Kezhen Yan | Pavement | Best Researcher Award

Published on by Civil Engineering

Prof Kezhen Yan | Pavement | Best Researcher Award

HUNAN UNINVERSITY, China

Yan Kezhen is a distinguished Professor in the School of Civil Engineering at Hunan University, specializing in pavement engineering and materials. With a Ph.D. in Civil Engineering from Zhejiang University, he has over two decades of experience in research and academia. His work focuses on the structural mechanics of pavements, dynamic response analysis, and innovative materials for road construction. Prof. Yan has led numerous national and international research projects, including studies funded by the Natural Science Foundation of China and the China Postdoctoral Fund. He has published extensively in top-tier journals, contributing significantly to the fields of geotechnical and pavement engineering. His research has practical applications in road maintenance, subgrade stability, and sustainable construction practices. Prof. Yan is also an active mentor, guiding students and young researchers in advancing civil engineering technologies.

Professional Profile

Google Scholar

Education 🎓

  • Doctor of Engineering in Civil Engineering (Geotechnical Engineering), Zhejiang University, China (2002–2005).
  • Master of Engineering in Highways and Railway Engineering, Chang’an University, China (1999–2002).
  • Bachelor of Engineering in Civil Engineering, Shenyang Jianzhu University, China (1995–1999).

Prof. Yan’s academic journey reflects a strong foundation in civil engineering, with a focus on geotechnical and pavement engineering. His doctoral research at Zhejiang University laid the groundwork for his expertise in soil mechanics and pavement dynamics. His master’s studies at Chang’an University honed his skills in highway engineering, while his bachelor’s degree provided a comprehensive understanding of civil engineering principles. This robust educational background has enabled him to excel in both research and teaching, making significant contributions to the field.

Experience  💼

  • Professor, School of Civil Engineering, Hunan University (Present).
  • Researcher, Key Laboratory of Ministry Open Fund Projects (2007–2010).
  • Postdoctoral Researcher, China Postdoctoral Fund Projects (2008–2010).
  • Consultant, First Highway Consultants Co., LTD, China (2007–2009).

Prof. Yan has extensive experience in leading high-impact research projects, including studies on pavement mechanics, subgrade stability, and sustainable road construction. His work with the China Postdoctoral Fund and the Natural Science Foundation of China has advanced the understanding of pavement dynamics and material behavior. Additionally, his consultancy role with the First Highway Consultants Co., LTD, contributed to practical solutions for highway construction in challenging environments like permafrost regions. His expertise bridges theoretical research and real-world applications, making him a leader in civil engineering.

Awards and Honors 🏆

  • Outstanding Researcher Award, Hunan University (2010).
  • Best Paper Award, Geohunan International Conference (2009).
  • Key Project Science Fund Recipient, Hunan University (2010–2012).
  • Postdoctoral Special Funding, China Postdoctoral Fund (2009–2010).
  • New Teachers’ Fund for Doctor Stations, Ministry of Education of China (2009–2011).

Prof. Yan’s contributions to pavement engineering and materials have been recognized through numerous awards and honors. His research on pavement mechanics and subgrade stability has earned him accolades from both academic and industry circles. The Key Project Science Fund and Postdoctoral Special Funding highlight his innovative approach to solving complex engineering problems. His work continues to set benchmarks in the field, earning him a reputation as a leading expert in civil engineering.

Research Focus 🔍

Prof. Yan’s research focuses on pavement engineering, material science, and geotechnical engineering. His work includes:

  • Pavement Mechanics: Analyzing the structural behavior of gradient heterogeneity pavements and dynamic responses to traffic loads.
  • Material Innovation: Developing sustainable materials like waste tire rubber and recycled polyethylene for asphalt modification.
  • Subgrade Stability: Studying erosion mechanisms and stability of highway subgrade slopes.
  • Maintenance Technologies: Evaluating pavement performance and decision-making methods for maintenance.
  • Dynamic Load Analysis: Investigating the impact of uneven pavement surfaces on fatigue breakdown.

His research combines theoretical modeling with experimental validation, providing practical solutions for road construction and maintenance. Prof. Yan’s work has significant implications for improving the durability and sustainability of transportation infrastructure.

