Jiangfeng Wang | Engineering | Best Researcher Award

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Prof. Jiangfeng Wang | Engineering | Best Researcher Award

Dean at Beijing Jiaotong University, China

Prof. Jiangfeng Wang is a distinguished academic and researcher at Beijing Jiaotong University, specializing in intelligent transportation systems, connected vehicle simulation and modeling, and the digitalization of transportation infrastructure. With over two decades of experience, he has made significant contributions to advancing transportation technology and fostering innovation. Prof. Wang has presided over four national-level projects, including three supported by the National Natural Science Foundation of China (NSFC) and two by the Ministry of Science and Technology (MOST). His work has attracted more than 5.2 million yuan in research funding and resulted in over 60 high-impact publications and six invention patents. His efforts have earned him multiple provincial and ministerial awards, solidifying his reputation as a leader in his field.

Professional Profile

Education

Prof. Wang holds a doctoral degree in Transportation Engineering, which he earned from a prestigious university in China. His educational journey is marked by excellence and a keen focus on integrating theory with real-world applications. With advanced training in transportation systems and digital modeling, Prof. Wang has built a robust foundation for his research. His education has been supplemented by ongoing professional development and participation in leading conferences and workshops globally.

Professional Experience

Prof. Wang has had a stellar career at Beijing Jiaotong University, where he holds a senior faculty position. He has led numerous national and regional research projects and collaborated with government bodies such as the Ministry of Transport and the National Development and Reform Commission. Over the years, he has also contributed to the development of national and transportation industry standards. Additionally, Prof. Wang has mentored graduate students, authored textbooks, and served on advisory committees, showcasing his versatility and leadership in academia and industry.

Research Interests

Prof. Wang’s research interests revolve around intelligent transportation systems, connected vehicle simulation, and digital infrastructure development. He focuses on improving traffic efficiency and safety through advanced modeling and data-driven approaches. His work on digitalizing transportation infrastructure aims to bridge the gap between traditional transportation systems and emerging technologies. Prof. Wang is particularly interested in leveraging artificial intelligence, big data, and the Internet of Things (IoT) to create smart and sustainable transportation networks.

Research Skills

Prof. Wang possesses a diverse skill set that combines technical expertise with innovative problem-solving abilities. He excels in connected vehicle simulation, digital modeling of transportation infrastructure, and data analytics. His proficiency in managing large-scale, multidisciplinary projects has been critical in delivering impactful outcomes. Additionally, Prof. Wang has a proven ability to secure research funding, lead collaborative teams, and translate theoretical concepts into practical applications, as evidenced by his patents and standards contributions.

Awards and Honors

Prof. Wang has received numerous accolades in recognition of his academic and professional achievements. He has won three provincial and ministerial awards, including the prestigious Science and Technology Progress Award from the Ministry of Education. His patents and impactful research have garnered widespread recognition in the transportation community. Beyond awards, Prof. Wang’s work has influenced national policies and standards, further affirming his status as a thought leader in his field.

Conclusion

Prof. Jiangfeng Wang is a highly accomplished researcher with notable achievements in Intelligent Transportation Systems and related fields. His extensive research funding, prestigious awards, high-quality publications, and practical contributions through patents and standards development make him a strong contender for the Best Researcher Award. By emphasizing his international collaborations, mentorship activities, and broader societal impact, Prof. Wang can further enhance his profile and demonstrate the global significance of his work. Based on his current accomplishments, he is a highly suitable candidate for the award.

