This book presents the proceedings of a distinguished academic conference in the field of electrical engineering, held annually in China for ten consecutive sessions. Recognized as a leading forum for scholarly exchange, the conference consistently attracts contributions that reflect the forefront of research, innovation, and technological advancement in electrical engineering.
The collected papers in this book encompass a broad spectrum of topics, including but not limited to electromagnetic fields, electrical circuits, electromagnetic measurement, electromagnetic compatibility, wireless power transfer, and biological electromagnetic technologies. These subjects represent critical areas of inquiry that intersect with numerous emerging and established technological domains.
The primary aim of this book is to provide an interdisciplinary platform for researchers, engineers, academics, and industry professionals to share pioneering work and explore collaborative solutions. By integrating perspectives from diverse disciplines, the proceedings offer valuable insights into the evolving landscape of electrical engineering research and its practical applications.
This book serves not only as a comprehensive reference for professionals in the field but also as a rich resource for graduate students and early-career researchers seeking to deepen their understanding of current methodologies and future directions. Through its curated content, the book contributes meaningfully to the ongoing dialogue in electrical engineering and supports the advancement of knowledge across academia and industry.
Research on Semi-Analytical Calculation Method for Partial Inductance in
PEEC Theory.- Analysis of heating inducements of parallel trench clamps based
on electromagnetic-thermal multiphysics coupling simulation.- A Method for
Rapid Analysis of Parasitic Parameters Affecting GaN Switch
Devices.-Identification of parameters for a lithium-ion battery using a
fractional-order model based on Snake Optimization.- Analysis of Factors
Affecting the Electrical Rotation of Anisotropic Cells.- Refined Verification
of Power Transformer Short-Circuit Resistance and Its Application in Fault
Diagnosis.-Modeling and Computational Methods for Dynamic Arc Root Transfer
at Electrods.- Size Effects on Magnetic Properties of Toroidal Silicon Steel
Laminations: A Computational and Experimental Study.- Real-Time
Reconstruction Algorithms For Contactless Inductive Flow
Tomography.-Differential ratio method for eddy current correction of pulsed
magnetic field magnetometers.-Optimization of partial discharge model and
localization and identification of partial discharge in distribution
transformer.- Modeling, Control and Common-Mode Voltage Reduction Scheme for
NPC Inverters.- A Circuit Characteristic Arc Model Based on the Asymmetric
Arcing of a Low-voltage Series Arc Fault.-Research on Magnetic Levitation
Bearing Control Based on Fuzzy Fractional-Order PID.- Effect of Direct
Current Stimulation on Neuronal Firing Patterns Based on IZH Model.
Guizhi Xu (Member, IEEE) is currently a Professor with Hebei University of Technology, Tianjin, China. Her main research interests include bioelectromagnetic technology, brain cognition, and neural engineering.
Xinjie Yu joined the Department of Electrical Engineering at Tsinghua University since 2001. He holds Bachelor and Ph.D. degrees of Electrical Engineering in 1996 and 2001 respectively from Tsinghua University. His research interests include magnetoelectric materials, pulse power supplies, intelligent optimization, wireless energy transfer. He has been the PI of more than 10 academic projects. He is the author of 3 books on evolutionary algorithms, electric circuits, and pedagogy and more than 20 peer-reviewed international journal papers. He serves as the Editorial Board Member of Transactions of China Electrotechnical Society.
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