Publication Top Notes 📚

  1. Study on settlement patterns of embankment on soft ground of alluvial flat.
  2. Propagation of Rayleigh wave in saturated soil layer.
  3. Study on relationship of shear wave velocity and shear strength of foundation.
  4. Characteristics of Rayleigh wave in soils generated by traffic load.
  5. Propagation characteristics of Love wave generated by vehicle loads in soils.
  6. Dynamic response of rectangular plate lying on viscous Winkler foundation to moving harmonic load.
  7. Dynamic response analysis of slab on elastic foundation subjected to moving load.
  8. Dynamic response of strip on two-parameter viscoelastic foundation under impact loading.
  9. Transient Response of a Winkler Supported Plate.
  10. Experimental study of the rigid-flexible pile composite foundation.
  11. Transient response of a viscoelastic winkler supported strip.
  12. Dynamic response of rectangular plate on two-parameter foundation to moving load.
  13. Application Study on Rayleigh wave for Dry Jet Mixing Pile Composite Foundation.
  14. Dynamic Analysis of Beam Subjected to Moving Load on VLAZOV subgrade.
  15. Research on identification and classification method for swelling soil subgrade filling.
  16. Experimental Analysis on Asphalt Pavement Structure.
  17. Dynamic response of plate on Kelvin foundation subjected to moving load.
  18. Analysis on bituminous pavement structural mechanics based on change of gradient of module.
  19. Analysis on natural aging of bituminous pavement.
  20. Theoretical study on shear wave velocity and consolidation degree of soft soil Inundation.
  21. Multi Grey Synthetic Evaluation on Pavement Condition Of Asphalt Pavement.
  22. Evaluation of Pavement Dilapidation in Permafrost Region Based on Matter-Element Model.
  23. Effect of Bond Condition on Overlay Performance.
  24. Discriminant analysis model for prediction of sand soil liquefaction during earthquake.
  25. A Method of Asphalt Pavement Performance Evaluation Based on POS-LSSVM.
  26. Evaluation of Rock Slope Stability Based on Fisher Discriminant Analysis Method.
  27. Analysis of Thermal and Coupled-filed Stresses of Overlay on the Old Asphalt Pavements.
  28. Grey Relation Analysis of Low-temperature Performance Indexs of Asphalt Binder.
  29. Stress Analysis of Asphalt Overlay on Old Asphalt Pavement with Anti-cracking Interlayer Containing Stress absorption layer.
  30. Back-calculation of Modulus for Pavements Based on Ant Colony Algorithm.
  31. Application of Matter Element Analysis Based on Entropy Right to Evaluate the Pavement Condition in Permafrost Region.
  32. Prediction of elastic modulus of normal and high strength concrete by support vector machine.
  33. Multi-attribute grey fuzzy decision-making of asphalt pavement maintenance method.
  34. Mechanics analysis of asphalt overlay pavement under traffic load.
  35. Study on the roadbed slope erosion stability based on the theory of mutations.
  36. Study on mechanical behavior of asphalt concrete pavements with non-uniformity gradient materials.

Conclusion

Prof. Yan Kezhen is a leading figure in pavement and geotechnical engineering, with a career marked by groundbreaking research, innovative solutions, and a commitment to advancing sustainable infrastructure. His extensive publications, numerous awards, and impactful projects underscore his contributions to the field. Through his work, Prof. Yan continues to shape the future of civil engineering, ensuring safer, more durable, and environmentally friendly transportation systems.

 

Guangyu Zhu | Intelligent Transportation System | Best Researcher Award

Published on by Civil Engineering

Mr Guangyu Zhu | Intelligent transportation system | Best Researcher Award

Ph.D. candidate, Tsinghua University, China

Guangyu Zhu is a dedicated researcher and PhD candidate in Automotive Engineering at Tsinghua University, specializing in intelligent connected vehicles and vehicle-road collaborative systems. With a strong academic foundation from Shanghai Jiaotong University (Master’s) and Northeastern University (Bachelor’s), Guangyu has consistently excelled in his field, earning numerous awards and scholarships. His research focuses on the development strategy, cost-benefit analysis, and social value of intelligent automotive technologies. Guangyu has led significant consulting projects for the China Academy of Engineering and top international automobile companies, contributing to the advancement of China’s automotive industry. He has published multiple high-impact papers in SCI and EI-indexed journals, showcasing his expertise in intelligent transportation systems, steer-by-wire technologies, and blockchain applications in automotive fields. Guangyu’s work bridges academic research and industry innovation, aiming to shape the future of intelligent transportation.

