blockBAGR {baygel}R Documentation

Bayesian adaptive graphical ridge block Gibbs sampler for Gaussian graphical models.

Description

Implements a Bayesian adaptive graphical ridge block Gibbs sampler to simulate the posterior distribution of the precision matrix for Gaussian graphical models.

Usage

blockBAGR(X, burnin, iterations, verbose = TRUE, a = 1, b = 0.01)

Arguments

X

A numeric matrix, assumed to be generated from a multivariate Gaussian distribution.

burnin

An integer specifying the number of burn-in iterations.

iterations

An integer specifying the length of the Markov chain after the burn-in iterations.

verbose

A logical determining whether the progress of the MCMC sampler should be displayed.

a

A double specifying the value of the shape parameter for the inverse gamma prior.

b

A double specifying the value of the scale parameter for the inverse gamma prior.

Value

A list containing precision 'Omega' and covariance 'Sigma' matrices from the Markov chains.

Examples

# Generate true precision matrix:
p             <- 10
n             <- 500
OmegaTrue    <- pracma::Toeplitz(c(0.7^rep(1:p-1)))
SigTrue      <- pracma::inv(OmegaTrue)
# Generate expected value vector:
mu            <- rep(0,p)
# Generate multivariate normal distribution:
set.seed(123)
X             <- MASS::mvrnorm(n, mu = mu, Sigma = SigTrue)
# Generate posterior distribution:
posterior     <- blockBAGR(X, iterations = 1000, burnin = 500)
# Estimated precision matrix using the mean of the posterior:
OmegaEst      <- apply(simplify2array(posterior$Omega), 1:2, mean)

[Package baygel version 0.3.0 Index]