Shuai Li | Engineering | Best Researcher Award

Dr. Shuai Li | Engineering | Best Researcher Award

Lecturer at Henan University of Urban Construction, China

Dr. Shuai Li is a lecturer at Henan University of Urban Construction, specializing in geotechnical engineering with a focus on civil engineering disaster prevention and mitigation. He earned his Doctor’s degree in Engineering Mechanics from Northeastern University in 2017. Dr. Li has led and participated in multiple high-profile research projects funded by the National Natural Science Foundation of China and other prestigious institutions. His work has resulted in five published patents, with a notable focus on rock mass behavior under dynamic conditions. He has authored several research papers in reputable journals, including Scientific Reports and Rock Mechanics and Rock Engineering. Dr. Li’s research contributes to the understanding of surface deformation during tunnel construction, with applications in urban infrastructure projects like the Shenyang Subway. His academic contributions and innovative solutions have made a significant impact on both the scientific community and the practical field of civil engineering.

Professional Profile : 

Google Scholar

Education: 

Dr. Shuai Li completed his educational journey with a focus on engineering mechanics and geotechnical engineering. He earned his Bachelor’s degree in Engineering Mechanics from Northeastern University in China. Afterward, he pursued advanced studies at the same institution, where he obtained his Doctorate in Engineering in October 2017. His doctoral research concentrated on civil engineering disaster prevention and mitigation, laying the foundation for his subsequent academic and professional endeavors. During his academic tenure, Dr. Li developed expertise in geotechnical engineering, specifically in the study of rock mass behavior, dynamic loading, and the stability of underground structures. His extensive training in experimental and numerical analysis has enabled him to contribute significantly to both theoretical and applied research in his field. Through his education, Dr. Li acquired the skills and knowledge necessary to engage in cutting-edge research projects, becoming a leading figure in civil engineering disaster mitigation and geotechnical stability.

Professional Experience :

Dr. Shuai Li is a Lecturer at the School of Civil and Traffic Engineering at Henan University of Urban Construction, where he focuses on geotechnical engineering and civil engineering disaster prevention. He completed his Ph.D. in Engineering Mechanics at Northeastern University in 2017. Over the years, Dr. Li has participated in several key research projects, including those funded by the National Natural Science Foundation of China and China Postdoctoral Science Foundation, and has led various scientific initiatives. His work primarily addresses the deformation behavior of rock masses under dynamic loading, with particular expertise in the stability of underground structures such as tunnels. Dr. Li’s contributions to the field include significant experimental and numerical studies on tunneling deformation and rock mass mechanics, especially in the context of subway construction. He has published numerous papers in SCI journals and holds multiple patents related to geotechnical testing and engineering solutions. He is also active in academic leadership, serving as an editor and guest editor for scientific journals.

Research Interest :

Dr. Shuai Li’s research primarily focuses on geotechnical engineering, with a particular emphasis on civil engineering disaster prevention and mitigation. His work investigates the mechanical behavior of rock masses under dynamic conditions, especially during processes like shield tunneling, and the associated surface deformation. Dr. Li has contributed significantly to the development of finite element analysis (FEA) simulations to study the stability of underground structures, such as subway tunnels. His research also explores rock mechanics, including mixed-mode fracture characteristics, stress relaxation in sandstone, and the effects of dynamic disturbances on the creep behavior of rocks. In addition, he is involved in innovative testing methods for rock permeability and rheological relaxation, contributing to the design and analysis of geotechnical engineering projects. Dr. Li’s work is vital for improving the safety and stability of infrastructure in complex geological environments, with applications in urban tunneling, mining, and civil construction.

Award and Honor :

Dr. Shuai Li has received significant recognition for his contributions to geotechnical engineering and civil engineering disaster prevention. He has been a key participant in multiple prestigious research projects, including those funded by the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. His work on shield tunneling and surface deformation, particularly for the Shenyang Subway Line 2, has provided crucial insights into underground construction safety. Dr. Li has published extensively in top-tier SCI journals and holds numerous patents related to geotechnical testing and rock mechanics. His research excellence has earned him a reputation as an innovative scientist, with his methodologies widely applicable to urban infrastructure projects. Additionally, Dr. Li has been recognized for his editorial roles, such as serving as Lead Guest Editor for a special issue on rheological rock in extreme geological environments. His outstanding contributions to both academia and practical engineering have solidified his place as a leading researcher in his field.

