward resilient and intelligent civil engineering systems.

Profile: Scopus | ORCID
Publications:

Kim, D. (2025, September). Corrugated inner wall connections for composite Rahmen bridges: Advancing design and construction efficiency. KSCE Journal of Civil Engineering.

Kim, D., Matos, J., & Dang, S. N. (2025, February 23). Development of BIM platform for semantic data based on standard WBS codes. Buildings, 15(5), 711.

Poloju Kiran Kumar | Structural Engineering | Best Academic Researcher Award

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Dr. Poloju Kiran Kumar | Structural Engineering | Best Academic Researcher Award

Senior Lecturer | Middle East College | Oman

Dr. Poloju Kiran Kumar is a distinguished researcher and academician in civil and environmental engineering, presently serving as Senior Lecturer at Middle East College, Muscat, Oman, and Committee Member of the Institution of Civil Engineers (ICE), Oman region. With over thirteen years of academic and research experience, his expertise encompasses structural engineering, sustainable construction materials, and advanced geopolymer concrete technology. Dr. Kiran has authored more than 80 research papers in Web of Science and Scopus-indexed journals and contributed eight book chapters published by Springer, Taylor & Francis, and Nova Publishers. His research achievements include five patents in India and Oman focusing on innovative sustainable concrete materials and artificial intelligence applications in structural performance analysis. He has successfully completed four externally funded research projects worth 16,000 OMR from The Research Council of Oman and leads collaborative projects with Prince Sattam bin Abdulaziz University, Saudi Arabia. His scholarly influence is reflected through over 250 Google Scholar citations with an h-index of 12. Dr. Kiran’s academic leadership is evident in his role in program accreditation, quality assurance, and development of modern teaching pedagogies integrating digital tools. His commitment to sustainable construction and community engagement has earned multiple accolades, including four Best Academic Staff Awards, the INSO Young Scientist Award (2022), and recognition as ICE Oman’s Committee Member (2025). A Chartered Engineer and Fellow of the Higher Education Academy (UK), Dr. Kiran has delivered numerous keynote lectures and workshops across Oman, India, and beyond on geopolymer concrete, sustainable infrastructure, and pedagogical innovation. His research contributes significantly to the advancement of low-carbon construction technologies, enhancing environmental resilience and promoting sustainable development in alignment with global engineering goals.

Profile: Scopus | Google Scholar
Publications:

Poloju, R. K. M. K., & Anil, V. (2017). Properties of concrete as influenced by shape and texture of fine aggregate. American Journal of Applied Scientific Research, 3(3), 28–36.
(Cited by: 22)

Poloju, K. K., & Srinivasu, K. (2021). Impact of GGBS and strength ratio on mechanical properties of geopolymer concrete under ambient curing and oven curing. Materials Today: Proceedings, 42, 962–968. 
(Cited by: 60)

Rollakanti, C. R., Prasad, C. V. S. R., Poloju, K. K., Al Muharbi, N. M. J., & Arun, Y. V. (2021). An experimental investigation on mechanical properties of concrete by partial replacement of cement with wood ash and fine sea shell powder. Materials Today: Proceedings, 43, 1325–1330. 
(Cited by: 56)

Poloju, V. R. K. K., & Naidu, [First initial unavailable]. (2022). New method of data collection using the Kobo Toolbox. Journal of Positive School Psychology, 1527–1535.
(Cited by: 39)

Al Abri, S. A. S., Rollakanti, C. R., Poloju, K. K., & Joe, A. (2022). Experimental study on mechanical properties of concrete by partial replacement of cement with eggshell powder for sustainable construction. Materials Today: Proceedings, 65, 1660–1665. 
(Cited by: 25)

Xiao Jiayu | Structural Engineering | Best Researcher Award

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Xiao Jiayu | Structural Engineering | Best Researcher Award

