Approximation with Random Bases: Pro et Contra
Abstract
In this work we discuss the problem of selecting suitable approximators from families of parameterized elementary functions that are known to be dense in a Hilbert space of functions. We consider and analyze published procedures, both randomized and deterministic, for selecting elements from these families that have been shown to ensure the rate of convergence in norm of order , where is the number of elements. We show that both randomized and deterministic procedures are successful if additional information about the families of functions to be approximated is provided. In the absence of such additional information one may observe exponential growth of the number of terms needed to approximate the function and/or extreme sensitivity of the outcome of the approximation to parameters. Implications of our analysis for applications of neural networks in modeling and control are illustrated with examples.
Cite
@article{arxiv.1506.04631,
title = {Approximation with Random Bases: Pro et Contra},
author = {Alexander N. Gorban and Ivan Yu. Tyukin and Danil V. Prokhorov and Konstantin I. Sofeikov},
journal= {arXiv preprint arXiv:1506.04631},
year = {2016}
}
Comments
arXiv admin note: text overlap with arXiv:0905.0677