Shuvo Dip Datta | Civil Engineering | Research Excellence Award

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Mr. Shuvo Dip Datta | Civil Engineering | Research Excellence Award

Mr. Shuvo Dip Datta | Civil Engineering | Graduate Research Assistant at Khulna University of Engineering & Technology | Bangladesh

Mr. Shuvo Dip Datta is a highly motivated civil engineering researcher specializing in sustainable construction materials and construction management, with strong academic excellence and multidisciplinary professional exposure. He earned his Bachelor of Science in Building Engineering and Construction Management from Khulna University of Engineering & Technology, majoring in Structural and Materials Engineering, graduating 1st in class and is currently pursuing a Master of Science in Civil Engineering (Construction Management) at the University of Wyoming. Mr. Shuvo Dip Datta has served as a Graduate Research Assistant at the University of Wyoming, Lecturer and Research Assistant at KUET, Adjunct Lecturer at North Western University, and held industry roles as Structural Engineer and Project Coordinator. His research interests include supplementary cementitious materials, low-CO₂ sustainable concrete, construction management, and machine-learning-based modeling. His research skills span material characterization, large-scale experimental testing, microstructural analysis, and data-driven modeling. Mr. Shuvo Dip Datta has secured competitive research funding from the University Grants Commission and Lafarge Holcim Limited, reflecting his growing research leadership. Overall, Mr. Shuvo Dip Datta demonstrates strong potential for impactful academic and industry contributions in sustainable civil engineering.

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Featured Publications

Artificial intelligence and machine learning applications in the project lifecycle of the construction industry: A comprehensive review
– Heliyon, 2024 | Cited by: 170
Synergistic effects of supplementary cementitious materials and compressive strength prediction of concrete using machine learning algorithms with SHAP and PDP analyses
– Case Studies in Construction Materials, 2024 | Cited by: 118
Hybrid data-driven approaches to predicting the compressive strength of ultra-high-performance concrete using SHAP and PDP analyses
– Case Studies in Construction Materials, 2024 | Cited by: 112
Assessing the influence of sugarcane bagasse ash for the production of eco-friendly concrete: Experimental and machine learning approaches
– Case Studies in Construction Materials, 2024 | Cited by: 104
Evaluating the effects of recycled concrete aggregate size and concentration on properties of high-strength sustainable concrete
– Journal of King Saud University–Engineering Sciences, 2024 | Cited by: 103

Sandra Cunha Goncalves | Civil Construction | Best Researcher Award

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Prof. Dr. Sandra Cunha Goncalves | Civil Construction | Best Researcher Award 

Prof. Dr. Sandra Cunha Gonçalves | Civil Construction | Research Teacher at Federal Institute of Bahia | Brazil

Prof. Dr. Sandra Cunha Gonçalves is a highly respected scholar and civil engineer whose academic and professional career has been devoted to advancing sustainable construction materials and environmental engineering. She earned her Ph.D. in Biosystems Engineering from the Federal University of Southern Bahia (UFSB), where her doctoral research focused on the development of recycled gypsum composites reinforced with PVA emulsion and treated short green coconut fibers, offering innovative solutions for environmentally friendly building materials. Currently serving as a Permanent Professor at the Instituto Federal da Bahia (IFBA), Prof. Dr. Sandra Cunha Gonçalves has demonstrated outstanding teaching and research excellence, integrating science, technology, and sustainability in her curriculum and projects. Her professional experience encompasses the coordination of numerous research and extension projects focusing on sustainable housing, waste management, and the reuse of construction and agro-industrial residues. Her research interests include sustainable materials engineering, circular economy applications in construction, life-cycle assessment, and environmental management systems. Prof. Dr. Sandra Cunha Gonçalves possesses strong research skills in experimental design, material characterization, and data analysis using advanced modeling and simulation tools. She has published extensively in Scopus- and IEEE-indexed journals and has contributed to book chapters and national conferences, reflecting her multidisciplinary influence in engineering and environmental studies. Recognized for her innovative approach, she has received academic and institutional awards for excellence in sustainable engineering education, community engagement, and environmental research. Her leadership in outreach initiatives, such as projects promoting ecological construction and combating environmental inequality, demonstrates her dedication to social and environmental progress. Prof. Dr. Sandra Cunha Gonçalves stands out as an inspiring academic leader and innovator whose work bridges scientific rigor with social responsibility. Her commitment to sustainability, combined with her pedagogical and technical expertise, continues to contribute meaningfully to the global pursuit of greener, more resilient engineering practices.

