ID: 113
/ PO1: 1
Topics:
Numerical Techniques
Keywords:
Large-scale magnetostatic problems, Domain decomposition method, Preconditioning, The coarse problem
A Preconditioner of the Interface Problem for Magnetostatic Domain Decomposition Analysis
Hiroshi Kanayama
1
, Masao Ogino
2
, Shin-ichiro Sugimoto
3
, Kaworu Yodo
4
1
Japan Women's University, Japan;
2
Daido University, Japan;
3
Hachinohe Institute of Technology, Japan;
4
Insight Inc., Japan
ID: 130
/ PO1: 2
Topics:
Static and Quasi-Static Fields, Electromagnetic Compatibility, Optimization and Design
Keywords:
Wireless power transfer, FEM analysis, EMC, Magnetic field, Quasi-Static field
Analysis of Magnetic Flux Concentrator used in Wireless Power Transfer
Junwei Lu
1
, Xiaokun Li
1
, Andrew Seagar
1
, Takeshi Iwashita
2
1
Griffith University, Australia;
2
Hokkaido University, Sapporo, Japan
ID: 181
/ PO1: 3
Topics:
Optimization and Design, Numerical Techniques, Novel Computational Methods for Machines and Devices
Keywords:
blockchain, data security, numerical simulation, smart contract
Entrusted Computations Architecture and Implementation for Numerical Simulation of Electromagnetic Comprehensive Performance Under the Framework of Blockchain
liang Jin
1,2
,
Lu Liu
1,2
, Qingxin Yang
1
, Suzhen Liu
1
, Chuang Zhang
1
1
State Key Laboratory of Reliability and Intelligence of Electrical Equipment, Hebei University of Technology, People's Republic of China;
2
Key Hebei Key Laboratory of Electromagnetic Field and Reliability, People's Republic of China
ID: 186
/ PO1: 4
Topics:
Numerical Techniques
Keywords:
Method of moments, integral equations, computational efficiency
An Effective Method for Calculating Wideband Electromagnetic Scattering Characteristics of Thin Dielectric Structures
Songbing Cai
, Lin Lei, Jun Hu
University of Electronic Science and Technology of China, China, People's Republic of
ID: 270
/ PO1: 5
Topics:
Numerical Techniques, Novel Computational Methods for Machines and Devices
Keywords:
Finite element analysis, Eddy currents, Accelerated computing
A Tensor-Analysis-Based Approach to Accelerate 3D Eddy-Current Finite Element Methods
Jiahe Hao
, Jun Zou
Electrical Engineering Department, Tsinghua University, Beijing 100084, China
ID: 413
/ PO1: 6
Topics:
Mathematical Modelling and Formulations, Numerical Techniques
Keywords:
Finite element methods, reduced order model, numerical analysis, Neumann series
Local Reduced-Order Models with Embedded Matrix for Parametrized Finite-Element Analysis
Chen Zhou
, Zhiqin Zhao, Zaiping Nie
University of Electronic Science and Technology of China, China, People's Republic of
ID: 526
/ PO1: 7
Topics:
Multi-Physics and Coupled Problems
Keywords:
Coupled phenomena, current harmonics, eddy current losses, permanent magnet.
Coupled Field and Circuit Permanent Magnet Model for High Speed Motor Analysis
Georgios K. Sakkas,
Antonios G. Kladas
National Technical University of Athens, Greece
ID: 545
/ PO1: 8
Topics:
Static and Quasi-Static Fields, Mathematical Modelling and Formulations, Numerical Techniques
Keywords:
Finite difference methods, Numerical simulation, Mathematical models
Treatment of curved faces with the generalized dual complex
Silvano Pitassi
1
, Francesco Trevisan
2
, Ruben Specogna
2
1
Inria, University of Lille, CNRS - Laboratoire Paul Painlevé, 59000, Lille, France;
2
University of Udine, DPIA, EMCLab, via delle scienze 206, 33100 Udine, Italy
ID: 194
/ PO1: 9
Topics:
Numerical Techniques, AI and Machine Learning Technologies
Keywords:
Electromagnetic fields, Power transformers, Electric machines, Deep learning
Magnetic Field Prediction Method Based on Residual U-Net and Self-Attention Transformer Encoder
Liang Jin
1,2
,
Zhenhao Yin
1,2
, Qingxin Yang
1,2
, Suzhen Liu
1,2
, Chuang Zhang
1,2
1
State Key Laboratory for Reliability and Intelligentization of Electrical Equipment jointly built by the provincial and ministerial departments (Hebei University of Technology);
2
Hebei Key Laboratory of Electromagnetic Field and Reliability (Hebei University of Technology)
ID: 188
/ PO1: 10
Topics:
Optimization and Design
Keywords:
Field-circuit coupling, GIL, multi-slice, ohmic loss, temperature rise
A 2D Multi-slice Field-circuit Coupled Method for Analyzing Eddy-current and Temperature Rise of Gas-insulated Transmission Lines
Yanpu Zhao,
Shucan Cheng
Wuhan University, China, People's Republic of
ID: 373
/ PO1: 11
Topics:
Wave Propagation, Electromagnetic Compatibility, Numerical Techniques, Bio-Electromagnetic Computation
Keywords:
Biomedical engineering, body area networks, computational electromagnetics, Green’s function methods
Accurate Effect Assessment of an External Point Source to a Non-Spherical Model of the Pregnant Female Torso
Anna A. Varvari
, Dimitrios I. Karatzidis, Christos S. Antonopoulos, Nikolaos V. Kantartzis
Aristotle University of Thessaloniki, Greece
ID: 537
/ PO1: 12
Topics:
Numerical Techniques
Keywords:
Meshless Methods, planar subdivisions, random distribution, vector shape functions.
