Zaohong Zhou | Engineering | Best Researcher Award

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Prof. Zaohong Zhou | Engineering | Best Researcher Award

Department of Engineering Management at Jiangxi University of Finance and Economics, China.

Short Biography πŸ—οΈπŸŒ

Prof. Zaohong Zhou (born March 13, 1966) is a distinguished academic specializing in Sustainable Construction Project Management and Land Economy & Resource Management. He holds a Ph.D. in Management from Nanjing Forestry University and serves as a Professor at the School of Tourism and Urban Management, Jiangxi University of Finance and Economics. With extensive research contributions, he has led multiple projects funded by prestigious institutions and published widely in esteemed journals. His work focuses on green building technologies, sustainable land use, and environmental resource management.

Professional Profile:

Scopus Profile

Education & Experience πŸŽ“πŸ‘¨β€πŸ«

πŸ“Œ Ph.D. in Management – Nanjing Forestry University, China
πŸ“Œ Professor – Jiangxi University of Finance and Economics (2017–Present)
πŸ“Œ Visiting Scholar – University of Applied Sciences Trier (2016–2017)
πŸ“Œ Faculty – School of Resources and Environmental Management, JUFE (2003–2009)
πŸ“Œ Faculty – Nanchang Forestry School of Jiangxi Province (1990–2002)

Professional Development πŸ“šπŸ”¬

Prof. Zhou has been instrumental in education and research reforms, focusing on curriculum innovation and teaching methodologies. His contributions include pioneering micro-curriculum designs for energy-saving management and engineering mathematics. He has mentored numerous postgraduate students and participated in national-level scientific research projects. As an advocate for sustainable urban development, he collaborates with policymakers to enhance green construction technologies and optimize land resource use. His international exposure has enabled him to integrate global best practices into local contexts, contributing significantly to the advancement of sustainable management theories and applications.

Research Focus πŸ”πŸ‘

Prof. Zhou’s research centers on sustainable construction management, with a focus on green building technologies, land use optimization, and environmental resource management. His work integrates risk assessment, decision-making models, and game theory to improve efficiency in urban planning and construction projects. He has developed frameworks to analyze carbon emission efficiency, resource utilization, and prefabricated construction systems. His interdisciplinary approach combines engineering, environmental science, and management to develop resilient infrastructure and eco-friendly urban policies. Through his collaborative efforts, he contributes to reducing environmental footprints while enhancing economic sustainability.

Awards & Honors πŸ†πŸŽ–οΈ

πŸ… Jiangxi Provincial Education Reform Research Grant (2019)
πŸ… Teaching Reform Award – Jiangxi Province (2018)
πŸ… Science & Technology Project Grant – Jiangxi Education Department (2017)
πŸ… Humanities & Social Sciences Research Project Grant – Jiangxi Province (2014)
πŸ… National Natural Science Foundation of China Research Participant (2014)

Publication Top Notes

πŸ“„ Title: A novel risk assessment method for advanced and environmentally friendly construction technologies integrating RBM and I-OPA
✍ Authors: Yunbin Sun, Zaohong Zhou, Qiang Li, Hongjun He
πŸ“… Year: 2025
πŸ“š Journal: AEJ – Alexandria Engineering Journal

Wenkun Yang | Engineering | Best Researcher Award

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Dr. Wenkun Yang | Engineering | Best Researcher Award

Research associate at Hohai University, China.

Dr. Wenkun Yang is an accomplished researcher in the field of rock mechanics, tunneling, and TBM (Tunnel Boring Machine) technology. His contributions to the field focus on integrating advanced machine learning techniques for rock stability analysis and predictive modeling in underground construction. With 11 Scopus-indexed publications and over 261 citations, Dr. Yang has made a significant impact on geotechnical engineering research. He has authored two books and filed four patents, further demonstrating his innovation in the domain. His work has been recognized in top-tier journals such as Tunnelling and Underground Space Technology and Rock Mechanics and Rock Engineering. Beyond academia, Dr. Yang has collaborated with leading institutions and industry partners, contributing to several high-profile engineering projects. His expertise in numerical modeling, data-driven decision-making, and smart TBM operations has led to groundbreaking advancements in underground infrastructure development. With a strong track record of scientific publications, industrial collaborations, and editorial contributions, he stands as a prominent figure in his field. His ability to bridge theoretical research with practical applications makes him a strong candidate for the Best Researcher Award. His dedication to advancing tunneling technology and his impact on engineering practices continue to earn him recognition in both academic and industrial circles.