Profile: ORCID

Featured Publications

  1. Gonçalves, S. C., & Oliveira, L. A. (2024). Recycled gypsum composites reinforced with PVA emulsion and short green coconut fibers: A sustainable material approach. Buildings, 14(6). (Cited by 38)

  2. Gonçalves, S. C., & Pereira, D. M. (2024). Sustainable reuse of gypsum residues for eco-efficient housing materials. Journal of Building Engineering, 92. (Cited by 27)

  3. Gonçalves, S. C., & Santos, R. F. (2023). Life-cycle assessment of biocomposites produced from agro-industrial waste. Journal of Cleaner Production, 389. (Cited by 45)

  4. Gonçalves, S. C., & Silva, M. T. (2023). Bioconstruction materials and their role in promoting environmental sustainability. Revista de Gestão Social e Ambiental, 17(3). (Cited by 21)

  5. Gonçalves, S. C., & Costa, J. L. (2022). Experimental evaluation of gypsum-based composites for sustainable construction. Construction and Building Materials, 352. (Cited by 33)

  6. Gonçalves, S. C., & Almeida, E. B. (2022). Assessing circular economy potential in the reuse of industrial by-products in civil engineering. Environmental Science and Policy, 137. (Cited by 29)

  7. Gonçalves, S. C., & Rodrigues, P. A. (2021). Socio-environmental strategies for low-cost housing using recycled construction residues. Sustainability, 13(19). (Cited by 41)

 

Hafiz Muhammad Shahzad Aslam | Civil Engineering | Best Researcher Award

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Mr. Hafiz Muhammad Shahzad Aslam | Civil Engineering | Best Researcher Award

Mr. Hafiz Muhammad Shahzad Aslam | Civil Engineering | Lecturer at The University of Lahore | Pakistan

Mr. Hafiz Muhammad Shahzad Aslam is an accomplished Civil Engineer specializing in sustainable construction materials and advanced concrete technologies. He holds a Ph.D. in Civil Engineering from the University of Lahore and a Master’s degree in Civil Engineering, where he earned a Silver Medal distinction. Professionally, he has served as a Lecturer at the University of Lahore, UET Lahore, and the Institute of Southern Punjab, Multan, while also gaining practical field experience as a Site Engineer. His research focuses on the use of industrial and recycled wastes such as pumice, PET fibers, and quarry dust in concrete, development of 3D printable mortars, and evaluation of early-age mechanical and durability properties. He possesses advanced skills in materials testing, structural analysis, hydraulic modeling, and sustainable construction practices. Mr. Hafiz Muhammad Shahzad Aslam has actively contributed to the academic community with 2 Scopus-indexed documents, 5 citations, and an h-index of 2, reflecting his growing research impact. He is a member of the Pakistan Engineering Council and the Institute of Engineers, Pakistan, and has received recognition as a Silver Medalist in his Master’s program. His leadership in research projects, commitment to mentoring students, and focus on eco-friendly infrastructure highlight his potential to advance civil engineering innovation and contribute significantly to sustainable development globally.

Profile: Scopus | Google Scholar

Featured Publications 

  1. Kanwal, H., Aslam, M. S., Mughal, T. L., Asim, M., & Memon, R. M. (2020). Human hair as fiber reinforced concrete for enhancement of tensile strength of concrete. Mehran University Research Journal of Engineering & Technology, 39(1), 63–70. Citations: 16

  2. Rehman, A. U., Siddiqi, Z. A., Yasin, M., Aslam, H. M. S., Noshin, S., & Aslam, H. M. U. (2025). Experimental study on the behavior of damaged CFRP and steel rebars RC columns retrofitted with externally bonded composite material. Advanced Composite Materials, 34(1), 93–139. Citations: 10

  3. Noshin, S., Aslam, M. S., Kanwal, H., Khan, M. A., & Ahmad, A. (2022). Effects on compressive and tensile strength of concrete by replacement of natural aggregates with various percentages of recycled aggregates. Mehran University Research Journal of Engineering and Technology, 41(1), 195–201. Citations: 10

  4. Aslam, H. M. S., Rehman, A. U., Onyelowe, K. C., Noshin, S., Yasin, M., & Khan, M. A. (2024). Evaluating the mechanical and durability properties of sustainable lightweight concrete incorporating the various proportions of waste pumice aggregate. Results in Engineering, 24, 103496. Citations: 9

  5. Riaz, K., Aslam, H. M. S., Yaseen, M. W., Ahmad, H. H., Khoshkonesh, A., & Noshin, S. (2022). Flood frequency analysis and hydraulic design of bridge at Mashan on river Kunhar. Archives of Hydro-Engineering and Environmental Mechanics, 69(1). Citations: 9

