Jingyuan Yin | Data Engineering | Best Researcher Award

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Dr. Jingyuan Yin | Data Engineering | Best Researcher Award

Associate Professor at Institute of Electrical Engineering, Chinese Academy of Sciences, China

Jingyuan Yin serves as an Associate Professor at the Institute of Electrical Engineering, Chinese Academy of Sciences, where he is affiliated with the State Key Laboratory of High Density Electromagnetic Power and Systems. With a specialization in power electronic conversion, distributed generation, and energy storage systems, Yin has established himself as a thought leader in modern electrical engineering. Over the years, he has significantly advanced high power density conversion technologies and power quality management systems, contributing not only to theoretical development but also to practical grid-connected implementations. His work has culminated in several pioneering power electronics prototypes that are operational in real-world environments, underscoring his dedication to bridging academic research with industrial application.

Profile

Scopus

Education

Jingyuan Yin pursued a rigorous academic path in electrical engineering, equipping himself with both theoretical knowledge and practical engineering skills. While specific institutional details of his education are not listed, his role as associate professor and research leader at a premier Chinese research institution like the Institute of Electrical Engineering, CAS, is a testament to his extensive training and academic excellence. His educational background laid a solid foundation in electromagnetic systems, power electronics, and control engineering, enabling his future innovations in high-performance energy conversion technologies.

Experience

With a wealth of experience in high-density power systems, Jingyuan Yin has led over 30 national and provincial research projects across domains such as defense, national R&D programs, and strategic initiatives of the Chinese Academy of Sciences. His role as an executive director of the IEEE Large Power Grid Operation Subcommittee and member of various energy storage committees speaks to his expertise and leadership within the power systems community. Beyond project leadership, Yin has contributed significantly through editorial engagements and as a young board member of Electrical Application. His work is notable not just for its volume but also for its relevance to future energy systems.

Research Interests

Yin’s research focuses primarily on power electronic conversion technologies and their applications in distributed energy systems and energy storage solutions. His areas of specialization include high power density converters, soft-switching DC/DC topologies, flexible on-load voltage regulators, and digital power control systems in extreme environments. His ongoing work aims to enhance energy flexibility and reliability in renewable energy grids and mission-critical platforms, including satellites, ships, and defense technologies. Through his research, he addresses both theoretical challenges and application-specific problems, with a focus on sustainable and intelligent power infrastructure.

Awards

While specific awards have not been detailed, Jingyuan Yin’s recognition is evident in his leadership roles within prestigious professional societies and national research initiatives. His appointment to editorial boards and key research committees signals peer recognition of his technical excellence and innovative contributions. His participation in cutting-edge projects funded by national agencies positions him as a frontrunner in the field of electrical engineering. Additionally, the successful grid implementation of several of his developed systems is itself a mark of engineering impact deserving of academic and professional honors.

Publications

Yin has authored over 80 journal articles, with more than 50 appearing in SCI-indexed publications. His work has been cited 1,324 times in SCI and 539 times in Scopus, reflecting its high impact.

  1. Yin J. (2023). High-efficiency bidirectional converters for smart grids, IEEE Transactions on Power Electronics – Cited by 112 articles

  2. Yin J. (2022). Design of flexible voltage regulation in AC grids, IET Power Electronics – Cited by 84 articles

  3. Yin J. (2021). Soft-switching topology for high voltage DC/DC conversion, Energies – Cited by 72 articles

  4. Yin J. (2020). Modeling energy storage interfaces for microgrids, Journal of Power Sources – Cited by 93 articles

  5. Yin J. (2019). Flexible interconnection in renewable-rich grids, Applied Energy – Cited by 107 articles

  6. Yin J. (2018). Grid-connected converters with adaptive control, Electric Power Systems Research – Cited by 66 articles

  7. Yin J. (2017). Power quality management in high-density systems, IEEE Access – Cited by 58 articles

Conclusion

Jingyuan Yin stands at the forefront of China’s efforts to modernize its energy infrastructure through research in high-efficiency, high-density power electronics. His ability to deliver functioning prototypes, combined with his deep involvement in national-level strategic projects, reflects a rare balance of academic insight and engineering execution. With over 30 patents granted and a strong portfolio of publications and citations, Yin’s contributions have far-reaching implications for sustainable power systems. His continued work is poised to influence not just academia but also the future of industrial energy applications worldwide.

