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.

Muhammad Bilal | Civil Engineering | Best Researcher Award

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Dr. Muhammad Bilal | Civil Engineering | Best Researcher Award

Dr. Muhammad Bilal | Civil Engineering – Doctoral Student at Shanghai Jiao Tong University, China

Muhammad Bilal is a driven doctoral researcher in Civil Engineering at Shanghai Jiao Tong University, China. With a multidisciplinary background and strong academic foundations, he has dedicated his academic career to advancing geotechnical engineering and natural hazard risk reduction, particularly focusing on slope stability and landslide hazard assessment. Known for his hands-on problem-solving abilities and commitment to sustainable infrastructure, Bilal brings together technical excellence and global collaboration. He has actively contributed to the academic community through impactful research, international publications, and participation in advanced research projects across Asia. His passion for research, strong theoretical knowledge, and applied engineering skills position him as an emerging voice in geotechnical and environmental engineering research.

Academic Profile:

Scopus

Education

Bilal’s academic journey began with a Bachelor’s degree in Civil Engineering from the University of Engineering and Technology (UET), Taxila. His undergraduate research on subgrade soil modeling led to his first research publication and sparked his interest in experimental geotechnics. He went on to complete his Master’s degree in Civil Engineering from Harbin Institute of Technology in 2024, where he worked on the slope stability analysis under freeze-thaw cycles. Currently, he is pursuing his Ph.D. at Shanghai Jiao Tong University, one of China’s top-tier research institutions. His doctoral research focuses on rainfall-induced landslide hazard assessment using advanced numerical methods like SPH and LPF3D simulation software, with a particular emphasis on multi-landslide chain reactions and vegetation-based mitigation approaches.

Experience

Bilal has been deeply involved in both academic and applied engineering environments throughout his academic career. He has participated in several national and international research projects dealing with soil behavior, landslide prediction, and geotechnical risk assessment. His practical experience includes working on geotechnical modeling, statistical prediction of subgrade strength, and dynamic hazard assessment. His leadership skills were demonstrated early when he led his undergraduate team on a final-year research project that earned a publication at an international sustainability conference. He is also proficient in using tools such as Abaqus, SPSS, AutoCAD, LPF3D, and Rhinoceros, giving him a solid foundation in both analytical modeling and digital design. His contributions have extended beyond academia to practical geotechnical problem-solving with real-world applications.

Research Interests

Bilal’s primary research interests lie in geotechnical engineering, particularly in slope stability, landslide mechanics, soil-structure interaction, and the use of numerical simulations in hazard mitigation. He has a strong focus on rainfall-induced landslides, freeze-thaw soil behavior, and predictive modeling of soil mechanics. His work often integrates advanced simulations with real-case data, offering insights into complex hazard mechanisms and their mitigation. Additionally, he explores the environmental role of vegetation in controlling debris flow and landslide spread in mountainous terrains. His interdisciplinary interest also extends to the use of nanomaterials in civil engineering applications and the advancement of sustainable geotechnical practices.

Awards and Honors

Bilal is a recipient of the prestigious Chinese Government CSC Scholarship, awarded for his outstanding academic performance and research potential. He has earned a Certificate of Continuing Professional Development from the Pakistan Engineering Council and has completed an international course in Construction Project Management. His earlier academic milestones include winning multiple scholarships, participating in national competitions, and achieving certifications in Microsoft Office and technical surveying. These awards reflect his consistent commitment to academic growth, professional development, and lifelong learning.

Selected Publications 📚

  1. 📘 “Failure process analysis of a catastrophic landslide in Zhenxiong…” – Engineering Geology, 2025, cited by 9 articles
  2. 🧱 “Prediction of Resilient Modulus of Subgrade Loamy Soils…” – IJ Engineering Works, 2024, cited by 6 articles
  3. 📗 “Application of nanomaterials on the performance of asphalt binders…” – Journal of Road Engineering, 2025, cited by 4 articles
  4. 🌧️ “Dynamic analysis of rainfall-induced landslides…” – Bulletin of Engineering Geology (Under Review)
  5. 📝 “Regression Model for Predicting Soaked CBR from UCC” – Sustainable Structures and Materials, 2023, cited by 5 articles
  6. 🌍 “Track Geometry Indices Case Study: Beijing-Guangzhou Railway” – Transportation Research Records, 2025, cited by 3 articles
  7. 🏗️ “Empirical Correlation Between Index and Strength Properties” – 3rd CSCE Conference, 2021, cited by 2 articles

