dmixt | R Documentation |
Fast density computation for mixture of multivariate Student's t distributions.
dmixt(X, mu, sigma, df, w, log = FALSE, ncores = 1, isChol = FALSE, A = NULL)
X |
matrix n by d where each row is a d dimensional random vector. Alternatively |
mu |
an (m x d) matrix, where m is the number of mixture components. |
sigma |
as list of m covariance matrices (d x d) on for each mixture component.
Alternatively it can be a list of m cholesky decomposition of the covariance.
In that case |
df |
a positive scalar representing the degrees of freedom. All the densities in the mixture have the same |
w |
vector of length m, containing the weights of the mixture components. |
log |
boolean set to true the logarithm of the pdf is required. |
ncores |
Number of cores used. The parallelization will take place only if OpenMP is supported. |
isChol |
boolean set to true is |
A |
an (optional) numeric matrix of dimension (m x d), which will be used to store the evaluations of each mixture
density over each mixture component. It is useful when m and n are large and one wants to call |
There are many candidates for the multivariate generalization of Student's t-distribution, here we use
the parametrization described here https://en.wikipedia.org/wiki/Multivariate_t-distribution. NB: at the moment
the parallelization does not work properly on Solaris OS when ncores>1
. Hence, dmixt()
checks if the OS
is Solaris and, if this the case, it imposes ncores==1
.
A vector of length n where the i-the entry contains the pdf of the i-th random vector (i.e. the i-th row of X
).
Matteo Fasiolo <matteo.fasiolo@gmail.com>.
#### 1) Example use # Set up mixture density df <- 6 mu <- matrix(c(1, 2, 10, 20), 2, 2, byrow = TRUE) sigma <- list(diag(c(1, 10)), matrix(c(1, -0.9, -0.9, 1), 2, 2)) w <- c(0.1, 0.9) # Simulate X <- rmixt(1e4, mu, sigma, df, w) # Evaluate density ds <- dmixt(X, mu, sigma, w = w, df = df) head(ds) ##### 2) More complicated example # Define mixture set.seed(5135) N <- 10000 d <- 2 df = 10 w <- rep(1, 2) / 2 mu <- matrix(c(0, 0, 2, 3), 2, 2, byrow = TRUE) sigma <- list(matrix(c(1, 0, 0, 2), 2, 2), matrix(c(1, -0.9, -0.9, 1), 2, 2)) # Simulate random variables X <- rmixt(N, mu, sigma, w = w, df = df, retInd = TRUE) # Plot mixture density np <- 100 xvals <- seq(min(X[ , 1]), max(X[ , 1]), length.out = np) yvals <- seq(min(X[ , 2]), max(X[ , 2]), length.out = np) theGrid <- expand.grid(xvals, yvals) theGrid <- as.matrix(theGrid) dens <- dmixt(theGrid, mu, sigma, w = w, df = df) plot(X, pch = '.', col = attr(X, "index")+1) contour(x = xvals, y = yvals, z = matrix(dens, np, np), levels = c(0.002, 0.01, 0.02, 0.04, 0.08, 0.15 ), add = TRUE, lwd = 2)
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