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R/Mod4.cv.R
In PSIndependenceTest: Independence Tests for Two-Way, Three-Way and Four-Way Contingency Tables
Defines functions
Mod4.cv
Documented in
Mod4.cv
#' @title Modular test for independence in four-way contingency table
#'
#' @description
#' Calculates the critical value of the modular test for independence in four-way contingency table
#'
#' @param nr a number of rows
#' @param nc a number of columns
#' @param nt a number of tubes
#' @param nu a number of tubes
#' @param n a sample size
#' @param alfa a significance level
#' @param B an integer specifying the number of replicates used in the Monte Carlo test (optional)
#' @return The function returns the critical value of the modular test.
#' @rdname Mod4.cv
#'
#' @details
#' The Critical value of the Logarithmic minimum test for independence in r x c x t contingency table,
#'
#' @author
#' Piotr Sulewski, \email{piotr.sulewski@apsl.edu.pl}, Pomeranian University in Slupsk.
#'
#' @references
#' Extension of the information contained in {Sulewski, P. (2018). \emph{Power Analysis Of Independence Testing for the Three-Way Con-tingency Tables of Small Sizes.} Journal of Applied Statistics 45(13), 2481-2498}
#'
#' @examples
#'
#' Mod4.cv(2, 2, 2, 2, 160, 0.05, B = 1e2)
#' \donttest{Mod4.cv(2, 2, 2, 2, 160, 0.1, B = 1e3)}
#'
#' @export
Mod4.cv <- function(nr, nc, nt, nu, n, alfa, B = 1e4) {
Q <- numeric(B)
pijt <- array(1 / (nr * nc * nt * nu), dim = c(nr, nc, nt, nu))
for (u in 1:B){
nijtu <- GenTab4(pijt, n)
Q[u] <- Mod4.stat(nijtu)
}
Q <- sort(Q)
return(Q[(1 - alfa) * B])
}
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PSIndependenceTest documentation built on Sept. 15, 2023, 1:08 a.m.
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Defines functions Mod4.cv
Documented in Mod4.cv
#' @title Modular test for independence in four-way contingency table
#'
#' @description
#' Calculates the critical value of the modular test for independence in four-way contingency table
#'
#' @param nr a number of rows
#' @param nc a number of columns
#' @param nt a number of tubes
#' @param nu a number of tubes
#' @param n a sample size
#' @param alfa a significance level
#' @param B an integer specifying the number of replicates used in the Monte Carlo test (optional)
#' @return The function returns the critical value of the modular test.
#' @rdname Mod4.cv
#'
#' @details
#' The Critical value of the Logarithmic minimum test for independence in r x c x t contingency table,
#'
#' @author
#' Piotr Sulewski, \email{piotr.sulewski@apsl.edu.pl}, Pomeranian University in Slupsk.
#'
#' @references
#' Extension of the information contained in {Sulewski, P. (2018). \emph{Power Analysis Of Independence Testing for the Three-Way Con-tingency Tables of Small Sizes.} Journal of Applied Statistics 45(13), 2481-2498}
#'
#' @examples
#'
#' Mod4.cv(2, 2, 2, 2, 160, 0.05, B = 1e2)
#' \donttest{Mod4.cv(2, 2, 2, 2, 160, 0.1, B = 1e3)}
#'
#' @export
Mod4.cv <- function(nr, nc, nt, nu, n, alfa, B = 1e4) {
Q <- numeric(B)
pijt <- array(1 / (nr * nc * nt * nu), dim = c(nr, nc, nt, nu))
for (u in 1:B){
nijtu <- GenTab4(pijt, n)
Q[u] <- Mod4.stat(nijtu)
}
Q <- sort(Q)
return(Q[(1 - alfa) * B])
}
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We want your feedback!
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