Paper Info
Title
A closed-form formulation of HRBF-based surface reconstruction by approximate solution.
Abstract
The Hermite radial basis functions (HRBFs) implicits have been used to reconstruct surfaces from scattered Hermite data points. In this work, we propose a closed-form formulation to construct HRBF-based implicits by a quasi-solution to approximate the exact one. A scheme is developed to automatically adjust the support sizes of basis functions to hold the error bound of a quasi-solution. Our method can generate an implicit function from positions and normals of scattered points without taking any global operation. Robust and efficient reconstructions are observed in our experimental tests on real data captured from a variety of scenes. A closed-form formulation for computing the approximate solution of HRBF-based surface reconstruction from scattered data points.The computation based on compact support is local and numerically stable.Errors between the quasi-solution and the exact one are bounded.Our formulation to find the approximate solution of HRBF-based surface reconstruction is robust.As a local approach, our method is efficient and scalable.
Year
DOI
Venue
2016
10.1016/j.cad.2016.05.001
Computer-Aided Design
Keywords
Field
DocType
Hermite Radial Basis Functions,Quasi-solution,Closed-form,Surface reconstruction
Data point,Surface reconstruction,Mathematical optimization,Radial basis function,Hermite polynomials,Implicit function,Basis function,Mathematics,Scalability,Computation
Journal
Volume
Issue
ISSN
78
C
0010-4485
Citations 
PageRank 
References 
7
0.42
32
Authors
4
Name
Order
Citations
PageRank
Shengjun Liu111613.79
Charlie C. L. Wang21280100.10
Guido Brunnett322644.18
Jun Wang437247.52