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NSM3 (version 1.18)

cWNMT: Computes a critical value for the Wilcoxon, Nemenyi, McDonald-Thompson R distribution.

Description

This function computes the critical value for the Wilcoxon, Nemenyi, McDonald-Thompson R distribution at (or typically in the "Exact" and "Monte Carlo" cases, close to) the given alpha level.

Usage

cWNMT(alpha, k, n, method=NA, n.mc=10000)

Value

Returns a list with "NSM3Ch7c" class containing the following components:

k

number of treatments

n

number of blocks

cutoff.U

upper tail cutoff at or below user-specified alpha

true.alpha.U

true alpha level corresponding to cutoff.U (if method="Exact" or "Monte Carlo")

Arguments

alpha

A numeric value between 0 and 1.

k

A numeric value indicating the number of treatments.

n

A numeric value indicating the number of blocks.

method

Either "Exact", "Monte Carlo" or "Asymptotic", indicating the desired distribution. When method=NA, "Exact" will be used if the number of permutations is 10,000 or less. Otherwise, "Monte Carlo" will be used.

n.mc

If method="Monte Carlo", the number of Monte Carlo samples used to estimate the distribution. Otherwise, not used.

Author

Grant Schneider

Examples

Run this code
##Hollander-Wolfe-Chicken Example 7.3 Rounding First Base
#cWNMT(.047, 3, 15)
cWNMT(.047, 3, 15,n.mc=5000)

##Chapter 7 Comment 26
#cWNMT(.083, 4, 2)
cWNMT(.083, 4, 2,n.mc=5000)

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