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Computational Methods for Algebraic Spline Surfaces

ESF Exploratory Workshop

  • Conference proceedings
  • © 2005

Overview

Authors:
  1. Tor Dokken

    1. SINTEF Applied Mathematics, Oslo, Norway

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    You can also search for this author in PubMed   Google Scholar

  2. Bert Jüttler

    1. Institute of Applied Geometry, Johannes Kepler University, Linz, Austria

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    You can also search for this author in PubMed   Google Scholar

  • High-profile topics with industrial applications
  • Includes supplementary material: sn.pub/extras

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Table of contents (16 papers)

  1. Front Matter

    Pages I-VII
    Download chapter PDF

  2. Approximate Parametrisation of Confidence Sets

    • Zbyněk Šír
    Pages 1-10

  3. Challenges in Surface-Surface Intersections

    • Vibeke Skytt
    Pages 11-26

  4. Computing the Topology of Three-Dimensional Algebraic Curves

    • G. Gatellier, A. Labrouzy, B. Mourrain, J. P. Técourt
    Pages 27-43

  5. Distance Properties of ∈-Points on Algebraic Curves

    • Sonia Pérez-Díaz, Juana Sendra, J.Rafael Sendra
    Pages 45-61

  6. Distance Separation Measures Between Parametric Curves and Surfaces Toward Intersection and Collision Detection Applications

    • Gershon Elber
    Pages 63-75

  7. Elementary Theory of Del Pezzo Surfaces

    • Josef Schicho
    Pages 77-94

  8. The Geometry of the Tangent Developable

    • Pal Hermunn Johansen
    Pages 95-106

  9. Numerical and Algebraic Properties of Bernstein Basis Resultant Matrices

    • Winkler Joab R.
    Pages 107-118

  10. Polynomial C2 Spline Surfaces Guided by Rational Multisided Patches

    • Kȩstutis Karčciauskas, Jörg Peters
    Pages 119-134

  11. A Recursive Taylor Method for Algebraic Curves and Surfaces

    • Huahao Shou, Ralph Martin, Guojin Wang, Adrian Bowyer, Irina Voiculescu
    Pages 135-154

  12. Self-Intersection Problems and Approximate Implicitization

    • Jan B. Thomassen
    Pages 155-170

  13. Singularities of Some Projective Rational Surfaces

    • Ragni Piene
    Pages 171-182

  14. On the Shape Effect of a Control Point: Experimenting with NURBS Surfaces

    • Panagiotis Kaklis, Spyridon Dellas
    Pages 183-192

  15. Third Order Invariants of Surfaces

    • Jens Gravesen
    Pages 193-211

  16. Universal Rational Parametrizations and Spline Curves on Toric Surfaces

    • Rimvydas Krasauskas, Margarita Kazakevičiūté
    Pages 213-231

  17. Panel Discussion

    Pages 232-237
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Keywords

About this book

This volume contains revised papers that were presented at the international workshop entitled Computational Methods for Algebraic Spline Surfaces (“COMPASS”), which was held from September 29 to October 3, 2003, at Schloß Weinberg, Kefermarkt (A- tria). The workshop was mainly devoted to approximate algebraic geometry and its - plications. The organizers wanted to emphasize the novel idea of approximate implici- zation, that has strengthened the existing link between CAD / CAGD (Computer Aided Geometric Design) and classical algebraic geometry. The existing methods for exact implicitization (i. e. , for conversion from the parametric to an implicit representation of a curve or surface) require exact arithmetic and are too slow and too expensive for industrial use. Thus the duality of an implicit representation and a parametric repres- tation is only used for low degree algebraic surfaces such as planes, spheres, cylinders, cones and toroidal surfaces. On the other hand, this duality is a very useful tool for - veloping ef?cient algorithms. Approximate implicitization makes this duality available for general curves and surfaces. The traditional exact implicitization of parametric surfaces produce global rep- sentations, which are exact everywhere. The surface patches used in CAD, however, are always de?ned within a small box only; they are obtained for a bounded parameter domain (typically a rectangle, or – in the case of “trimmed” surface patches – a subset of a rectangle). Consequently, a globally exact representation is not really needed in practice.

Authors and Affiliations

  • SINTEF Applied Mathematics, Oslo, Norway

    Tor Dokken

  • Institute of Applied Geometry, Johannes Kepler University, Linz, Austria

    Bert Jüttler

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