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Searching... | 30000004598680 | TK5 S344 2004 | Open Access Book | Proceedings, Conference, Workshop etc. | Searching... |
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Summary
Summary
The fourth international conference on Scientific Computing in Electrical En gineering (SCEE) was held at the Eindhoven University of Technology, from 23rd to 28th June, 2002. It was sponsored by Philips Research Laborato ries Eindhoven, the Eindhoven University of Technology, Computer Simula tion Technology (CST) from Darmstadt, ABB Corporate Research, Thales Netherlands,the European Consortium for Mathematics in Industry (ECMI), the University of Rostock (organiser of SCEE-2000), the European network for Mathematics, Computing and Simulation for Industry (MACSI-net), the Royal Netherlands Academy of Arts and Sciences (KNAW), and the Scien tific Computing Group of the Eindhoven University of Technology. The Program Committee consisted of: Dr. Alain Bossavit, Electricite de France, Clamart, France. Dr. Uwe Feldmann, Infineon Technologies A.G., Munich, Germany. Prof.Dr. Leszek Demkowicz, University of Texas at Austin, USA. Dr. Michael Gunther, Universitat Karlsruhe, Germany. Prof.Dr. Ulrich Langer, Johannes Kepler Universitat, Linz, Austria. Dr. Jan ter Maten,Philips Research Laboratories Eindhoven, The Nether lands. Prof.Dr. Ursula van Rienen, Universitat Rostock, Germany. Prof.Dr. Jaijeet Roychowdhury, University of Minnesota, USA. - Prof.Dr. Wil Schilders, Technische Universiteit Eindhoven and Philips Research Laboratories Eindhoven, The Netherlands. - Prof.Dr. Thomas Weiland, Technische Universitat Darmstadt, Germany.
Table of Contents
G. Lamé vs. J.C. Maxwell: How to Reconcile Them? | p. 1 |
Variational FDTD-like Methods for Maxwell's Equations | p. 14 |
Methods and Approaches for RF Circuit Simulation and Electromagnetic Modelling | p. 29 |
Recent Advances in Finite Integration Technique for High Frequency Applications | p. 46 |
Toward Generalized Finite Element Difference Methods for Electro- and Magnetostatics | p. 58 |
Electrical RLC Networks and Semiconductor Devices | p. 78 |
Modified Extended BDF Time-Integration Methods, Applied to Circuit Equations | p. 86 |
Non-parabolic Tail Electron Hydrodynamical Model for Silicon Semiconductors | p. 94 |
Multirate Co-simulation of First Order Thermal Models in Electric Circuit Design | p. 104 |
Parallel Solution Techniques for Sparse Linear Systems in Circuit Simulation | p. 112 |
Finitely Large Phased Arrays of Microstrip Antennas - Analysis and Design | p. 120 |
The Sommerville Mesh in Yee-like Schemes | p. 128 |
Hierarchical Simulation of Substrate Coupling in BiCMOS Structures Using the Boundary Element Method | p. 137 |
An Embedding Method for High Frequency Circuits | p. 146 |
Mixed-Hybrid Finite Element Methods for Coupled Problems in Silicon Dioxide Technology | p. 154 |
Rosenbrock-Methods for Time Step Adaptive Transient Eddy Current Simulations without Nonlinear Iterations | p. 162 |
A Finite Element Model for Rutherford Cable in Superconductive Magnets | p. 171 |
Best of Both Worlds: Combining EM Accuracy with the Speed of Analytical Models | p. 180 |
Simulation of Magnetic Circuits Including Hysteresis Nonlinearity | p. 188 |
Eigenmode Computation of Microwave and Laser Structures Including PML | p. 196 |
Interconnect Optimization by Semidefinite Programming | p. 206 |
Electromagnetic Force Densities in a Continuous Medium | p. 214 |
Reduced Order Modelling of RLC-networks Using an SVD-Laguerre Based Method | p. 223 |
Uniform Treatment of Numerical Time-Integrations of the Maxwell Equations | p. 231 |
Simulating Multi-tone Free-Running Oscillators with Optimal Sweep Following | p. 240 |
Fast Extraction of Static Electric Parameters with Accuracy Control | p. 248 |
Optimization of Inductive Coupling between Qbit Rings | p. 257 |
Calculation of the Self-inductance of a Rectangular Magnetizer Coil | p. 265 |
The Synthesis of an EXOR Function by Using Modulo Functions Implemented by SET Circuits | p. 273 |
Field-Circuit Coupling by Means of the Woodbury Formula | p. 281 |
Simulation of Complex Electrode-Spacer Configurations Used in HV Systems for Accurate Electric Field Calculation | p. 289 |
A New Analysis Method For Subway Grounding Systems | p. 297 |
Ab-Initio Calculation of Substrate Currents Using Ghost Field Gauging | p. 305 |
Numerical Simulation of Resonant Tunneling Diodes with a Quantum-Drift-Diffusion Model | p. 313 |
Global DC-Analysis with the Aid of Standard Network Analysis Programs | p. 321 |
Fast Calculation of Space Charge in Beam Line Tracking by Multigrid Techniques | p. 329 |
Numerical Techniques for Solving Multirate Partial Differential Algebraic Equations | p. 337 |
The Application of Preconditioned Jacobi-Davidson Methods in Pole-zero Analysis | p. 349 |
The Electro-Quasistatic Model in Different Applications | p. 356 |
Substrate Resistance Modeling by Combination of BEM and FEM Methodologies | p. 364 |
Induction Heating of 3D Non-ferromagnetic Metal Bodies By Moving Inductors | p. 373 |
Multigrid for Time-Harmonic Eddy Currents without Gauge | p. 382 |
Oscillator Modeling Using the Averaging Principle | p. 390 |
2-D FEM Tuned Analytical Approximation for Fringing Permeances | p. 399 |
Stochastic DAEs in Transient Noise Simulation | p. 408 |
Author Index | p. 416 |