Session |
Title of Abstract |
Authorship |
Session I: Methods and Techniques of CEM |
|
|
|
Integral Equations Formulations to Linear Array Slots Antennas |
A .A .Mohammed , Ministry of Sciences and Technology, Baghdad; Z . Ahmed, Basrah University, Basrah; A. H. Abood , Basrah University, Missan, Iraq |
|
A Sliding Surface Technique Incorporating Radial Basis Functions for Movement Simulation in 2-D Models of Rotating Machines |
M. Jagiela, Technical University of Opole, Poland, J. Bumby, P. Tavner, University of Durham, UK |
|
Optimisation of a Multilevel Fast Multipole Code for the Modelling of Installed Antennas on Largr Complex Platforms |
S. P. Benham, J. M. Burbage, T. J. Murphy, SELEX Communications Ltd., UK; J. A. Lord, BAE Systems, UK |
|
Future Challenges within Numerical Field Calculation in Industrial Machine Development in the Power Range from 200 kW to 2000 MW |
O. Drubel, Siemens AG, Nürnberg, Germany |
|
Waveguide Propagation Modes and Quadratic Eigenvalue Problems |
A. Nicolet, Université Paul Cézanne, Marseille, France; C. Geuzaine, Case Western Reserve University, Clevelend, USA |
|
Parallel Computations of 3 D Models of an Electromagnetic Device |
J. Kolota, S. Tepien, G. Szymanski, J. Wencel, Poznan University of Technology, Poland |
|
Geometrical Localization of the Degrees of Freedom for Whitney Elements of Higher Order |
F. Rapetti, Université de Nice et Sophia-Antipoles, France |
|
Metamaterials, a Challenge for Homogenization Theory |
A. Bossavit, LGEP, Gif-sur-Yvette, France |
|
Parallel Computing for Eddy Current Testing Simulation |
L. Santandrea, G. Savel, Y. Le Bihan, A. Razek, Laboratoire de Génie Electrique de Paris, France |
|
Maxwell's Equotations in Accelerated Frames - How do they Relate to Computational Electromagnetics |
S. Kurz, Robert Bosch GmbH, Frankfurt; B. Flemisch, B. Wohlmuth, University of Stuttgart, Germany |
|
Monostatic RCS Computation of Reflector Antennas Using Parabolic Equotation |
A.R. Mallazadeh, M. Soleimani, Iran University of Science and Technology; J. Rashed-Mohassel, University of Tehran, Iran |
|
Application of Fast Multipole Method to Biot-Savart Law Computations |
W. Hafla, A. Buchau, W. M. Rucker, University of Stuttgart, Germany |
|
Multipoint Arnoldi Model Order Reduction for Electromagnetic Wave Scattering Computation |
P. Bradley, C. Brennan, Dublin City University, Ireland |
|
A Reduced Forward Operator for Electromagnetic Wave Scattering Problems |
K. Van Dongen, W. Wright, University College Cork; C. Brennan Dublin City University, Ireland |
|
Embedded Runge-Kutta Methods for the Numerical Solution of an Integrated Model Including Converter, Nonlinear Inductance and Current Control Loop |
K. Geldhof, T. Vyncke F. De Belie, L. Vandevelde, J. Melkebeek, Ghent University, Belgium |
|
The Electromagnetic Field Evolution within an Ellipsoid Shell |
I. Tuleasca, The Open Polytechnic of New Zealand; D. Kacorzak, The University of Auckland, New Zealand |
|
General Approach for Homogenistaion of Multi-turn Windings in Three-dimensional Finite Element Models |
J. Gyselinck, Université Libre de Bruxelles; R. Sabariego, P. Dular, Université de Liège, Belgium |
|
An Optimized Electromagnetic 3D Field Solver for Frequencies below the First Resonance |
B. Doliwa, H. De Gersem, T. Weiland, Technical University of Darmstadt, Germany; T. Boonen, Katholieke Universiteit Leuven, Belgium |
|
