This book is an annual conference co-sponsored by the Chinese Society for Electrical Engineering (CSEE), the Korean Institute of Electrical Engineers (KIEE), the Institute of Electrical Engineers of Japan (IEEJ), and the Hong Kong Institution of Engineers (HKIE) since 1995. Rotating among China, Japan, South Korea, and Hong Kong, ICEE has been held for 30 consecutive years and is recognized as a leading academic event in electrical engineering across Asia.
This book showcases cutting-edge research, methodologies, and experimental results in areas such as electromagnetic theory, electric transportation and integration, energy systems, power electronics, and high-voltage technologies. As a key interdisciplinary platform, ICEE brings together researchers, engineers, and professionals from academia, industry, and government to exchange innovative ideas and explore cross-disciplinary solutions. These books also serve as a valuable reference for researchers and graduate students in the field.
Hybrid Energy Infrastructure for Offshore Energy Hubs with on-turbine
Hydrogen Production.- Study on the Electrical Characteristics of a Vertical
Self-Biased Channel Diode with a Split-Gate Electrode in a Fin Structure.-
Cost-Effectiveness and CO2 Reduction of Commercial EV Adoption Based on GPS
Trajectory Data.- "Development of Classical Guitar Tone Evaluation Device
using Electrical Methods".- "Performance Estimation of IPMSM and its Drives
Considering Magnetic Nonlinear Phenomena for EV Traction Applications".-
Data-Driven Risk Assessment for Distribution System Maintenance with
Resilient Reconfiguration.- Discussion on strength checking methods of
thick-walled cylinders under different strength theories.- "Research on
Embodied Carbon Emissions in China's Electric Power Equipment Trade with the
European Union and Countermeasures".- Grid-forming converter control
parameter optimization for voltage support capacity enhancement.- Research
and Application of Building-Integrated Photovoltaics (BIPV) Technology for
Multi-Curved Tile Sloping Roofs.- 5G+MEC Cloud-Edge Collaborative
Architecture for Smart Distribution Networks.- Analysis of the
Spatio-temporal Distribution Characteristics of Cloud-to-Ground Flash and
multi-stroke ground flash Activities in Fang Chenggang Area.- Transitioning
Coal-Fired Power Plants to a Low-Carbon Future: Exploring Renewable Energy
Integration, Carbon Emission Reduction, and Energy Storage Solution.- A
Two-Stage Artificial-Neural-Network Method for Predicting the Severe
Thunderstorm Potential and Intensity.- Calculation and protection of
simultaneous tripping of 500kV double-circuit transmission lines on the same
tower.- Research on the Spatio-Temporal Distribution Characteristics of
Extreme Lightning Activity in China from January to April 2024.- Based on
Particle Swarm Optimized Neural Network for Ice Coating on Transmission Lines
Prediction.- A Magnetically Controlled Reactor-Based Integrated High-Low
Transient Voltage Simulation and Regulation System.- Multi-time scale optimal
scheduling of distribution network based on accurate ultra-short-term load
forecasting.
Xuzhu Dong received the M.S. and Ph.D. degrees from Tsinghua University, Beijing, China, in 1995 and 1998, respectively, and the second Ph.D. degree from Virginia Tech, Virginia, USA, in 2002. He is a professor and the dean of the School of Electrical Engineering and Automation, Wuhan University, Wuhan, China. He was the deputy chief engineer and the director of the Smart Grid Institute of China Southern Power Grid (CSG) Electric Power Research Institute (EPRI), Guangzhou, China. Before joined CSG, he worked with Progress Energy, FirstEnergy, and EPRI solutions in USA, as a senior engineer, stuff engineer, and lead engineer. He was involved into several key smart grid demonstration projects with CSG. He is a member of CIGRE. His research interests include smart distributions, microgrids, integration of renewable energy, energy storage, and asset management.
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