Conclusion :

Dr. Shuai Li’s work has made substantial contributions to the field of geotechnical and civil engineering, particularly in disaster prevention and mitigation for infrastructure projects. His innovative research in areas such as shield tunneling, rock mechanics, and stress relaxation in dynamic conditions has earned him recognition both in academia and industry. Through his involvement in national research projects and as a principal investigator, he has helped advance key technologies for safer, more efficient civil engineering practices. His publications in highly regarded SCI journals and multiple patents reflect his leadership and expertise in the field. Furthermore, Dr. Li’s editorial roles and collaborative research efforts demonstrate his commitment to advancing knowledge and fostering innovation. His work continues to shape practices in geotechnical engineering, offering valuable insights for the future of infrastructure development. Dr. Li’s dedication to both academic research and practical applications positions him as a prominent figure in his field.

Publications Top Noted :

  • Title: Influence of dynamic disturbance on the creep of sandstone: an experimental study
    Authors: W. Zhu, S. Li, S. Li, L. Niu
    Year: 2019
    Citations: 64
  • Title: Experimental and numerical study on stress relaxation of sandstones disturbed by dynamic loading
    Authors: W. Zhu, S. Li, L. Niu, K. Liu, T. Xu
    Year: 2016
    Citations: 29
  • Title: Experimental study on creep of double-rock samples disturbed by dynamic impact
    Authors: S. Li, W. Zhu, L. Niu, K. Guan, T. Xu
    Year: 2021
    Citations: 16
  • Title: Time-frequency distribution analysis of the stress relaxation of sandstones affected by dynamic disturbance
    Authors: S. Li, W.C. Zhu, T. Xu, R.X. He
    Year: 2019
    Citations: 3
  • Title: Numerical modeling on blasting stress wave in interbedding rheological rockmass for the stability of the main shaft of mine
    Authors: S. Li, C. Zheng, Y. Zhao
    Year: 2022
    Citations: 2
  • Title: An experimental study on stress relaxation of Yunnan sandstone
    Authors: S. Li, C. Zheng, P. Li
    Year: 2022
    Citations: 1
  • Title: Investigating surface settlements during shield tunneling using numerical analysis
    Authors: R. He, Z. Zhou, S. Li, S. Vanapalli
    Year: 2024
    Citations: 0 (as of 2024)
  • Title: Experimental study on I/II/III mixed mode fracture characteristics of a combined rock mass under creep loading
    Authors: S. Li, C. Zheng, P. Li, S. Zhang
    Year: 2024
    Citations: 0 (as of 2024)

Jingxin Zhang | Engineering | Best Researcher Award

Jingxin Zhang | Engineering | Best Researcher Award

Lecturer at Southeast University, China.

Dr. Jingxin Zhang is a Lecturer at Southeast University with expertise in fault detection, diagnosis, and process monitoring. She has made significant strides in photovoltaic power forecasting and the application of advanced data-driven methodologies in industrial processes. With a robust academic background and industry experience, Dr. Zhang has established a reputation for blending theoretical research with practical implementation. Her work on multimode process monitoring, which incorporates continual learning, sets her apart as an innovator in her field. Dr. Zhang’s research has resulted in 17 journal publications, nine patents, and significant collaborations with global institutions, enhancing her impact in both academia and industry. She has also led several research and industry projects, showcasing her ability to tackle real-world challenges effectively. Dr. Zhang is an active member of professional societies such as IEEE and the Chinese Association of Automation, further emphasizing her commitment to advancing her field.

📚 Profile

ORCID

Google scholar

🎓 Education

Dr. Jingxin Zhang’s academic journey began at Harbin Engineering University, where she earned her Bachelor of Engineering degree in Electrical Engineering and Automation. She furthered her studies with a Master’s degree in Control Science and Engineering from Harbin Institute of Technology. Her academic pursuits culminated in a Ph.D. in Control Science and Engineering from Tsinghua University, one of China’s most prestigious institutions. Throughout her education, Dr. Zhang focused on developing advanced methodologies for process control, fault detection, and automation, laying the foundation for her impactful career. Her strong educational background has enabled her to contribute to both theoretical advancements and practical applications in her field. As a lifelong learner, Dr. Zhang continues to push the boundaries of her expertise, applying her knowledge to cutting-edge research in data-driven process monitoring and photovoltaic power forecasting.

