Dr. Wei Kou : Leading Researcher in Renewable Energy

Dr. Wei Kou, GE Digital, United States

🎉 Congratulations, Dr. Wei Kou!

🏆 On behalf of ScienceFather, we celebrate your remarkable achievement in winning the prestigious Best Researcher Award! Your dedication, innovative research, and scholarly contributions have left an indelible mark in your field. 🌟 Your commitment to advancing knowledge and pushing the boundaries of research is truly commendable. Here’s to your continued success in shaping the future of academia and making invaluable contributions to your field.

🌟 Dr. Wei Kou is known for their deep commitment to advancing the field of electrical engineering, particularly in the intersection of power systems and renewable energy. Their academic journey, marked by a Ph.D. from a prestigious institution and a Master’s degree in a specialized field, reflects a dedication to continuous learning and staying at the forefront of technological advancements.✨

Professional Profiles :

.  Google Scholar

.  ORCID

.  Scopus

🎓 Education :

~   Ph.D. in Electrical and Computer Engineering, University of Connecticut, Storrs, CT: 2018

~   MS in Power Electronics and Electric Drives, North China Electric Power University, Baoding, China, 2014

🔬 Research Experience:

University of Connecticut, Storrs, CT
Graduate Research Assistant (2014-2018)

• Optimal Sizing and Locating Strategy for DER Integrating in BES:
  • Developed a method based on linear sensitivity factors for system security analysis and optimal locating of Distributed Energy Resources (DER).
  • Conducted continuous power flow and power security analysis on IEEE standard transmission test systems.
• Direct Load Control Design on UConn Microgrid:
  • Applied machine learning algorithms to mine campus utility consumption data for prediction, pattern grouping, and association analysis.
  • Designed a distributed optimization algorithm to assess building-level demand response control.
• Inverter-Based UConn Microgrid Integration Control Design (Sponsored by ParetoEnergy, Inc.):
  • Built a 27 kV/10.4 kV back-to-back interfaced distributed system model in Matlab/Simulink.
  • Validated the designed fault ride-through control in RTDS/Opal-RT co-simulation Hardware-in-the-Loop (HIL) test. 🌐⚡️

🔍 Research  Interests:

1.  Power system

2.   Smart grid

3.  Renewable energy

4.  ICT

5.  Fault ride through

📚 Publication Impact and Citations : 

Scopus Metrics :

• 📝 Publications: 10 documents indexed in Scopus.
• 📊 Citations: A total of 66 citations for his publications, reflecting the widespread impact and recognition of Dr. Wei Kou’s research within the academic community.

Google Scholar Metrics :

All Time:

• Citations: 147 📖
• h-index: 7 📊
• i10-index: 5 🔍

Since 2018:

• Citations: 109 📖
• h-index: 6 📊
• i10-index: 4 🔍

👨‍🏫 A prolific researcher with significant impact and contributions in the field, as evidenced by citation metrics. 🌐🔬

Publications ( Top Note ) :

1.  Modeling analysis and experimental research on a combined-type vertical axis wind turbine

Published  Year : 2011, Cited By : 30

2.  Fault ride through strategy of inverter-interfaced microgrids embedded in distributed network considering fault current management

Published  Year : 2018, Cited By : 25

3.  A direct phase-coordinates approach to fault ride through of unbalanced faults in large-scale photovoltaic power systems

Published  Year : 2015, Cited By : 25

4.  Combined vertical axis wind turbine design

Published  Year : 2011, Cited By : 15

5.  Game-theoretic approach for smartgrid energy trading with microgrids during restoration

Published  Year : 2017, Cited By : 10

6.  A distributed demand response algorithm and its application to campus microgrid

Published  Year : 2018, Cited By : 8

7.  Optimal location strategy for distributed generation to maximize system voltage stability based on line sensitivity factors

Published  Year : 2018, Cited By : 8

8.  Distributed demand-side management for microgrids in modern power system

Published  Year : 2020, Cited By : 5

9.  A new hybrid mode control strategy of flyback inverter for photovoltaic AC modules

Published  Year : 2013, Cited By : 4

10.  Co-simulation testbed for unbalanced fault ride through hardware in the loop validation

Published  Year : 2018, Cited By: 3

 

 

May your efforts cultivate a future where the skies are not only filled with innovation but are also fortified against the challenges that technological progress may bring.

Wishing you continued success in your endeavors to secure the future of Network Protocols, Technology and Communication.