DocumentCode
876564
Title
Multiscale approximation with hierarchical radial basis functions networks
Author
Ferrari, Stefano ; Maggioni, Mauro ; Borghese, N. Alberto
Author_Institution
Milan Univ., Italy
Volume
15
Issue
1
fYear
2004
Firstpage
178
Lastpage
188
Abstract
An approximating neural model, called hierarchical radial basis function (HRBF) network, is presented here. This is a self-organizing (by growing) multiscale version of a radial basis function (RBF) network. It is constituted of hierarchical layers, each containing a Gaussian grid at a decreasing scale. The grids are not completely filled, but units are inserted only where the local error is over threshold. This guarantees a uniform residual error and the allocation of more units with smaller scales where the data contain higher frequencies. Only local operations, which do not require any iteration on the data, are required; this allows to construct the network in quasi-real time. Through harmonic analysis, it is demonstrated that, although a HRBF cannot be reduced to a traditional wavelet-based multiresolution analysis (MRA), it does employ Riesz bases and enjoys asymptotic approximation properties for a very large class of functions. HRBF networks have been extensively applied to the reconstruction of three-dimensional (3-13) models from noisy range data. The results illustrate their power in denoising the original data, obtaining an effective multiscale reconstruction of better quality than that obtained by MRA.
Keywords
approximation theory; harmonic analysis; radial basis function networks; Gaussian grid; HRBF; Riesz bases; approximating neural model; asymptotic approximation properties; harmonic analysis; hierarchical layers; hierarchical radial basis functions networks; local operations; multiscale approximation; multiscale reconstruction; noisy range data; self-organizing multiscale version; three-dimensional models; uniform residual error; wavelet decomposition; Chromium; Convergence; Data processing; Harmonic analysis; Information technology; Machinery; Multiresolution analysis; Noise reduction; Radio spectrum management; Wavelet analysis; Face; Imaging, Three-Dimensional; Neural Networks (Computer);
fLanguage
English
Journal_Title
Neural Networks, IEEE Transactions on
Publisher
ieee
ISSN
1045-9227
Type
jour
DOI
10.1109/TNN.2003.811355
Filename
1263589
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