A Perturbation Technique for the Finite Element Modelling of Differential Probes in Nondestructive Eddy Current Testing |
R. Sabariego, P. Dular, University of Liège, Belgium |
|
Meshless Radial Basis Functions |
S. Viana, D. Rodger, H. Cheng Lai, University of Bath, UK |
Session II: Finite Elements, Boundary Elements and related Techniques |
|
|
|
Determination of the 3D-interaction between HTSC and Magnetic Field |
R. Palka, Technical University of Szczecin, Poland |
|
Impedance Evaluation of Integrated Circular Spiral Inductors |
M. Andrade Martins, L. Gomes Oiveira, V. Maló Macahdo, Universidade Técnica de Lisboa, Portugal |
|
Modelling Printed Circuit Antennas by Boundary Method |
N. El Alami, ECIME, Cergy-Pontoise; B. Kebaili, B. Bandelier, F. Rioux-Damidau, Université Paris, France |
|
A hybrid Picard-Newton Accelaration Scheme for Non-Linear Time-Harmonic Problems |
H. Vande Sande, Atlas Copco Airpower, Wilrijk; T. Boonen, KU Leuven, Belgium; H. De Gersem, TU Darmstadt, F. Henrotte, K. Hameyer, RWTH Aachen, Germany |
|
Surface Wave Impedance Modelling with 2D Finite Elements |
J. Simpson, BAE Systems, Bristol, UK |
|
Teaching and Learning the Finite-Element Method - Experiences with a Diverse Graduate Student Body |
A. Muetze, University of Wisconsin-Madison, USA; K. Hameyer, RWTH Aachen, Germany |
|
Time and Frequency Domain Modelling of a Normally Incident Plane Wave at a Periodic Structure |
Y. Cai, C. Mias, Warwick University, UK |
|
Adaptive Mesh Refinement for Eddy Current Testing Finite Element Computations |
L. Santandrea, Y. Choua, Y. Le Bihan, C. Marchand, Laboratoire de Génie Electrique de Paris, France |
|
Numerical Analysis of the Contribution of Magnetic Forces and Magnetostriction to the Vibrations in Induction Machines |
T. Hilgert, L. Vandevelde, J. Melkeebeek, Ghent University, Belgium |
|
Hierachical Basis Functions and Efficient Multilevel Solvers |
P. Ingelström, V. Hill, R. Dyczij-Edlinger, University of Saarland, Saarbrücken, Germany |
|
Multi-Slice Finite Element Analysis of Induction Motor |
M. Baranski, Poznan University of Technology, Poland |
|
Scattering from the PEC Flat Strip by Using the Method of Moments with SINC Type Basis Functions |
F. Kuyucuoglu, Z. Cay, Ege University; T. Oguzer, Dokuz Eylül University, Turkey |
|
Finite Element Analysis of Helicoidal Waveguieds |
A. Nicolet, Université Paul Cézanne, Marseille; F. Zolla, Université de Provence, Marseille, France |
|
Visualising Finite Element Solution in Virtual Reality Environments |
M. Schöning, M. Asbach, D. van Riesen, K. Hameyer, RWTH Aachen University, Germany |
|
A New 3-D FE Procedure for the Analysis of TWT Gridded Electron Guns |
S. Coco, A. Laudani, G. Pollicino, University of Catania, Italy |
|
3-D Steady-Stata Electrodiffusion Model of Ionic Channels |
S. Coco, A. Laudani, G. Pollicino, University of Catania, Italy |
|
PM Genarator No-Load Additional Loss Calculation Using FE Models with an Equivalent Current Layer |
X. Cui, B. Funieru, A. Binder, Technical University of Darmstadt, Germany |
|
Implementation of Finite Element Method Modelling Tools in Education Programs |
D. Kacprzak, The University of Auckland, New Zealand |
|
Finite-Element Simulation of the Common-Mode Flux in Inverted-Fed Induction Machines |
H. De Gersem, T. Weiland, A. Binder; Technical University Darmstadt, Germany; A. Muetze, University of Wisconsin-Madison, USA |
|
Calculation of Global Quantities Using Incidence Matrixes in the A-ö Formulation |