Vector Nodal Meshless Method Using Random Distributions of Vector Directions and Nodes
Luilly Alejandro Garcia Ortiz
1
,
Reanto Cardoso Mesquita
1
, Naísses Zoia Lima
2
1
Federal University of Minas Gerais, Brazil;
2
Polytechnic Institute, Una Center University Minas Gerais
ID: 108
/ PO1: 13
Topics:
Multi-Physics and Coupled Problems
Keywords:
GIL, temperature rise, scaled-down model, contact resistance
Scaled-down Model of Overheat Fault for Gas-insulated Transmission Lines with Spring-finger
Shucan Cheng
1
, Yanpu Zhao
1
, Yanbin Zheng
2
1
Wuhan University;
2
XI’AN XD Switchgear Electric Co., Ltd.
ID: 328
/ PO1: 14
Topics:
Novel Computational Methods for Machines and Devices
Keywords:
Degaussing, electromagnetics, magnetization, optimization.
Indirect Calibration Method of Closed-Loop Degaussing Coil Currents for a Ferromagnetic Surface Ship
Jaegyeong Mun
1
, Byungsu Kang
2
, Chang-Seob Yang
3
, Hyun-Ju Chung
3
,
Dong-Hun KIm
1
1
Dept. of Electronic and Electrical Eng. Kyungpook National Univ., Daegu 41566, Republic of Korea;
2
Hyundai Electric & Energy Systems Co., Ltd., Yongin 16891, Republic of Korea;
3
The 6th R&D Institute, Agency for Defense Development, Changwon 51678, Korea
ID: 476
/ PO1: 15
Topics:
Multi-Physics and Coupled Problems
Keywords:
Active safety; magnetorheological damper; dynamic model; multi-field coupling
A Novel Structure and Dynamical Characteristic of Damping Pedal in Electric Vehicle Based on Magnetorheological Theory
Zhenan Jian
, Haijun Zhang, Xin Wang
Hubei University of Arts and Science, China, People's Republic of
ID: 468
/ PO1: 16
Topics:
Bio-Electromagnetic Computation
Keywords:
Cochlear implants, electrical stimulation, evoked compound action potential, finite element method
Modeling current steering evoked compound action potential using finite element analysis
Charles T. M. Choi
, Chun Ting Ke, Jelani Lawrence
National Yang Ming Chiao Tung University, Taiwan
ID: 542
/ PO1: 17
Topics:
Bio-Electromagnetic Computation
Keywords:
Conductivity distribution, genetic algorithm, finite element analysis, optimization
Conductivity Profile Reconstruction of Stroke Head Models Based on Finite Element Analysis and the Genetic Algorithm
Charles T. M. Choi
, Chieh-Cheng Yu, Yan-Hung Lai
National Yang Ming Chiao Tung University, Taiwan
ID: 390
/ PO1: 18
Topics:
Static and Quasi-Static Fields, Mathematical Modelling and Formulations
Keywords:
Finite element method, Model order reduction, Cauer ladder network, MIMO
MIMO Cauer ladder network based on the solution of the static vector potential formulations A and T
Wei CHEN
1
, Stéphane Clénet
1
, Thomas Henneron
1
, Jun Zou
2
1
Arts et Metiers Institute of Technology, Centrale Lille, Junia, ULR 2697 - L2EP, France;
2
Department of Electrical Engineering, Tsinghua University, China
ID: 391
/ PO1: 19
Topics:
Static and Quasi-Static Fields, Mathematical Modelling and Formulations
Keywords:
Finite element method, Model order reduction, Cauer ladder network
Parametric circuit model for eddy current problems based on Cauer Ladder network
Wei CHEN
1
, Stéphane Clénet
1
, Thomas Henneron
1
, Jun Zou
2
1
Arts et Metiers Institute of Technology, Centrale Lille, Junia, ULR 2697 - L2EP, France;
2
Department of Electrical Engineering, Tsinghua University, China
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