  6. Noshin, S., Khan, M. A., Salman, M., Aslam, M. S., Ahmad, H., & Rehman, A. U. (2021). Evaluating the compressive strength of concrete containing recycled aggregate in different curing conditions. Journal of Applied Engineering Sciences, 11(2), 127–136. Citations: 9

  7. Aslam, H. M. S., Noshin, S., Riaz, K., Rehman, A. U., Joyiaa, F. M., & Adnan, M. (2023). Effect of waste polyethylene terephthalate bottle fibers on the mechanical properties of recycled concrete. Advances in Civil and Architectural Engineering, 14(27), 1–13. Citations: 6

 

Atteq Ur Rehman | Civil Engineering | Best Academic Researcher Award

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Mr. Atteq Ur Rehman | Civil Engineering | Best Academic Researcher Award

Mr. Atteq Ur Rehman | Civil Engineering | Lecturer at The University of Lahore | Pakistan

Mr. Atteq Ur Rehman is a motivated and accomplished academician and researcher in the field of civil engineering, affiliated with the University of Lahore, Pakistan. With a strong research background in structural rehabilitation, retrofitting technologies, and advanced composite materials, he has established himself as a valuable contributor to infrastructure safety and resilience. His scholarly contributions reflect a rigorous and interdisciplinary approach to engineering challenges, particularly in structural performance and damage mitigation of reinforced concrete systems. Mr. Rehman’s work demonstrates a balance of academic depth and practical relevance, making him a strong candidate for international recognition in the engineering and applied sciences community.

Academic Profile:

Scopus

Education:

Mr. Atteq Ur Rehman completed his higher education with a focus on civil and structural engineering, culminating in a doctoral degree in Civil Engineering from the University of Lahore. His academic formation was marked by advanced coursework and thesis research centered on retrofitting damaged structural elements using composite materials. During his doctoral studies, Mr. Rehman gained a solid foundation in experimental mechanics, concrete technology, and finite element analysis, enabling him to contribute to modern structural solutions. His educational journey is characterized by a continuous pursuit of innovation in materials and construction methodologies aligned with current global engineering trends.

Experience:

Professionally, Mr. Atteq Ur Rehman has served in academic and research roles, contributing to both teaching and scholarly inquiry. As a faculty member at the University of Lahore, he is actively involved in supervising undergraduate and postgraduate research projects. His experience includes working on interdisciplinary teams that focus on civil infrastructure improvement and resilience strategies, particularly in seismic zones. He has also contributed to curriculum development and has played an active role in organizing technical seminars and workshops to foster knowledge exchange among students and peers. His involvement in collaborative research groups has further enhanced his expertise in experimental and analytical techniques for structural assessment.

Research Interest:

Mr. Atteq Ur Rehman’s research interests lie in structural engineering, with a focus on retrofitting and strengthening reinforced concrete members using advanced composite materials. His work emphasizes the behavior of damaged columns reinforced with CFRP and steel rebars, aiming to improve the performance and safety of aging or earthquake-prone infrastructure. He is also interested in sustainable construction practices and the integration of smart materials into traditional civil engineering systems. Through experimental studies and simulations, Mr. Rehman explores innovative methods to extend the life cycle of civil structures. His research has implications for both academic advancement and public safety.

Award:

In recognition of his academic efforts, Mr. Atteq Ur Rehman has been nominated for several institutional and external acknowledgments. His work has been recognized in academic settings for its relevance to both national infrastructure needs and international scientific communities. Through active involvement in university-level research committees and participation in engineering symposia, he has consistently demonstrated academic leadership and commitment to applied research. His eligibility for prestigious awards is supported by his growing publication record, citation impact, and engagement in multi-institutional collaborations. This nomination reflects his consistent dedication to advancing engineering science and his potential for global impact.

Selected Publication:

  • “Experimental study on the behavior of damaged CFRP and steel rebars RC columns retrofitted with externally bonded composite material”, Advanced Composite Materials, Published: 2025 — Citations: 3

Conclusion:

Mr. Atteq Ur Rehman is a forward-thinking researcher whose academic background, applied research, and publication record make him a deserving candidate for international award recognition. His contributions address some of the most pressing challenges in structural engineering, with real-world applications that enhance public safety and infrastructure resilience. Through a combination of scholarly excellence, teaching dedication, and collaborative engagement, Mr. Rehman has laid a strong foundation for future leadership in engineering research. With his ongoing commitment to innovation and academic impact, he is well-positioned to contribute significantly to global research initiatives in civil and structural engineering.

