cvl: Cross-validated penalized regression
In penalized: L1 (Lasso and Fused Lasso) and L2 (Ridge) Penalized Estimation in GLMs and in the Cox Model

View source: R/cvl.R

Cross-validation in penalized generalized linear models

R Documentation

Cross-validated penalized regression

Description

Cross-validating generalized linear models with L1 (lasso or fused lasso) and/or L2 (ridge) penalties, using likelihood cross-validation.

Usage


cvl (response, penalized, unpenalized, lambda1 = 0, lambda2= 0, positive = FALSE, 
    fusedl = FALSE, data, model = c("cox", "logistic", "linear", "poisson"), 
    startbeta, startgamma, fold, epsilon = 1e-10, maxiter, standardize = FALSE, 
    trace = TRUE, approximate = FALSE)

optL1 (response, penalized, unpenalized, minlambda1, maxlambda1, base1, lambda2 = 0, 
  fusedl = FALSE, positive = FALSE, data, 
  model = c("cox", "logistic", "linear", "poisson"), startbeta, startgamma, fold, 
  epsilon = 1e-10, maxiter = Inf, standardize = FALSE, tol = .Machine$double.eps^0.25, 
  trace = TRUE)

optL2 (response, penalized, unpenalized, lambda1 = 0, minlambda2, maxlambda2, base2, 
fusedl = FALSE ,positive = FALSE, data, 
  model = c("cox", "logistic", "linear", "poisson"), startbeta, startgamma, 
  fold, epsilon = 1e-10, maxiter, standardize = FALSE, tol = .Machine$double.eps^0.25, 
  trace = TRUE, approximate = FALSE)
    
profL1 (response, penalized, unpenalized, minlambda1, maxlambda1, base1, lambda2 = 0,
  fusedl = FALSE,positive = FALSE, data, 
  model = c("cox", "logistic", "linear", "poisson"), startbeta, startgamma, fold, 
  epsilon = 1e-10, maxiter = Inf, standardize = FALSE, steps = 100, minsteps = steps/3, 
  log = FALSE, save.predictions = FALSE, trace = TRUE, plot = FALSE)

profL2 (response, penalized, unpenalized, lambda1 = 0, minlambda2, maxlambda2, base2, 
  fusedl = FALSE,positive = FALSE, data, 
  model = c("cox", "logistic", "linear", "poisson"), startbeta, startgamma, fold, 
  epsilon = 1e-10, maxiter, standardize = FALSE, steps = 100, minsteps = steps/2, 
  log = TRUE, save.predictions = FALSE, trace = TRUE, plot = FALSE, approximate = FALSE)