T. Henneron, S. Clenet, ENSAM, Lille Cedex; F. Piriou, USTL, Villeneuve d'ascq, France |
|
Hybrid Finite-Element Method for Discretizing Cylindrically Symmetric Parts in Electrotechnical Models |
H. De Gersem, S. Koch, T. Weiland, Technical University of Darmstadt, Germany |
Session III: Optimisation and Coupled Problems |
|
|
|
Voltage Amplitude Control of Electromagnetic Levitation Device |
S. Stepien, G. Szymanski, Poznan University of Technology, Poznan, Poland |
|
The Consideration of Surrogate Model Accurancy in Single-Objective Electromagnetic Design Optimization |
G. I. Hawe, J. K. Sykulski, University of Southampton, UK |
|
3D Coupled Field - Circuit Analysis of Nonlinear System |
J. Smykowski, National University for Professional Education; S. Stepien, G. Szymanski, Poznan University of Technology, Poland |
|
An Optimization Framework Using Adaptive Kriging Method and Restricted Evolution Strategy |
H.-K. Kim, Korea Electrotechnology Research Institute, South Korea; D. A. Lowther, McGill University, Montreal, Canada |
|
Comparative Study Between Kriging and Genetic Algorithms for Optimal Transmitter Location in an Indoor Environment Using Transmission Line Modelling Method |
A. Dalla Rosa, A. Raizer, Universidade Federal de Santa Catarina, Brazil; L. Pichon, Laboratoire de Génie Electrique de Paris, France |
|
Nash Equilibrium and Pareto Front for the Optimal Shape Design in Electromechanics |
P. Di Barba, University of Pavia, Italy |
|
Mixed-Integer Simulation-Based Optimization for a Superconductive Magnet Design |
T. Hemker, M. Glocker, O. von Stryk, H. Der Gersem, T. Weiland, Technical University of Darmstadt, Germany |
|
Genetic Algorithm with PDSS and Adaptive Parameters for Phased Array Synthesis |
S. Cookey Ekpo, E.-O. Ekpo, A. A. Sunday, Daon Manuel & Associates, Nigeria |
|
Application of Evolutionary Algorithms for Optimisation of Electric Machines |
M. Dabrowski, Poznan University of Technology; A. Rudenski, Institute of Electrical Engineering, Warsaw, Poland |
|
Analysis of Coupled Phenomena in Magnetorheological Clutch |
C. Jedryczka, R.Wojciechowski, Poznan University of Technology, Poland |
|
Design Optimisation of Electromagnetic Devices Using Continuum Design Sensitivity Analysis Combined with Comercial EM Software |
D.-H. Kim, Kyungpook National University, South Korea; J. Sykulski, University of Southampton, UK; D. Lowther McGill University, Montreal, Canada |
|
Coupled Thermal-Electroquasistatic 3D Field Simulation of High-Voltage Surge Arrester Structures |
M. Clemens, T. Steinmetz, D. Weida, Helmut-Schmidt-University, Hamburg; V. Hinrichsen, Technical University Darmstadt, Germany |
|
Precise Reconstruction of the Interface Between Two Conducting Fluids in a Simple Cylindrical Mo |
M. Kuilekov, H. Brauer, M. Ziolkowski, Ilmenau University of Technology, Germany |
|
Dynamic Analysis of Highly Saturated Switched Reluctance Motors Using Coupled Magnetic Equivalent Circuit and the Analytical Solution |
H. Gholizad, M. Mirsalim, M. Mirzayee, mirkabir University of Technology, Tehran, Iran |
|
Fast Structure-Dynamic Simulation of Electrical Machines Using 2D-3D-Coupling |
C. Schlensok, D. Van Riesen, D. Seibert, K. Hameyer, RWTH Aachen University, Germany |
|
Applying Corba Technology to Solve a Magnetostriction Problem |
L. Santandrea, K. Azoum, A. Razek, Laboratoire de Génie Electrique de Paris; G. Grasseau, D. Girou, IDRIS, France |
|