 

 

Mayen Geu | Civil Engineering | Best Researcher Award

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Mr. Mayen Geu | Civil Engineering | Best Researcher Award 

Mr. Mayen Geu | Civil Engineering | PhD Candidate at University of South Australia | Australia

Mr. Mayen Geu is a dedicated civil and structural engineering professional whose academic and research career reflects a strong commitment to sustainable infrastructure development. His professional journey bridges the gap between theory and practice, as he has held academic positions in both teaching and research, while also serving in engineering roles across industry. He is known for his scholarly contributions to the study of sustainable concrete materials and structural performance, with a focus on the durability of alternative cementitious composites. His professional trajectory highlights his passion for combining advanced research with real-world engineering applications, ensuring that his academic outputs contribute directly to sustainable construction practices.

Academic Profile 

ORCID

Education

Mr. Mayen Geu holds a doctorate in civil and structural engineering from the University of South Australia, with his doctoral research centered on the durability performance of concrete produced using clay minerals and recycled components. His advanced research builds on earlier studies completed during his postgraduate training in structural and geotechnical engineering at Griffith University. He also completed undergraduate studies in civil and project management engineering at the University of South Australia. His educational pathway demonstrates a consistent emphasis on structural performance, geotechnical behavior, and materials research, forming a strong academic foundation that supports his research and teaching excellence.

Experience

Mr. Mayen Geu has a wealth of experience in both academia and professional engineering. He has served as a lecturer in civil engineering, where he delivered courses on reinforced concrete design and foundation engineering, while also taking on leadership responsibilities such as acting head of a civil engineering department. In his current academic role at the University of South Australia, he teaches mechanics of materials and reinforced concrete design, providing students with practical insights and research-informed learning. His teaching approach combines experimental work with theoretical understanding, preparing students for professional engineering practice. Beyond academia, he has worked as a project civil engineer and graduate engineer, contributing to the design, procurement, and supervision of construction projects in Australia. This professional background allows him to integrate field experience with research and classroom teaching, enriching the academic environment for his students.

Research Interest

The primary research interests of Mr. Mayen Geu focus on the sustainability and durability of cementitious composites, particularly concrete incorporating calcined clays and recycled fibers. His work emphasizes optimizing material performance, improving microstructural properties, and reducing the environmental impact of construction. He has investigated the influence of calcination processes on metakaolin reactivity, the durability of concrete reinforced with recycled plastic fibers, and the structural performance of innovative composite systems. His research aims to contribute to a more resilient and sustainable construction industry by integrating alternative raw materials and enhancing long-term performance characteristics. These efforts align with global sustainability goals and provide critical insights into the future of environmentally conscious infrastructure development.

Award

Mr. Mayen Geu has been recognized with research and academic scholarships, including the prestigious Research Training Program Scholarship in Australia. His academic excellence and leadership in teaching and research have been consistently acknowledged through faculty commendations and student recognition. His commitment to advancing sustainable construction technologies positions him as a strong candidate for international research awards, highlighting both his academic achievements and his contributions to community development through engineering education.

Selected Publications

  • “Optimising calcination temperature for high reactivity metakaolin: influence on amorphous content, mineralogy, and microstructure.” Construction and Building Materials, Citations: 15.

  • “Durability performance of calcined clay concrete reinforced with recycled plastic fibres.” STEM HDR Research Proceedings, Citations: 10.

  • “The influence of calcination temperatures on the amorphous content in metakaolin.” Concrete Institute of Australia Conference Proceedings, Citations: 7.

Conclusion

In summary, Mr. Mayen Geu is an accomplished civil engineer, researcher, and educator whose contributions to sustainable construction materials and structural engineering are both academically significant and socially relevant. His expertise in the design and performance of advanced concrete composites addresses one of the most pressing challenges in modern engineering: creating infrastructure that is both durable and environmentally sustainable. He has demonstrated strong leadership in academia, guiding students while advancing independent and collaborative research. His publication record, scholarship awards, and community engagement reflect a career dedicated to research excellence and professional service. With his proven ability to integrate teaching, research, and practical engineering, Mr. Mayen Geu is exceptionally deserving of recognition through international academic awards, as his future work promises continued advancements in sustainable infrastructure and contributions to the global engineering community.

Ishini Saparamadu | Civil Engineering | Young Innovator Award

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Ms. Ishini Saparamadu | Civil Engineering | Young Innovator Award

Ms. Ishini Saparamadu | Civil Engineering – Research Assistant at University of Moratuwa, Sri Lanka

P V Ishini Nimasha Saparamadu is a dynamic and forward-thinking research assistant and enterprise AI solutions engineer whose work sits at the intersection of artificial intelligence and construction management. With a passion for bridging academia and industry, she is recognized for her trailblazing innovations in automating construction processes through AI and natural language processing (NLP). As the founder of Concolabs (Pvt) Ltd, Ishini has pioneered a suite of intelligent tools aimed at digitizing traditional construction workflows, from contract interpretation to progress payments, setting a new standard for smart infrastructure and compliance technologies. Her contributions have rapidly positioned her as one of the emerging voices in digital transformation within the construction sector, and she is highly regarded for her ability to translate complex research into functional, real-world applications that enhance industry efficiency, accuracy, and regulatory alignment.

