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Computational Science — ICCS 2002

International Conference Amsterdam, The Netherlands, April 21–24, 2002 Proceedings, Part III

  • Peter M. A. Sloot
  • Alfons G. Hoekstra
  • C. J. Kenneth Tan
  • Jack J. Dongarra

Part of the Lecture Notes in Computer Science book series (LNCS, volume 2331)

Table of contents

  1. Front Matter
    Pages I-XLI
  2. Workshop Papers II

    1. Computational Geometry and Applications

      1. Mark H. Overmars
        Pages 3-13
      2. Adrian Dumitrescu, Sumanta Guha
        Pages 14-25
      3. Mattias Andersson, Joachim Gudmundsson, Christos Levcopoulos, Giri Narasimhan
        Pages 26-35
      4. Jan Hungershöfer, Jens-Michael Wierum
        Pages 36-45
      5. J. M. Díaz-Báñez, F. Hurtado, H. Meijer, D. Rappaport, T. Sellares
        Pages 46-54
      6. Henk Bekker, Koen De Raedt
        Pages 55-64
      7. Gian Paolo Lorenzetto, Amitava Datta
        Pages 75-84
      8. Pieter Huybers
        Pages 85-94
      9. A. Gervois, L. Oger, P. Richard, J. P. Troadec
        Pages 95-104
      10. Marina L. Gavrilova, Jon Rokne
        Pages 105-114
      11. Marina Gavrilova, Jon Rokne, Dmitri Gavrilov, Oleg Vinogradov
        Pages 115-124
      12. Ivana Kolingerová
        Pages 125-134
      13. Rebecca O. C. Tse, Christopher Gold
        Pages 135-144
      14. Maciej Dakowicz, Christopher Gold
        Pages 144-153
      15. Joachim Giesen, Matthias John
        Pages 154-163
      16. R. Wirza, M. S. Bloor, J. Fisher
        Pages 184-193
    2. Computing in Medicine

      1. Bernd Fischer, Jan Modersitzki
        Pages 202-206
      2. Aria Abubakar, Peter M. van den Berg
        Pages 207-216
      3. J. Martyniak, K. Stanisz-Wallis, L. Walczycka
        Pages 234-241
      4. J. A. Schaap, P. J. H. de Koning, J. P. Janssen, J. J. M. Westenberg, R. J. van der Geest, J. H. C. Reiber
        Pages 242-254
      5. Frieke M. A. Box, Rob J. van der Geest, Patrick J. H. de Koning, Jorrit Schaap, Johan H. C. Reiber, Mark A. van Buchem et al.
        Pages 255-264
      6. Pascal R. Verdonck, Jan A. Vierendeels
        Pages 275-284
      7. Nick Ablitt, Jianxin Gao, Peter Gatehouse, Guang-Zhong Yang
        Pages 285-294
    3. High Performance Computing in Particle Accelerator Science and Technology

      1. F. Filbet, J.-L. Lemaire, E. Sonnendrücker
        Pages 305-314
      2. Andrei Shishlo, Jeff Holmes, Viatcheslav Danilov
        Pages 325-333
      3. R. A. Fonseca, L. O. Silva, F. S. Tsung, V. K. Decyk, W. Lu, C. Ren et al.
        Pages 342-351
      4. Brett Wilson, Kwan-Liu Ma, Ji Qiang, Robert Ryne
        Pages 352-361
      5. Andreas Adelmann, Derek Feichtinger
        Pages 362-371
      6. V. Biryukov, A. Drees, R. P. Fliller III, N. Malitsky, D. Trbojevic
        Pages 372-380
      7. Romuald Duperrier, Nicolas Pichoff, Didier Uriot
        Pages 411-418
    4. Geometric Numerical Algorithms: Theoretical Aspects and Applications

Other volumes

  1. International Conference Amsterdam, The Netherlands, April 21–24, 2002 Proceedings, Part I
  2. International Conference Amsterdam, The Netherlands, April 21–24, 2002 Proceedings, Part II
  3. Computational Science — ICCS 2002
    International Conference Amsterdam, The Netherlands, April 21–24, 2002 Proceedings, Part III

About these proceedings

Introduction

Computational Science is the scientific discipline that aims at the development and understanding of new computational methods and techniques to model and simulate complex systems. The area of application includes natural systems - such as biology environ­ mental and geo-sciences, physics, and chemistry - and synthetic systems such as electronics and financial and economic systems. The discipline is a bridge bet­ ween 'classical' computer science - logic, complexity, architecture, algorithm- mathematics, and the use of computers in the aforementioned areas. The relevance for society stems from the numerous challenges that exist in the various science and engineering disciplines, which can be tackled by advances made in this field. For instance new models and methods to study environmental issues like the quality of air, water, and soil, and weather and climate predictions through simulations, as well as the simulation-supported development of cars, airplanes, and medical and transport systems etc. Paraphrasing R. Kenway (R.D. Kenway, Contemporary Physics. 1994): 'There is an important message to scientists, politicians, and industrialists: in the future science, the best industrial design and manufacture, the greatest medical progress, and the most accurate environmental monitoring and forecasting will be done by countries that most rapidly exploit the full potential of computational science'. Nowadays we have access to high-end computer architectures and a large range of computing environments, mainly as a consequence of the enormous sti­ mulus from the various international programs on advanced computing, e.g.

Keywords

Computational Fluid Dynamics Computational Geometry Computer Graphics Grid Computing High-Performance Computing Network Computing Numerical Algorithms Particle-in-cell Python Supercom algorithms calculus modeling programming visualization

Editors and affiliations

  • Peter M. A. Sloot
    • 1
  • Alfons G. Hoekstra
    • 1
  • C. J. Kenneth Tan
    • 2
  • Jack J. Dongarra
    • 3
  1. 1.Faculty of Science, Section Computational ScienceUniversity of AmsterdamAmsterdamThe Netherlands
  2. 2.Western Science Center, SHARCNETUniversity of Western OntarioLondonCanada
  3. 3.Computer Science Department Innovative Computing LaboratoryUniversity of TennesseeKnoxvilleUSA

Bibliographic information

  • DOI https://doi.org/10.1007/3-540-47789-6
  • Copyright Information Springer-Verlag Berlin Heidelberg 2002
  • Publisher Name Springer, Berlin, Heidelberg
  • eBook Packages Springer Book Archive
  • Print ISBN 978-3-540-43594-5
  • Online ISBN 978-3-540-47789-1
  • Series Print ISSN 0302-9743
  • Buy this book on publisher's site
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