Professional Profile

Orcid

Education 🎓

  • PhD in Automotive Engineering, Tsinghua University (Aug 2020–Jun 2025)
    Research: Intelligent connected vehicles, vehicle-road collaborative systems, social and user value.
    Awards: SAECCE Young Professional Excellent Paper, University/Institute scholarships.
  • Master of Engineering in Automotive Engineering, Shanghai Jiaotong University (Sep 2017–Mar 2020)
    Research: Steer-by-wire systems, lane-changing decision-making.
    Awards: Huawei Cup Mathematical Contest in Modeling (Second Prize).
  • Bachelor of Science in Applied Physics, Northeastern University (Sep 2013–Jun 2017)
    GPA: 3.7/4.0 (Rank: 1/88).
    Awards: Outstanding Graduate of Liaoning Province, National Scholarship, Huawei Scholarship.

Experience 💼

  • Lead Researcher, Consulting Project, China Academy of Engineering (Jun 2020–Apr 2021)
    Defined development strategies for intelligent automotive technologies and identified key bottlenecks.
  • Lead Researcher, Consulting Project for Top International Automobile Company (Aug 2020–Feb 2022)
    Analyzed drivers of China’s automotive industry, including pandemic impacts and digital transformation.
  • Lead Researcher, University-Industry Joint Research Project on Steer-by-Wire Systems (Feb 2019–Feb 2020)
    Developed a steer-by-wire test bench and designed an internal model controller for precise steering.

Awards and Honors ďż˝

  • SAECCE Young Professional Excellent Paper Award
  • University-level Second-Class Scholarship (Tsinghua University)
  • Institute-level First-Class Scholarship (Tsinghua University)
  • Second Prize, Huawei Cup Mathematical Contest in Modeling (Shanghai Jiaotong University)
  • Outstanding Graduate of Liaoning Province (Northeastern University)
  • National Scholarship (Northeastern University)
  • Huawei Scholarship (Northeastern University)
  • University-level First-Class Scholarship (Northeastern University)
  • Second Prize, Mathematical Contest in Modeling (MCM)

Research Focus 🔍

Guangyu Zhu’s research focuses on intelligent connected vehicles and vehicle-road collaborative systems, emphasizing development strategies, cost-benefit analysis, and social value. He explores the integration of advanced technologies like blockchain and steer-by-wire systems in the automotive industry. His work also addresses traffic efficiency, energy consumption, and user-centric design in high-level autonomous driving scenarios. Guangyu’s research bridges theoretical innovation and practical applications, contributing to the sustainable growth of intelligent transportation systems in China and globally.

Publication Top Notes📚

  1. Cost Analysis of Vehicle‐Road Cooperative Intelligence Solutions for High‐Level Autonomous Driving: A Beijing Case Study
  2. Research on Vehicle-Road Intelligent Capacity Redistribution and Cost Sharing in the Context of Collaborative Intelligence
  3. Research on Social Values of Vehicle-Road Collaborative Intelligent Systems: A Beijing Case Study
  4. Blockchain Technology and Its Application in Automotive Field
  5. Controller Design for an Automobile Steer-by-Wire System
  6. Intelligent Vehicle Technology Innovation Development Strategy Supporting the Upgrading of Traffic
  7. Study on Front Wheel Angle Tracking Strategy of Steering-by-Wire System
  8. Impacts of Connected and Autonomous Vehicles with Level 2 Automation on Traffic Efficiency and Energy Consumption
  9. Evaluation of Traffic Efficiency and Energy-Saving Benefits of L3 Smart Vehicles under the Urban Expressway Scenario
  10. The Expansion of Value Engineering Theory and Its Application in the Intelligent Automotive Industry

Conclusion 🌟

Guangyu Zhu is a highly accomplished researcher and PhD candidate whose work in intelligent connected vehicles and vehicle-road collaborative systems is shaping the future of transportation. With a strong academic background, extensive research experience, and numerous awards, he is a leading voice in the automotive industry. His publications and projects demonstrate a commitment to innovation, sustainability, and practical applications, making him a valuable contributor to the field of intelligent transportation.