Central South University of Forestry and Technology | China

Xiao Jiayu is an emerging researcher from Central South University of Forestry and Technology, specializing in the interdisciplinary fields of landscape architecture and civil and hydraulic engineering. She earned her Bachelor’s degree in Landscape Architecture in 2024, ranking within the top 30% of her cohort, and is currently pursuing a Master’s degree in Civil and Hydraulic Engineering at the same institution, continuing her academic excellence with a strong research orientation. Her academic foundation integrates aesthetic, ecological, and structural design principles, reflected through outstanding performance in subjects such as landscape engineering, environmental psychology, urban green space planning, and advanced concrete and steel structure theories. Demonstrating exceptional analytical and technical abilities, she has developed a keen interest in sustainable design, structural safety, and green infrastructure systems that contribute to environmental resilience and urban livability. Her current research direction focuses on the integration of engineering precision with ecological sensitivity, aiming to advance innovative solutions for sustainable urban development and landscape restoration. Xiao Jiayu’s strong command of design software, numerical analysis, and experimental techniques enables her to bridge creative design with scientific rigor effectively. Throughout her academic journey, she has exhibited strong teamwork and leadership skills through university projects, collaborative design workshops, and interdisciplinary studies. Her academic pursuits reflect a deep commitment to fostering harmony between built environments and natural ecosystems, highlighting her potential to make significant contributions to sustainable construction and landscape innovation. With a growing academic profile and dedication to continuous learning, she represents the new generation of scholars poised to shape the future of civil engineering and environmental design through research-driven, socially responsible, and technologically informed approaches.

Profile: ORCID
Featured Publications:

Yuan, J., Xiao, J., & Huang, D. (2025, December). Experimental research on bond behavior of high-strength reinforcement in unconfined fly ash-based geopolymer concrete. Case Studies in Construction Materials.

Changbai Wang | Structural Engineering | Best Researcher Award

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Dr. Changbai Wang | Structural Engineering | Best Researcher Award

Vice-Dean | Anhui University of Science and Technology | China

Dr. Changbai Wang, affiliated with Anhui University of Science and Technology, Huainan, China, is a distinguished researcher recognized for his significant contributions to the field of construction materials and sustainable concrete technologies. With a robust publication record of 20 scholarly documents, his research has achieved over 343 citations across 326 documents, reflecting a notable h-index of 10, underscoring the consistent quality and influence of his academic work. Dr. Wang’s research primarily focuses on high-performance concrete (HPC), internal curing mechanisms, and the innovative utilization of industrial by-products, particularly coal gangue aggregates, to enhance the sustainability and performance of civil engineering materials. His recent works, such as studies on pore-regulated coal aggregates and self-compacting tunnel concrete, demonstrate his commitment to advancing environmentally responsible construction practices. Collaborating with over 40 co-authors, he has fostered interdisciplinary partnerships that bridge material science, civil engineering, and environmental sustainability. Through his extensive research collaborations, Dr. Wang contributes to the global discourse on low-carbon construction, emphasizing circular economy principles and resource optimization in infrastructure development. His scholarly influence extends beyond academia, as his findings have practical implications for industries aiming to reduce ecological footprints while maintaining material performance. The societal impact of his work lies in promoting sustainable material innovation aligned with modern infrastructure needs. With ongoing projects and emerging studies in high-performance concrete applications, Dr. Wang demonstrates strong potential for further breakthroughs in green construction materials and structural durability research. His academic trajectory and commitment to addressing global environmental challenges position him as a key contributor to the future of sustainable construction and materials engineering.

Profile: Scopus | ORCID
Featured Publications:

  • Updated internal curing for HPC using pore-regulated coal aggregates. Case Studies in Construction Materials.

  • Internal curing for tunnel self-compacting concrete using pre-soaked coal gangue: A promising way for spot utilization of coal gangue. Iranian Journal of Science and Technology Transactions of Civil Engineering.

Zhou Ji | FRP reinforced concrete structure | Best Researcher Award

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Zhou Ji | FRP Reinforced Concrete Structure | Best Researcher Award

