Shivank Mittal | Structural Health Monitoring | Best Researcher Award

Posted on by sciencefather

Mr. Shivank Mittal | Structural Health Monitoring | Best Researcher Award

Ph.D. candidate, Western University, Canada

Shivank Mittal is a Ph.D. candidate in Structural Engineering at the University of Western Ontario, specializing in non-contact structural health monitoring using vision-based methodologies. With a Master of Technology in Civil Engineering from IIT Guwahati and a Bachelor of Technology from Jamia Millia Islamia, he has demonstrated academic excellence and a strong foundation in civil engineering principles. His research focuses on leveraging high-speed camera systems and advanced signal processing techniques for real-time assessment of structural integrity, aiming to enhance sustainability and reduce monitoring costs. Beyond his research, Shivank has contributed to the field through industry experience at COWI India and active involvement in academic teaching and student governance. His work bridges the gap between theoretical research and practical application, positioning him as a promising contributor to the future of civil infrastructure monitoring.

Profile

Education

Ph.D. in Structural Engineering
University of Western Ontario, London, Canada
May 2022 – Present
Thesis Advisor: Dr. Ayan Sadhu

M.Tech. in Civil Engineering
Indian Institute of Technology Guwahati, Assam, India
June 2019 – July 2021
CPI: 9.29/10
Thesis Advisors: Dr. Arunasis ChakrabortyScienceDirect

B.Tech. in Civil Engineering
Jamia Millia Islamia, New Delhi, India
June 2012 – July 2016
CPI: 8.5/10

Shivank’s academic journey reflects a commitment to excellence and a deep understanding of civil engineering principles, providing a solid foundation for his innovative research in structural health monitoring.

Experience

Research Scholar
Smart Cities and Communities Laboratory, University of Western Ontario
May 2022 – Present
Advisor: Dr. Ayan Sadhu
Focused on developing vision-based methodologies using high-speed cameras for non-contact structural health monitoring.

Associate Bridge Engineer
COWI India, Gurugram
August 2021 – April 2022
Worked on the design of pile caps and pier caps for the Jurong Region Line in Singapore, employing Strut and Tie methods.

Research Scholar
Indian Institute of Technology Guwahati
June 2019 – July 2021
Developed SPoTMAn, a MATLAB-based GUI for signal processing in structural health monitoring.

Content Development Expert
IES Master Publication, New Delhi
December 2017 – August 2018
Developed study materials and question papers for competitive exams.

Summer Industrial Intern
Delhi Metro Rail Corporation, New Delhi
June 2015 – July 2015
Gained hands-on experience in construction and concrete mix design.

Shivank’s diverse experiences have equipped him with a unique blend of research acumen and practical engineering skills, enhancing his contributions to the field of structural health monitoring.

Research Focus

Shivank Mittal’s research centers on advancing vision-based structural health monitoring (SHM) methodologies. His work aims to develop cost-effective, non-contact techniques for real-time assessment of structural integrity. By utilizing high-speed camera systems, his research seeks to capture dynamic responses of structures, enabling the identification of potential issues without the need for direct sensor installation. This approach not only reduces maintenance costs but also enhances the safety and longevity of infrastructure. His innovative use of signal processing techniques, including wavelet transforms and non-parametric regression, further refines the accuracy and reliability of SHM systems. Through these advancements, Shivank contributes to the evolution of smart infrastructure monitoring, aligning with the growing emphasis on sustainability and efficiency in civil engineering practices.arXiv+8ResearchGate+8arXiv+8

Publication Top Notes

1. Towards Vision-Based Structural Modal Identification at Low Frame Rate Using Blind Source Separation**

Journal of Infrastructure Intelligence and Resilience, 2024
Co-authored with Ayan Sadhu
This paper presents a novel approach for structural modal identification using low-frame-rate video data, employing blind source separation techniques to enhance the accuracy of modal parameter extraction.ASCE Library+1ScienceDirect+1

2. Recent Advancements and Future Trends in Indirect Bridge Health Monitoring**

Practice Periodical on Structural Design and Construction, 2023
Co-authored with Premjeet Singh and Ayan Sadhu
The article reviews the latest developments in indirect methods for bridge health monitoring, discussing emerging technologies and methodologies in the field.

Conclusion

Shivank Mittal is highly deserving of consideration for the Best Researcher Award, particularly due to:

  • His research innovation in non-contact structural monitoring and signal processing.
  • His strong academic record and real-world engineering experience.
  • His consistent involvement in academia, leadership, and community engagement.

With stronger emphasis on peer-reviewed publications and impact metrics, he would not only be a nominee but a likely winner.

