Approximating and intersecting surfaces from points
Anders Adamson,Marc Alexa +1 more
- 23 Jun 2003
- pp 230-239
TL;DR: For certain, well-chosen weight functions, it can be shown that well-sampled surfaces lead to smooth distance fields with non-zero gradients and, thus, the surface is a continuously differentiable manifold.
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Abstract: Point sets become an increasingly popular shape representation. Most shape processing and rendering tasks require the approximation of a continuous surface from the point data. We present a surface approximation that is motivated by an efficient iterative ray intersection computation. On each point on a ray, a local normal direction is estimated as the direction of smallest weighted co-variances of the points. The normal direction is used to build a local polynomial approximation to the surface, which is then intersected with the ray. The distance to the polynomials essentially defines a distance field, whose zero-set is computed by repeated ray intersection. Requiring the distance field to be smooth leads to an intuitive and natural sampling criterion, namely, that normals derived from the weighted co-variances are well defined in a tubular neighborhood of the surface. For certain, well-chosen weight functions we can show that well-sampled surfaces lead to smooth distance fields with non-zero gradients and, thus, the surface is a continuously differentiable manifold. We detail spatial data structures and efficient algorithms to compute ray-surface intersections for fast ray casting and ray tracing of the surface.
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Citations
Algebraic point set surfaces
Gaël Guennebaud,Markus Gross +1 more
- 29 Jul 2007
TL;DR: This paper presents a new Point Set Surface (PSS) definition based on moving least squares (MLS) fitting of algebraic spheres, and presents an novel normal estimation procedure which exploits the properties of the spherical fit for both direction estimation and orientation propagation.
595
Feature Preserving Point Set Surfaces based on Non-Linear Kernel Regression
TL;DR: This paper presents a novel point based surface definition combining the simplicity of implicit MLS surfaces [ SOS04, Kol05 ] with the strength of robust statistics, and reaches this new definition in terms of local kernel regression.
Point based animation of elastic, plastic and melting objects
Matthias Müller,Richard Keiser,Andy Nealen,Mark Pauly,Markus Gross,Marc Alexa +5 more
- 27 Aug 2004
TL;DR: The physical model is derived from continuum mechanics, which allows the specification of common material properties such as Young's Modulus and Poisson's Ratio and it is demonstrated how to solve the equations of motion based on these forces, with both explicit and implicit integration schemes.
523
Provably good sampling and meshing of surfaces
Jean-Daniel Boissonnat,Steve Oudot +1 more
- 01 Sep 2005
TL;DR: The notion of loose e-sample is introduced and it is shown that the set of loosee-samples contains and is asymptotically identical to the setof e-s samples, which are easier to check and to construct.
408
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