## Scientific Computing in Electrical Engineering: Proceedings of the SCEE-2002 Conference held in EindhovenWilhelmus H. Schilders, E. Jan W. ter Maten, Stephan H. M. J. Houben This book presents the proceedings of the 4th International Workshop "Scientific Computing in Electrical Engineering", held in Eindhoven, The Netherlands, from June 23-28, 2002. This workshop followed three earlier workshops held in 1997 at the Darmstadt University of Technology, in 1998 at the Weierstrass Institute for Applied Analysis and Stochastics, and in 2000 at the University of Rostock. The main topics of SCEE-2002 were computational electrodynamics, circuit simulation and coupled problems. The objective of the workshop, which was mainly directed at mathematicians and electrical engineers, was to bring together scientists from universities and industry with the goal of intensive discussions about modelling and numerical simulation of electronic circuits and electromagnetic fields. A special feature was the "Industry Day", where distinguished speakers discussed the needs of industry in the field of computational electromagnetics and circuit simulation. The book contains papers of invited and contributed talks, as well as from poster presentations. |

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Contents

I | 1 |

II | 14 |

III | 29 |

IV | 46 |

V | 58 |

VI | 78 |

VII | 86 |

VIII | 94 |

XXV | 240 |

XXVI | 248 |

XXVII | 257 |

XXVIII | 265 |

XXIX | 273 |

XXX | 281 |

XXXI | 289 |

XXXII | 297 |

### Other editions - View all

### Common terms and phrases

accuracy algebraic algorithm analysis applied approach approximation behavior boundary conditions Boundary Element Method calculated capacitance cell circuit simulation coefficient coil components computational conductors considered constant convergence corresponding coupling current density curves defined denotes described devices differential algebraic equations differential equations discrete eddy currents edges effects eigenvalues Eindhoven electric field electromagnetic field electron energy error FDTD Figure finite difference Finite Element Method flux formulation function geometry grid hysteresis IEEE IEEE Trans implementation inductance inductors input integration interconnect interface iteration magnetic field material mathematical matrix Maxwell Maxwell stress tensor Maxwell's equations MEBDF mesh MPDAE multigrid nodes noise nonlinear numerical obtained optimal oscillator parameter particles permeance potential preconditioner problem reduced ring Rutherford cable scheme Schur complement signal solution solved solver space step structure substrate surface symmetric techniques theory thermal tion values variables vector voltage source Weiland wire