Ruey-Beei Wu | Electrical Engineering | Best Researcher Award

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Prof. Ruey-Beei Wu | Electrical Engineering | Best Researcher Award

Ruey-Beei Wu at National Taiwan University, Taiwan

Ruey-Beei Wu is a distinguished professor in Electrical Engineering at National Taiwan University, known for his contributions to computational electromagnetics and microwave engineering. With a career spanning academia, industry leadership, and international collaborations, he has played a pivotal role in advancing high-performance computing and electromagnetic design. An IEEE Fellow, he has received multiple prestigious awards for his research, leadership, and academic excellence.

Professional Profile:

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Education Background

Ruey-Beei Wu completed his Bachelor of Science in Electrical Engineering (B.S.E.E.) in 1979 and later earned his Ph.D. in Electrical Engineering in 1985, both from National Taiwan University, Taipei. His academic journey laid a strong foundation in computational electromagnetics and microwave engineering, equipping him with expertise that he later applied to research, teaching, and leadership roles. His doctoral studies focused on advanced electromagnetic design, which became the cornerstone of his contributions to high-performance computing, microwave components, and communication systems.

Professional Development

Ruey-Beei Wu joined the Department of Electrical Engineering at National Taiwan University in 1982 and served as its Chairman from 2004 to 2007. He has been with the Graduate Institute of Communications Engineering since its inception in 1997. He held postdoctoral positions at IBM (1986) and was a visiting professor at UCLA (1994) and Gent University (2009). He served as Director of the National Center for High-Performance Computing (1998–2000) and as Directorate General of the Planning and Evaluation Department at the National Science Council (2002–2004). From 2012 to 2016, he was President of the Institute for Information Industry (III).

Research Focus

His research focuses on computational electromagnetics, transmission line and waveguide discontinuities, microwave and millimeter-wave passive components, and electromagnetic design for advanced packaging and systems.

Author Metrics:

  • IEEE Fellow

  • Associate Editor, IEEE Transactions on Microwave Theory and Techniques (2005–2008)

  • Associate Editor, IEEE Transactions on Advanced Packaging (2009–2012)

Awards and Honors:

  • IEEE R10 Outstanding Volunteer Award (2009)

  • IEEE R10 Distinguished Large Section Award (2009)

  • IEEE MGA Outstanding Large Section Award (2009)

  • IEEE Innovation Award (2009)

  • NSC Distinguished Research Awards (1990, 1993, 1995, 1997)

  • Outstanding Electrical Engineering Professor Award, Chinese Institute of Electrical Engineers (1999)

  • Best Paper Award, IEEE Transactions on Advanced Packaging (2009)

  • Outstanding Research Award, Pan Wen Yuan Foundation (2013)

  • Academic Award, Ministry of Education (2013)

Publication Top Notes

1. Design of Dual- and Triple-Passband Filters Using Alternately Cascaded Multiband Resonators

  • Authors: C.F. Chen, T.Y. Huang, R.B. Wu
  • Journal: IEEE Transactions on Microwave Theory and Techniques
  • Volume & Issue: 54 (9)
  • Pages: 3550-3558
  • Year: 2006
  • Citations: 367

2. Microstrip Diplexers Design with Common Resonator Sections for Compact Size but High Isolation

  • Authors: C.F. Chen, T.Y. Huang, C.P. Chou, R.B. Wu
  • Journal: IEEE Transactions on Microwave Theory and Techniques
  • Volume & Issue: 54 (5)
  • Pages: 1945-1952
  • Year: 2006
  • Citations: 320

3. Design of Microstrip Bandpass Filters with Multiorder Spurious-Mode Suppression

  • Authors: C.F. Chen, T.Y. Huang, R.B. Wu
  • Journal: IEEE Transactions on Microwave Theory and Techniques
  • Volume & Issue: 53 (12)
  • Pages: 3788-3793
  • Year: 2005
  • Citations: 233

4. 60-GHz Four-Element Phased-Array Transmit/Receive System-in-Package Using Phase Compensation Techniques in 65-nm Flip-Chip CMOS Process

  • Authors: J.L. Kuo, Y.F. Lu, T.Y. Huang, Y.L. Chang, Y.K. Hsieh, P.J. Peng, I.C. Chang, R.B. Wu, et al.
  • Journal: IEEE Transactions on Microwave Theory and Techniques
  • Volume & Issue: 60 (3)
  • Pages: 743-756
  • Year: 2012
  • Citations: 177

5. Miniaturized Bandpass Filters with Double-Folded Substrate Integrated Waveguide Resonators in LTCC

  • Authors: H.Y. Chien, T.M. Shen, T.Y. Huang, W.H. Wang, R.B. Wu
  • Journal: IEEE Transactions on Microwave Theory and Techniques
  • Volume & Issue: 57 (7)
  • Pages: 1774-1782
  • Year: 2009
  • Citations: 157

Conclusion

Given his exceptional academic achievements, international recognition, impactful research, and leadership roles, Prof. Ruey-Beei Wu is highly suitable for the Best Researcher Award. His work has profoundly influenced electrical and microwave engineering, and his contributions to high-performance computing and advanced electromagnetic design make him an ideal candidate. With further emphasis on industry-driven innovations and interdisciplinary research, he could solidify his legacy as a global research leader.