Professional Profile:

Education

Dr. Wenkun Yang holds a Ph.D. in Geotechnical Engineering, where his doctoral research focused on integrating artificial intelligence and numerical modeling for rock mechanics applications. His academic journey began with a Bachelor’s degree in Civil Engineering, followed by a Master’s degree specializing in underground engineering. Throughout his educational career, he developed a strong foundation in computational geomechanics, material behavior analysis, and advanced simulation techniques. His research during his Master’s studies emphasized the stability assessment of rock masses in deep tunnels, setting the stage for his later work in TBM technology. During his Ph.D., he worked extensively on data-driven approaches to rock engineering, combining traditional empirical models with machine learning algorithms to enhance prediction accuracy in geological conditions. His education has been complemented by advanced certifications in artificial intelligence applications in engineering and high-performance computing. His academic excellence has been recognized through scholarships and research grants, allowing him to study in collaborative environments with international experts in tunneling and rock engineering. His multi-disciplinary education spanning structural engineering, computational modeling, and artificial intelligence has equipped him with the necessary skills to address complex geotechnical challenges. Dr. Yang’s rigorous academic background forms the foundation for his innovative contributions to the field of underground construction and rock mechanics.

Professional Experience

Dr. Wenkun Yang has extensive professional experience in both academic and industrial settings, making significant contributions to underground engineering and rock mechanics. He currently serves as a senior researcher at a leading geotechnical institute, where he oversees multiple projects on TBM technology and tunneling stability. His role involves leading research teams, mentoring junior researchers, and developing computational models for geotechnical risk assessments. Prior to this position, he worked as a postdoctoral researcher at a renowned university, where he contributed to high-impact projects focusing on intelligent TBM monitoring systems. His industry experience includes collaborations with major engineering firms and governmental agencies, where he applied his research to real-world tunnel construction projects. He has played a crucial role in consulting for large-scale infrastructure developments, providing expertise on ground deformation prediction and machine learning-based tunneling strategies. In addition to his research roles, Dr. Yang has been an invited speaker at international conferences and workshops, sharing insights on the future of automated tunneling and AI-driven geotechnical engineering. He also serves as a reviewer for several high-impact journals, contributing to the advancement of knowledge in his field. His professional journey reflects a strong blend of academic research, industry applications, and thought leadership in geotechnical engineering.

Research Interests

Dr. Wenkun Yang’s research interests lie at the intersection of geotechnical engineering, tunneling mechanics, and artificial intelligence. His work primarily focuses on the application of machine learning and deep learning techniques in rock stability analysis and TBM performance optimization. He is particularly interested in developing predictive models for tunnel-induced ground deformation, optimizing excavation parameters using AI-driven decision-making, and integrating big data analytics into geotechnical risk assessment. Another key area of his research is the use of numerical simulations to understand rock failure mechanisms and tunnel support system efficiency. His studies on data fusion techniques have led to more accurate geological forecasting, significantly improving the safety and efficiency of underground construction projects. He also explores the impact of different geological conditions on TBM operational strategies, seeking to enhance the automation of tunneling processes. His interdisciplinary approach, combining geomechanics, artificial intelligence, and computational modeling, positions him at the forefront of innovation in underground engineering. His research contributions aim to improve construction efficiency, minimize project risks, and advance the knowledge of subsurface behavior in complex geological environments.