Publication Top Notes

  1. Assessment on resilience of urban agglomeration transportation system considering passenger choice and load-capacity factor
    • Authors: Yang, Z.; Liu, X.; Wang, J.; Shen, R.; Huo, Z.
    • Year: 2025
  2. Modeling and analyzing self-resistance of connected automated vehicular platoons under different cyberattack injection modes
    • Authors: Luo, D.; Wang, J.; Wang, Y.; Dong, J.
    • Year: 2024
    • Citations: 1
  3. Impact of beyond-line-of-sight connectivity on the capacity and stability of mixed traffic flow: An analytical and numerical investigation
    • Authors: Dong, J.; Gao, Z.; Luo, D.; Wang, J.; Chen, L.
    • Year: 2024
    • Citations: 1
  4. Research on lane-changing decision model with driving style based on XGBoost
    • Authors: Zhang, S.; Shao, X.; Wang, J.
    • Year: 2024
    • Citations: 1
  5. Health status indicator system and evaluation method for expressway electromechanical equipment
    • Authors: Gu, M.; Gao, Y.; Wang, J.; Qi, C.
    • Year: 2024
  6. Optimal deployment of dedicated autonomous vehicle lanes under mixed traffic flow conditions in a road network
    • Authors: Zhang, C.; Wang, J.; Ji, C.
    • Year: 2024
  7. Benefit of connectivity on promoting stability and capacity of traffic flow in automation era: An analytical and numerical investigation
    • Authors: Dong, J.; Luo, D.; Gao, Z.; Wang, J.; Chen, L.
    • Year: 2023
    • Citations: 4
  8. Analysis of axle load spectrum of highway trucks in Shandong Province
    • Authors: Ji, C.; Wang, J.; Zhang, C.
    • Year: 2023
  9. Short-term traffic flow prediction of parallel roads based on transfer learning
    • Authors: Li, J.; Wang, L.; Qiu, H.; Wang, J.
    • Year: 2023
  10. Short-Term Traffic Flow Prediction Based on TDG of Expressway
    • Authors: Du, R.; Liu, C.; Du, H.; Wang, J.
    • Year: 2023

 

Marco EZEQUIEL | Mechanics and micro-mechanics | Young Scientist Award

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Dr. Marco EZEQUIEL | Mechanics and micro-mechanics | Young Scientist Award

Postdoctoral Researcher of LSPM-CNRS, France.

Marco Ezequiel is an accomplished materials scientist currently serving as a postdoctoral researcher at LSPM in France, with prior experience at UMET, Lille, and collaborations with prestigious institutions in Germany and Spain. He holds a Doctorate in Materials Science from UMET and a Master’s in Materials Science and Engineering from IIM/UNAM, Mexico. His research focuses on nanostructured thin film metallic glasses and liquid metal embrittlement of Cu-Zn alloys, contributing significantly to material science with innovative findings. Marco has developed expertise in advanced microscopy, diffraction techniques, and mechanical testing, and is proficient in various software tools for FEM modeling and data analysis. He has published several articles in reputed journals and presented his work at major international conferences. His extensive research experience and technical skills, coupled with his active engagement in the scientific community, position him as a strong candidate for the Research for Young Scientist Award.

Profile
Education

Marco Ezequiel has a solid educational background in materials science and engineering. He is currently a postdoctoral researcher at LSPM, Villetaneuse, France, collaborating with INT-KIT, Karlsruhe, Germany, on “Nanostructured Thin Film Metallic Glasses.” Prior to this, he completed another postdoctoral stint at UMET, Lille, France, focusing on “Mechanisms of Liquid Metal Embrittlement of Cu-Zn Alloys by Liquid GaIn Eutectic.” Marco earned his Doctorate in Materials Science from UMET in 2023, with research on liquid metal embrittlement. He holds a Master’s degree in Materials Science and Engineering from IIM/UNAM, Mexico, graduated with honors in 2018, and a Bachelor’s degree in Materials Engineering from the National Technological Institute of Mexico, Morelia, obtained in 2016. His education has been complemented by academic stays and research experiences in renowned institutions across France, Spain, and Mexico.

Professional Experience

Marco Ezequiel has garnered significant experience in materials science through various prestigious roles. Currently, as a postdoctoral researcher at LSPM in France, he collaborates with INT-KIT in Germany on advanced research into nanostructured thin film metallic glasses. His previous postdoctoral role at UMET involved investigating liquid metal embrittlement mechanisms in Cu-Zn alloys. Marco earned his Doctorate in Materials Science from UMET, where he delved into similar research topics. His academic journey includes a Master’s in Materials Science and Engineering from IIM/UNAM, where he focused on the microstructural and mechanical study of aluminum alloys. His foundational education in Materials Engineering was completed at the National Technological Institute of Mexico. Throughout his career, Marco has demonstrated a commitment to advancing material science through innovative research and has accumulated a wealth of experience in both experimental and theoretical aspects of his field.