Profile Verified:

Google Scholar

🎓 Education:

Ishini graduated with top honors in Quantity Surveying from the University of Moratuwa, Sri Lanka, maintaining a stellar GPA of 4.02 out of 4.2. Her academic background equipped her with a solid foundation in cost management, construction law, and project administration—fields she would later revolutionize with AI-driven approaches. She was an active participant in academic competitions and research activities during her undergraduate years, often leading interdisciplinary efforts to bring cutting-edge digital methods to traditional construction problems.

💼 Experience:

Combining research with entrepreneurship, Ishini currently serves as both a research assistant at the University of Moratuwa and the lead solutions engineer at Intelligent Label Solutions. Through her start-up Concolabs, she has designed and launched several practical tech products, including Roboclause, a construction law chatbot that interprets standard bidding documents, and MeasureonAir, a mobile application that automates on-site measurements and generates interim payment applications. Her industry contributions are enhanced by consultancy-based tools such as BuildMarketLK, an AI-driven market prediction model for construction prices, and Bimverse, a chatbot that interfaces with Building Information Models (BIM) through natural language. Her ability to seamlessly integrate theoretical frameworks with functional prototypes reflects her maturity as both a researcher and a tech innovator.

🔬 Research Interest:

Her primary research interests include artificial intelligence in construction, NLP-powered contract automation, regulatory compliance in construction law, and BIM-based digital interfaces. She is particularly focused on how Large Language Models (LLMs) and vector databases can be optimized for interpreting and managing legal and contractual documents in construction projects. Her research aims to streamline document-heavy administrative tasks, thereby minimizing human error, reducing project delays, and enabling smarter decision-making environments in construction management.

🏆 Awards:

Ishini has received multiple accolades that validate her academic excellence and innovative potential. Among these are the prestigious Vidyajyothi Award for Most Outstanding Graduate, the Robin Jones Award, and the Best Undergraduate Research Award. Her paper on construction law automation also received the Best Paper Award at the World Construction Symposium, and she was a semi-finalist for the Chartered Institute of Building (CIOB) Student Scholarship, which recognizes emerging leaders in global construction innovation.

📚 Publications:

  • “Optimising Contract Interpretations with Large Language Models: A Comparative Evaluation of a Vector Database-Powered Chatbot vs. ChatGPT” 📚 Buildings, Volume 15, Issue 7, Article 1144🗓️ Published: 2025👥 Authors: P Saparamadu, S Sepasgozar, RND Guruge, HS Jayasena, A Darejeh, et al.🔗 Cited by: 11 articles🧠 Focus: Comparative analysis of ChatGPT and vector database-powered chatbots for interpreting construction contracts.
  • “Blueprint for a Natural Language Processing Powered Nexus for Regulatory and Legal Landscape in Construction”📘 Proceedings of the 12th World Construction Symposium, Page 307🗓️ Published: 2024👥 Authors: P Saparamadu, HS Jayasena, BAI Eranga🔗 Cited by: 7 articles🏗️ Focus: NLP-based framework for harmonizing construction regulatory and legal data.

🔚 Conclusion:

Ishini Nimasha Saparamadu exemplifies the essence of a Young Innovator, seamlessly blending technical ingenuity, academic rigor, and entrepreneurial execution to address some of the most complex and bureaucratic challenges in the construction industry. Her contributions extend beyond academia into tools that are already being piloted and applied in real-world projects. With a clear trajectory of impactful work, she continues to influence the evolution of construction law automation and digital project management. Her unique blend of research, product innovation, and industry implementation makes her a deserving nominee for the Young Innovator Award.

 

Burak Çırağ | Civil Engineering | Young Scientist Award

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Dr. Burak Çırağ | Civil Engineering | Young Scientist Award

Research Assistant | Atatürk University | Turkey

Burak Çırağ is a research assistant at Atatürk University, specializing in hydraulic engineering within the Department of Civil Engineering. His research focuses on stormwater drainage systems, flood performance, and the optimization of water management strategies. With an extensive background in environmental engineering and hydraulic modeling, Çırağ is actively contributing to national and international projects related to flood management and sustainable drainage systems. His academic journey is marked by rigorous research and an unwavering commitment to advancing water resource management techniques.

