Implicit Local Radial Basis Function Interpolations Based On Function Values
Document Type
Article
Publication Date
8-15-2015
Department
Mathematics
School
Mathematics and Natural Sciences
Abstract
In this paper we propose two fast localized radial basis function fitting algorithms for solving large-scale scattered data interpolation problems. For each given point in the given data set, a local influence domain containing a small number of nearest neighboring points is established and a global interpolation is performed within this restricted domain. A sparse matrix is formulated based on the global interpolation in these local influence domains. The proposed methods have achieved both low computational cost and minimal memory storage. In comparison with the compactly supported radial basis functions, the proposed fitting algorithms are highly accurate. The numerical examples have provided strong evidence that the two proposed algorithms are indeed highly efficient and accurate. In the two proposed algorithms, we have successfully solved a large-scale interpolation problem with 225,000 interpolation points in two dimensional space.
Publication Title
Applied Mathematics and Computation
Volume
265
First Page
91
Last Page
102
Recommended Citation
Yao, G.,
Duo, J.,
Chen, C.,
Shen, L.
(2015). Implicit Local Radial Basis Function Interpolations Based On Function Values. Applied Mathematics and Computation, 265, 91-102.
Available at: https://aquila.usm.edu/fac_pubs/18583