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 Springer Science & Business Media, 11/08/2004 - 420 من الصفحات 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. |
المحتوى
I | 1 |
II | 14 |
III | 29 |
IV | 46 |
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VI | 78 |
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XL | 364 |
XLI | 373 |
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عبارات ومصطلحات مألوفة
accuracy algebraic algorithm analysis applied approach approximation behavior boundary conditions Boundary Element Method calculated capacitance cell circuit simulation coefficient coil components computational conductors constant convergence corresponding coupling current density curve defined denotes devices differential algebraic equations differential equations discrete domain eddy currents eigenvalues Eindhoven electric field electromagnetic field electron Element Method energy error FDTD finite difference finite element Finite Element Method flux formulation frequency function geometry grid 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 ring Rutherford cable scheme Schur complement signal solution solved solver space step structure substrate surface symmetric techniques theory thermal tion values variables vector Weiland wire