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Mathematics — Key Technology for the Future

Joint Projects between Universities and Industry

  • Willi Jäger
  • Hans-Joachim Krebs

Table of contents

  1. Front Matter
    Pages I-XIII
  2. Motors, Vehicles

    1. Front Matter
      Pages 1-1
    2. Hans Georg Bock, Richard W. Longman, Johannes P. Schlöder, Michael J. Winckler
      Pages 3-21
    3. Rolf Rannacher, Vincent Heuveline
      Pages 33-42
    4. R. Rannacher, Chr. Becker, S. Turek
      Pages 43-54
    5. Roland Bulirsch, Martin Vögel, Oskar von Stryk, Cornelius Chucholowski, Thieß-Magnus Wolter
      Pages 84-102
    6. Klaus Kirchgässner, Som Deo Sharma, Xue-Nong Chen, Norbert Stuntz
      Pages 103-124
  3. Environmental Technology

    1. Front Matter
      Pages 125-125
    2. Willi Jäger, Gabriel Wittum, Wolfgang Schäfer, Christian Wagner, Harald Willershausen
      Pages 137-151
    3. P. Knabner, S. Bitterlich, R. Iza Teran, A. Prechtel, E. Schneid
      Pages 152-161
    4. P. Maaß, Christine Böckmann, Alexander Mekler
      Pages 162-172
  4. Flow, Transport and Reactions in Technological Processes

    1. Front Matter
      Pages 173-173
    2. B. Fiedler, M. A. Efendiev, L. Lerman, J. Rademacher, A. Schuppert
      Pages 175-183
    3. Friedrich Grund, Klaus Ehrhardt, Jürgen Borchardt, Dietmar Horn
      Pages 184-193
    4. Lutz Tobiska, Angela Thiele
      Pages 194-203
    5. Gabriel Wittum, Volker Schulz, Bernd Maar, Dmitriy Logashenko
      Pages 204-215
    6. M. Niggemann, M. Holzmann, D. Schmidt, K. Söldner
      Pages 216-232
    7. D. Hömberg, W. Dreyer, F. Duderstadt
      Pages 233-242
    8. D. Prätzel-Wolters, P. Lang, A. Wirsen, S. Kulig
      Pages 263-276
  5. Optics and Sensors

    1. Front Matter
      Pages 277-277
    2. Peter Deuflhard, Frank Schmidt, Tilmann Friese, Lin Zschiedrich
      Pages 279-292
    3. Johannes Elschner, Rainer Hinder, Günther Schmidt
      Pages 293-304
    4. Wolfgang Hackbusch, Steffen Börm
      Pages 305-312
  6. Crystal Growth, Semiconductors

    1. Front Matter
      Pages 313-313
    2. Gerhard Dziuk, Stefan Boschert, Alfred Schmidt, Kunibert G. Siebert, Eberhard Bänsch, Klaus-Werner Benz et al.
      Pages 315-330
    3. Karl-Heinz Hoffmann, Axel Voigt, Michael Metzger
      Pages 331-342
    4. Jürgen Sprekels, Olaf Klein, Peter Philip, Krzysztof Wilmański
      Pages 343-354
    5. H. Gajewski, H.-Chr. Kaiser, H. Langmach, R. Nürnberg, R. H. Richter
      Pages 355-364
    6. Ronald H. W. Hoppe, Peter Böhm, George Mazurkevitch, Svetozara Petrova, Gerhard Wachutka, Eckhard Wolfgang
      Pages 365-376
    7. Hans-Christoph Kaiser, Uwe Bandelow, Thomas Koprucki, Joachim Rehberg
      Pages 377-390
  7. Electronic Circuits

    1. Front Matter
      Pages 391-391
    2. Roland Bulirsch, Rolf Neubert, Angela Schwarz
      Pages 393-400
    3. Rolf Hünlich, Günter Albinus, Herbert Gajewski, Annegret Glitzky, Wilfried Röpke, Jürgen Knopke
      Pages 401-412
    4. Roswitha März, Diana Estévez Schwarz, Uwe Feldmann, Sandra Sturtzel, Caren Tischendorf
      Pages 413-428
    5. P. Rentrop, M. Günther, M. Hoschek, U. Feldmann
      Pages 429-438
  8. Tomography, Image Analysis and Visualisation

    1. Front Matter
      Pages 439-439
    2. A. K. Louis, P. Dörr, C. Gruss, H. Petry
      Pages 460-471
    3. Alfred K. Louis, Uwe Schmitt, Felix Darvas, Helmut Büchner, Manfred Fuchs
      Pages 472-482
    4. Heinz-Otto Peitgen, Tobias Boskamp, Peter Singer
      Pages 483-492
    5. Peter Mathé, Johann Hinrich Zacharias-Langhans
      Pages 493-502
    6. Willi Jäger, Cătălin Dârtu
      Pages 503-519

About this book

Introduction

Efficient transfer between science and society is crucial for their future development. The rapid progress of information technology and computer systems offers a large potential and new perspectives for solving complex problems. Mathematical modelling and simulation have become important tools not only in scientific investigations but also in analysing, planning and controlling technological and economic processes. Mathematics, imbedded in an interdisciplinary concept, has become a key technology.

The book covers the results of a variety of major projects in industrial mathematics following an initiative of the German Federal Ministry of Education and Research. All projects are collaborations of industrial companies and university-based researchers, and range from automotive industry to computer technology and medical visualisation. In general, the projects presented in this volume prove that new mathematical ideas and methods can be decisive for the solution of industrial and economic problems.

The book will be of great interest to everyone working in industrial mathematics and scientific computing.

Keywords

STATISTICA calculus chemical engineering combinatorial optimization communication crystal heat transfer image analysis modeling numerical methods optimization programming sensors simulation visualization

Editors and affiliations

  • Willi Jäger
    • 1
  • Hans-Joachim Krebs
    • 2
  1. 1.Universität Heidelberg IWRHeidelbergGermany
  2. 2.Forschungszentrum Jülich GmbH PTJJülichGermany

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-642-55753-8
  • Copyright Information Springer-Verlag Berlin Heidelberg 2003
  • Publisher Name Springer, Berlin, Heidelberg
  • eBook Packages Springer Book Archive
  • Print ISBN 978-3-642-62914-3
  • Online ISBN 978-3-642-55753-8
  • Buy this book on publisher's site
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