Assoc. Prof. Dr Wei Wang | Smart Grid Systems | Best Researcher Award

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Assoc. Prof. Dr Wei Wang | Smart Grid Systems | Best Researcher Award

Assoc. Prof. Dr Wei Wang | Nanjing Normal University | China

Assoc. Prof. Dr. Wei Wang, is an accomplished Associate Professor and Assistant to the Dean at the School of Electrical and Automation Engineering, Nanjing Normal University, and an IEEE Senior Member recognized for his extensive contributions to electrical engineering. Holding M.S. and Ph.D. degrees from Southeast University, his research expertise spans electromagnetic field computation, energy harvesting, and innovative wireless power transfer (WPT) systems. He has successfully led or participated in 26 research projects and 21 consultancy collaborations with industry, published 35 peer-reviewed journal papers, authored two academic books, and holds 32 patents. His research achievements are reflected in 1,165 citations by 972 documents, with 90 publications and an h-index of 19. As an editorial board member and guest editor of several international journals, Dr. Wang also serves as a guest researcher at the State Key Laboratory for Smart Grid Protection and Operation Control. His notable innovation—the PPS-S topology with adjustable output power and a quasi-constant-power-constant-voltage (QCP-CV) charging strategy—addresses the limitations of conventional WPT systems by achieving zero-voltage-switching (ZVS) while maintaining power stability around 65 W and reducing power fluctuation by 80% under varying loads. His pioneering work has earned him prestigious honors, including the Second Prize for Scientific Research and Technological Invention from the Ministry of Education and a Gold Award at the 2023 Geneva International Invention Exhibition, solidifying his impact in advanced power transfer technologies.

Profile: Scopus

Featured Publications

Wang, W. (2025). Research on self-powered high precision voltage measurement technology for the power lines based on the inversion of electric field. Zhongguo Dianji Gongcheng Xuebao Proceedings of the Chinese Society of Electrical Engineering.

Wang, W. (2025). Regulation strategy of impact response of regional integrated energy system based on ultra short term prediction. Journal of Electrical Engineering China.

Wang, W. (2025). Optimized constant power charging of PT-symmetry-based three-coil WPT system. Conference Paper.

Wang, W. (2025). Analysis and optimization of energy harvesting characteristics of converter valve magnetic field self-powered harvester. Electric Power Engineering Technology.

Wang, W. (2025). Extended effective distance of PT-symmetry-based double-coil WPT system. Conference Paper.

Wang, W. (2025). Quasi-constant power wireless charging strategy based on power adjustable PPS-S topology. Journal of Power Electronics.

Dr. Haider Mohamed-Kazim | Smart Grid Systems | Best Researcher Award

Published on by Superior Awards

Dr. Haider Mohamed-Kazim | Smart Grid Systems | Best Researcher Award

Dr. Haider Mohamed-Kazim | University of Babylon | Iraq

Dr. Haider Mohamed-Kazim is an accomplished researcher and educator in Electrical and Computer Engineering, currently serving as an Associate Professor at the University of Babylon in Iraq. Born on January first, he earned his Doctor of Philosophy degree in Electrical and Computer Engineering from Western Michigan University in the United States, following his Master of Science in Electronic Engineering from the University of Technology in Baghdad, and his Bachelor of Science in Electrical Engineering from the University of Babylon. His expertise spans embedded systems, signal and image processing, machine learning, and real-time applications. He continues to advance innovation in engineering education and research.

Professional Profile

Scopus | Google Scholar

Education and Experience

Dr. Haider Mohamed-Kazim completed his Doctor of Philosophy degree in Electrical and Computer Engineering from Western Michigan University in the United States. He also holds a Master of Science degree in Electronic Engineering from the University of Technology in Baghdad and a Bachelor of Science degree in Electrical Engineering from the University of Babylon. He began his academic journey as a teaching assistant and laboratory instructor at the University of Babylon before joining Western Michigan University, where he contributed as a teaching and research assistant across multiple engineering courses. Currently, he serves as an Associate Professor at the University of Babylon, specializing in teaching, research, and advancing innovative practices in the field of electrical engineering.