Associate Professor | Nanjing Forestry University | China

Zhou Ji is a dedicated civil engineering researcher specializing in steel–concrete composite structures and marine or offshore concrete systems, with extensive academic and practical expertise in structural performance and durability. As a doctoral researcher at Guangxi University under Professor Zongping Chen, Zhou has contributed significantly to the understanding of mechanical behaviors, bond characteristics, and seismic performance of advanced composite materials. Zhou has led one Guangxi postgraduate education innovation project and participated in six national and provincial-level research programs focusing on areas such as high-temperature damage assessment, corrosion-resistant marine concrete, and long-lifespan transport hub structures. The research has resulted in 9 SCI-indexed papers and 10 EI-indexed papers as the first author, including publications in high-impact journals like Engineering Structures, Construction and Building Materials, and Journal of Composites for Construction-ASCE. Zhou’s studies on CFRP-steel composite bars in coral sea-sand seawater concrete have provided key insights into bond behavior, structural strength, and post-fire performance, contributing to sustainable marine construction. In addition to academic publications, Zhou has secured four national patents and participated in developing a Guangxi provincial standard. Recognition of excellence includes numerous national and provincial scholarships and awards, such as the Liu Huixian Earthquake Engineering Award and multiple National Scholarship distinctions. The research achievements reflect a deep commitment to advancing composite structural technologies that enhance resilience and sustainability in coastal infrastructure. With a strong foundation in both experimental and numerical analysis, Zhou continues to explore innovative materials and design approaches that address environmental challenges in modern civil engineering. 409 Citations, 16 Documents, and an h-index of 11

Profile: Google Scholar | Scopus | Research Gate

Chen, Z., Zhou, J., Jing, C., & Tan, Q. (2021). Mechanical behavior of spiral stirrup reinforced concrete filled square steel tubular columns under compression. Engineering Structures, 226, 111377.

Chen, Z., Xu, W., & Zhou, J. (2022). Mechanical performance of marine concrete filled CFRP–aluminum alloy tube columns under axial compression: Experiment and finite element analysis. Engineering Structures, 272, 114993.

Chen, Z., Li, S., Zhou, J., Xu, R., & Dai, S. (2022). Flexural behavior of GFRP bars reinforced seawater sea sand concrete beams exposed to marine environment: Experimental and numerical study. Construction and Building Materials, 349, 128784.

Chen, Z., Pang, Y., Xu, R., Zhou, J., & Xu, W. (2022). Mechanical performance of ocean concrete-filled circular CFRP–steel tube columns under axial compression. Journal of Constructional Steel Research, 198, 107514.

Zhou, J., Chen, Z., Chen, Y., Song, C., Li, J., & Zhong, M. (2022). Torsional behavior of steel reinforced concrete beam with welded studs: Experimental investigation. Journal of Building Engineering, 48, 103879.

Ghizlane Moutaoukil | Sustainable construction materials | Eco-friendly Construction Practices Award

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Dr. Ghizlane Moutaoukil | Sustainable construction materials | Eco-friendly Construction Practices Award

Postdoctoral researcher | Centro de Física de Materiales (CFM) | Spain

Dr. Ghizlane Moutaoukil is a distinguished researcher in materials chemistry and environmental science, specializing in the synthesis, characterization, and thermomechanical evaluation of sustainable construction materials. With a PhD jointly earned from Mohammed V University in Rabat and the Institute of Materials Science of Madrid, the research focuses on the development of dense and porous geopolymers derived from industrial waste. Extensive investigations cover the optimization of mechanical and microstructural properties of fly ash-based geopolymers, thermomechanical behavior, foaming processes, and the integration of radiative cooling functions in cementitious composites. As a postdoctoral researcher at the Centro de Fisica de Materiales (CSIC/UPV-EHU), Moutaoukil continues advancing sustainable materials for environmental and energy applications. The impressive publication record in journals such as Materials Letters, Advanced Science, and Construction and Building Materials reflects deep expertise in MAS NMR, FTIR, XRD, and Raman spectroscopy. Patents and collaborative works, notably the “Modern Roman-Inspired Concrete with Daytime Radiative Cooling Capacity,” demonstrate innovative thinking bridging chemistry and civil engineering. Research also includes the mechanosynthesis of phosphate mine waste-based geopolymers and geochemical applications for pollution control. Proficiency in Arabic, French, English, and Spanish strengthens global collaboration capacity. Technical mastery extends to process engineering, corrosion studies, and rheological analysis, with strong computational and statistical design skills. Active participation in international conferences from Morocco to Spain and Turkey underscores commitment to interdisciplinary scientific exchange. Ghizlane Moutaoukil’s contributions—166 citations, 12 publications, and an h-index of 6—reflect consistent research excellence and growing global recognition, making Ghizlane Moutaoukil a promising leader in sustainable materials and environmental innovation.