Research Skills

Dr. Wenkun Yang possesses a diverse set of research skills that enable him to tackle complex problems in geotechnical engineering and tunneling technology. His expertise in numerical modeling and computational geomechanics allows him to simulate rock mass behavior under various conditions, providing insights into tunnel stability and support design. He is proficient in finite element modeling (FEM), discrete element modeling (DEM), and hybrid computational methods used for rock mechanics applications. His strong background in artificial intelligence has enabled him to develop machine learning algorithms for TBM performance prediction and geotechnical risk analysis. He has hands-on experience with programming languages such as Python and MATLAB, which he uses for data-driven modeling and predictive analytics. Additionally, he is skilled in remote sensing techniques, GIS-based geological mapping, and real-time TBM monitoring systems. His ability to integrate AI with traditional geotechnical methodologies has led to more precise forecasting and decision-making tools for underground construction projects. His research skills also extend to experimental testing of rock properties, instrumentation in tunnel monitoring, and statistical analysis of geotechnical data. His well-rounded skill set enables him to bridge the gap between theoretical research and practical engineering applications, making him a valuable contributor to the field.

Awards and Honors

Dr. Wenkun Yang has received several prestigious awards and honors in recognition of his contributions to geotechnical engineering and tunneling research. He has been honored with the Best Paper Award at an international conference on rock mechanics, highlighting the impact of his research on AI-driven TBM monitoring. His innovative work on machine learning applications in tunneling has earned him the Young Researcher Award from a leading engineering society. Additionally, he has been a recipient of multiple research grants from industry and government organizations, funding his studies on predictive modeling for underground construction. He was awarded the Excellence in Research Award by his institution for his high-impact publications and significant citations in the field of geomechanics. His patents on TBM optimization have also been recognized by technology innovation awards, further validating his contributions to smart tunneling techniques. His consistent achievements in academia and industry affirm his status as a leading expert in underground engineering.

Conclusion

Dr. Wenkun Yang’s extensive contributions to geotechnical engineering, particularly in tunneling technology and TBM optimization, position him as a leading researcher in his field. His expertise in integrating artificial intelligence with traditional rock mechanics has led to significant advancements in underground construction safety and efficiency. His strong publication record, combined with industry collaborations and patents, reflects his ability to bridge research with practical applications. With multiple awards and honors recognizing his contributions, he has demonstrated a consistent commitment to innovation and knowledge dissemination. His work continues to shape the future of tunneling and underground engineering, making him a highly deserving candidate for the Best Researcher Award. His dedication to solving geotechnical challenges through data-driven solutions and computational modeling establishes him as a pioneer in his domain, influencing both academic research and industrial advancements.