Summary Suitability

Dr. Haider Mohamed-Kazim is an exceptional candidate for the Best Researcher Award, recognized for his pioneering contributions in electrical and computer engineering. His work integrates embedded systems, digital signal and image processing, machine learning, deep learning, and real-time applications, bridging theoretical advancements with practical engineering solutions. With publications in high-impact journals and conferences, his research has achieved strong visibility and citation, including innovative methods in maximum power point tracking, adaptive signal processing, robust system identification, and intelligent computing frameworks.

Professional Development

Throughout his career, Dr. Haider Mohamed-Kazim has pursued continuous professional growth through teaching, research, and industry collaboration. His academic journey across Iraq and the United States enhanced his expertise in advanced areas of engineering, while his experience as a software engineer intern at Engineered Vision Solutions strengthened his skills in applying theoretical knowledge to practical challenges. At Western Michigan University, he developed his instructional abilities through teaching and research assistantships, supporting courses in circuit analysis, biomedical image processing, and systems designed for visually impaired individuals. In his current role, he emphasizes mentoring, integrating emerging technologies into education, and advancing research for societal benefit.

Research Focus

Dr. Haider Mohamed-Kazim’s research is centered on the integration of electrical engineering, computer systems, and artificial intelligence. His primary focus includes embedded systems, signal and image processing, control systems, and real-time applications. He works extensively in machine learning, deep learning, adaptive signal processing, soft computing, and stochastic systems. His studies extend to the design of intelligent computing solutions for speech and image recognition, as well as systems to assist visually impaired individuals. By merging computational intelligence with engineering design, his research addresses modern challenges in automation, communication, and advanced intelligent systems, making a meaningful contribution to both academia and industry.

Awards and Honors

Dr. Haider Mohamed-Kazim has consistently achieved academic distinction throughout his career. He graduated with top honors in both his undergraduate and postgraduate studies, earning first place rankings that highlighted his exceptional performance. His dedication and excellence enabled him to pursue his doctoral research in the United States, where he distinguished himself in the areas of signal processing and embedded systems. He was also recognized for his contributions as a teaching and research assistant at Western Michigan University. Today, as a respected faculty member at the University of Babylon, he is honored for his commitment to education, research, and mentorship.

Publication Top Notes

Title: An intelligent, fast and robust maximum power point tracking for proton exchange membrane fuel cell
Year: 2013
Citations: 30

Title: A new time adjusting step-size least mean square technique for noise cancellation framework with mean square deviation analysis
Year: 2018
Citations: 8

Title: Machine learning to predict the freeway traffic accidents-based driving simulation
Year: 2019
Citations: 34

Title: A Robust Sparse System Identification via Integrating an Individualized Time-Varying Stepsize Adjustments
Year: 2019
Citations: 4

Title: A fast and robust system identification on compressive sensing signal recovery based on multiple time-varying step-size adaptation technique
Year: 2019
Citations: 2

Title: A Fast Maximum Power Point Tracking Algorithm for Smart Grid–Photovoltaic Connected System Based on Multiple Sparse-Aware Time-Varying Stepsize Adaptation Technique
Year: 2019
Citations: 2

Title: Efficient maximum power point tracking based on reweighted zero-attracting variable stepsize for grid interfaced photovoltaic systems
Year: 2020
Citations: 16

Title: Coefficient-Gradient-Based Individualized Stepsize Adaptation Mechanism for Robust System Identification
Year: 2021
Citations: 3

Title: Weighted error support algorithm for accelerated convergence channel equalizer
Year: 2025
Citations: 1

Conclusion

Through his innovative research, impactful publications, and dedication to advancing knowledge, Dr. Haider Mohamed-Kazim has made outstanding contributions to both academia and industry. His work addresses critical challenges in renewable energy, intelligent systems, and adaptive signal processing, demonstrating both originality and societal impact. These achievements make him highly deserving of the Best Researcher Award, honoring his role as a leading figure in advancing engineering research and inspiring the next generation of scholars.