Conclusion

Muhammad Bilal is a promising researcher whose contributions to civil and geotechnical engineering are well-aligned with the goals of the “Best Researcher Award” category. His academic rigor, strong publication record, and global academic engagements reflect his potential to drive innovation and research impact in the field. He has demonstrated exceptional ability in integrating theoretical models with real-world engineering problems, especially in natural hazard mitigation. Bilal continues to show outstanding promise as a future academic leader, and his ongoing Ph.D. research is expected to contribute significantly to the body of knowledge in landslide risk management. His passion for sustainable engineering solutions and cross-cultural collaborations make him a well-rounded and deserving nominee for this award.

 

 

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.

Profile Verified:

Google Scholar

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.

 

 

 

Prof. Dr. Sudip Basack | Civil Engineering | Distinguished Scientist Award

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Prof. Dr. Sudip Basack | Civil Engineering | Distinguished Scientist Award 

Prof. Dr. Sudip Basack, Regent Education and Research Foundation, India

Dr. Sudip Basack is a seasoned academician and civil engineer with over 21 years of extensive teaching, research, and administrative experience in India and abroad. He holds a Ph.D. in Geotechnical Engineering from Jadavpur University, India, and has served in key academic roles including Professor, Principal, and Head of Department at various reputed institutions. Dr. Basack has worked internationally as a Research Academic and Postdoctoral Fellow in Australia, specializing in ground improvement and railway geomechanics. His research interests span geotechnical engineering, water resources, and groundwater hydrology, with numerous publications in peer-reviewed international journals and conferences. A Chartered Engineer and Fellow of several professional bodies, Dr. Basack is known for his dedication to academic excellence, leadership in R&D projects, supervision of postgraduate and doctoral scholars, and commitment to advancing civil engineering education and practice globally. He is currently serving as an Adjunct Professor at the Department of Civil Engineering, Graphic Era Deemed to be University, Dehradun, India.

Professional Profile:

GOOGLE SCHOLAR

ORCID

SCOPUS

Summary of Suitability for Distinguished Scientist Award

Dr. Sudip Basack is highly suitable for the  Distinguished Scientist Award owing to his distinguished academic and research career spanning over 21 years, including international experience in Australia. His impactful contributions to geotechnical engineering—reflected through high-quality publications in top-tier journals, funded research projects, and PhD supervision—demonstrate his leadership in research innovation. Dr. Basack’s work on stone column-reinforced soft soils and pile foundations has gained significant citations and recognition globally. His consistent pursuit of excellence and dedication to advancing civil engineering research make him a strong and deserving candidate for this prestigious

🎓 Educational Background

  • 📅 2000Ph.D. in Engineering (Geotechnical Engineering)
    Jadavpur University, Kolkata, India

  • 📅 1996Master of Civil Engineering (1st Class, Geotechnical Engineering)
    Jadavpur University, Kolkata, India

  • 📅 1994Bachelor of Engineering (1st Class, Civil Engineering)
    Bengal Engineering College (now IIEST Shibpur), University of Calcutta, India

💼 Professional Work Experience

👨‍🏫 Academic Positions – 21+ Years

  • 📍 Adjunct Professor, Graphic Era University, Dehradun
    (Feb 2024 – Present)
    🧪 Teaching & research in Geotechnical & Civil Engineering

  • 🎓 Principal, Elitte College of Engineering, Kolkata
    (Sept 2019 – Jan 2024)
    🏫 College administration and teaching

  • 🏗️ Professor & Head, Dept. of Civil Engineering, Kaziranga University, Assam
    (Jan 2018 – Jan 2019)