Profile

Scopus

Education
Burak Çırağ completed his bachelor’s degree in Civil Engineering in June 2018, followed by a master’s degree with a thesis titled “Evaluation of Flood Performance in Stormwater Drainage Systems” under the guidance of Mahmut Fırat in 2021. He is currently pursuing his doctoral studies, delving deeper into optimizing stormwater systems and flood control mechanisms. Throughout his academic tenure, Çırağ has cultivated a strong foundation in hydrology, hydraulic modeling, and environmental engineering.

Experience
Since February 2020, Burak Çırağ has been serving as a research assistant in the Civil Engineering Department at Atatürk University, focusing on hydraulic systems and stormwater management. He has contributed to several national research projects, including evaluating the performance of stormwater drainage systems and exploring optimization algorithms for stormwater network planning. Çırağ is also involved in hydrodynamic modeling and flood behavior analysis in the Karasu Basin. These research initiatives are part of larger efforts to advance flood prediction and water management technologies.

Research Interests
Çırağ’s primary research interests lie in hydraulic engineering, particularly in the analysis and optimization of stormwater drainage systems. He focuses on flood modeling, performance evaluation, and sustainable urban drainage systems (SUDS). Additionally, his work explores the impact of land use and surface runoff on flood propagation. Çırağ is committed to understanding and mitigating flood risks in urban environments through advanced modeling techniques and the development of optimized drainage strategies.

Awards
Burak Çırağ has received a Certificate in Data Protection and Privacy (KVKK) from Atatürk University in June 2022, recognizing his commitment to professional development in security and legal matters. While his focus remains on research and academic growth, his contributions have garnered attention within national scientific communities.

Publications

  1. Çırağ, B., & Fırat, M. (2023). Two-dimensional (2D) flood analysis and calibration of stormwater drainage systems using geographic information systems. Water Science and Technology, 87(10), 2596. [DOI: 10.2166/wst.2023.126]
  2. Çırağ, B., & Fırat, M. (2023). Investigation of failures occurring in stormwater drainage systems according to system characteristics and spatial variation. International Ecology and Environment Congress, 41-52.
  3. Çırağ, B., & Fırat, M. (2023). Flood analysis of conventional stormwater drainage systems and examples of urban sustainable drainage systems. International Ecology and Environment Congress, 31-41.
  4. Çırağ, B., Fırat, M., & Aydın, Ö. (2021). Analysis of the flood performance of stormwater drainage systems for different return periods. 4th International Conference of Contemporary Affairs in Architecture and Urbanism, 774-785.
  5. Taşkolu, İ., Acar, R., & Çırağ, B. (2024). Trend analysis of precipitation and temperatures in the Black Sea region using the innovative trend analysis. Journal of Studies in Advanced Technologies, 2(2), 74-82. [DOI: 10.63063/jsat.1505540]
  6. Çırağ, B., & Fırat, M. (2022). Evaluation of land use types and surface runoff effects in flood propagation maps: A case study of Malatya Province. Kahramanmaraş Sütçü İmam University Journal of Engineering Sciences, 25(3), 222-236.
  7. Çırağ, B., Taşkolu, İ., Acar, R., Fırat, M., & Şengül, S. (2024). Evaluation of trends in precipitation and temperature values alongside land use/cover changes: A case study of Erzurum Province. XII. National Hydrology Congress, 384-393.

Conclusion
Burak Çırağ is a dedicated researcher committed to advancing the field of hydraulic engineering, particularly in stormwater management and flood mitigation. His work, which bridges academic theory and practical application, aims to enhance water resource management and reduce flood risks in urban settings. Through his extensive research, publications, and contributions to national and international projects, Çırağ is making significant strides toward creating sustainable water management systems that can be adapted to the growing challenges posed by climate change and urbanization. His academic and professional achievements reflect a future leader in environmental engineering.

Wang-Sang Lee | Engineering | Best Researcher Award

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Prof. Dr. Wang-Sang Lee | Engineering | Best Researcher Award

Professor | Gyeongsang Nationa University | South Korea

Prof. Wang-Sang Lee is a distinguished academic in the field of Electrical Engineering with expertise in Antenna and RF/Microwave System design. He is a Professor at the School of Electronic Engineering at Gyeongsang National University (GNU) in South Korea, where he also leads the Antenna & RF System Laboratory. With an impressive academic background, including a Ph.D. from KAIST (Korea Advanced Institute of Science and Technology), Prof. Lee has made significant contributions to various areas of RF/Microwave engineering, including wireless power transfer, communications systems, and RFID technologies. He has served in multiple capacities in both academia and industry, including roles as a senior researcher at prestigious institutions like the Korea Railroad Research Institute (KRRI) and the Korea Testing Laboratory (KTL). His research impacts industries such as telecommunications, transportation, and smart manufacturing.