Using FEM for Power Transformer Electromagnetic and Thermal Analysis |
J. da Silva, J. Bastos, N. Sadowski, Universidade Federal de Santa Catarina, Brazil |
|
Derivative Free Optimization Algorithms in the Electrical Machine Design |
L. Barbosa, L. Lebensztajn, Applied Electromagnetics Laboratory, Brazil |
Session IV: Applications of CEM |
|
|
|
Finite Element Analysis of Electromagnetic Field and Losses in a Turbogenerator Rotor |
M. G. Pantelyat, N. G. Shulzhenko, National Academy of Sciences of Ukraine, Kharkov, Ukraine |
Abstract not available |
High-Accuracy Target Range Estimation for HF Chirp Radars |
H. Zhou, B. Wen, S. Wu, Z. Ma, Wuhan University, Wuhan, China |
|
Integral Parameters Determination in the Magnetic Bearing using Finite Element Method |
B. Tomczuk, J. Zimon, Technical University of Opole; K. Zakrzwski; Technical University of Lodz, Poland |
|
Magnetic Stimulation Prototype with Selective Technical Characteristics for long Bones Fractures Consolidation |
M. E. Moncada, C. R. Pinedo, H. Cadavid, A. Martinez, Universidad del Valle, Colombia; C. A. F. Sartori, Universidade de Sao Paulo, Brazil |
|
Computation of Parasitic Capacitances of an IC Cell in Accounting for Lithography Effect |
Z. Ren, W. Zhang, J. Falbo, Mentor Graphics, San Jose, USA |
|
Voltage Driven Finite Element Analysis of a Plunger Core Reactor with Parallel Winding Paths |
E. Schmidt, Vienna University of Technology; P. Hamberger, VA Tech EBG Transformatoren, Linz, Austria |
|
Dual Layer Electromagnetically Coupled, Stacked Rectangular Microstrip Patch Antenna |
M. A. Matin, B. S. Sharif, C. C. Tsimenidis, University of Newcastle, UK |
|
Impedance Calculation for Die-Cast Rotors |
M. Centner, R. Hanitsch, Technical University of Berlin, Germany |
|
Computational Technique for Modelling of Frequency Converters and Analysis of Generated Waveforms |
J. Sagarduy Ochoa de Eribe, A. J. Moses, F. J. Anayi, Wolfson Centre for Magnetics, Cardiff; J. Clare, P. W. Wheeler, University of Nottingham, UK |
|
Permanent Magnet Levitation Stabilized by Diamagnetic Materiels: A Case-Study |
E. Cazacu, Polytechnics University Bucharest, Romania |
|
Design of Transverse Flux Machines Using Analytical and Numerical Computing Methods |
N. Parspour, B. Orlik, University of Bremen, Germany |
|
Determination of ExploitationParameters of Permanent Magnet Synchronous Machine Following the Finite Element Solutions |
P. Witczak, B. Wawrzyniak, Technical University of Lodz, Poland |
|
Prediction of Magnetizing Current Waveform in a Single Phase Poawer Transformer under DC Bia |
O. Biro, S. Außerhofer, K. Preis, Technical University of Graz; G. Buchgraber, W. Seitlinger, VA Tech Elin Transformatoren, Austria |
|
Determination of Magentic Field Changes in Single-Phase Shaded Pole Induction Motors Due to Slotting of the Rotor |
K. Makowski, Wroclaw University of Technology, Poland |
|
Dynamic Analysis of Highly Saturated Switched Reluctance Motors Using Coupled Magnetic Equivalent Circuit and the Analytical Solution |
H. Gholizad, M. Mirsalim, M. Mirzayee, mirkabir University of Technology, Tehran, Iran |
|
FE-Based Physical Phase Variable Model of PM Synchronous Machines with Stator Winding Short Circuit Fault |
O. Mohammed, S. Liu, Z. Liu, Florida International University, Miami, USA |
|
Brushless DC Motor for Battery-electric Trucks |
B. Slusarek, Tele&Radio Research Institute Warsaw; Wojciech Szelag, Technical University of Poznan, Poznan, Poland |