  • 🇦🇺 ARC Level-A Research Academic, University of Wollongong, Australia
    (Mar 2014 – Mar 2017)
    Ground improvement, railway geomechanics

  • 🇦🇺 Endeavour Postdoctoral Fellow, Australian Govt. – UOW
    (May 2010 – Nov 2010)

  • 🇦🇺 Visiting Fellow, University of Technology Sydney
    (Nov 2010 – Dec 2010)

  • 🏫 Faculty Member, Bengal Engineering & Science University (Now IIEST Shibpur)
    (2002 – 2014)
    Roles: Lecturer → Assistant Professor → Associate Professor

  • 🏫 Lecturer, ICV Polytechnic, Jhargram
    (Feb 2001 – Aug 2002)

🏗️ Industry Experience – 0.75 Years

  • 👷‍♂️ Project Engineer, Tara International, Kolkata
    (Oct 1999 – Mar 2000)

  • 🏗️ Trainee Structural Engineer, Sristi Consultants, Kolkata
    (Nov 2000 – Feb 2001)

🏆 Achievements & Contributions

  • 📚 Authored high-quality papers in peer-reviewed international journals & conferences

  • 🎓 Supervised numerous M.Tech and Ph.D. students successfully

  • 💼 Completed several Govt.-sponsored R&D projects and industrial consultancy works

  • 🎙️ Delivered invited lectures/seminars at national and international forums

  • 🧪 Engaged in cutting-edge research on:

    • Ground improvement techniques

    • Railway geomechanics

    • Pile-soil interaction

    • Geoenvironmental engineering

🥇 Awards & Honors

  • 🏅 Endeavour Postdoctoral Research Fellowship by the Australian Government

  • 🏅 Multiple national and international recognitions for academic and research excellence

  • 🌍 Recognition across the International Engineering Fraternity

  • 👨‍🏫 Consistent positive feedback from students for teaching effectiveness

Publication Top Notes:

Numerical solution of stone column–improved soft soil considering arching, clogging, and smear effects

CITED:164

Modeling the stone column behavior in soft ground with special emphasis on lateral deformation

CITED:84

Engineering properties of marine clays from the eastern coast of India

CITED:80

Modeling the performance of stone column–reinforced soft ground under static and cyclic loads

CITED:77

Measured and predicted response of pile groups in soft clay subjected to cyclic lateral loading

CITED:66

 

Kazem Javan | Engineering | Best Researcher Award

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Mr. Kazem Javan | Engineering | Best Researcher Award

Mr. Kazem Javan | Engineering – Civil Engineering at Western Sydney University, Australia

Kazem Javan is an accomplished researcher and PhD student in Civil and Environmental Engineering at Western Sydney University. He is passionate about advancing sustainable infrastructure solutions through innovative engineering approaches that address environmental challenges. His research focuses on developing durable, acid-resistant materials for sewer pipe rehabilitation, emphasizing the use of sustainable, recycled materials to reduce CO₂ emissions. Kazem is also involved in cutting-edge projects related to carbon-absorbing concrete, aiming to contribute to the circular economy. He brings a wealth of experience in environmental engineering, particularly in water management and resource efficiency, which he integrates into his academic work and professional practice.

Profile:

Google Scholar

Education:


Kazem Javan’s educational journey is rooted in Civil and Environmental Engineering. He is currently pursuing his PhD in Civil Engineering at Western Sydney University, with a focus on developing sustainable materials for infrastructure. Before this, Kazem completed a Master’s in Civil Engineering with a specialization in Water Engineering, where his research examined the impacts of climate change on water resources. His academic foundation began with a Bachelor’s in Civil Engineering, which provided him with a strong grasp of structural mechanics, geotechnical engineering, and transportation systems. This comprehensive academic background forms the foundation for his innovative work in sustainable engineering.

Experience:


Kazem Javan has significant experience in both the academic and professional domains of civil and environmental engineering. He currently works as an Environmental and Civil Engineering Manager, where he leads projects focusing on sustainable infrastructure development and low-emission technologies. In this role, he ensures compliance with environmental regulations and integrates renewable resource utilization in engineering practices. Previously, Kazem was a Technical Supervisor at Ideh Afroz Aria Company, where he supervised water infrastructure projects and integrated climate resilience strategies. His broad experience allows him to combine theoretical knowledge with practical solutions in real-world applications, enhancing both the sustainability and efficiency of civil engineering projects.