Arguments

`response`	The response variable (vector). This should be a numeric vector for linear regression, a `Surv` object for Cox regression and `factor` or a vector of 0/1 values for logistic regression.
`penalized`	The penalized covariates. These may be specified either as a matrix or as a (one-sided) `formula` object. See also under `data`.
`unpenalized`	Additional unpenalized covariates. Specified as under `penalized`. Note that an unpenalized intercept is included in the model by default (except in the cox model). This can be suppressed by specifying `unpenalized = ~0`.
`lambda1, lambda2`	The fixed values of the tuning parameters for L1 and L2 penalization. Each must be either a single positive numbers or a vector with length equal to the number of covariates in `penalized` argument. In the latter case, each covariate is given its own penalty weight.
`minlambda1, minlambda2, maxlambda1, maxlambda2`	The values of the tuning parameters for L1 or L2 penalization between which the cross-validated likelihood is to be profiled or optimized. For fused lasso penalty `minlambda2` and `maxlambda2` are the tuning parameters for L1 penalty on the differences of the coefficients between which the cross-validated likelihood is to be optimized.
`base1, base2`	An optional vector of length equal to the number of covariates in penalized. If supplied, profiling or optimization is performed between `base1minlambda1` and `base1maxlambda1`; analogous for `base2`.
`fusedl`	If `TRUE` or a vector, the penalization method used is fused lasso. The value for `lambda1` is used as the tuning parameter for L1 penalization on the coefficients and the value for `lambda2` is used as the tuning parameter for L1 penalization on the differences of the coefficients. Default value is `FALSE`.
`positive`	If `TRUE`, constrains the estimated regression coefficients of all penalized covariates to be non-negative. If a logical vector with the length of the number of covariates in `penalized`, constrains the estimated regression coefficients of a subset of the penalized covariates to be non-negative.
`data`	A `data.frame` used to evaluate `response`, and the terms of `penalized` or `unpenalized` when these have been specified as a `formula` object.
`model`	The model to be used. If missing, the model will be guessed from the `response` input.
`startbeta`	Starting values for the regression coefficients of the penalized covariates. These starting values will be used only for the first values of `lambda1` and `lambda2`.
`startgamma`	Starting values for the regression coefficients of the unpenalized covariates. These starting values will be used only for the first values of `lambda1` and `lambda2`.
`fold`	The fold for cross-validation. May be supplied as a single number (between 2 and n) giving the number of folds, or, alternatively, as a length `n` vector with values in `1:fold`, specifying exactly which subjects are assigned to which fold. The default is `fold = 1:n`, resulting in leave-one-out (n-fold) cross-validation.
`epsilon`	The convergence criterion. As in `glm`. Convergence is judged separately on the likelihood and on the penalty.
`maxiter`	The maximum number of iterations allowed in each fitting of the model. Set by default at 25 when only an L2 penalty is present, infinite otherwise.
`standardize`	If `TRUE`, standardizes all penalized covariates to unit central L2-norm before applying penalization.
`steps`	The maximum number of steps between `minlambda1` and `maxlambda1` or `minlambda2` and `maxlambda2` at which the cross-validated likelihood is to be calculated.
`minsteps`	The minimum number of steps between `minlambda1` and `maxlambda1` or `minlambda2` and `maxlambda2` at which the cross-validated likelihood is to be calculated. If `minsteps` is smaller than `steps`, the algorithm will automatically stop when the cross-validated likelihood drops below the cross-validated likelihood of the null model, provided it has done at least `minsteps` steps.
`log`	If `FALSE`, the steps between `minlambda1` and `maxlambda1` or `minlambda2` and `maxlambda2` are equidistant on a linear scale, if `TRUE` on a logarithmic scale. Please note the different default between `optL1` (`FALSE`) and `optL2` (`TRUE`).
`tol`	The tolerance of the Brent algorithm used for minimization. See also `optimize`.
`save.predictions`	Controls whether or not to save cross-validated predictions for all values of lambda.
`trace`	If `TRUE`, prints progress information. Note that setting `trace=TRUE` may slow down the algorithm (but it often feels quicker)
`approximate`	If `TRUE`, the cross-validated likelihood values are approximated rather than fully calculated. Note that this option is only available for ridge models.
`plot`	If `TRUE`, makes a plot of cross-validated likelihood versus lambda.

Details

All five functions return a list with the following named elements:

lambda:: For optL1 and optL2 lambda gives the optimal value of the tuning parameters found. For profL1 and profL2 lambda is the vector of values of the tuning parameter for which the cross-validated likelihood has been calculated. Absent in the output of cvl.
cvl:: The value(s) of the cross-validated likelihood. For optL1, optL2 this is the cross-validated likelihood at the optimal value of the tuning parameter.
fold:: Returns the precise allocation of the subjects into the cross-validation folds. Note that the same allocation is used for all cross-validated likelihood calculations in each call to optL1, optL2, profL1, profL2.
predictions:: The cross-validated predictions for the left-out samples. The precise format of the cross-validated predictions depends on the type of generalized linear model (see breslow for survival models. The functions profL1 and profL2 return a list here (only if save.predictions = TRUE), whereas optL1, optL2 return the predictions for the optimal value of the tuning parameter only.
fullfit:: The fitted model on the full data. The functions profL1 and profL2 return a list of penfit objects here, whereas optL1, optL2 return the full data fit (a single penfit object) for the optimal value of the tuning parameter only.

Value

A named list. See details.

Note

The optL1 and optL2 functions use Brent's algorithm for minimization without derivatives (see also optimize). There is a risk that these functions converge to a local instead of to a global optimum. This is especially the case for optL1, as the cross-validated likelihood as a function of lambda1 quite often has local optima. It is recommended to use optL1 in combination with profL1 to check whether optL1 has converged to the right optimum.

Author(s)

Jelle Goeman: j.j.goeman@lumc.nl

References

Goeman J.J. (2010). L-1 Penalized Estimation in the Cox Proportional Hazards Model. Biometrical Journal 52 (1) 70-84.

Examples

# More examples in the package vignette:
#  type vignette("penalized")

data(nki70)
attach(nki70)

# Finding an optimal cross-validated likelihood
opt <- optL1(Surv(time, event), penalized = nki70[,8:77], fold = 5)
coefficients(opt$fullfit)
plot(opt$predictions)

# Plotting the profile of the cross-validated likelihood
prof <- profL1(Surv(time, event), penalized = nki70[,8:77],
    fold = opt$fold, steps=10)
plot(prof$lambda, prof$cvl, type="l")
plotpath(prof$fullfit)

penalized documentation built on April 23, 2022, 5:05 p.m.