Jingjing Jiang | Robotics and Automation | Best Researcher Award

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Dr. Jingjing Jiang | Robotics and Automation | Best Researcher Award

Loughborough University | United Kingdom

Dr Jingjing Jiang is a distinguished researcher in intelligent mobility and autonomous systems, currently a Senior Lecturer in Intelligent Mobility and Autonomous Vehicles at the Department of Aeronautical and Automotive Engineering, Loughborough University. She holds a BE in Electronic and Electrical Engineering an MSc in Control Engineering , and a PhD in Control Engineering (Imperial College London,  thesis: Shared Control for Systems with Constraints). After her doctoral work she served as a Research Associate in the Department of Electrical and Electronic Engineering at Imperial College London before joining Loughborough University as Lecturer in 2018 and being promoted to Senior Lecturer. Her research interest spans trustworthy control design and rigorous closed-loop performance analysis for intelligent systems and autonomous vehicles, combining classical control theory with modern data-driven models and algorithms, and emphasising both trial-based validation and top-down safety and reliability guarantees. Her work has been recognised for bridging fundamental research and real-world application in mobility systems. She continues to drive innovation in autonomous mobility and system safety, contributing to the future of reliable intelligent transport.

Profiles : Google Scholar | Orcid

Featured Publications

Cao, S., Sun, L., Jiang, J., & Zuo, Z. (2021). Reinforcement learning-based fixed-time trajectory tracking control for uncertain robotic manipulators with input saturation. IEEE Transactions on Neural Networks and Learning Systems, 34(8), 4584–4595.

Jiang, J., & Astolfi, A. (2018). Lateral control of an autonomous vehicle. IEEE Transactions on Intelligent Vehicles, 3(2), 228–237.

Fu, H., Jiang, J., Hu, S., Rao, J., & Theodossiades, S. (2023). A multi-stable ultra-low frequency energy harvester using a nonlinear pendulum and piezoelectric transduction for self-powered sensing. Mechanical Systems and Signal Processing, 189, 110034.

Jiang, J., & Astolfi, A. (2020). Stabilization of a class of underactuated nonlinear systems via underactuated back-stepping. IEEE Transactions on Automatic Control, 66(11), 5429–5435.

Hu, J., Lin, Y., Li, J., Hou, Z., Chu, L., Zhao, D., Zhou, Q., Jiang, J., & Zhang, Y. (2024). Performance analysis of AI-based energy management in electric vehicles: A case study on classic reinforcement learning. Energy Conversion and Management, 300, 117964.

Mahamat Abdallah | Sustainability | Young Researcher Award

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Mr. Mahamat Abdallah | Sustainability | Young Researcher Award

Civil Engineer, Beijing Jiaotong University, China

Mahamat Nour Issa Abdallah is an emerging civil engineer and researcher specializing in sustainable infrastructure in arid regions. He earned his BSc in Civil Engineering from Shenyang Jianzhu University, China, and is currently pursuing a Master’s degree at Beijing Jiaotong University. His professional journey includes roles as a Site Engineer and Engineering Department Supervisor in China and the UAE, where he managed diverse projects focusing on quality control, design coordination, and regulatory compliance. Fluent in English, Arabic, and Mandarin, Mahamat’s multicultural proficiency enhances his collaborative capabilities. His research, particularly on wind erosion and sand deposition in desert railways, reflects a commitment to addressing environmental challenges through geospatial analysis and innovative engineering solutions. Mahamat’s blend of academic rigor and practical experience positions him as a promising contributor to sustainable civil engineering practices.

Profile

Orcid

🎓 Education 

  • Bachelor of Science in Civil Engineering
    Shenyang Jianzhu University, China (2016–2020)
    Focused on structural analysis, construction materials, and project management, laying a strong foundation in civil engineering principles.

  • Master of Science in Civil Engineering
    Beijing Jiaotong University, China (2021–Present)
    Specializing in geospatial analysis and sustainable infrastructure, Mahamat’s research addresses mitigation strategies for wind erosion and sand deposition in desert railway systems. His interdisciplinary approach combines environmental science with civil engineering to develop resilient infrastructure solutions.

🏗️ Experience 

  • Intern, Shenyang ZhongHeng Construction Engineering L.L.C, China (2019–2020)
    Conducted daily site inspections, quality control, and manpower reporting. Assisted in reviewing and modifying fit-out drawings, coordinating with site supervisors and technicians.

  • Site Engineer, DHCN Construction L.L.C, Dubai, UAE (2021–2022)
    Oversaw daily site operations, ensured quality standards, coordinated with foremen, and managed progress reporting. Handled inspection approvals and rectification of non-conformance reports.

  • Engineering Department Supervisor, Origin International Management L.L.C & AL Qimma Engineering Consultancy L.L.C, Abu Dhabi, UAE (2022–Present)
    Managed coordination between consultants and contractors for shop drawing approvals, designed architectural and electrical drawings, and arranged fit-out quotations. Handled site inspections, obtained necessary NOCs, and ensured compliance with fire safety systems. Reported weekly progress and handed over completed projects to clients.

🔬 Research

Mahamat’s research centers on sustainable infrastructure development in arid regions, with a particular emphasis on mitigating wind erosion and sand deposition affecting desert railways. Utilizing geospatial analysis and computational modeling, his work aims to develop effective strategies for maintaining the integrity and safety of railway systems subjected to harsh desert conditions. His interdisciplinary approach integrates environmental science, civil engineering, and data analytics to address the challenges posed by sand accumulation on railway tracks. By focusing on the optimization of sand mitigation measures, Mahamat contributes to the advancement of resilient infrastructure solutions that are crucial for the sustainability of transportation networks in desert environments.MDPI

📚 Publication Top Notes

1. Mitigation Measures for Wind Erosion and Sand Deposition in Desert Railways: A Geospatial Analysis of Sand Accumulation Risk

  • Journal: Sustainability

  • Publication Date: April 29, 2025

  • DOI: 10.3390/su17094016

  • Contributors: Mahamat Nour Issa Abdallah, Tan Qulin, Mohamed Ramadan, Providence Habumuremyi

Summary:
This study presents a geospatial analysis of sand accumulation risks affecting desert railways. By integrating environmental data and computational modeling, the research identifies critical areas prone to wind erosion and sand deposition. The findings offer valuable insights into the development of targeted mitigation strategies to enhance the resilience and safety of railway infrastructure in arid regions.

Conclusion

Mahamat Nour Issa Abdallah is a promising early-career civil engineer with a strong combination of practical experience, multilingual ability, and emerging research in sustainable infrastructure. His work is especially relevant to Middle Eastern and desert environments, making him a good candidate for a Young Researcher Award, particularly if the award emphasizes applied civil engineering, resilience against climate challenges, or geospatial environmental research.