Scientific Computing in Electrical Engineering SCEE 2010

  • Bastiaan Michielsen
  • Jean-René Poirier

Part of the Mathematics in Industry book series (MATHINDUSTRY, volume 16)

Also part of the The European Consortium for Mathematics in Industry book sub series (TECMI, volume 16)

Table of contents

  1. Front Matter
    Pages i-xv
  2. Mathematical Methods

    1. Front Matter
      Pages 1-2
    2. Timothy A. Davis, E. Palamadai Natarajan
      Pages 3-14
    3. Peter Benner, André Schneider
      Pages 15-23
    4. E. J. W. ter Maten, O. Wittich, A. Di Bucchianico, T. S. Doorn, T. G. J. Beelen
      Pages 39-47
    5. Lennart Jansen, Caren Tischendorf
      Pages 49-57
    6. Therese Pollok, Lin Zschiedrich, Frank Schmidt
      Pages 69-77
  3. Computational Electromagnetics

    1. Front Matter
      Pages 79-80
    2. J. Ostrowski, R. Hiptmair, F. Krämer, J. Smajic, T. Steinmetz
      Pages 87-95
    3. Michael Kolmbauer, Ulrich Langer
      Pages 97-105
    4. Naheed Sajjad, Ali Khenchaf, Arnaud Coatanhay
      Pages 107-115
    5. Jens Trommler, Stephan Koch, Thomas Weiland
      Pages 117-125
    6. Bastian Bandlow, Rolf Schuhmann
      Pages 127-135
    7. Patrick Dular, Ruth V. Sabariego, Laurent Krähenbühl, Christophe Geuzaine
      Pages 137-141
    8. Daniel Ioan, Gabriela Ciuprina, Ioan-Alexandru Lazăr
      Pages 143-152
    9. A. Fröhlcke, E. Gjonaj, T. Weiland
      Pages 153-161
    10. Florin Muntean, Alexandru Avram, Johan Deconinck, Marius Purcar, Vasile Topa, Calin Munteanu et al.
      Pages 163-172
    11. Thomas Christen, Helmut Böhme, Atle Pedersen, Andreas Blaszczyk
      Pages 173-181
    12. Laura Pebernet, Xavier Ferrieres, Vincent Mouysset, François Rogier, Pierre Degond
      Pages 183-192
  4. Coupled Problems

    1. Front Matter
      Pages 193-194
    2. Revathi Appali, Benny Lautrup, Thomas Heimburg, Ursula van Rienen
      Pages 205-212
    3. Frank Denz, Erion Gjonaj, Thomas Weiland
      Pages 213-221
    4. M. Zubert, M. Janicki, M. Napieralska, G. Jablonski, L. Starzak, A. Napieralski
      Pages 223-231
    5. Giuseppe Alì, Andreas Bartel, Markus Brunk, Sebastian Schöps
      Pages 233-242
    6. Sebastian Schöps, Andreas Bartel, Herbert De Gersem
      Pages 243-251
  5. Circuit and Device Modelling and Simulation

    1. Front Matter
      Pages 253-255
    2. Heidi K. Thornquist, Eric R. Keiter
      Pages 257-265
    3. Fabrice Veersé, Joël Besnard, Hubert Filiol
      Pages 267-274
    4. Mikko Hulkkonen, Mikko Honkala, Jarmo Virtanen, Martti Valtonen
      Pages 285-292
    5. R. Mirzavand Boroujeni, E. J. W. ter Maten, T. G. J Beelen, W. H. A. Schilders, A. Abdipour
      Pages 293-302
    6. M. M. Gourary, S. G. Rusakov, S. L. Ulyanov, M. M. Zharov
      Pages 303-312
    7. Valeriu Savcenco, Bertrand Haut, E. Jan W. ter Maten, Robert M. M. Mattheij
      Pages 313-320
    8. Kai Bittner, Emira Dautbegovic
      Pages 321-328
    9. Carlo de Falco, Antonio Iacchetti, Maddalena Binda, Dario Natali, Riccardo Sacco, Maurizio Verri
      Pages 329-337
    10. Yiming Li, Ying-Chieh Chen
      Pages 347-355
  6. Model Order Reduction

    1. Front Matter
      Pages 365-366
    2. M. V. Ugryumova, J. Rommes, W. H. A. Schilders
      Pages 377-385
    3. Pekka Miettinen, Mikko Honkala, Janne Roos, Martti Valtonen
      Pages 387-394
    4. Pekka Miettinen, Mikko Honkala, Janne Roos, Martti Valtonen
      Pages 395-403

About this book


Selected from papers presented at the 8th Scientific Computation in Electrical Engineering conference in Toulouse in 2010, the contributions to this volume cover every angle of numerically modelling electronic and electrical systems, including computational electromagnetics, circuit theory and simulation and device modelling.

On computational electromagnetics, the chapters examine cutting-edge material ranging from low-frequency electrical machine modelling problems to issues in high-frequency scattering. Regarding circuit theory and simulation, the book details the most advanced techniques for modelling networks with many thousands of components. Modelling devices at microscopic levels is covered by a number of fundamental mathematical physics papers, while numerous papers on model order reduction help engineers and systems designers to bring their modelling of industrial-scale systems within the reach of present-day computational power. Complementing these more specific papers, the volume also contains a selection of mathematical methods which can be used in any application domain.


Circuit simulation Combined problems Computational electromagnetics Device modelling Model order reduction

Editors and affiliations

  • Bastiaan Michielsen
    • 1
  • Jean-René Poirier
    • 2
  1. 1.ONERAToulouseFrance
  2. 2.LAPLACE-ENSEEIHTToulouseFrance

Bibliographic information