Title :
Estimations of error bounds for neural-network function approximators
Author :
Townsend, Neil W. ; Tarassenko, Lionel
Author_Institution :
Dept. of Eng. Sci., Oxford Univ., UK
fDate :
3/1/1999 12:00:00 AM
Abstract :
Neural networks are being increasingly used for problems involving function approximation. However, a key limitation of neural methods is the lack of a measure of how much confidence can be placed in output estimates. In the last few years many authors have addressed this shortcoming from various angles, focusing primarily on predicting output bounds as a function of the trained network´s characteristics, typically as defined by the Hessian matrix. In this paper the problem of the effect of errors or noise in the presented input vector is examined, and a method based on perturbation analysis of determining output bounds from the error in the input vector and the imperfections in the weight values after training is also presented and demonstrated
Keywords :
Hessian matrices; error analysis; function approximation; learning (artificial intelligence); perturbation techniques; radial basis function networks; Hessian matrix; error bound estimation; error prediction; function approximation; output bounds; perturbation model; radial basis function neural-network; Bayesian methods; Covariance matrix; Feedforward neural networks; Function approximation; Helium; Neural networks; Perturbation methods; Predictive models; Prototypes; Radial basis function networks;
Journal_Title :
Neural Networks, IEEE Transactions on
