Approximation capabilities of adaptive spline neural networks

Author

Vecci, Lorenzo ; Campolucci, Paolo ; Piazza, Francesco ; Uncini, Aurelio

Author_Institution

Diartimento di Elettronica e Autom., Univ. di Ancona Italy, Italy

Volume

1

fYear

1997

fDate

9-12 Jun 1997

Firstpage

260

Abstract

In this paper, we study the properties of neural networks based on adaptive spline activation functions. Using the results of regularization theory, we show how the proposed architecture is able to produce smooth approximations of unknown functions; to reduce hardware complexity a particular implementation of the kernels expected by the theory is suggested. This solution, although sub-optimal, greatly reduces the number of neurons and connections as it gives an increased expressive power to each neuron which is also able to produce a smooth activation function just controlling one fixed parameter of a Catmull-Rom cubic spline. Experimental results demonstrate that there is also an advantage in terms of the number of free parameters that, together with smoothness, leads to an improved generalization capability

Keywords

adaptive systems; function approximation; generalisation (artificial intelligence); learning (artificial intelligence); neural nets; splines (mathematics); transfer functions; Catmull-Rom cubic spline; activation functions; adaptive spline neural networks; function approximations; generalization; learning algorithm; regularization theory; Adaptive systems; Filters; Helium; Kernel; Neural network hardware; Neural networks; Neurons; Polynomials; Spline; Testing;

fLanguage

English

Publisher

ieee

Conference_Titel

Neural Networks,1997., International Conference on

Conference_Location

Houston, TX

Print_ISBN

0-7803-4122-8

Type

conf

DOI

10.1109/ICNN.1997.611675

Filename

611675