#'Binary tree algorithm for cytometry data analysis.
#'
#'The algorithm is based on the construction of a binary tree,
#'the nodes of which are subpopulations of cells. At each node,
#'observed cells and markers are modeled by both a family of normal
#'distributions and a family of bi-modal normal mixture distributions.
#'Splitting is done according to a normalized difference of AIC between
#'the two families.
#'Given the unsupervised nature of the binary tree, some of the available
#'markers may not be used to find the different cell populations present in
#'a given sample. To recover a complete annotation, we defined, as a post
#'processing procedure, an annotation method which allows the user to
#'distinguish two or three expression levels per marker.
#'
#'\tabular{ll}{
#'Package: \tab cytometree\cr
#'Type: \tab Package\cr
#'Version: \tab 1.3.0\cr
#'Date: \tab 2019-01-12\cr
#'License:\tab \href{http://www.gnu.org/licenses/lgpl.txt}{LGPL-3}\cr
#'}
#'The main function in this package is \code{\link{CytomeTree}}.
#'
#'@author Chariff Alkhassim, Boris Hejblum, Anthony Devaux, Van Hung Huynh Tran
#'--- Maintainer: Chariff Alkhassim
#'
#'@references Commenges D, Alkhassim C, Gottardo R, Hejblum BP, Thiebaut R (2018).
#'cytometree: a binary tree algorithm for automatic gating in cytometry analysis.
#'Cytometry Part A, 93(11):1132-1140.
#'
#'@docType package
#'@name cytometree-package
#'@aliases cytometree
#'
#'@useDynLib cytometree, .registration = TRUE
#'@importFrom Rcpp evalCpp
#'
NULL
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