Research Interests:

Kazem’s research interests are centered around sustainable engineering solutions, focusing on the development of materials and systems that contribute to environmental preservation and climate change mitigation. His current research explores the use of recycled materials, such as broken glass and mine by-products, for sewer pipe rehabilitation and the creation of durable, acid-resistant coatings. Kazem is also dedicated to advancing carbon-absorbing concrete technologies and is actively involved in the CRC SmartCrete project, where he explores the potential of waste minerals to enhance sustainability in construction. His work in environmental engineering spans areas such as water resource management, renewable energy, waste management, and the water-energy-food nexus, all aimed at reducing environmental impact.

Awards:


Kazem Javan has been recognized for his exceptional academic and professional achievements. He was awarded the SmartCrete CRC and Western Sydney University Postgraduate Research Scholarship, which supports his ongoing research into sustainable infrastructure and material innovations. This award highlights Kazem’s commitment to advancing sustainability in the engineering field, particularly through the development of eco-friendly solutions that can have a lasting impact on construction practices and environmental protection. His ability to combine technical expertise with a strong focus on sustainability has earned him the recognition he deserves.

Publications:


Kazem has contributed significantly to the academic community, publishing several impactful papers in prestigious journals. His work addresses critical issues in water resource management, environmental sustainability, and the effects of climate change on infrastructure. Below are some of his notable publications:

  1. Javan, K., Banihashemi, S., Nazari, A., et al. (2025). Coupled SWMM-MOEA/D for Multi-Objective Optimization of Low Impact Development in Urban Stormwater Systems. Journal of Hydrology 🌍 (Cited by: 12)
  2. Javan, K., Darestani, M., Ibrar, I., et al. (2025). Interrelated Issues within the Water-Energy-Food Nexus with a Focus on Environmental Pollution for Sustainable Development: A Review. Environmental Pollution 🌱 (Cited by: 9)
  3. Javan, K., Altaee, A., BaniHashemi, S., et al. (2024). A Review of Interconnected Challenges in the Water–Energy–Food Nexus: Urban Pollution Perspective towards Sustainable Development. Science of the Total Environment 🏙️ (Cited by: 16)
  4. Javan, K., & Darestani, M. (2024). Assessing Environmental Sustainability of a Vital Crop in a Critical Region: Investigating Climate Change Impacts on Agriculture Using the SWAT Model and HWA Method. Heliyon 🌾 (Cited by: 5)
  5. Javan, K., Altaee, A., Darestani, M., et al. (2023). Assessing the Water–Energy–Food Nexus and Resource Sustainability in the Ardabil Plain: A System Dynamics and HWA Approach. Water 💧 (Cited by: 20)
  6. Javan, K., Mirabi, M., Hamidi, S. A., et al. (2023). Enhancing Environmental Sustainability in a Critical Region: Climate Change Impacts on Agriculture and Tourism. Civil Engineering Journal 🏗️ (Cited by: 3)
  7. Javan, K., Lialestani, M. R. F. H., Ashouri, H., & Moosavian, N. (2015). Assessment of the Impacts of Nonstationarity on Watershed Runoff Using Artificial Neural Networks: A Case Study in Ardebil, Iran. Modeling Earth Systems and Environment 🌍 (Cited by: 8)

Conclusion:


Kazem Javan is an outstanding candidate for the “Best Researcher Award,” thanks to his groundbreaking work in sustainable engineering, water management, and climate change mitigation. His dedication to creating environmentally friendly materials and improving construction practices positions him as a leader in his field. With a strong academic background, extensive professional experience, and a proven track record of impactful research, Kazem continues to make significant contributions to the engineering community. His work not only addresses pressing global environmental issues but also sets the stage for a more sustainable future in civil and environmental engineering. His commitment to integrating innovative solutions into practice makes him highly deserving of this prestigious recognition.