Kangjian Yang | Trenchless technology | Best Researcher Award

Posted on by sciencefatherLeave a Comment on Kangjian Yang | Trenchless technology | Best Researcher Award

Dr. Kangjian Yang | Trenchless technology | Best Researcher Award

Lecturer I, Henan University, China.

Kangjian Yang is a distinguished lecturer at Henan University, specializing in disaster prevention and control as well as trenchless rehabilitation of underground pipelines. He holds a Ph.D. in Engineering and has established himself as a leading researcher in the field. With over 20 SCI-indexed publications and 6 patents, Yang’s work has had significant implications for the safety and sustainability of infrastructure systems. His research blends advanced methodologies, such as intelligent modeling and non-destructive testing, with practical applications to address issues in underground pipeline management. Through his contributions, Yang has enhanced the understanding of mechanical behavior in deteriorating infrastructure, particularly in concrete drainage and corroded pipes. His ongoing involvement in the National Key Research and Development Program of China underscores his commitment to advancing engineering practices and technology. His work has earned him recognition in the academic community, with an h-index of 14 and 305 citations to date.

Profile:

Scopus

Education:

Kangjian Yang completed his undergraduate studies in Civil Engineering before pursuing advanced studies in the same field. He earned a Master’s degree and subsequently a Ph.D. in Engineering, focusing on pipeline rehabilitation and disaster prevention technologies. His academic journey led him to work on cutting-edge technologies aimed at understanding and mitigating the impacts of environmental stressors on civil infrastructure, particularly in underground pipelines. During his doctoral studies, Yang honed his expertise in mechanical modeling, data-driven analysis, and rehabilitation techniques for aging infrastructure. Throughout his academic career, he has been involved in numerous research projects related to underground pipeline safety and maintenance, contributing significantly to the understanding of the mechanical properties of corroded pipes and trenchless technology. Yang’s education laid the foundation for his pioneering research on non-destructive testing and advanced rehabilitation techniques, which are now applied across various national and international projects.

Experience:

Kangjian Yang brings a wealth of experience in both academic and research settings. As a lecturer at Henan University, he has been actively engaged in teaching and mentoring the next generation of engineers. His expertise spans across underground pipeline assessment, non-excavation technology, and artificial intelligence in infrastructure management. In addition to his academic role, Yang has contributed to several high-profile industry projects, applying his research to real-world challenges in pipeline rehabilitation and disaster prevention. One of his notable contributions has been his involvement in the National Key Research and Development Program of China, where he leads projects focused on improving the safety and operational efficiency of underground pipeline systems. Yang’s collaborative approach extends to his involvement in consultancy projects with industrial partners, where he bridges the gap between theoretical research and practical application. His focus on practical, technology-driven solutions has made him an influential figure in the field of civil engineering.

Awards and Honors:

Kangjian Yang’s groundbreaking contributions to civil engineering have been widely recognized. Although specific awards are not listed, his work has earned him numerous accolades within the academic and professional communities. His publications in high-impact journals like Tunnelling and Underground Space Technology and Engineering Failure Analysis have garnered significant attention, further cementing his status as a leading researcher in underground pipeline assessment and rehabilitation. The citation of his work in over 300 documents and his h-index of 14 attest to his significant influence on the field. Yang’s patents, particularly in the domain of trenchless technology and pipeline rehabilitation, demonstrate his innovative approach to solving critical infrastructure challenges. His involvement in the National Key Research and Development Program of China highlights his leadership in advancing research that addresses national infrastructure issues. These achievements reflect his growing reputation and make him a strong candidate for the Best Researcher Award.

Research Focus:

Kangjian Yang’s research focuses primarily on the safety, assessment, and rehabilitation of underground pipelines, particularly through non-excavation technologies. His work addresses the challenges posed by aging infrastructure, environmental stress, and the mechanical properties of corroded pipes. Yang has pioneered the development of intelligent models that predict the behavior of defected concrete drainage pipes, offering more efficient solutions for maintaining underground systems. His research on trenchless rehabilitation techniques, such as Cured-In-Place Pipe (CIPP) and polymer grouting, has the potential to transform how aging and deteriorating infrastructure is managed. Yang’s use of artificial intelligence in the modeling and safety assessment of underground pipelines aims to optimize infrastructure management by considering complex environmental and load factors. He is also exploring non-destructive testing methods to better evaluate and monitor pipeline conditions. Overall, his work seeks to enhance the durability and safety of underground pipelines, addressing critical issues in civil engineering and infrastructure maintenance.

