%0 Journal Article %A Cook, Dennis %A Su, Zhihua %D 2015 %T Scaled Predictor Envelopes and Partial Least Squares Regression %U https://tandf.figshare.com/articles/journal_contribution/Scaled_Predictor_Envelopes_and_Partial_Least_Squares_Regression/1332461 %R 10.6084/m9.figshare.1332461.v1 %2 https://ndownloader.figshare.com/files/1944489 %K pls %K Scaled Predictor Envelopes %K Squares Regression Partial %K chemometrics applications %K theoretic claims %K prediction errors %K SPE estimators %K scale transformations %K envelope methodology %K predictor envelopes %K efficiency gains %X

Partial least squares (PLS) is a widely used method for prediction in applied statistics, especially in chemometrics applications. However, PLS is not invariant or equivariant under scale transformations of the predictors, which tends to limit its scope to regressions in which the predictors are measured in the same or similar units. Cook et al. (2013) built a connect between nascent envelope methodology and PLS, allowing PLS to be addressed in a traditional likelihood-based framework. In this article, we use the connection between PLS and envelopes to develop a new method – scaled predictor envelopes (SPE) – that incorporates predictor scaling into PLS-type applications. By estimating the appropriate scales, the SPE estimators can offer efficiency gains beyond those given by PLS, and further reduce prediction errors. Simulations and an example are given to support the theoretic claims.

%I Taylor & Francis