Title

Robust partial least-squares regression: a modular neural network approach

Authors

Thomas M. McDowall
Fredric M. Ham

Document Type

Conference Proceeding

Publication Title

Proceedings of SPIE - the International Society for Optical Engineering

Abstract

We have developed a robust Partial Least-Squares Regression (PLSR) neural network approach to statistical calibration model development. Generalized neural network learning rules derived from a weighted statistical representation error criterion that grows less than quadratically are presented. This optimization criterion allows for higher-order statistics associated with the inputs to be taken into account and also serves to robustify the results when the empirical data contains impulsive and colored noise and outliers. The learning rules presented are considered generalized because they can be used to implement several specialized cases including: robust PLSR, linear PLSR, weighted least-squares, and variance scaling. The same learning rules also implement steepest descent or Newton's method. Newton's method can be used to formulate an adaptive learning rate for training the network.

First Page

344

Last Page

355

DOI

10.1117/12.271496

Publication Date

4-4-1997

Recommended Citation

McDowall, T. M., & Ham, F. M. (1997). Robust partial least-squares regression: A modular neural network approach. Paper presented at the Proceedings of SPIE - the International Society for Optical Engineering, , 3077 344-355.