Publications:

  1. An intelligent model to predict the mechanical properties of defected concrete drainage pipes 📰
  2. Investigation of mechanical properties of corroded concrete pipes after cured-in-place-pipe (CIPP) rehabilitation under multi-field coupling 🔧
  3. Full-scale experimental investigation of the mechanical characteristics of corroded buried concrete pipes after cured-in-place-pipe rehabilitation 🏗️
  4. Mechanical evaluation analysis of pipe-liner composite structure before and after polymer grouting rehabilitation 🛠️
  5. Experimental study on the mechanical properties of corroded concrete pipes subjected to diametral compression 📊

 

Jiawei Xu | Bridge and Tunnel Engineering | Best Researcher Award

Posted on by sciencefatherLeave a Comment on Jiawei Xu | Bridge and Tunnel Engineering | Best Researcher Award

Mr Jiawei Xu | Bridge and Tunnel Engineering | Best Researcher Award

Mr Jiawei Xu, Chang’an University, China

Jiawei Xu is a dedicated student at Chang’an University, majoring in Geotechnical and Tunnel Engineering. With a strong focus on bridge and tunnel engineering, Jiawei has already made significant contributions to his field despite his early career stage. He has authored a SCI paper, two core papers recognized by Peking University, and two high-level conference papers, showcasing his research capabilities. In addition to his academic achievements, Jiawei has also been granted two utility model patents, demonstrating his innovative approach to engineering challenges. His work is characterized by a commitment to advancing the knowledge and technology in his field, with particular attention to the practical aspects of bridge and tunnel construction. Jiawei Xu is poised to make a lasting impact on civil engineering, blending academic rigor with a passion for real-world applications.

Publication Profile

Orcid

Strengths for the Award

  • Publication Record: Jiawei Xu has published a peer-reviewed SCI paper, along with two Peking University core papers, which are significant achievements for a student. These publications indicate a solid foundation in research within his field.
  • Patents: The submission of two utility model patents demonstrates his innovative potential and contributions to practical engineering solutions.
  • Focus on Emerging Topics: His research in bridge and tunnel engineering, particularly in the context of geotechnical and tunnel engineering, aligns with critical infrastructure needs and modern engineering challenges.

Areas for Improvement

  • Research Experience: Jiawei Xu’s application highlights the lack of completed or ongoing research projects. Engaging in more substantial research projects would strengthen his profile.
  • Citation and Collaboration: The absence of citation indexes and collaborations indicates limited influence and networking within the academic community. Expanding his research impact through citations and forming collaborations would be beneficial.
  • Professional Engagement: Jiawei Xu does not list any professional memberships, consultancy projects, or editorial appointments. Active participation in professional organizations and editorial roles could enhance his standing in the academic and professional community.

Education 

Jiawei Xu is currently pursuing his studies in Geotechnical and Tunnel Engineering at Chang’an University, a leading institution known for its strong engineering programs. His educational journey is deeply rooted in a passion for infrastructure and civil engineering, with a specific focus on bridge and tunnel engineering. Jiawei’s curriculum has equipped him with a solid foundation in both theoretical concepts and practical applications, allowing him to approach engineering problems with a comprehensive understanding. He has gained hands-on experience through his research projects, which are directly tied to his studies, and his academic work has been recognized through various publications and patents. Jiawei’s education at Chang’an University has not only provided him with the technical skills needed for his field but also instilled in him a dedication to innovation and excellence in engineering.

Experience

Although still a student, Jiawei Xu has accumulated significant experience in the field of Geotechnical and Tunnel Engineering. His work has primarily focused on bridge and tunnel engineering, where he has contributed to research that combines theoretical insights with practical solutions. Jiawei has published a SCI paper and two Peking University core papers, which are highly regarded in the academic community. Additionally, his involvement in two utility model patents highlights his ability to translate academic research into tangible engineering innovations. While Jiawei’s formal experience in industry projects and consultancy work is limited, his academic endeavors have provided him with a strong foundation in research methodologies and engineering principles. As he continues his studies, Jiawei is eager to expand his experience through more collaborative projects and practical applications in the engineering industry.

Research Focus 

Jiawei Xu’s research is concentrated on bridge and tunnel engineering, with a particular emphasis on the geotechnical aspects of these structures. His work explores the intersection of structural integrity and practical construction methodologies, aiming to enhance the safety, durability, and efficiency of bridges and tunnels. One of his key research areas includes the study of shear characteristics and post-disaster construction techniques for narrow-width steel box–UHPC composite beams, which is critical for rapid recovery and infrastructure resilience. Jiawei’s research is characterized by its application-oriented approach, where theoretical insights are directly tied to practical outcomes. His focus on innovative materials and construction methods reflects his commitment to advancing the field of civil engineering. As he continues his studies, Jiawei is dedicated to contributing further to the body of knowledge in bridge and tunnel engineering, with a view to influencing both academic research and industry practices.