|
Combined 3D Numerical and Analytical Computation for Analysis and Design of High Speed Solid Iron Rotor Induction Machines |
M. Mirzayee, M. Mirslaim, H. Gholizad, S. Javadi Arani, Amirkabir University of Technology, Tehran, Iran |
|
Design of an Outer-Rotor Permanent-Magnet Brushless DC Motor for Light Traction through Transient Finite Element Analysis |
X. López-Fernández, University of Vigo, Spain; J. Gyselinck, Université Libre de Bruxelles, Belgium |
Session V and VI: Finite Differences and TLM Techniques / Bio-Electromagnetics and EMC |
|
|
|
Analyzing Induced Voltage inside a LPS |
F. Zago, H. M. Mesa, J. F. Pissolato, State University of Campinas; G. P. Caixeta, Sao Francisco University, Brazil |
|
A TLM Approach to Analyze Grounding Grids |
H. Marin Mesa, F. Zago, J. Pissolato Filho, G.P. Caixeta, Cidade Universitário Zeferino Vaz |
|
Local Discretisation in 3D Electromagnetic Fields Calculation Using FDM Method |
A. Turkot, Poznan University of Technology, Poland |
|
Validation of Predicted 3D Field Distributions Due to Vehicle-Mounted Antennas against Measured 2D Field Mapping |
A. R. Ruddle, MIRA, Warwickshire, UK |
|
Low Frequency Surface Impedance Modelling of the Earth |
D. V. Thiel, Y. O'Keefe, Griffith University, Australia |
|
FDTD Method Applied to Radar Testing of Concrete Structures |
L. Travassos, C. Vollaire, A. Nicolas, Ecole Centrale Lyon, France |
|
Winding Modelling Including Eddy Currents and Capacitances |
M. Klocke, University of Dortmund, Germany |
|
Comparison of FETD and FDTD to Simulate Micro-Strip Structures on PCBs |
K. Hollaus, O. Bíró, G. Matzenauer, K. Preis, C. Stockreiter, B. Weiß, Graz University of Technology, Graz, Austria |
|
Computional Electromagnetics: "Plenty of Room at the Bottom" |
I. Tsukermann, F. Cajko, J. Dai, The University of Akron, USA |
|
The Virtual Conductor |
I. Darney, J. S. Chinn Project Engineering Ltd., Bristol, UK |
|
Full-wave Simulation of a Vehicle Test in a Reverberation-chamber |
M. B. Perotoni, UNIFEO, Osasco; C. Sartori, J. Cardoso, Escola Politécnica da Universidade, Sao Paulo, Brazil |
|
Improved Prediction of the Fields Induced in the Brain During Transcranial Magnetic Stimulation by the Incorporation of more Realistic Head Models |
D.-H. Kim, Kyungpook National University; C. Won, Kyungil University, South Korea; G. E. Georghiou, University of Southampton, UK |
|
On the Truncation of the Numerical SAM Phantom Used in Mobile Phone Antenna Simulations |
A. Arkko, Nokia, Tampere, Finland |
|
Modelling of the Electrc Potential Distribution in a Thorax Phantom for Electrical Impedance Tomography Using the Finite Element Method |
H. Luepschen, M. Steffen, S. Leonhardt, D. van Riesen, F. Henrotte, K. Hameyer, RWTH Aachen, Germany |
|
Verification of Magnetoc Field Tomography Inverse Problem Solutions Using Physical Phantoms |
H. Brauer, J. Haueisen, M. Ziolkowski, Technical University of Ilmenau, Germany |
|
Numerical Analysis of Electromagnetic Emission from Lighting Implement |
T. Morita, K. Hirata, University of Osaka; Y. Namba, Matsushita Electrc Works Analysis Center, Japan |
|
Characterization of Electrodes for Deep Brain Stimulation |
U. Schreiber, U. Gimsa, U. van Rienen, University of Rostock, Germany |
|
Numerical Algorithm for the Accurate Evaluation of the Induced Voltages in a Pipeline |
D. Doru Micu, D. Micu, A. Ceclan, L. Cret, Technical University of Cluj-Napoca, Romania |