Seyedrasoul Nabavian | Civil | Best Researcher Award

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Assist. Prof. Dr. Seyedrasoul Nabavian | Civil | Best Researcher Award

Assist. Prof. Dr. Seyedrasoul Nabavian | Civil – Ayatollah Boroujeri University, Iran

Dr. Seyedrasoul Nabavian is an emerging scholar in the field of civil engineering with a developing academic track record in structural health monitoring and fracture mechanics. Currently serving as an Assistant Professor of Civil Engineering at Ayatollah Boroujerdi University, he has demonstrated a strong commitment to advancing knowledge in structural dynamics, particularly through innovative output-only modal identification techniques and sustainable material research. His contributions, though modest in scale at this stage of his career, display focused rigor, collaboration, and technical depth, positioning him as a researcher with high potential in both academic and applied engineering domains.

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Education:

Dr. Nabavian received his academic training in civil and structural engineering, with advanced studies focusing on structural mechanics, space structures, and material behavior under dynamic and environmental stressors. Through his postgraduate education, he developed a foundational interest in experimental and analytical methods for diagnosing structural performance, leading to his ongoing work in monitoring systems and advanced concrete technologies.

Experience:

Professionally, Dr. Nabavian has worked in both academic and collaborative research environments, partnering with national and international researchers to contribute to ongoing challenges in structural reliability and monitoring. His academic appointments have enabled him to teach courses in structural engineering, supervise students, and contribute to institutional research projects. Moreover, his participation in interdisciplinary teams involving experimental mechanics and computational analysis has strengthened his methodological base and research versatility.

Research Interests:

His research interests are concentrated in structural identification and monitoring, fracture mechanics, and sustainable construction materials. Specifically, he investigates output-only techniques for modal identification, noise effects on signal processing in structures, and fracture behavior in recycled aggregate concrete enhanced with nanomaterials or subjected to extreme conditions. These interests reflect a critical alignment with global trends toward smart infrastructure, resilient design, and environmental sustainability in civil engineering.

Awards:

While specific awards or honors are not listed in the current data, Dr. Nabavian’s collaborative research output and publication record in indexed journals demonstrate recognition within the academic community. His work has been cited across a range of publications, and he has contributed to the growing body of knowledge in non-invasive structural monitoring and advanced material modeling. As he continues to build his citation metrics and publication footprint, he is well-positioned to be recognized through future awards focused on early-career researchers or interdisciplinary contributions.

Publications:

📌 “Determining minimum number of required accelerometers for output-only structural identification of frames”
arXiv, 2020 – Cited by 4
A foundational study proposing optimal sensor placement strategies for structural monitoring.
🔍 “Effect of noise on output-only modal identification of beams”
arXiv, 2020 – Cited by 3
Explores how noise affects the accuracy of modal properties in beams.
🧪 “Output-only modal analysis of a beam via frequency domain decomposition method using noisy data”
International Journal of Engineering, 2019 – Cited by 3
Improves reliability in modal analysis using frequency-based techniques with noisy datasets.
♻️ “Fracture characteristics of recycled aggregate concrete using work-of-fracture and size effect methods: the effect of water to cement ratio”
Archives of Civil and Mechanical Engineering, 2023 – Cited by 3
Focuses on sustainable construction through recycled materials and mechanical modeling.
🌱 “Influence of nano‐silica particles on fracture features of recycled aggregate concrete using boundary effect method”
Structural Concrete, 2024 – Cited by 1
Investigates how nano-silica improves recycled concrete using experimental fracture testing.
🎯 “Damping estimation of a double-layer grid by output-only modal identification”
Scientia Iranica, 2021 – Cited by 1
Analyzes structural damping through output-only techniques applied to spatial grids.
🏗️ “Output-only Structural Identification of a Double-layer Grid with Ball Joint System”
Modares Civil Engineering Journal, 2026 – Not yet cited
Recent publication addressing modal identification in jointed structural frameworks.

Conclusion:

In conclusion, Dr. Seyedrasoul Nabavian represents a promising academic with solid technical grounding and a growing portfolio of peer-reviewed research. His contributions, although currently at an early career stage in terms of citations and publication scale, are impactful in terms of methodology and societal relevance. His dedication to structural monitoring, sustainability, and experimental mechanics underscores a thoughtful research agenda that addresses both immediate engineering challenges and long-term infrastructure needs. With continued support and recognition, he is expected to expand his research reach and strengthen his role in the international civil engineering research 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.

