StatisBiplot {MultBiplotR}R Documentation

STATIS-ACT for multiple tables with common rows and its associated Biplot

Description

The procedure performs STATIS-ACT methodology for multiple tables with common rows and its associated biplot

Usage

StatisBiplot(X, InitTransform = "Standardize columns", dimens = 2,
                 SameVar = FALSE)

Arguments

X

A list containing multiple tables with common rows.

InitTransform

Initial transformation of the data matrices

dimens

Dimension of the final solution

SameVar

Are the variables the same for all occasions? If so, Biplot trajectories for each variable will be calculated.

Details

The procedure performs STATIS-ACT methodology for multiple tables with common rows and its associated biplot. When the variables are the same for all occasions trajectories for the variables can also be plotted. Basic plotting includes the consensus individuals and all the variables. Traditional trajectories for individuals and biplot trajectories for variables (when adequate) are optional. The original matrix will be provided as a list each cell of the list is the data matrix for one ocassion the number of rows for each occasion must be the same

Value

An object of class StatisBiplot

Author(s)

Jose Luis Vicente Villardon

References

Abdi, H., Williams, L.J., Valentin, D., & Bennani-Dosse, M. (2012). STATIS and DISTATIS: optimum multitable principal component analysis and three way metric multidimensional scaling. WIREs Comput Stat, 4, 124-167.

Efron, B.,Tibshirani, RJ. (1993). An introduction to the bootstrap. New York: Chapman and Hall. 436p.

Escoufier, Y. (1976). Operateur associe a un tableau de donnees. Annales de laInsee, 22-23, 165-178.

Escoufier, Y. (1987). The duality diagram: a means for better practical applications. En P. Legendre & L. Legendre (Eds.), Developments in Numerical Ecology, pp. 139-156, NATO Advanced Institute, Serie G. Berlin: Springer.

L'Hermier des Plantes, H. (1976). Structuration des Tableaux a Trois Indices de la Statistique. [These de Troisieme Cycle]. University of Montpellier, France.

Ringrose, T.J. (1992). Bootstrapping and Correspondence Analysis in Archaeology. Journal of Archaeological. Science.19:615-629.

Examples

data(Chemical)
# Extract continous data from the original data frame.
x= Chemical[,5:16]
# Obtaining the three way table as a list
X=Convert2ThreeWay(x,Chemical$WEEKS, columns=FALSE)
# Calculating the Biplot associated to STATIS-ACT
stbip=StatisBiplot(X, SameVar=TRUE)
# Basic plot of the results
plot(stbip)
# Colors By Table
plot(stbip, VarColorType="ByTable")
# Colors By Variable
plot(stbip, VarColorType="ByVar", mode="s",  MinQualityVars = 0.5)

plot(stbip, PlotRowTraj = TRUE, PlotVars=FALSE, RowColors=1:36)

[Package MultBiplotR version 23.11.0 Index]