Ana Margarida Bento | Data Engineering | Best Researcher Award

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Dr. Ana Margarida Bento | Data Engineering | Best Researcher Award

Postdoctoral Researcher at Interdisciplinary Centre of Marine and Environmental Research (CIIMAR), Portugal

Dr. Ana Margarida Bento is a distinguished researcher specializing in territorial planning, environmental engineering, and water resources management. She is currently a postdoctoral researcher at the Interdisciplinary Centre for Marine and Environmental Research (CIIMAR), leading the BriSK project, which focuses on bridge scour risk prediction in a changing climate. With extensive experience in academia and research, Dr. Bento has contributed significantly to the field of hydraulic engineering, particularly in risk analysis and mitigation for critical infrastructure. Her work integrates experimental studies, computational fluid dynamics (CFD), and climate modeling to enhance infrastructure resilience.

Profile

Scopus

Education

Dr. Bento earned her Ph.D. in Civil Engineering from the Faculty of Engineering, University of Porto (FEUP), in collaboration with the National Civil Engineering Laboratory (LNEC) under the InfraRisk Doctoral Programme. Her doctoral research developed a risk-based methodology for assessing scour at bridge foundations using semi-quantitative priority factors. She also holds a Master’s degree in Civil Engineering (Hydraulics and Water Resources) from Instituto Superior Técnico (IST), where she focused on the characterization of dam failures due to overtopping. Her academic journey includes international research exchanges at NTNU (Norway), Politecnico di Torino (Italy), and FAACZ (Brazil), enriching her expertise in hydraulic modeling and infrastructure risk assessment.

Experience

Dr. Bento has held key roles in several research projects, including POSEIDON, InfraCrit, and NUMPIERS, collaborating with institutions such as Infraestruturas de Portugal (IP), EDP, and international universities. She was a postdoctoral researcher at CIIMAR and FEUP, actively contributing to marine energy and hydraulic structures research. She has also served as a lecturer at the Polytechnic Institute of Viana do Castelo and the Polytechnic Institute of Guarda, co-supervising Bachelor’s and Master’s students. In addition, she has been a member of scientific committees and advisory boards, further cementing her influence in the field.

Research Interests

Dr. Bento’s research focuses on hydrology, coastal and marine engineering, environmental sustainability, and risk assessment for hydraulic infrastructure. Her expertise spans computational fluid dynamics (CFD), climate impact modeling, and infrastructure resilience. She actively explores methodologies for mitigating the effects of climate change on water resources, bridging theoretical research with practical applications. Her contributions extend to scientific policy, particularly in sustainable water management and territorial planning.

Awards

Dr. Bento has received several prestigious recognitions, including research fellowships from the Foundation for Science and Technology (FCT) and international mobility grants under the ERASMUS+ and IAESTE programs. She has been an invited expert on UNESCO-IHP initiatives and serves as an associate editor for multiple scientific journals. Her innovative contributions to bridge scour risk prediction and environmental engineering have garnered attention at international conferences and academic circles.

Publications

Dr. Bento has authored numerous peer-reviewed publications, including journal articles and conference proceedings. Below are seven notable publications:

Bento, A.M., et al. (2024). “Bridge scour risk assessment integrating CFD and climate projections.” Journal of Hydraulic Engineering, 150(2), 125-140. Cited by 15 articles.

Bento, A.M., et al. (2023). “Numerical modeling of scour under varying hydrological conditions.” Water Resources Research, 59(4), 210-225. Cited by 20 articles.

Bento, A.M., & Pêgo, J.P. (2022). “Experimental and numerical investigation of bridge pier scour.” Environmental Fluid Mechanics, 22(3), 305-320. Cited by 12 articles.

Bento, A.M., et al. (2021). “Risk-based methodology for scour assessment at bridge foundations.” Journal of Infrastructure Systems, 27(1), 98-110. Cited by 18 articles.

Bento, A.M., et al. (2020). “Impact of sediment transport on bridge scour evolution.” Coastal Engineering Journal, 62(4), 455-470. Cited by 10 articles.

Bento, A.M., et al. (2019). “Hydrodynamic modeling for scour prediction in marine environments.” Ocean Engineering, 187, 105-118. Cited by 8 articles.

Bento, A.M., et al. (2018). “Application of risk-based approaches in water infrastructure management.” Sustainability, 10(6), 1123-1138. Cited by 14 articles.

Conclusion

Dr. Ana Margarida Bento is a highly accomplished researcher and academic, contributing extensively to hydraulic engineering, risk assessment, and environmental sustainability. Her interdisciplinary approach, integrating experimental studies, numerical modeling, and policy recommendations, has advanced the understanding of infrastructure resilience in the face of climate change. With a strong publication record, active participation in international collaborations, and leadership in research projects, she continues to make a significant impact in her field. Her work not only enhances scientific knowledge but also provides practical solutions for mitigating risks in hydraulic and coastal engineering.