CVglasso: Penalized precision matrix estimation

Description Usage Arguments Details Value Author(s) References See Also Examples

View source: R/glasso.R

Description

Penalized precision matrix estimation using the graphical lasso (glasso) algorithm. Consider the case where X_{1}, ..., X_{n} are iid N_{p}(μ, Σ) and we are tasked with estimating the precision matrix, denoted Ω \equiv Σ^{-1}. This function solves the following optimization problem:

Objective:

\hat{Ω}_{λ} = \arg\min_{Ω \in S_{+}^{p}} ≤ft\{ Tr≤ft(SΩ\right) - \log \det≤ft(Ω \right) + λ ≤ft\| Ω \right\|_{1} \right\}

where λ > 0 and we define ≤ft\|A \right\|_{1} = ∑_{i, j} ≤ft| A_{ij} \right|.

Usage

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CVglasso(X = NULL, S = NULL, nlam = 10, lam.min.ratio = 0.01,
  lam = NULL, diagonal = FALSE, path = FALSE, tol = 1e-04,
  maxit = 10000, adjmaxit = NULL, K = 5, crit.cv = c("loglik", "AIC",
  "BIC"), start = c("warm", "cold"), cores = 1, trace = c("progress",
  "print", "none"), ...)

Arguments

X

option to provide a nxp data matrix. Each row corresponds to a single observation and each column contains n observations of a single feature/variable.

S

option to provide a pxp sample covariance matrix (denominator n). If argument is NULL and X is provided instead then S will be computed automatically.

nlam

number of lam tuning parameters for penalty term generated from lam.min.ratio and lam.max (automatically generated). Defaults to 10.

lam.min.ratio

smallest lam value provided as a fraction of lam.max. The function will automatically generate nlam tuning parameters from lam.min.ratio*lam.max to lam.max in log10 scale. lam.max is calculated to be the smallest lam such that all off-diagonal entries in Omega are equal to zero (alpha = 1). Defaults to 1e-2.

lam

option to provide positive tuning parameters for penalty term. This will cause nlam and lam.min.ratio to be disregarded. If a vector of parameters is provided, they should be in increasing order. Defaults to NULL.

diagonal

option to penalize the diagonal elements of the estimated precision matrix (Ω). Defaults to FALSE.

path

option to return the regularization path. This option should be used with extreme care if the dimension is large. If set to TRUE, cores must be set to 1 and errors and optimal tuning parameters will based on the full sample. Defaults to FALSE.

tol

convergence tolerance. Iterations will stop when the average absolute difference in parameter estimates in less than tol times multiple. Defaults to 1e-4.

maxit

maximum number of iterations. Defaults to 1e4.

adjmaxit

adjusted maximum number of iterations. During cross validation this option allows the user to adjust the maximum number of iterations after the first lam tuning parameter has converged. This option is intended to be paired with warm starts and allows for 'one-step' estimators. Defaults to NULL.

K

specify the number of folds for cross validation.

crit.cv

cross validation criterion (loglik, AIC, or BIC). Defaults to loglik.

start

specify warm or cold start for cross validation. Default is warm.

cores

option to run CV in parallel. Defaults to cores = 1.

trace

option to display progress of CV. Choose one of progress to print a progress bar, print to print completed tuning parameters, or none.

...

additional arguments to pass to glasso.

Details

For details on the implementation of the 'glasso' function, see Tibshirani's website. http://statweb.stanford.edu/~tibs/glasso/.

Value

returns class object CVglasso which includes:

Call

function call.

Iterations

number of iterations

Tuning

optimal tuning parameters (lam and alpha).

Lambdas

grid of lambda values for CV.

maxit

maximum number of iterations for outer (blockwise) loop.

Omega

estimated penalized precision matrix.

Sigma

estimated covariance matrix from the penalized precision matrix (inverse of Omega).

Path

array containing the solution path. Solutions will be ordered by ascending lambda values.

MIN.error

minimum average cross validation error (cv.crit) for optimal parameters.

AVG.error

average cross validation error (cv.crit) across all folds.

CV.error

cross validation errors (cv.crit).

Author(s)

Matt Galloway gall0441@umn.edu

References

See Also

plot.CVglasso

Examples

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# generate data from a sparse matrix
# first compute covariance matrix
S = matrix(0.7, nrow = 5, ncol = 5)
for (i in 1:5){
 for (j in 1:5){
   S[i, j] = S[i, j]^abs(i - j)
 }
}

# generate 100 x 5 matrix with rows drawn from iid N_p(0, S)
Z = matrix(rnorm(100*5), nrow = 100, ncol = 5)
out = eigen(S, symmetric = TRUE)
S.sqrt = out$vectors %*% diag(out$values^0.5)
S.sqrt = S.sqrt %*% t(out$vectors)
X = Z %*% S.sqrt

# lasso penalty CV
CVglasso(X)

CVglasso documentation built on May 2, 2019, 4:01 a.m.

Related to CVglasso in CVglasso...