Ugur Fesli | Power System Stability | Best Researcher Award

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Dr. Ugur Fesli | Power System Stability | Best Researcher Award

Lecturer at Gazi University, Turkey📖

Dr. Ugur Fesli is a Lecturer at the Department of Electronics and Automation at Gazi University, Ankara, Turkey. He is also serving as the Assistant Director at the Clean Energy Research and Application Center at the same institution. Dr. Fesli holds a Ph.D. in Energy System Engineering from Gazi University (2023), with a focus on renewable energy integration and local energy systems. He has extensive research experience in renewable energy systems, power electronics, and microgrid technologies. Dr. Fesli has contributed significantly to the design and development of solar and wind energy systems, as well as energy storage and electric vehicle charging stations.

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Education Background🎓

Dr. Ugur Fesli completed his Ph.D. in Energy System Engineering at Gazi University, Ankara, Turkey, in 2023, where his research focused on renewable energy integration and local energy systems. Prior to this, he obtained his M.S. in Electrical Engineering from Karaelmas University, Zonguldak, Turkey, in 2009, and his B.S. in Electrical Engineering from Gazi University, Ankara, Turkey, in 2006. His educational background provided a solid foundation for his expertise in energy systems, power electronics, and automation, which he has since applied to his teaching and research endeavors.

Professional Experience🌱

Dr. Fesli has been a member of the faculty at Gazi University since 2009, where he lectures in the Department of Electronics and Automation. Additionally, he holds the position of Assistant Director at the Clean Energy Research and Application Center. Between 2016 and 2019, he served as the Head of the Department of Electronics and Automation at the Technical Sciences Vocational School, Gazi University. His roles at Gazi University highlight his leadership in both academic and research settings.

Research Interests🔬

Dr. Fesli’s research interests include:

  • Integration of renewable energy systems, particularly solar photovoltaic and wind energy conversion systems.
  • Development and control of local area power and energy systems, such as microgrids, with a focus on primary and secondary control and seamless grid connection.
  • Power electronics applications, including the design of DC/DC converters, DC/AC converters, AC/DC converters, and multilevel inverters.

Author Metrics

Dr. Fesli has contributed to several research projects related to energy systems and power electronics. He has authored or co-authored numerous papers on renewable energy systems and power electronics, focusing on practical applications such as solar energy systems and electric vehicle charging stations. His research work is supported by multiple grants and private institutions, reflecting his significant impact in these areas. Dr. Fesli has also overseen various TUBITAK projects, enhancing his profile as a key researcher in energy systems and automation.

Publications Top Notes 📄

1. Design and Implementation of a Domestic Solar-Wind Hybrid Energy System

  • Authors: U. Fesli, R. Bayir, M. Özer
  • Conference: 2009 International Conference on Electrical and Electronics Engineering
  • Year: 2009
  • Citations: 64
  • Summary: This work explores the design and implementation of a hybrid solar-wind energy system for domestic use. The study focuses on optimizing the integration of both energy sources for improved efficiency and cost-effectiveness.

2. Hierarchical Model-Predictive Droop Control for Voltage and Frequency Restoration in AC Microgrids

  • Authors: I. Poonahela, A. Krama, S. Bayhan, U. Fesli, M.B. Shadmand, H. Abu-Rub, et al.
  • Journal: IEEE Open Journal of the Industrial Electronics Society
  • Volume: 4
  • Pages: 85-97
  • Year: 2023
  • Citations: 17
  • Summary: This paper proposes a hierarchical model-predictive control method for restoring voltage and frequency in AC microgrids. It focuses on enhancing the resilience and stability of microgrids in energy management and control.

3. A Comprehensive Review of the State-of-the-Art of Proton Exchange Membrane Water Electrolysis

  • Authors: N. Sezer, S. Bayhan, U. Fesli, A. Sanfilippo
  • Journal: Materials Science for Energy Technologies
  • Volume: 8
  • Year: 2024
  • Citations: Not yet cited
  • Summary: This comprehensive review investigates the current advancements in proton exchange membrane (PEM) water electrolysis technology, which is essential for the production of green hydrogen and its applications in clean energy systems.

4. Voltage-Sensorless Open-Switch Fault-Tolerant Control of Three-Phase T-Type Rectifier

  • Authors: A. Sharida, S. Bayhan, H. Abu-Rub, U. Fesli
  • Journal: IEEE Transactions on Power Electronics
  • Year: 2023
  • Citations: Not yet cited
  • Summary: This paper introduces a voltage-sensorless open-switch fault-tolerant control technique for three-phase T-type rectifiers. It aims to improve the reliability and fault tolerance of power conversion systems, which is critical for industrial applications.

5. Mikrodenetleyici Denetimli Düşük Güçlü Yenilenebilir Enerji Üreteci Tasarımı ve Gerçekleştirilmesi

  • Author: U. Fesli
  • Thesis: Master’s Thesis, Fen Bilimleri Enstitüsü, Zonguldak
  • Year: 2009
  • Citations: 6
  • Summary: This thesis presents the design and implementation of a low-power renewable energy generator controlled by a microcontroller. It highlights the system’s efficiency and its potential applications in sustainable energy solutions.

Conclusion

Dr. Ugur Fesli is a highly accomplished researcher with a profound impact in the fields of renewable energy, microgrid systems, power electronics, and energy technologies. His work on solar-wind hybrid systems, microgrids, and green hydrogen technologies demonstrates his innovative approach and dedication to advancing sustainable energy solutions. His extensive contributions to both academia and industry, along with his leadership in energy research, make him a deserving candidate for the Best Researcher Award.

By expanding his international collaborations, focusing on commercialization, and increasing his involvement in policy advocacy, Dr. Fesli can further enhance the reach and impact of his research, solidifying his position as a leader in the renewable energy field.