A two-level approach to implicit surface modeling with compactly supported radial basis functions
Date issued
2011
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Springer
Abstract
We describe a two-level method for computing
a function whose zero-level set is the surface reconstructed
from given points scattered over the surface and associated
with surface normal vectors. The function is defined as a
linear combination of compactly supported radial basis
functions (CSRBFs). The method preserves the simplicity
and efficiency of implicit surface interpolation with
CSRBFs and the reconstructed implicit surface owns the
attributes, which are previously only associated with
globally supported or globally regularized radial basis
functions, such as exhibiting less extra zero-level sets,
suitable for inside and outside tests. First, in the coarse
scale approximation, we choose basis function centers on a
grid that covers the enlarged bounding box of the given
point set and compute their signed distances to the underlying
surface using local quadratic approximations of the
nearest surface points. Then a fitting to the residual errors
on the surface points and additional off-surface points is
performed with fine scale basis functions. The final function
is the sum of the two intermediate functions and is a
good approximation of the signed distance field to the
surface in the bounding box. Examples of surface reconstruction
and set operations between shapes are provided.
Description
Subject(s)
modelování implicitních ploch, radiální bázové funkce, rekonstrukce povrchu, Boolean operations
Citation
Engineering with Computers. 2011, vol. 27, is. 3, p. 299-307.