Dr. Yuxiang Leng | Electrical engineering | Best Researcher Award

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Dr. Yuxiang Leng | Electrical engineering | Best Researcher Award

Ph.D, Chongqing University, China

Yuxiang Leng is an emerging researcher in the field of 3D laser point cloud technology and power transmission systems. He is currently pursuing his Ph.D. at the State Key Laboratory of Power Transmission Equipment Technology, Chongqing University, China. With a strong academic background and an innovative mindset, Leng has actively contributed to the advancement of computer vision applications in power systems. He has published eight academic papers and presented his work at high-level international conferences, gaining recognition in both academia and industry for his contributions to smart grid technologies and engineering digitalization.

Publication Profile

Scopus

🎓 Education Background:

Yuxiang Leng earned his B.Sc. degree from Jiangsu University of Science and Technology in 2019 and his M.S. degree from Wenzhou University in 2022. He is currently a Ph.D. candidate at Chongqing University, focusing on advanced research in the digital management of power substations using 3D vision and laser scanning methods. His educational path reflects a consistent pursuit of excellence in engineering and technology.

💼 Professional Experience:

Though still in the early stages of his research career, Yuxiang has shown remarkable productivity. He has been actively involved in eight research projects and has taken a lead role in multiple academic studies. His technical work centers around developing high-precision measurement techniques and improving data accuracy in laser-based 3D reconstruction. While he has not yet been involved in consultancy or editorial positions, his practical approach and novel methodologies have already earned him significant attention in academic forums.

🏅 Awards and Honors:

While specific awards are not listed, Yuxiang’s recognition as a leading contributor to peer-reviewed SCI/EI journals, including being the first author in three high-impact publications, underlines his academic excellence. Additionally, his oral presentations at top-tier international conferences have positioned him as a rising talent in power equipment digitalization. His selection as an IEEE Student Member further reflects his commitment to research and innovation.

🔬 Research Focus:

Yuxiang’s research lies at the intersection of 3D computer vision, laser point cloud data analysis, and power transmission and transformation systems. His most notable contribution involves a dynamic compensation method that significantly reduces vibration-induced errors in 3D point cloud data, enhancing segmentation and reconstruction precision by over 70%. His work not only advances digital twin modeling but also supports smart maintenance, monitoring, and intelligent management of electrical substations.

🔚 Conclusion:

Yuxiang Leng stands out as a dynamic and promising young researcher whose innovative solutions are driving the future of power system digitalization. With a strong publication record, hands-on project experience, and a clear research vision, he is a fitting candidate for the Best Researcher Award. His blend of academic rigor and practical innovation ensures a meaningful impact in the realm of intelligent power grid technology.

📚 Top Publications of Yuxiang Leng

  1. Dynamic compensation approach for mitigating vibration interference in 3D point cloud data of electrical equipment
    Published: 2025
    Journal: Advanced Engineering Informatics
    Cited by: 3 articles

  2. Intelligent Early Warning System for Power Operation Safety Based on Laser Point Cloud Sensing
    Published: 2024
    Conference Paper: International Conference on Smart Energy Systems
    Cited by: 2 articles

  3. LoRaWAN Network Downlink Routing Control Strategy Based on the SDN Framework and Improved ARIMA Model
    Published: 2023
    Journal: Journal of Communications and Networks
    Cited by: 1 article

  4. Contactless Voltage Measurement Considering Spatially Dependent Voltage Compensation
    Published: 2023
    Conference Proceedings: IEEE Power & Energy Society Meeting
    Cited by: 0 articles

 

Prof. Dr. Chenyu Wu | Energy Technologies | Best Researcher Award

Posted on by Computer Scientists Awards

Prof. Dr. Chenyu Wu | Energy Technologies | Best Researcher Award

Hohai University, China

Prof. Dr. Chenyu Wu is a distinguished academic and researcher currently serving as a Professor in Jiangsu Province at the College of Energy and Electrical Engineering, Hohai University 🇨🇳. With deep expertise in power systems and electricity markets, he has authored over 20 high-impact SCI (Q1) papers and contributed to two team standards. Prof. Wu has led numerous key national and industrial projects, including those funded by the National Natural Science Foundation and the State Grid Corporation of China. His groundbreaking research has been implemented across various regions, including Jilin, Yunnan, and Myanmar. Recognized for both academic and applied excellence, he has received top-tier honors such as the First Prize of Jiangsu Province Science and Technology Award and the National Innovation and Entrepreneurship Outstanding Postdoctoral Fellow title 🏆.

Publication Profile

🎓Education Background:

Prof. Wu earned his Ph.D. in Electrical Engineering from Southeast University (2015–2019) 🎓, following a B.S. in Electrical Engineering from Hohai University (2011–2015) 📘. His academic training laid the foundation for his advanced contributions to smart grids and integrated energy systems.

💼Professional Experience:

Prof. Wu’s professional journey includes serving as a Senior Engineer at the State Grid (Suzhou) Urban Energy Research Institute (2019–2020) 🏙️. He then transitioned to academia, where he held roles as Associate Professor at Southeast University (2020–2025) and later as a Professor at Hohai University from March 2025 onward. His experience bridges industrial engineering practice and cutting-edge academic research.

🏅Awards and Honors:

Prof. Wu’s excellence has been widely recognized. Notable accolades include the First Prize in Science and Technology of Jiangsu Province (2022) 🥇, the Bronze Award in the China Postdoctoral Innovation and Entrepreneurship Competition (2022) 🥉, and the Outstanding Doctoral Dissertation Award by the China Simulation Society (2020) 📜. He is also among the elite few chosen (<1%) for the Jiangsu “333” talent project and the National Excellent Postdoctoral Fellow title 🌟.

🔬Research Focus:

His core research areas include the optimal operation of integrated energy systems, virtual power plants, active distribution networks, and electricity market bidding strategies ⚡. He integrates concepts from distributed optimization, differential game theory, and reverse engineering to advance clean, efficient energy systems aligned with smart grid development and market transformation.

✅Conclusion:

Prof. Dr. Chenyu Wu stands as a thought leader in the evolving fields of power system optimization and energy economics. His impactful publications, prestigious awards, and active academic involvement testify to his dedication to sustainable energy innovation and system-wide transformation 🌍📈.

📚Top Publications:

A Two-Stage Game Model for Combined Heat and Power Trading MarketIEEE Transactions on Power Systems, 2019 | Cited by: 240+

Energy Trading and Generalized Nash Equilibrium in Combined Heat and Power MarketIEEE Transactions on Power Systems, 2020 | Cited by: 200+

Coordinated Optimal Power Flow for Integrated Active Distribution Network and Virtual Power Plants Using Decentralized AlgorithmIEEE Transactions on Power Systems, 2021 | Cited by: 180+

Competitive Equilibrium Analysis for Renewables Integration in Dynamic Combined Heat and Power Trading MarketIEEE Transactions on Power Systems, 2023 | Cited by: 30+

Model-Free Economic Dispatch for Virtual Power Plants: An Adversarial Safe Reinforcement Learning ApproachIEEE Transactions on Power Systems, 2023 | Cited by: 25+

Combined Economic Dispatch Considering the Time-Delay of District Heating NetworkIEEE Transactions on Sustainable Energy, 2018 | Cited by: 150+

Bi-level Optimization Model for Integrated Energy System Considering the Thermal Comfort of Heat CustomersApplied Energy, 2018 | Cited by: 180+