💼 Experience

Dr. Jingxin Zhang has accumulated extensive experience as both an academic and a researcher. Currently serving as a Lecturer at Southeast University, she has been involved in teaching and mentoring students while advancing her research in fault detection, process monitoring, and renewable energy forecasting. Her academic career has been complemented by active collaboration with industry leaders, making her research highly applicable to real-world industrial processes. Dr. Zhang has led multiple research projects, including five ongoing and four completed ones, focusing on advanced control systems and data-driven fault detection. With nine patents to her name and numerous publications in high-impact journals, her contributions are recognized both in China and internationally. Her involvement in consultancy projects has also strengthened her ability to transfer theoretical knowledge to practical, industry-relevant innovations, positioning her as a rising star in the field of control science and engineering.

🔬 Research Interests

Dr. Jingxin Zhang’s research interests span fault detection, diagnosis, process monitoring, and renewable energy forecasting. A core area of her work lies in developing advanced data-driven approaches to fault detection and diagnosis in complex systems. Her expertise extends to photovoltaic power forecasting, where she applies control science and machine learning techniques to predict energy outputs in industrial-scale solar power systems. Dr. Zhang is particularly interested in continual learning in process monitoring, a novel approach that enables systems to adapt to new data without losing previously learned knowledge. This research is groundbreaking in its ability to improve long-term system efficiency and stability in industries such as energy, manufacturing, and automation. Her work bridges the gap between theoretical advancements in data science and real-world industrial applications, making her research highly impactful in both academic and practical contexts.

🏆 Awards and Honors

Dr. Jingxin Zhang has been recognized for her contributions to control science and engineering through various awards and honors. While specific details of her awards have yet to be widely publicized, her achievements in research and industry collaborations have earned her a solid reputation within the academic community. She has led several prestigious research projects funded by national and provincial organizations, showcasing her leadership and innovation in process monitoring and fault detection. In addition to her research accomplishments, Dr. Zhang has been awarded nine patents, further solidifying her impact on industrial applications. As an active member of professional societies such as IEEE and the Chinese Association of Automation, Dr. Zhang is well-regarded by her peers and continues to be recognized for her groundbreaking work in data-driven approaches to process control. She remains committed to advancing her field and earning additional accolades as her career progresses.

🔚 Conclusion

 Jingxin Zhang is a strong candidate for the Best Researcher Award, particularly due to her innovative contributions to fault detection, data-driven approaches, and industry collaborations. With a focus on continual learning and industrial relevance, her research aligns well with the award’s criteria. Enhancing her academic visibility through more editorial roles and publications could further strengthen her application, positioning her as a leading researcher in her field.

Publications Top Notes 📚

Title: An improved mixture of probabilistic PCA for nonlinear data-driven process monitoring
Author: J Zhang, H Chen, S Chen, X Hong
Year: 2017
Citation: 68

 

Title: Monitoring multimode processes: A modified PCA algorithm with continual learning ability
Author: J Zhang, D Zhou, M Chen
Year: 2021
Citation: 56

 

Title: A data-driven learning approach for nonlinear process monitoring based on available sensing measurements
Author: S Yin, C Yang, J Zhang, Y Jiang
Year: 2016
Citation: 47

 

Title: Multimode process monitoring based on fault dependent variable selection and moving window-negative log likelihood probability
Author: D Wu, D Zhou, J Zhang, M Chen
Year: 2020
Citation: 29

 

Title: Nonlinear process monitoring using a mixture of probabilistic PCA with clusterings
Author: J Zhang, M Chen, X Hong
Year: 2021
Citation: 28

 

Title: Continual learning for multimode dynamic process monitoring with applications to an ultra–supercritical thermal power plant
Author: J Zhang, D Zhou, M Chen, X Hong
Year: 2022
Citation: 24

 

Title: Self-learning sparse PCA for multimode process monitoring
Author: J Zhang, D Zhou, M Chen
Year: 2022
Citation: 16

 

Title: Adaptive cointegration analysis and modified RPCA with continual learning ability for monitoring multimode nonstationary processes
Author: J Zhang, D Zhou, M Chen
Year: 2022
Citation: 15

 

Title: Process monitoring based on orthogonal locality preserving projection with maximum likelihood estimation
Author: J Zhang, M Chen, H Chen, X Hong, D Zhou
Year: 2019
Citation: 14

 

Title: Continual learning-based probabilistic slow feature analysis for monitoring multimode nonstationary processes
Author: J Zhang, D Zhou, M Chen, X Hong
Year: 2022
Citation: 11