Description Usage Arguments Value See Also Examples
Select tuning parameter by cross validation according to the likelihood on testing data, with and without refitting.
1 2 | varband_cv(x, w = FALSE, lasso = FALSE, K = -1, lamlist = NULL,
nlam = 60, flmin = 0.01, folds = NULL, nfolds = 5)
|
x |
A n-by-p sample matrix, each row is an observation of the p-dim random vector. |
w |
Logical. Should we use weighted version of the penalty or not? If |
lasso |
Logical. Should we use l1 penalty instead of hierarchical group lasso penalty? Note that by using l1 penalty, we lose the banded structure in the resulting estimate. And when using l1 penalty, the becomes CSCS (Convex Sparse Cholesky Selection) introduced in Khare et al. (2016). Default value for |
K |
Integer between 0 and p - 1 (default), indicating the maximum bandwidth in the resulting estimate. A small value of K will result in a sparse estimate and small computing time. |
lamlist |
A list of non-negative tuning parameters |
nlam |
If lamlist is not provided, create a lamlist with length |
flmin |
If lamlist is not provided, create a lamlist with ratio of the smallest and largest lambda in the list equal to |
folds |
Folds used in cross-validation |
nfolds |
If folds are not provided, create folds of size |
A list object containing
A nlam
-by-nfolds
matrix of negative Gaussian log-likelihood values on the CV test data sets. errs[i,j]
is negative Gaussian log-likelihood values incurred in using lamlist[i]
on fold j
.
A nlam
-by-nfolds
matrix of negative Gaussian log-likelihood values of the refitting.
Folds used in cross validation.
lambda
grid used in cross validation.
index of lamlist
minimizing CV negative Gaussian log-likelihood.
index of lamlist
minimizing refitting CV negative Gaussian log-likelihood.
Selected value of lambda
using the one-standard-error rule.
Selected value of lambda
of the refitting process using the one-standard-error rule.
Estimate of L corresponding to ibest_fit
.
Refitted estimate of L corresponding to ibest_refit
.
1 2 3 4 5 6 | set.seed(123)
p <- 50
n <- 50
true <- varband_gen(p = p, block = 5)
x <- sample_gen(L = true, n = n)
res_cv <- varband_cv(x = x, w = FALSE, nlam = 40, flmin = 0.03)
|
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