 

David Santiago Pellicer ZubeldĂ­a | Transportation Engineering | Best Researcher Award

Published on by Civil Engineering

Mr. David Santiago Pellicer ZubeldĂ­a | Transportation Engineering | Best Researcher Award

Worker | University of Zaragoza | Spain

Short Bio ✨

David Santiago Pellicer ZubeldĂ­a is an Industrial Engineer with a specialization in Mechanical and Electrical Engineering from the University of Zaragoza. He has focused his expertise on Machine & Vehicle (Mechanical) Design, particularly within the railway sector. David is passionate about research and development in this field, and he is actively searching for a PhD project to further his academic and professional goals.

Profile👤

Orcid

Education 🎓

David completed his Master’s in Industrial Engineering with a major in Machine & Vehicle (Mechanical) Design in 2021 at the University of Zaragoza. Prior to that, he earned a Degree in Industrial Technologies Engineering (Mechanical + Electrical Engineering) in 2019 from the same institution. Additionally, he pursued a Master’s in Railway Systems at TECH Technological University in 2023. David has also undertaken various specialized courses, including Python programming, SolidWorks, and ANSYS.

Experience 💼

David has accumulated significant experience in railway project development and mechanical design through roles in companies such as INECO, FutureLift S.L., and SEGULA Technologies. At INECO, he worked on I+D+i railway projects, performing technical analyses and writing technical documentation. At FutureLift S.L., he improved hydraulic lifting machines through R+D+i techniques and oversaw design updates. At SEGULA Technologies, he contributed to R+D+i tasks and railway component design, managing 3D modeling and creating technical documents in English.

Research Interest 🔬

David’s primary research interest lies in railway engineering, with a focus on improving vehicle design, wheel wear analysis, and the implementation of the Hyperloop concept. His research revolves around finding innovative solutions for enhancing transportation systems, including studies on vacuum tube transport and wheelbase sensitivity analysis.

Awards 🏆

David has earned honors for his academic achievements, including his Master’s Thesis on the rolling phenomenon of reduced-diameter railway wheels in freight wagons, completed in 2021. He was also recognized for his work on Safe and Sustainable Mobility, where he designed an e-bike and contributed to bikeway safety design in 2021.

Publications 📚

  1. Pellicer, David S. 2024. “Demonstration of the theoretical superelevation formulae for railway lines.” Read article.
    Cited by articles on railway line design.
  2. Pellicer, David S., & Emilio LarrodĂŠ. 2024. “Sensitivity Analysis of Bogie Wheelbase and Axle Load for Low-Floor Freight Wagons, Based on Wheel Wear.” Machines, 12(8), 515. Read article.
    Cited by articles on freight wagon dynamics.
  3. Pellicer, David S., & Emilio LarrodĂŠ. 2024. “Analysis of the Effectiveness of a Freight Transport Vehicle at High Speed in a Vacuum Tube (Hyperloop Transport System).” Algorithms, 17(1), 17. Read article.
    Cited by articles on futuristic transportation.
  4. Pellicer, David S. 2023. “The Problem of Ballast Pick-Up.” Trenvista, 1(1), 48. Read article.
    Cited by studies on railway ballast management.
  5. Pellicer, David S. 2020. “Conceptual Development, Analysis, and Simulation of the Transport Capacity of a Freight Transport Vehicle in Vacuum Tubes at High Speed (Hyperloop Concept).” SSRN. Read article.
    Cited by articles on Hyperloop systems.

Conclusion 🚀

David Santiago Pellicer Zubeldía’s blend of industrial engineering, railway expertise, and research capabilities positions him as a forward-thinking professional eager to push the boundaries of transportation technologies. His journey from mechanical design to Hyperloop research highlights his commitment to innovation and his readiness to contribute to cutting-edge engineering projects.