Publication Top Notes

  • Feature fusion method for rock mass classification prediction and interpretable analysis based on TBM operating and cutter wear data
    πŸ“… 2025 | πŸ“œ Tunnelling and Underground Space Technology
    ✍️ Authors: Yang, W.; Chen, Z.; Zhao, H.; Chen, S.; Shi, C.
    πŸ”— DOI: 10.1016/j.tust.2024.106351
    πŸ“‘ EID: 2-s2.0-85213873575
  • Feedback on a shared big dataset for intelligent TBM Part I: Feature extraction and machine learning methods
    πŸ“… 2023 | πŸ“œ Underground Space (China)
    ✍️ Authors: Li, J.-B.; Chen, Z.-Y.; Li, X.; Jing, L.-J.; Zhang, Y.-P.; Xiao, H.-H.; Wang, S.-J.; Yang, W.-K.; Wu, L.-J.; Li, P.-Y.
    πŸ”— DOI: 10.1016/j.undsp.2023.01.001
    πŸ“‘ EID: 2-s2.0-85151779831
  • Feedback on a shared big dataset for intelligent TBM Part II: Application and forward look
    πŸ“… 2023 | πŸ“œ Underground Space (China)
    ✍️ Authors: Li, J.-B.; Chen, Z.-Y.; Li, X.; Jing, L.-J.; Zhang, Y.-P.; Xiao, H.-H.; Wang, S.-J.; Yang, W.-K.; Wu, L.-J.; Li, P.-Y.
    πŸ”— DOI: 10.1016/j.undsp.2023.01.002
    πŸ“‘ EID: 2-s2.0-85152230288
  • Probabilistic machine learning approach to predict incompetent rock masses in TBM construction
    πŸ“… 2023 | πŸ“œ Acta Geotechnica
    ✍️ Authors: Yang, W.; Zhao, J.; Li, J.; Chen, Z.
    πŸ”— DOI: 10.1007/s11440-023-01871-y
    πŸ“‘ EID: 2-s2.0-85151297550
  • Probabilistic model of disc-cutter wear in TBM construction: A case study of Chaoer to Xiliao water conveyance tunnel in China
    πŸ“… 2023 | πŸ“œ Science China Technological Sciences
    ✍️ Authors: Yang, W.K.; Chen, Z.Y.; Wu, G.S.; Xing, H.
    πŸ”— DOI: 10.1007/s11431-023-2465-y
    πŸ“‘ EID: 2-s2.0-85175035176
  • Excavation rate β€œpredicting while tunnelling” for double shield TBMs in moderate strength poor to good quality rocks
    πŸ“… 2022 | πŸ“œ International Journal of Rock Mechanics and Mining Sciences
    ✍️ Authors: Mu, B.; Yang, W.; Zheng, Y.; Li, J.
    πŸ”— DOI: 10.1016/j.ijrmms.2021.104988
    πŸ“‘ EID: 2-s2.0-85120046745
  • Significance and methodology: Preprocessing the big data for machine learning on TBM performance
    πŸ“… 2022 | πŸ“œ Underground Space (China)
    ✍️ Authors: Xiao, H.-H.; Yang, W.-K.; Hu, J.; Zhang, Y.-P.; Jing, L.-J.; Chen, Z.-Y.
    πŸ”— DOI: 10.1016/j.undsp.2021.12.003
    πŸ“‘ EID: 2-s2.0-85124407862
  • Numerical simulation for compressive and tensile behaviors of rock with virtual microcracks
    πŸ“… 2021 | πŸ“œ Arabian Journal of Geosciences
    ✍️ Authors: Chen, X.; Shi, C.; Ruan, H.-N.; Yang, W.-K.
    πŸ”— DOI: 10.1007/s12517-021-07163-7
    πŸ“‘ EID: 2-s2.0-85105802718
  • Calibration of micro-scaled mechanical parameters of granite based on a bonded-particle model with 2D particle flow code
    πŸ“… 2019 | πŸ“œ Granular Matter
    ✍️ Authors: Not provided
    πŸ”— DOI: 10.1007/s10035-019-0889-3
  • Numerical simulation of column charge explosive in rock masses with particle flow code
    πŸ“… 2019-11 | πŸ“œ Granular Matter
    ✍️ Authors: Not provided
    πŸ”— DOI: 10.1007/s10035-019-0950-2
  • Study of Anti-Sliding Stability of a Dam Foundation Based on the Fracture Flow Method with 3D Discrete Element Code
    πŸ“… 2017-10-06 | πŸ“œ Energies
    ✍️ Authors: Chong Shi; Wenkun Yang; Weijiang Chu; Junliang Shen; Yang Kong
    πŸ”— DOI: 10.3390/en10101544

Jamal Raiyn | Engineering | Best Researcher Award

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Prof. Dr. Jamal Raiyn | Engineering | Best Researcher Award

Researcher at Technical University of Applied Sciences Aschaffenburg Sciences, Aschaffenburg, Germany.

Dr. Jamal Raiyn is a distinguished researcher in applied computer science, recognized for his innovative contributions to autonomous systems, cybersecurity, and urban livability. With a focus on using computational intelligence to solve real-world challenges, his work spans diverse areas such as vehicle safety, data science, and natural product bioactivity. Dr. Raiyn has an extensive publication record, including high-impact journals like Smart Cities and PLoS ONE. His research integrates interdisciplinary approaches, bridging technology with societal needs. Notably, his work on data-driven anomaly detection and computational methods for vehicle networks has garnered global recognition. Dr. Raiyn’s passion for collaborative research and impactful problem-solving continues to define his professional journey.

Professional Profile:

Education

Dr. Raiyn holds advanced degrees in computer science, specializing in applied computational techniques. His academic foundation equips him with a robust understanding of data systems, artificial intelligence, and cybersecurity. Details about the institutions he attended and specific degrees earned could further solidify his academic credentials in this profile.

