ID: 159
/ PC-A1: 1
Topics: Numerical Techniques, Material ModellingKeywords: Complex permittivity, ferrites, finite element analysis, parallel algorithms
Schwarz Based Domain Decomposition Method for High-Frequency Modeling of Soft Magnetic Materials
Rainer Schneckenleitner, Antero Marjamäki, Reda Elkhadrawy, Joonas Vesa, Paavo Rasilo
Tampere University, Finland
ID: 352
/ PC-A1: 2
Topics: Numerical Techniques, Material ModellingKeywords: circuit simulation, data-driven computing, model-free simulation
Data-Driven Circuit Simulation
Armin Galetzka1, Dimitrios Loukrezis1,2, Herbert De Gersem1,2
1TU Darmstadt, Institute for Accelerator Science and Electromagnetic Fields, Darmstadt, Germany; 2TU Darmstadt, Centre for Computational Engineering, Darmstadt, Germany
ID: 296
/ PC-A1: 3
Topics: Wave Propagation, Numerical Techniques, Material ModellingKeywords: Integral Equation, Metasurface, Method of Moments, Reconfigurable Intelligent Surfaces
Fast Numerical Analysis of Metasurfaces by Characteristic Basis Functions in EFIE Framework
Botond Tamás Csathó1, Zsolt Badics1,2, József Pávó1, Bálint Péter Horváth1
1Department of Broadband Infocommunications and Electromagnetic Theory, Faculty of Electrical Engineering and Informatics, Budapest University of Technology and Economics, Műegyetem rkp. 3., H-1111 Budapest, Hungary.; 2Tensor Research, LLC, Andover, MA 01810, U.S.A.
ID: 576
/ PC-A1: 4
Topics: Mathematical Modelling and FormulationsKeywords: Optimization
(This contribution was withdrawn)
Conference Organizer
Compumag2023 secretariat
ID: 439
/ PC-A1: 5
Topics: Numerical Techniques, Multi-Physics and Coupled ProblemsKeywords: Ball bearing, magnetomechanical coupling, multi-physics, vibrations
Co-Simulation of an Induction Machine Coupled with a Radial Ball Bearing for Vibration Analysis
Nada El Bouharrouti, Floran Martin, Anouar Belahcen
Aalto University, Finland
ID: 525
/ PC-A1: 6
Topics: Optimization and Design, Numerical TechniquesKeywords: Coils, Stream-function distribution, Discretization, B-spline surface
Comparison of Discretization Methods for Continuous Stream-Function Distributions
Bert J. A. Kuijpers, Jacob W. Jansen, Elena A. Lomonova
Eindhoven University of Technology, Netherlands, The
ID: 420
/ PC-A1: 7
Topics: Optimization and Design, Mathematical Modelling and Formulations, Numerical TechniquesKeywords: Nonlinear circuit analysis, Magnetic equivalent circuit, MEC, Modified nodal analysis, MNA.
A Study on Nonlinear Magnetic Equivalent Circuit for Fast and Accurate Characteristic Analysis
Jungwon Kim1, Junho Kang1, Jae-Jun Lee2, Sung-Hong Won3, Ju Lee1
1Hanyang University, Korea, Republic of Korea; 2Yuhan University, Bucheon-si, Republic of Korea; 3Dongyang Mirae University, Seoul, Republic of Korea
ID: 326
/ PC-A1: 8
Topics: Static and Quasi-Static Fields, Optimization and Design, Numerical TechniquesKeywords: Optimal strategy, Monte Carlo tree search, nonlinear electromagnetic problems, inductors
A Comprehensive Optimal Design of Inductors Using Monte Carlo Tree Search
Shuli Yin, Hayaho Sato, Hajime Igarashi
Hokkaido University, Japan
ID: 150
/ PC-A1: 9
Topics: Electromagnetic Compatibility, Optimization and Design, Numerical TechniquesKeywords: Electric Machines, Gradient methods, Nonlinear network analysis, Power MOSFET
A Parallel-In-Time Adjoint Sensitivity Analysis for a B6 Bridge-Motor Supply Network
Julian Johannes Buschbaum1, Andreas Klaedtke2, Herbert De Gersem1
1Technische Universität Darmstadt, Germany; 2Robert Bosch GmbH, Germany
ID: 520
/ PC-A1: 10
Topics: Static and Quasi-Static Fields, Numerical TechniquesKeywords: Discrete empirical interpolation method, model order reduction, multiscale finite element method, nonlinear eddy current problem.
MSFEM with MOR and DEIM to Solve Nonlinear Eddy Current Problems in Laminated Iron Cores
Karl Hollaus, Markus Schöbinger
Technische Universität Wien, Austria
ID: 357
/ PC-A1: 11
Topics: Static and Quasi-Static Fields, Mathematical Modelling and Formulations, Numerical Techniques, Multi-Scale Modelling and HomogenizationKeywords: multiscale finite element method MSFEM, eddy currents, error estimator, time domain
An Error Estimator for the MSFEM for the 2D Eddy Current Problem in Laminated Materials in the Time Domain
Markus Schöbinger, Karl Hollaus
TU Wien, Austria
ID: 482
/ PC-A1: 12
Topics: Static and Quasi-Static Fields, Numerical TechniquesKeywords: eddy current, fast fourier transform, fast multipole method, integral methods
Voxels or Tetrahedra: Which Grid Elements to Choose for Integral Formulations of Eddy Current Problems?
Antonino Vacalebre1, Silvano Pitassi2, Ruben Specogna1
1University of Udine, Italy; 2Inria, Univ. Lille, CNRS
ID: 133
/ PC-A1: 13
Topics: Static and Quasi-Static Fields, Numerical TechniquesKeywords: Darwin model, electromagnetic field analysis, finite-element method, low-frequency stable, time-domain.
Low-Frequency Stabilized Formulations of Darwin Model in Time-Domain Electromagnetic Finite-Element Method
Hiroyuki Kaimori1, Takeshi Mifune2, Akihisa Kameari1, Shinji Wakao3
1Science Solutions International Laboratory, Inc.; 2Kyoto University; 3Waseda University
ID: 138
/ PC-A1: 14
Topics: Static and Quasi-Static Fields, Numerical TechniquesKeywords: non-contact charger, vinyl-insulated copper wire, litz wire, power transfer efficiency, finite element method, Runge-Kutta method
Calculation about Efficiency for Non-contact Charger in 85 kHz Band for Each Wire Coil
Daigo Yonetsu, Yuki Maehara
Kansai University, Japan
ID: 172
/ PC-A1: 15
Topics: Static and Quasi-Static Fields, Numerical TechniquesKeywords: Eddy-current, frequency-domain, finite element method, sensitivity analysis, potential formulation
Frequency Derivatives of Eddy-Current System Including Electric Scalar Potential
Seung-Eun Rho, Il Han Park
Department of Electrical and Computer Engineering, Sungkyunkwan University, Korea, Republic of (South Korea)
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