Tuning the principal components with GLMs:
Tuning the principal components with GLMs
Description
Tuning the number of principal components in the generalised linear models.
Usage
glmpcr.tune(y, x, M = 10, maxk = 10,
mat = NULL, ncores = 1, graph = TRUE)
Arguments
y
A real valued vector.
x
A matrix with the predictor variables, they have to be continuous.
M
The number of folds in the cross validation.
maxk
The maximum number of principal components to check.
mat
You can specify your own folds by giving a mat, where each column is a fold. Each column contains indices of the observations. You can also leave it NULL and it will create folds.
ncores
The number of cores to use. If more than 1, parallel computing will take place. It is advisable to use it if you have many observations and or many variables, otherwise it will slow down th process.
graph
If graph is TRUE a plot of the performance for each fold along the values of $\alpha$ will appear.
Value
If graph is TRUE a plot of the performance versus the number of principal components will appear.
A list including:
Details
Cross validation is performed to select the optimal number of principal components in the GLM. This is used by alfapcr.tune.
References
Aguilera A.M., Escabias M. and Valderrama M.J. (2006). Using principal components for estimating logistic regression with high-dimensional multicollinear data. Computational Statistics & Data Analysis 50(8): 1905-1924.
Jolliffe I.T. (2002). Principal Component Analysis.
Tibshirani and Tibshirani (2009). A bias correction for the minimum error rate in cross-validation. The Annals of Applied Statistics, 3(1):822-829.