Advanced Electromagnetic Modeling and Simulation for Multidisciplinary Engineering Systems

Dear Colleagues,

Modern engineering advances increasingly depend on accurate electromagnetic (EM) modeling and simulation to tackle complex challenges across energy systems, aerospace platforms, electrified transportation, resilient power grids, and wireless communications. Growing demands for efficient energy conversion, robust electromagnetic compatibility (EMC) in integrated systems, and resilience under extreme conditions pose critical challenges: balancing computational speed with accuracy in multi-scale phenomena; capturing strong electro–thermal–mechanical couplings in power/high-voltage equipment and high-frequency devices; enabling real-time/hardware-in-loop simulation for control-critical applications; and validating emerging EM materials like metamaterials in practical environments.

Building on this context, this Topic consolidates cutting-edge research and applications of advanced EM modeling and simulation within multidisciplinary complex engineering systems. We emphasize solutions that integrate computational electromagnetics, multiphysics simulation, and AI-driven simulation, highlighting their enabling role in industrial electromagnetic applications.

We welcome original research, and industrial case studies on topics spanning advanced finite-element/integral-equation solvers, advanced EM modeling, digital-twin frameworks, high-voltage discharge modeling, plasma electromagnetic modeling, and EMC/EMI mitigation innovations, with applications in renewable energy systems, smart grids, power electronics simulation, electric vehicles, 5G/6G communications, radar/antenna design, aerospace insulation/shielding, and IoT/biomedical electromagnetic technologies, etc.

Dr. Jinru Sun
Dr. Ya'nan Wang
Dr. Lujia Wang
Topic Editors