Professional Experience

Dr. Raiyn has extensive experience as a researcher and academic, contributing significantly to both theoretical advancements and practical applications in his field. Over the years, he has collaborated with various organizations and universities, leading projects that focus on enhancing safety, livability, and efficiency in urban and technological systems.

Research Interests

Dr. Raiyn’s primary research interests include computational intelligence, autonomous systems, vehicular networks, and cybersecurity. His work frequently explores interdisciplinary domains, such as integrating AI into naturalistic driving studies, predicting autonomous driving behaviors, and advancing maritime cybersecurity. These interests demonstrate a commitment to addressing contemporary challenges in technology and society.

Research Skills

Dr. Raiyn’s skills encompass advanced data analysis, machine learning, cybersecurity modeling, and system optimization. His expertise in computational intelligence allows him to solve complex, multi-dimensional problems. Proficiency in handling diverse data sets and developing predictive models has been pivotal in his impactful research contributions.

Awards and Honors

Dr. Raiyn’s research excellence has earned him multiple accolades, including recognition for his papers in the “Top 10 Must-Read Data Science Research Papers in 2022.” His highly cited works in applied sciences highlight his contributions to global knowledge. Awards for impactful publications and invited talks further reflect his standing in the academic community.

Conclusion

Dr. Jamal Raiyn’s impressive career in applied computer science exemplifies excellence in research, innovation, and societal impact. His ability to tackle pressing global issues through advanced computational techniques positions him as a leader in his field. With continued dedication to high-quality research and collaboration, Dr. Raiyn is well-deserving of recognition and accolades, including the Best Researcher Award.

Publication Top Notes

  1. Improving the Perception of Objects Under Daylight Foggy Conditions in the Surrounding Environment
    • Authors: Chaar, M.M., Raiyn, J., Weidl, G.
    • Year: 2024
  2. From Sequence to Solution: Intelligent Learning Engine Optimization in Drug Discovery and Protein Analysis
    • Authors: Raiyn, J., Rayan, A., Abu-Lafi, S., Rayan, A.
    • Year: 2024
  3. Predicting Autonomous Driving Behavior through Human Factor Considerations in Safety-Critical Events
    • Authors: Raiyn, J., Weidl, G.
    • Year: 2024
    • Citations: 1
  4. Analysis of Driving Behavior in Adverse Weather Conditions
    • Authors: Raiyn, J., Chaar, M.M., Weidl, G.
    • Year: 2024
  5. Improve Bounding Box in Carla Simulator
    • Authors: Chaar, M.M., Raiyn, J., Weidl, G.
    • Year: 2024
    • Citations: 1
  6. Improving Autonomous Vehicle Reasoning with Non-Monotonic Logic: Advancing Safety and Performance in Complex Environments
    • Authors: Raiyn, J., Weidl, G.
    • Year: 2023
    • Citations: 1
  7. Naturalistic Driving Studies Data Analysis Based on a Convolutional Neural Network
    • Authors: Raiyn, J., Weidl, G.
    • Year: 2023
    • Citations: 4
  8. Detection of Road Traffic Anomalies Based on Computational Data Science
    • Authors: Raiyn, J.
    • Year: 2022
    • Citations: 4
  9. Road Traffic Anomaly Detection Based on Deep Learning Technology
    • Authors: Raiyn, J.
    • Year: 2021
    • Citations: 1
  10. Classification of Road Traffic Anomaly Based on Travel Data Analysis
    • Authors: Raiyn, J.
    • Year: 2021
    • Citations: 6

Shuai Li | Engineering | Best Researcher Award

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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 :Β 

Google Scholar

Education:Β 

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)

Shuai Li | Engineering | Best Researcher Award

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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 civil engineering disaster prevention and mitigation. He earned his Ph.D. in Engineering Mechanics from Northeastern University in 2017. His research spans numerical modeling, stress relaxation in rocks, and blasting stress wave analysis, as reflected in 5 SCI-indexed publications and 5 patents. Dr. Li has participated in several high-impact national and international research projects, with two as the principal investigator. Additionally, he authored a book on BIM technology and holds editorial roles in prestigious journals. His contributions to engineering mechanics have both academic and practical significance.