Profile: Scopus | ORCID
Featured Publications:

Ghizlane Moutaoukil, Isabel Sobrados, & Jorge S. Dolado. (2025, October). Development of phosphate mine waste-based geopolymer by mechanosynthesis. Construction and Building Materials, 143573.

Jorge S. Dolado, Guido Goracci, Ghizlane Moutaoukil, Ridwan O. Agbaoye, Miguel Beruete, Alicia E. Torres‐García, Laura Carlosena, Achutha Prabhu, Jose A. Ibáñez, Nick Adams, et al. (2025, September 12). A modern Roman-inspired concrete with daytime radiative cooling capacity. Advanced Science.

Ghizlane Moutaoukil, Isabel Sobrados, H. Süleyman Gökçe, & Saliha Alehyen. (2025, June). Effect of thermal treatment, foaming and stabilizing agents on the synthesis of fly ash-based geopolymer foams using Raman spectroscopy and 29Si and 27Al MAS NMR. Sustainable Chemistry for the Environment, 100257.

Ghizlane Moutaoukil, Isabel Sobrados, Saliha Alehyen, & M’hamed Taibi. (2024, May 16). Monitoring the geopolymerization reaction of geopolymer foams using 29Si and 27Al MAS NMR. Minerals, 14(5), 516.

Ghizlane Moutaoukil, Isabel Sobrados, Saliha Alehyen, & M’hamed Taibi. (2024, March). Understanding the thermomechanical behavior of geopolymer foams: Influence of rate and type of foaming agent and stabilizer. Chemical Data Collections, 101111.

Ghizlane Moutaoukil, Saliha Alehyen, Isabel Sobrados, & Amine El Mahdi Safhi. (2023, June). Effects of elevated temperature and activation solution content on microstructural and mechanical properties of fly ash-based geopolymer. KSCE Journal of Civil Engineering.

Mehran Makhsusy – Construction Management – Best Researcher Award

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Mehran Makhsusy - Construction Management - Best Researcher Award

Roudehen Islamic Azad University | Iran

Dr. Mehran Makhsusy has established a research focus in civil engineering with a specialization in construction management, emphasizing customer satisfaction, project quality, and stakeholder engagement. His work consistently integrates modern approaches such as decision-making systems, artificial intelligence, and building information modeling to optimize construction processes and improve efficiency. Publications such as his book on customer-oriented construction and his journal articles in international and regional outlets highlight his commitment to developing frameworks that align construction practices with end-user needs. By addressing legal perspectives in construction contracts and analyzing decision-making models, he broadens the research impact beyond engineering to encompass managerial and legal dimensions of construction. Mehran Makhsusy has contributed to both theoretical advancements and practical methodologies, offering solutions for sustainable and customer-centered urban development. His dissertation and subsequent studies further reinforce his efforts to create construction models that enhance productivity while ensuring long-term satisfaction for users. Through his engagement in conferences, peer-reviewed journals, and academic collaborations, he has provided valuable contributions to the evolving dialogue on improving construction project outcomes. With a clear focus on innovative construction patterns, optimization of urban development, and enhanced integration of digital tools, Mehran Makhsusy’s research demonstrates an interdisciplinary approach that combines engineering principles, managerial strategies, and technology-driven decision-making. This consistent trajectory illustrates his dedication to advancing civil engineering practices by aligning them with the demands of modern urban environments and the expectations of stakeholders, ensuring that projects are not only technically sound but also socially responsive and customer-oriented.

Profile: ORCID
Publications: 

  1. Finding the optimal pattern of customer-oriented urban construction. (2025).

  2. Integrating building information modeling and artificial intelligence to improve the planning and control process of construction projects. (2025).

  3. Customer-centered construction patterns. (2024).

  4. A legal perspective on the general conditions of the contract from the perspective of administrative contracts. (2024).

  5. Optimization of decision-making in customer-oriented construction management using intelligent decision-making systems. (2023).

  6. Optimizing urban construction patterns to increase user satisfaction. (2022).

Pei Bida – Construction Management – Best Researcher Award

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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

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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

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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.