Profile

Scholar

Education

Prof. Wang-Sang Lee’s educational journey began with his Bachelor’s degree in Electronic Engineering from Soongsil University in Seoul, South Korea, where he graduated in 2004. He continued his studies at KAIST, where he completed his M.S. in Electrical Engineering in 2006. His Master’s thesis focused on “Wideband Antenna with Integrated Filters,” contributing to the development of MB-OFDM UWB RF transceivers and small antennas for mobile phones. Prof. Lee earned his Ph.D. from KAIST in 2013, under the guidance of Prof. Jong-Won Yu. His doctoral research, titled “HF Near-field Power Transfer and Communications Using Antiparallel Loops,” explored wireless power transfer and data communication systems, solidifying his expertise in the intersection of antenna design and wireless technologies.

Experience

Prof. Lee has built a diverse and robust career in both academic and industrial sectors. Since September 2014, he has been a faculty member at Gyeongsang National University, rising through the ranks from Assistant Professor to Associate Professor and now to Full Professor. He also served as a Visiting Scholar at the ATHENA Lab at Georgia Institute of Technology in Atlanta, USA, from 2018 to 2019. Prior to his tenure at GNU, Prof. Lee worked as a Senior Researcher at the Korea Railroad Research Institute (KRRI), where he was involved in cutting-edge projects for high-speed railroad position detection systems and microwave heating for rapid tunnel excavation. Additionally, he has contributed significantly to international standardization efforts related to RFID and Photovoltaic (PV) systems during his time at the Korea Testing Laboratory (KTL).

Research Interests

Prof. Wang-Sang Lee’s research interests lie in a range of advanced RF and microwave engineering fields. His primary focus includes the design and analysis of antennas, circuits, and systems for both near- and far-field wireless power transfer and data communication applications. He has a keen interest in developing innovative solutions in RFID and IoT-based sensing, positioning, and monitoring for smart manufacturing. Prof. Lee’s work also addresses electromagnetic interference (EMI) shielding, filtering, cabling, and grounding to enhance the EMC (electromagnetic compatibility) of modern electronic systems. His research has contributed to the advancement of both theoretical and practical aspects of RF and microwave technologies, particularly in smart and beamforming antenna systems, wideband circular polarization antennas, and reconfigurable feeding networks.

Awards

Prof. Wang-Sang Lee has been the recipient of numerous prestigious awards and honors throughout his career. Notably, he was honored with the Best Paper Award by several organizations, including the Institute of Electronics and Information Engineers (IEIE) and the Korean Institute of Electromagnetic Engineering and Science (KIEES) during 2016-2020. He also received the Young Researcher Award from KIEES in 2017. His academic excellence was recognized with the Best Ph.D. Dissertation Award from KAIST in 2014, and he earned the Grand Prize in the 2012 Doctoral Research Achievement Award at KAIST. Prof. Lee’s commitment to high-quality research is also reflected in his Honorable Mention at the IEEE APS/URSI conference in 2020 and his paper award at the 7th Annual IEEE International Conference on RFID in 2013.

Publications

Prof. Lee has authored and co-authored several influential research articles in prominent journals and conferences. Some of his key publications include:

  1. Lee, W.-S., et al. (2013). “HF Near-field Power Transfer and Communications Using Antiparallel Loops,” IEEE Transactions on Microwave Theory and Techniques.
    • Cited by: Over 100 citations.
  2. Lee, W.-S., et al. (2016). “Wideband Antenna with Integrated Filters for UWB RF Transceivers,” IEEE Antennas and Wireless Propagation Letters.
    • Cited by: Over 75 citations.
  3. Lee, W.-S., et al. (2019). “Reconfigurable Feeding Networks for Smart Antennas in 5G Communications,” Journal of Electromagnetic Engineering and Science.
    • Cited by: Over 50 citations.
  4. Lee, W.-S., et al. (2020). “Electromagnetic Interference and Shielding for Smart Manufacturing Systems,” IEEE Transactions on Industrial Electronics.
    • Cited by: Over 30 citations.

These publications have contributed significantly to the fields of RF/microwave system design, wireless power transfer, and EMC, cementing Prof. Lee’s reputation as a leading researcher in his areas of expertise.

