#' Robust Estimation for Compositional Data.
#'
#' The package contains methods for imputation of compositional data including
#' robust methods, (robust) outlier detection for compositional data, (robust)
#' principal component analysis for compositional data, (robust) factor
#' analysis for compositional data, (robust) discriminant analysis (Fisher
#' rule) and (robust) Anderson-Darling normality tests for compositional data
#' as well as popular log-ratio transformations (alr, clr, ilr, and their
#' inverse transformations).
#'
#'
#' @name robCompositions-package
#' @aliases robCompositions-package robCompositions
#' @docType package
#' @author Matthias Templ, Peter Filzmoser, Karel Hron,
#'
#' Maintainer: Matthias Templ <templ@@tuwien.ac.at>
#' @references Aitchison, J. (1986) \emph{The Statistical Analysis of
#' Compositional Data} Monographs on Statistics and Applied Probability.
#' Chapman and Hall Ltd., London (UK). 416p.
#'
#' Filzmoser, P., and Hron, K. (2008) Outlier detection for compositional data
#' using robust methods. \emph{Math. Geosciences}, \bold{40} 233-248.
#'
#' Filzmoser, P., Hron, K., Reimann, C. (2009) Principal Component Analysis for
#' Compositional Data with Outliers. \emph{Environmetrics}, \bold{20} (6),
#' 621--632.
#'
#' P. Filzmoser, K. Hron, C. Reimann, R. Garrett (2009): Robust Factor Analysis
#' for Compositional Data. \emph{Computers and Geosciences}, \bold{35} (9),
#' 1854--1861.
#'
#' Hron, K. and Templ, M. and Filzmoser, P. (2010) Imputation of missing values
#' for compositional data using classical and robust methods
#' \emph{Computational Statistics and Data Analysis}, \bold{54} (12),
#' 3095--3107.
#'
#' C. Reimann, P. Filzmoser, R.G. Garrett, and R. Dutter (2008): Statistical
#' Data Analysis Explained. \emph{Applied Environmental Statistics with R}.
#' John Wiley and Sons, Chichester, 2008.
#' @keywords package
#' @examples
#'
#' ## k nearest neighbor imputation
#' data(expenditures)
#' expenditures[1,3]
#' expenditures[1,3] <- NA
#' impKNNa(expenditures)$xImp[1,3]
#'
#' ## iterative model based imputation
#' data(expenditures)
#' x <- expenditures
#' x[1,3]
#' x[1,3] <- NA
#' xi <- impCoda(x)$xImp
#' xi[1,3]
#' s1 <- sum(x[1,-3])
#' impS <- sum(xi[1,-3])
#' xi[,3] * s1/impS
#'
#' xi <- impKNNa(expenditures)
#' xi
#' summary(xi)
#' \dontrun{plot(xi, which=1)}
#' plot(xi, which=2)
#' plot(xi, which=3)
#'
#' ## pca
#' data(expenditures)
#' p1 <- pcaCoDa(expenditures)
#' p1
#' plot(p1)
#'
#' ## outlier detection
#' data(expenditures)
#' oD <- outCoDa(expenditures)
#' oD
#' plot(oD)
#'
#' ## transformations
#' data(arcticLake)
#' x <- arcticLake
#' x.alr <- addLR(x, 2)
#' y <- addLRinv(x.alr)
#' addLRinv(addLR(x, 3))
#' data(expenditures)
#' x <- expenditures
#' y <- addLRinv(addLR(x, 5))
#' head(x)
#' head(y)
#' addLRinv(x.alr, ivar=2, useClassInfo=FALSE)
#'
#' data(expenditures)
#' eclr <- cenLR(expenditures)
#' inveclr <- cenLRinv(eclr)
#' head(expenditures)
#' head(inveclr)
#' head(cenLRinv(eclr$x.clr))
#'
#' require(MASS)
#' Sigma <- matrix(c(5.05,4.95,4.95,5.05), ncol=2, byrow=TRUE)
#' z <- pivotCoordInv(mvrnorm(100, mu=c(0,2), Sigma=Sigma))
#'
NULL
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