| distcor {dcortools} | R Documentation |
Calculates the distance correlation (Szekely et al. 2007; Szekely and Rizzo 2009).
Description
Calculates the distance correlation (Szekely et al. 2007; Szekely and Rizzo 2009).
Usage
distcor(
X,
Y,
affine = FALSE,
standardize = FALSE,
bias.corr = FALSE,
type.X = "sample",
type.Y = "sample",
metr.X = "euclidean",
metr.Y = "euclidean",
use = "all",
algorithm = "auto"
)
Arguments
X |
contains either the first sample or its corresponding distance matrix. In the first case, X can be provided either as a vector (if one-dimensional), a matrix or a data.frame (if two-dimensional or higher). In the second case, the input must be a distance matrix corresponding to the sample of interest. If X is a sample, type.X must be specified as "sample". If X is a distance matrix, type.X must be specified as "distance". |
Y |
see X. |
affine |
logical; specifies if the affinely invariant distance correlation (Dueck et al. 2014) should be calculated or not. |
standardize |
logical; specifies if X and Y should be standardized dividing each component by its standard deviations. No effect when affine = TRUE. |
bias.corr |
logical; specifies if the bias corrected version of the sample distance correlation (Huo and Szekely 2016) should be calculated. |
type.X |
For "distance", X is interpreted as a distance matrix. For "sample", X is interpreted as a sample. |
type.Y |
see type.X. |
metr.X |
specifies the metric which should be used to compute the distance matrix for X (ignored when type.X = "distance"). Options are "euclidean", "discrete", "alpha", "minkowski", "gaussian", "gaussauto", "boundsq" or user-specified metrics (see examples). For "alpha", "minkowski", "gaussian", "gaussauto" and "boundsq", the corresponding parameters are specified via "c(metric, parameter)", e.g. c("gaussian", 3) for a Gaussian metric with bandwidth parameter 3; the default parameter is 2 for "minkowski" and "1" for all other metrics. See Lyons (2013); Sejdinovic et al. (2013); Bottcher et al. (2018) for details. |
metr.Y |
see metr.X. |
use |
specifies how to treat missing values. "complete.obs" excludes observations containing NAs, "all" uses all observations. |
algorithm |
specifies the algorithm used for calculating the distance correlation. "fast" uses an O(n log n) algorithm if the observations are one-dimensional and metr.X and metr.Y are either "euclidean" or "discrete", see also Huo and Szekely (2016). "memsave" uses a memory saving version of the standard algorithm with computational complexity O(n^2) but requiring only O(n) memory. "standard" uses the classical algorithm. User-specified metrics always use the classical algorithm. "auto" chooses the best algorithm for the specific setting using a rule of thumb. |
Value
numeric; the distance correlation between samples X and Y.
References
Bottcher B, Keller-Ressel M, Schilling RL (2018). “Detecting independence of random vectors: generalized distance covariance and Gaussian covariance.” Modern Stochastics: Theory and Applications, 3, 353–383.
Dueck J, Edelmann D, Gneiting T, Richards D (2014). “The affinely invariant distance correlation.” Bernoulli, 20, 2305–2330.
Huo X, Szekely GJ (2016). “Fast computing for distance covariance.” Technometrics, 58(4), 435–447.
Lyons R (2013). “Distance covariance in metric spaces.” The Annals of Probability, 41, 3284–3305.
Sejdinovic D, Sriperumbudur B, Gretton A, Fukumizu K (2013). “Equivalence of distance-based and RKHS-based statistics in hypothesis testing.” The Annals of Statistics, 41, 2263–2291.
Szekely GJ, Rizzo ML, Bakirov NK (2007). “Measuring and testing dependence by correlation of distances.” The Annals of Statistics, 35, 2769–2794.
Szekely GJ, Rizzo ML (2009). “Brownian distance covariance.” The Annals of Applied Statistics, 3, 1236–1265.
Examples
X <- rnorm(200)
Y <- rnorm(200)
Z <- X + rnorm(200)
dim(X) <- dim(Y) <- dim(Z) <- c(20, 10)
#Demonstration that biased-corrected distance correlation is
#often more meaningful than without using bias-correction
distcor(X, Y)
distcor(X, Z)
distcor(X, Y, bias.corr = TRUE)
distcor(X, Z, bias.corr = TRUE)
#For more examples of the different options,
#see the documentation of distcov.