Conclusion

Prof. Wang-Sang Lee is an accomplished academic whose contributions to the field of RF and microwave engineering have made a lasting impact. His research not only advances theoretical knowledge but also addresses practical challenges in areas like wireless power transfer, electromagnetic compatibility, and smart manufacturing systems. With a strong academic background and extensive professional experience, Prof. Lee continues to push the boundaries of innovation in his field. Through his numerous publications, awards, and professional services, he has earned recognition as a thought leader in RF and microwave technology. Prof. Lee’s ongoing work promises to continue shaping the future of telecommunications, transportation, and other high-tech industries.

Mostafa Bigdeli | Civil Engineering | Best Researcher Award

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Mr.Mostafa Bigdeli | Civil Engineering | Best Researcher Award

Student University of Ottawa  Canada

Mostafa Bigdeli is a seasoned water resources engineer with over a decade of experience in sustainable water management, hydraulics, and hydrology. His expertise spans numerical modeling, hydrotechnical engineering, and designing water infrastructure. With a strong academic background and extensive research experience, Mostafa has contributed significantly to the field of water resources through his work at the University of Ottawa and the National Research Council of Canada.

Profile

Scopus

Education

🎓 Ph.D. in Civil Engineering (Specialization in Hydrology and Hydraulics) (In Progress – Fall 2024)
University of Ottawa, Canada

🎓 M.Sc. in Civil and Environmental Engineering (2016)
Sharif University of Technology, Tehran, Iran

🎓 B.Sc. in Civil Water and Waste Water Engineering (2013)
Shahid Beheshti University, Tehran, Iran

Experience

💼 Research Assistant
National Research Council of Canada (NRC) (Jan 2023 – Feb 2024)

  • Modeled microplastics transport and deposition.
  • Developed CFD models for hydraulic applications.
  • Collaborated with cross-functional teams for data integration.

💼 Research Assistant
University of Ottawa – NRC (Jan 2022 – Jan 2023)

  • Simulated microplastics transport in the Ottawa River.
  • Conducted field studies and laboratory experiments.

💼 Supervisor
Air and Climate Projects, Tehran, Iran (Apr 2019 – Aug 2021)

  • Managed air pollutants and GHG emission inventory projects.
  • Developed emission reduction strategies.

💼 Supervisor
Water & Wastewater Networks Projects, Tehran, Iran (Mar 2017 – Mar 2019)

  • Supervised water distribution and wastewater collection network projects.

Research Interests

Mostafa’s research focuses on sustainable water management, numerical and experimental modeling of water systems, hydrotechnical and hydrological modeling, dam break analysis, and microplastics transport. His work integrates advanced data analysis and computer modeling techniques to improve water resources management.

Awards

  • Ranked in the top 1% of the Nationwide University Entrance Exams for B.Sc.
  • Ranked in the top 0.5% of the Nationwide University Entrance Exams for M.Sc.

Publications

  • Bigdeli, M., Mohammadian, A., Pilechi, A. (2024). “A Laboratory Dataset on Transport and Deposition of Spherical and Cylindrical Large Microplastics for Validation of Numerical Models.” Journal of Marine Science and Engineering, MDPI. https://doi.org/10.3390/jmse12060953 – Cited by 5 articles.
  • Roshani, E., Popov, P., Kleiner, Y., Sanjari, S., Colombo, A., Bigdeli, M. (2024). “Detecting and Locating Chemical Intrusion in Water Distribution Systems Using 9-1-1 Calls.” Journal of Hydroinformatics. https://doi.org/10.2166/hydro.2024.299 – Cited by 3 articles.
  • Bigdeli, M., Taheri, M., Mohammadian, A. (2023). “Numerical Modeling of Dam-Break Flood Flows for Dry and Wet Sloped Beds.” ISH Journal of Hydraulic Engineering. https://doi.org/10.1080/09715010.2022.2052986 – Cited by 4 articles.
  • Bigdeli, M., Mohammadian, A., Pilechi, A. (2022). “Numerical Modeling of Marine Microplastics Deposition Using Coupled CFD-DEM.” 3rd IAHR Young Professionals Congress.
  • Bigdeli, M., Mohammadian, A., Pilechi, A., Taheri, M. (2022). “Lagrangian Modeling of Marine Microplastics Fate and Transport: The State of the Science.” Journal of Marine Science and Engineering, MDPI. https://doi.org/10.3390/jmse10040481 – Cited by 6 articles.
  • Bigdeli, M., Mohammadian, A. (2021). “Numerical Simulation of Dam-Break Flood Flows on Sloping Beds.” CFDSC2021 Conference.
  • Bigdeli, M., Mohammadian, A. (2021). “Numerical Simulation of Turbulent Offset Dense Jet Flow.” CSCE 2021 Annual Conference.