Fariba Shokoohi | Engineering and Technology | Best Researcher Award

Published on by Popular Engineer

Dr. Fariba Shokoohi | Engineering and Technology | Best Researcher Award

SR.C., Islamic Azad University | Iran

Dr.  Fariba Shokohi is a civil engineering researcher specializing in construction engineering and management. She is currently pursuing her Ph.D. in Civil Engineering at the Islamic Azad University, focusing on lean construction, sustainability analytics, and multi-criteria decision-making. Her academic path includes dual master’s degrees in Construction Engineering & Management and Industrial Engineering, supported by a strong foundation in civil engineering and cartography. Professionally, she has served in senior technical, design, supervision, and project management roles across major national organizations, including construction engineering firms, banking infrastructure companies, and intelligent systems corporations. Her expertise spans project management, sustainability assessment, BIM applications, fuzzy MCDM techniques, quality evaluation models, and advanced engineering software. She has authored impactful publications on lean–sustainable construction integration, fuzzy DEMATEL, green building systems, and self-healing concrete. Her research interests include sustainable construction, lean project delivery, green roofs, carbon emission reduction, intelligent project systems, and integrated management frameworks. She has actively contributed to national conferences and international journals and is a senior member of professional engineering societies. Dr. Shokohi continues to advance innovative methods in sustainable project management and construction optimization.

Profile : Orcid

Featured Publications

Shokoohi, F. (2025). Multi-dimensional sensitivity analysis of lean and sustainable construction: A novel MTDA approach for integrated project management. International Journal of Construction Management. (Accepted, June 2025)

Shokoohi, F. (2023). Application of focus group method in extended fuzzy DEMATEL technique: Integrating effective factors in lean and sustainable construction. Andisheye Amari Journal, 27(2), 105–120.

Rabieifar, H., Shokoohi, F., & Ashtiani, Z. (2021). Application of bacteria in concrete repair and its effect on self-healing properties: A review study. In 23rd National Concrete and Earthquake Conference, Concrete Research Center (METEB).

Farrokhzadeh, F., & Shokoohi, F. (2020). Integration of lean thinking and sustainable development in HSE management of the construction industry. Journal of Defense Maintenance Engineering Research, 3(2), 58–74.

Shokoohi, F., & Ravanshadnia, M. (2023). Evaluation of green roofs in reducing carbon emissions and improving environmental sustainability: A case study of a building in Tehran using DesignBuilder software. In 8th International Conference on Civil Engineering, Architecture, and Sustainable Green Urban Development.

David Owolabi | Civil Engineering | Best Researcher Award

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Mr. David Owolabi | Civil Engineering | Best Researcher Award

Morgan State University | United States

Mr. David Olusogo Owolabi is a researcher and educator specializing in sustainable infrastructure and resilient engineering. He holds a PhD (in progress) and an MSc in Sustainable Infrastructure and Resilient Engineering from Morgan State University, and a BSc in Architecture from Caleb University. In his role as a Graduate Research & Teaching Assistant at Morgan State, he supports undergraduate lab instruction in CAD and structural analysis (SAP2000) while conducting experimental research in self-healing bacterial concrete, fiber integration, and MICP-based crack remediation. Earlier, as an Architectural Designer at Kreativity Projects (Lagos) and an intern at Ab.dt Partnership (Ibadan), he developed design concepts, 3D visualizations, working drawings, and integrated sustainable design principles. His research interests span microbial self-healing concrete, bio-based infrastructure resilience, green building practices, and material durability. His published works include comparative analyses of autogenous vs microbial calcite precipitation in concrete and studies on crack healing performance via microbial carriers. He has also contributed to interdisciplinary studies on air quality in engineering labs and noise mitigation in buildings. He is a certified professional in Autodesk Revit and AutoCAD, has earned certifications in machine learning and socially just coding, and is committed to applying data-driven, sustainable innovation in civil infrastructure.

Profile : Google Scholar 

Featured Publications

Ahmad, I., Shokouhian, M., Owolabi, D., Jenkins, M., & McLemore, G. L. (2025). Assessment of biogenic healing capability, mechanical properties, and freeze–thaw durability of bacterial-based concrete using Bacillus subtilis, Bacillus sphaericus, and Bacillus megaterium. Buildings, 15(6), 943.

Ahmad, I., Shokouhian, M., Jenkins, M., McLemore, G. L., & Owolabi, D. O. (2025). Crack healing performance of microbial self-healing concrete using different carriers. In Structures Congress 2025 (pp. 362–372). American Society of Civil Engineers.

Owolabi, D. O., Shokouhian, M., Ahmad, I., Jenkins, M., & McLemore, G. L. (2025). Comparative analysis of autogenous and microbial-based calcite precipitation in concrete: State-of-the-art review. Buildings, 15(18), 3289.

Dunmoye, A. C., Owolabi, O. A., Banjo, A. V., Abiri, T. I., Dunmoye, I. D., & Owolabi, D. O. (2025). Noise mitigation strategies for vertical sound transmission in buildings with wooden floor. INTER-NOISE and NOISE-CON Congress and Conference Proceedings, 271(1), 1009–1018.

Balogun, G. Y., Owolabi, D. O., Ige, M. O., Abiri, T., Abiodun, P. O., & Owolabi, O. A. (2025). Assessing air quality at HBCU engineering laboratories to enhance student safety and learning. 2025 ASEE Annual Conference & Exposition. American Society for Engineering Education.