ProfileπŸ‘€

Education πŸŽ“

πŸŽ“Dr. Shuai Li’s academic journey is marked by a strong foundation in engineering. He completed his undergraduate studies in Hydraulics and Hydroelectric Engineering at Tianjin University in 2012. Pursuing further specialization, he obtained a Master’s degree in Civil Engineering from Purdue University in 2014, followed by a Master’s in Industrial Engineering in 2015, and a Master’s in Economics in 2016. In October 2017, Dr. Li achieved his Doctorate in Engineering Mechanics from Northeastern University. This extensive educational background has equipped him with a multidisciplinary perspective, enhancing his contributions to civil engineering and disaster mitigation research.πŸŽ“πŸ“š

ExperienceπŸ’Ό

🩺Dr. Shuai Li serves as a lecturer at the School of Civil and Traffic Engineering, Henan University of Urban Construction. In this role, he has been instrumental in advancing research on civil engineering disaster prevention and mitigation. Dr. Li has led projects funded by the China Postdoctoral Science Foundation and the Key Projects of Universities in Henan Province. His collaborative efforts include participation in projects supported by the National Natural Science Foundation of China. Additionally, Dr. Li has contributed to industry through consultancy projects, notably with Lushan Shengyao Renewable Resources Recycling Co., Ltd. His experience reflects a blend of academic rigor and practical application, fostering advancements in civil engineering practices.πŸ§‘β€πŸ”¬πŸ“ˆ

Awards and Honors πŸ†

Dr. Shuai Li’s contributions to civil engineering have been recognized through various awards and honors. He has received accolades for his research excellence, including the Collingwood Prize from the American Society of Civil Engineers in 2018. His publications have garnered best paper awards, reflecting the impact of his work on the academic community. Dr. Li’s commitment to innovation is further evidenced by his receipt of multiple invention patents, underscoring his role in advancing engineering technologies. These honors highlight Dr. Li’s dedication to enhancing infrastructure resilience and his influence in the field of civil engineering.πŸ…πŸŒ

Research Interests πŸ”¬

πŸ”¬Dr. Shuai Li’s research centers on civil engineering disaster prevention and mitigation, with a particular emphasis on geotechnical engineering. He investigates the deformation of surfaces caused by tunneling and the stability of rock masses under various loading conditions. His work employs finite element analysis and experimental studies to develop methods that enhance the safety and stability of civil infrastructure. Dr. Li’s research contributes to the development of innovative solutions for challenges in civil engineering, aiming to improve the resilience of structures against natural and man-made hazards.πŸ”¬πŸ§¬

Conclusion πŸ”šΒ 

Dr. Shuai Li is a strong candidate for the Best Researcher Award, showcasing exceptional achievements in civil engineering mechanics, particularly in disaster prevention and mitigation. His balance of academic rigor and practical application sets him apart. With increased global collaborations and targeted high-impact publications, Dr. Li has the potential to solidify his position as a leading researcher in his field. Awarding him this recognition would acknowledge his significant contributions and encourage future innovation.

Publications Top NotesΒ πŸ“š

Influence of dynamic disturbance on the creep of sandstone: an experimental study

Authors: W. Zhu, S. Li, S. Li, L. Niu

Citations: 64

Year: 2019

Experimental and numerical study on stress relaxation of sandstones disturbed by dynamic loading

Authors: W. Zhu, S. Li, L. Niu, K. Liu, T. Xu

Citations: 29

Year: 2016

Experimental study on creep of double-rock samples disturbed by dynamic impact

Authors: S. Li, W. Zhu, L. Niu, K. Guan, T. Xu

Citations: 16

Year: 2021

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

Citations: 3

Year: 2019

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

Citations: 2

Year: 2022

An Experimental Study on Stress Relaxation of Yunnan Sandstone

Authors: S. Li, C. Zheng, P. Li

Citations: 1

Year: 2022

Investigating Surface Settlements During Shield Tunneling Using Numerical Analysis

Authors: R. He, Z. Zhou, S. Li, S. Vanapalli

Citations: Not available yet

Year: 2024

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

Citations: Not available yet

Year: 2024