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🎓 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.

 

Deepak Kumar Singh | Structural Engineering | Best Researcher Award

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Assist. Prof. Dr. Deepak Kumar Singh | Structural Engineering | Best Researcher Award

Assist. Prof. Dr. Deepak Kumar Singh | Structural Engineering – Assistant Professor at Amity University Patna, India

Dr. Deepak Kumar Singh is an accomplished academic and researcher with extensive expertise in Civil and Structural Engineering. Born on August 5, 1987, in Bhojpur, Bihar, India, Dr. Singh has dedicated his career to advancing knowledge in areas such as structural analysis, finite element modeling, and vibration analysis. Currently, he serves as an Assistant Professor in the Department of Civil Engineering at Amity University Patna, where he contributes to teaching, research, and academic administration. His remarkable journey is a testament to his commitment to excellence in academia and engineering.

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Education

Dr. Singh earned his Ph.D. in Civil Engineering from MNNIT Allahabad, Prayagraj, in 2020, with a stellar CGPA of 8.5. His doctoral research focused on finite element analysis of stiffened plate structures, a critical area in structural engineering. He holds an M.Tech. in Structural Engineering (2014) from MNNIT Allahabad, where he graduated with a CGPA of 8.3. Dr. Singh also completed a B.Tech. in Mechanical Engineering in 2011 from Jaipur Engineering College, achieving an impressive percentage of 69.19%. His foundational education was secured at Kendriya Vidyalayas in Guwahati and Patna, where he consistently demonstrated academic excellence.

Experience

Dr. Singh has a diverse professional background with significant teaching and research roles across various prestigious institutions. Since March 2022, he has been an Assistant Professor at Amity University Patna. Previously, he served as an Assistant Professor at P P Savani University, Surat, and GNA University, Phagwara. His academic career began in 2011 as a Lecturer in Mechanical Engineering at Shri Radha Krishna Group of Institute, Ajmer. Over the years, Dr. Singh has developed expertise in teaching undergraduate and postgraduate courses, managing practical labs, and contributing to examination invigilation and curriculum development. He has also been a visiting faculty member at Amity University, Patna.

Research Interests

Dr. Singh’s research interests encompass structural analysis, matrix analysis of structures, finite element analysis, stiffened plate structures, lock gate structures, fluid-structure interaction, vibration analysis, and sandwich plate structures. His contributions to these fields have been impactful, addressing real-world engineering challenges and advancing theoretical frameworks.

Awards and Recognitions

Dr. Singh’s work has been recognized with numerous accolades. He has been invited to deliver guest lectures, including the Global Learning Program Fall Semester 2022 at Institut Teknologi Sepuluh Nopember, Indonesia. He is also an active contributor to patents and designs, with multiple innovations published and registered with the Indian Patent Office.

Publications

Deepak Kumar Singh and Preeti Agarwal, “Static and Dynamic Analyses of Stiffened and Unstiffened Square Steel Plates under Static and Hydrostatic Loads Using Finite Element Method,” Ships and Offshore Structures (Accepted, 2024). DOI

Ashwin Anand, Deepak Kumar Singh, “Vibrational Analysis of Polyurethane-Sandwiched Bridge Decks with Variable Skew Angles,” Noise & Vibration Worldwide, 55(9-10), 2024.

Deepak Kumar Singh, “Analysis of Isotropic Stiffened Plate Structure,” Noise & Vibration Worldwide, 54(10-11), 2023.

Preeti Agarwal and Deepak Kumar Singh, “Parametric Study on Prestressed Skewed Box-Girder Bridge,” Advances in Bridge Engineering, 4, 2023.

Patents and Innovations

Dr. Singh has actively contributed to innovation in engineering. His patents include:

  • Multi-Function Push-Button Switch Assembly with Interlock Mechanism (Published, 2023)
  • Battery-Operated Tea & Coffee Maker Assembly (Published, 2024)
  • Apparatus for Evaluating Flexural Strength of Brick Mortar Wall (Published, 2024)

Conclusion

Dr. Deepak Kumar Singh exemplifies the spirit of academic and professional excellence. With a robust portfolio of research, patents, and teaching experience, he continues to inspire and contribute to the fields of Civil and Structural Engineering. His work not only advances engineering education but also addresses practical challenges in the industry, reflecting his commitment to innovation and societal impact.