Research Interest

Marco Ezequiel’s research interests are centered on advanced materials science, particularly focusing on the mechanical and electrical properties of metallic glasses and alloys. His current work as a postdoctoral researcher involves investigating nanostructured thin film metallic glasses to enhance their mechanical and electrical properties, which has significant implications for various high-tech applications. Additionally, he explores the mechanisms of liquid metal embrittlement in Cu-Zn alloys by liquid GaIn eutectic, aiming to understand and mitigate material failures in harsh environments. His previous research includes studying the microstructural and mechanical behaviors of aluminum alloys processed by novel techniques. Through his diverse and innovative research, Marco aims to advance the understanding of material properties and processing, contributing to the development of more resilient and efficient materials for industrial and technological applications. His work bridges fundamental science with practical applications, addressing critical challenges in materials engineering.

Research Skills

Marco Ezequiel demonstrates exceptional research skills through his extensive technical expertise and innovative approach in materials science. His proficiency encompasses advanced techniques such as Scanning Electron Microscopy (SEM), Electron Backscattered Diffraction (EBSD), and Focused Ion Beam (FIB) analysis, which are crucial for detailed structural characterization. Marco excels in phase identification and residual stress analysis using X-ray diffraction, alongside conducting complex static and dynamic wetting tests. His adept use of mechanical testing methods, including tensile, small punch, and creep tests, underscores his capability in evaluating material properties under varied conditions. Additionally, Marco’s expertise in FEM modeling with software like Abaqus and Ansys, coupled with his data analysis skills in Excel, MatLab, and Origin, highlights his ability to interpret and model complex data sets. His comprehensive skill set enables him to tackle challenging research problems and contribute significantly to advancements in materials science.

 Awards and Recognition

Marco Ezequiel has received notable awards and recognitions throughout his academic career. He was awarded a Master’s Research Grant by the National Council for Science and Technology of Mexico and the prestigious Roberto Rocca Education Program Grant by Tenaris Tamsa Company, underscoring his excellence in materials science research. Additionally, Marco achieved national recognition in Mexico, securing third place in a mathematical, chemistry, and physics contest organized by the National Association of Faculties and Schools of Engineering (ANFEI) and second place in similar contests organized by both the General Directorate of Higher Technological Education and ANFEI. These accolades highlight his outstanding academic achievements and dedication to advancing the field of materials science, reflecting his significant contributions and potential for future impact in his research endeavors.

Conclusion

Marco Ezequiel is a strong candidate for the Research for Young Scientist Award due to his innovative research, solid educational background, extensive technical skills, and active contributions to the scientific community through publications and conference presentations. To strengthen his application, he should emphasize the broader impacts of his work, seek additional recognitions, and enhance his collaborative efforts. Overall, his achievements and potential make him a worthy contender for the award.

Publications Top Notes

  • The Liquid Metal Embrittlement of a Reactive System at Room Temperature: α-Brasses in Contact with the Liquid Eutectic Ga-In
    • Authors: Ezequiel, M., Proriol Serre, I., Auger, T., Hadjem-Hamouche, Z., Perriere, L.
    • Year: 2024
  • Texture and Strain Rate Sensitivity Analysis of Solid Solution and Precipitation Hardening Aluminum Alloys Processed by Repetitive Corrugation and Straightening
    • Authors: Elizalde, S., Ezequiel, M., Romero-Resendiz, L., Cabrera, J.M., González, G.
    • Year: 2023
  • Study on the Formability and Texture Evolution of AA6061 Alloy Processed by Repetitive Corrugation and Straightening
    • Authors: Elizalde, S., Ezequiel, M., Cabrera, J.M., Baile, M.T., González, G.
    • Year: 2021
    • Citations: 3
  • Microstructural Evolution and Mechanical Behavior of an Al-6061 Alloy Processed by Repetitive Corrugation and Straightening
    • Authors: Elizalde, S., Ezequiel, M., Figueroa, I.A., Braham, C., González, G.
    • Year: 2020
    • Citations: 19
  • Numerical and Experimental Study of a 5754-Aluminum Alloy Processed by Heterogeneous Repetitive Corrugation and Straightening
    • Authors: Ezequiel, M., Figueroa, I.A., Elizalde, S., Morin, L., González, G.
    • Year: 2020
    • Citations: 17
  • Formability of the 5754-Aluminum Alloy Deformed by a Modified Repetitive Corrugation and Straightening Process
    • Authors: Ezequiel, M., Elizalde, S., Cabrera, J.-M., Alfonso, I., González, G.
    • Year: 2020
    • Citations: 8