Assoc. Prof. Dr. Jinpeng Guo | Power System Stability | Research Excellence Award

Published on by Electrical Engineering

Assoc. Prof. Dr. Jinpeng Guo | Power System Stability | Research Excellence Award

Associate Professor | Hohai University | China

Dr. Jinpeng Guo, an Associate Professor at the School of Electrical and Power Engineering at Hohai University, is a specialist in new energy power systems with expertise in renewable energy grid integration, stability analysis, and advanced control strategies for converter-dominated networks. He holds a doctoral degree in Electrical and Computer Engineering from McGill University, a graduate degree in Electrical Engineering from Southeast University, and a bachelor’s degree in Electrical Engineering and Automation from Chongqing University, further enriched by an academic exchange in electrical engineering at Tsinghua University. His professional experience includes leading and contributing to major research initiatives on frequency characteristics, rotor-angle stability, offshore wind power integration through VSC-HVDC systems, synchronous condenser optimization, and wide-area damping control, serving as both project leader and technical director in national and industry-supported programs. Dr. Guo’s research focuses on data-driven modeling, inertia estimation, dynamic stability enhancement, and coordinated active–reactive power control, supported by publications in reputable journals and international conferences. His scholarly contributions advance power system resilience, renewable energy operational security, and the development of intelligent control methods for modern electric grids. He has been recognized through competitive research funding and active participation in collaborative international projects, professional networks, and academic communities. His academic profile includes 3 citations, 8 documents, and an h-index of 1.

Profiles: Scopus | ORCID

Featured Publications

Guo, Jinpeng*, Quantitative evaluation and sensitivity analysis of carbon emission reduction costs based on optimal scheduling of electric-thermal integrated energy systems. Electric Power Systems Research, 2026, Article in press.

Guo, Jinpeng*, Improved vector current control for the VSC-HVDC converter connected to a very weak AC grid. IEEE Transactions on Circuits and Systems I: Regular Papers.

Guo, Jinpeng*, Data-driven methods in modern power system stability and security. Smart Cyber-Physical Power Systems.

Assoc. Prof. Dr. Ehsan Akbari | Power Electronics Converters | Best Researcher Award

Published on by Electrical Engineering

Assoc. Prof. Dr. Ehsan Akbari | Power Electronics Converters | Best Researcher Award

Associate Professor | Mazandaran University of Science and Technology | Iran

Dr. Ehsan Akbari is an Associate Professor in the Department of Electrical Engineering at the Mazandaran University of Science and Technology, renowned for his expertise in electrical power engineering, power electronics, and modern energy systems. He holds comprehensive academic qualifications spanning bachelor’s, master’s, and doctoral degrees in Electrical Power Engineering with focused specialization in power quality enhancement, converter control, smart grids, and renewable energy integration. His professional career includes extensive teaching, research leadership, and contributions to major projects involving flexible AC transmission systems, multilevel converters, grid-connected converter control, micro-grid stability, reactive power management, and harmonics mitigation using advanced hybrid filtering techniques. A highly productive scholar, he has authored numerous books along with hundreds of peer-reviewed publications and has secured multiple patents that reflect his commitment to advancing power system reliability and intelligent energy technologies. His academic service includes organizing and contributing to program committees of various scientific conferences, mentoring emerging researchers, and participating in collaborative initiatives that translate theoretical advancements into practical engineering solutions. Dr. Akbari has earned several scientific and technological achievement awards, complemented by professional memberships, editorial engagements, and recognized contributions to the global power engineering community. Citations 1,206 by 962 documents, 58 documents, h-index 20.

Profile: Scopus

Featured Publications

Akbari, E.*, Stationary-frame power regulation for controlling grid-connected three-phase modular multilevel converter with low harmonic under unbalanced voltage. Scientific Reports, 2025.

Akbari, E.*, Flexibility regulation-based economic energy scheduling in multi-microgrids with renewable/non-renewable resource and stationary storage systems considering sustainable computing by hybrid metaheuristic algorithm. Sustainable Computing: Informatics and Systems, 2025.

Akbari, E.*, Capabilities of battery and compressed air storage in the economic energy scheduling and flexibility regulation of multi-microgrids including non-renewable/renewable units. Scientific Reports, 2025.

Akbari, E.*, An optimized ANFIS framework for online voltage stability margin estimation in power systems using the novel Solifugae-inspired optimization algorithm and partial least squares-based dimensionality reduction. Measurement, 2025.