R/Inv_sinh_CI_ratio_2x2.R
In ocbe-uio/contingencytables: Statistical Analysis of Contingency Tables
Defines functions
Inv_sinh_CI_ratio_2x2
Documented in
Inv_sinh_CI_ratio_2x2
#' @title The inverse hyperbolic sine confidence interval for the ratio of probabilities
#' @description The inverse hyperbolic sine confidence interval for the ratio of probabilities
#' @description Described in Chapter 4 "The 2x2 Table"
#' @param n the observed counts (a 2x2 matrix)
#' @param alpha the nominal level, e.g. 0.05 for 95% CIs
#' @examples
#' Inv_sinh_CI_ratio_2x2(perondi_2004)
#' Inv_sinh_CI_ratio_2x2(ritland_2007)
#' @export
#' @return An object of the [contingencytables_result] class,
#' basically a subclass of [base::list()]. Use the [utils::str()] function
#' to see the specific elements returned.
Inv_sinh_CI_ratio_2x2 <- function(n, alpha = 0.05) {
validateArguments(mget(ls()))
n1p <- n[1, 1] + n[1, 2]
n2p <- n[2, 1] + n[2, 2]
# Estimates of the two probabilities of success
pi1hat <- n[1, 1] / n1p
pi2hat <- n[2, 1] / n2p
# Estimate of the ratio of probabilities (phihat)
estimate <- pi1hat / pi2hat
# The upper alpha / 2 percentile of the standard normal distribution
z <- qnorm(1 - alpha / 2, 0, 1)
# Calculate the confidence limits
tmp <- asinh(0.5 * z * sqrt(1 / n[1, 1] + 1 / n[2, 1] - 1 / n1p - 1 / n2p))
L <- exp(log(estimate) - 2 * tmp)
U <- exp(log(estimate) + 2 * tmp)
# Fix zero cell cases
if (n[1, 1] == 0) {
U <- ((z^2) / n1p) / (n[2, 1] / n2p)
}
if (n[2, 1] == 0) {
L <- (n[1, 1] / n1p) / ((z^2) / n2p)
}
return(
contingencytables_result(
list("lower" = L, "upper" = U, "estimate" = estimate),
sprintf(
"The inverse sinh CI: estimate = %6.4f (%g%% CI %6.4f to %6.4f)",
estimate, 100 * (1 - alpha), L, U
)
)
)
}
ocbe-uio/contingencytables documentation built on March 19, 2024, 4:30 a.m.
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Defines functions Inv_sinh_CI_ratio_2x2
Documented in Inv_sinh_CI_ratio_2x2
#' @title The inverse hyperbolic sine confidence interval for the ratio of probabilities
#' @description The inverse hyperbolic sine confidence interval for the ratio of probabilities
#' @description Described in Chapter 4 "The 2x2 Table"
#' @param n the observed counts (a 2x2 matrix)
#' @param alpha the nominal level, e.g. 0.05 for 95% CIs
#' @examples
#' Inv_sinh_CI_ratio_2x2(perondi_2004)
#' Inv_sinh_CI_ratio_2x2(ritland_2007)
#' @export
#' @return An object of the [contingencytables_result] class,
#' basically a subclass of [base::list()]. Use the [utils::str()] function
#' to see the specific elements returned.
Inv_sinh_CI_ratio_2x2 <- function(n, alpha = 0.05) {
validateArguments(mget(ls()))
n1p <- n[1, 1] + n[1, 2]
n2p <- n[2, 1] + n[2, 2]
# Estimates of the two probabilities of success
pi1hat <- n[1, 1] / n1p
pi2hat <- n[2, 1] / n2p
# Estimate of the ratio of probabilities (phihat)
estimate <- pi1hat / pi2hat
# The upper alpha / 2 percentile of the standard normal distribution
z <- qnorm(1 - alpha / 2, 0, 1)
# Calculate the confidence limits
tmp <- asinh(0.5 * z * sqrt(1 / n[1, 1] + 1 / n[2, 1] - 1 / n1p - 1 / n2p))
L <- exp(log(estimate) - 2 * tmp)
U <- exp(log(estimate) + 2 * tmp)
# Fix zero cell cases
if (n[1, 1] == 0) {
U <- ((z^2) / n1p) / (n[2, 1] / n2p)
}
if (n[2, 1] == 0) {
L <- (n[1, 1] / n1p) / ((z^2) / n2p)
}
return(
contingencytables_result(
list("lower" = L, "upper" = U, "estimate" = estimate),
sprintf(
"The inverse sinh CI: estimate = %6.4f (%g%% CI %6.4f to %6.4f)",
estimate, 100 * (1 - alpha), L, U
)
)
)
}
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