Open AccessNURBS approximation of surface/surface intersection curves
Author(s) -
Chandrajit Bajaj,
Guoliang Xu
Publication year - 1994
Publication title -
advances in computational mathematics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.003
H-Index - 61
eISSN - 1572-9044
pISSN - 1019-7168
DOI - 10.1007/bf02519033
Subject(s) - mathematics , parametric surface , surface (topology) , intersection (aeronautics) , rational surface , algebraic surface , algebraic curve , parametric statistics , algebraic geometry , geometric design , intersection theory , algebraic number , mathematical analysis , geometry , pure mathematics , quantum mechanics , engineering , differential equation , differential algebraic equation , ordinary differential equation , statistics , physics , plasma , aerospace engineering
We use a combination of both symbolic and numerical techniques to construct degree boundedC k -continuous, rational B-spline ε-approximations of real algebraic surface-surface intersection curves. The algebraic surfaces could be either in implicit or rational parametric form. At singular points, we use the classical Newton power series factorizations to determine the distinct branches of the space intersection curve. In addition to singular points, we obtain an adaptive selection of regular points about which the curve approximation yields a small number of curve segments yet achievesC k continuity between segments. Details of the implementation of these algorithms and approximation error bounds are also provided.
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