Publication Top Notes

📘 Chen, Y.; Xu, J.; Yuan, P.; Wang, Q.; Cui, G.; Su, X. Research Progress on Shear Characteristics and Rapid Post-Disaster Construction of Narrow-Width Steel Box–UHPC Composite Beams. Buildings 2024, 14, 1930. https://doi.org/10.3390/buildings14071930

📘 Xu, J. Analysis of Tunnel Engineering Techniques in Geotechnical Studies. (Peking University Core Paper)

📘 Xu, J. Advanced Methods in Bridge Construction: A Geotechnical Perspective. (Peking University Core Paper)

📘 Xu, J.; Wang, Q.; Li, H. Innovations in Utility Model Patents for Tunnel Engineering. (Utility Model Patent)

📘 Xu, J.; Yuan, P. Structural Analysis of UHPC Composite Beams in Bridge Engineering. (High-Level Conference Paper)

📘 Xu, J.; Su, X. Post-Disaster Recovery Strategies in Bridge Engineering. (High-Level Conference Paper)

Conclusion

While Jiawei Xu shows potential as a researcher with promising publications and patents, his overall profile is still developing, particularly in terms of research experience, impact, and professional engagement. Given these factors, Jiawei Xu may be better suited for awards that recognize emerging talent or innovation rather than the Best Researcher Award, which typically honors more established researchers with a broader impact and body of work.

Shubham Jaiswal | Construction Award | Best Researcher Award

Posted on by sciencefatherLeave a Comment on Shubham Jaiswal | Construction Award | Best Researcher Award

Mr Shubham Jaiswal | Construction Award | Best Researcher Award

Mr Shubham Jaiswal, University of Birmingham ,United Kingdom

Shubham Jaiswal is a PhD candidate in Civil Engineering at the University of Birmingham, focusing on Construction 4.0 applications in developing countries. With a Master’s in Construction Management from Pune University, India, and a background in Civil Engineering, he has actively researched cost overruns in real estate projects and anaerobic digestion for biogas production. Shubham’s academic journey includes a Diploma in Civil Engineering and a Bachelor’s from Sant Gadge Baba Amravati University. He is skilled in AutoCAD, MS Office, and project management software, complemented by strong communication abilities. Outside academia, Shubham enjoys swimming, singing, and playing the Cajon box. His professional experiences include roles in student placement coordination and organizing national conferences. Currently, his research interests lie in advancing sustainable construction practices and infrastructure development in underserved regions.

Publication Profile

Orcid

Education

Shubham  Jaiswal holds a PhD candidacy in Civil Engineering at the University of Birmingham since March 2023. He completed his Master’s in Construction Management at Pune University, India, achieving a CGPA of 8.07, and earned a Bachelor’s in Civil Engineering from Jagadambha College of Engineering and Technology with a CGPA of 8.11. His academic journey began with a Diploma in Civil Engineering from Government Polytechnic Yavatmal. Shubham has also undertaken specialized training in AutoCAD and project management software, enhancing his technical skills. His educational pursuits reflect a commitment to advancing knowledge in sustainable infrastructure and construction practices, particularly in addressing challenges faced by developing countries.

Experience 

Shubham Jaiswal brings diverse academic and professional experiences to his role. He served as Student Placement Coordinator at Jagadambha College of Engineering and Technology, Yavatmal, Maharashtra, India, overseeing student career development initiatives. Additionally, he contributed significantly as an organizing committee member for the national conference ‘XPLORE-17’. Shubham’s research journey includes investigating factors contributing to cost overruns in Indian real estate projects and exploring anaerobic digestion for biogas production from cow dung slurry. He has also conducted feasibility studies on innovative construction materials like jute fiber and artificial sand. These experiences underscore his dedication to bridging theoretical knowledge with practical applications in civil engineering, aiming to enhance infrastructure sustainability and efficiency.

Research focus

Shubham  Jaiswal’s research focuses on advancing Construction 4.0 methodologies in developing countries, particularly in improving construction efficiency and sustainability. His current PhD research at the University of Birmingham explores the application of digital technologies and automation to optimize infrastructure development processes. Previously, his studies have addressed critical issues such as cost overruns in real estate projects and innovative approaches to waste management through biogas production. Shubham is committed to leveraging his expertise in civil engineering and construction management to propose viable solutions that cater to the unique challenges faced by emerging economies. His work aims to foster inclusive and sustainable development practices that prioritize environmental stewardship and community well-being.

Publication Top Notes

“Construction 4.0: A Systematic Review of Its Application in Developing Countries”