pairwiseOrdinalPairedTest: Pairwise two-sample ordinal regression for paired or blocked data

Description

Performs pairwise two-sample ordinal regression across groups for paired or blocked data.

Usage

pairwiseOrdinalPairedTest(formula = NULL, data = NULL, x = NULL,
  g = NULL, b = NULL, method = "fdr", ...)

Arguments

formula

A formula indicating the measurement variable and the grouping variable. e.g. y ~ group | block.

data

The data frame to use.

The response variable as a vector.

The grouping variable as a vector.

The blocking variable as a vector.

method

The p-value adjustment method to use for multiple tests. See p.adjust.

...

Additional arguments passed to clmm.

Value

A dataframe of the groups being compared, the p-values, and the adjusted p-values.

Details

The input should include either formula and data; or x, g, and b.

Ordinal regression is analogous to general linear regression or generalized linear regression for cases where the dependent variable is an ordinal variable. The ordinal package provides a flexible and powerful implementation of ordinal regression.

The pairwiseOrdinalPairedTest function can be used as a post-hoc method following an omnibus ordinal regession whose form is analogous to a one-way analysis of variance with random blocks.

The blocking variable is treated as a random variable.

The x variable must be an ordered factor.

References

http://rcompanion.org/handbook/G_08.html

Examples

Run this code

# NOT RUN {
data(BobBelcher)
BobBelcher$Likert.f = factor(BobBelcher$Likert, ordered = TRUE)
BobBelcher$Instructor = factor( BobBelcher$Instructor, 
                  levels = c("Linda Belcher", "Louise Belcher",
                             "Tina Belcher", "Bob Belcher",
                             "Gene Belcher"))
PT = pairwiseOrdinalPairedTest(Likert.f ~ Instructor | Rater,
                               data      = BobBelcher,
                               threshold = "equidistant",
                               method    = "fdr")
PT
cldList(comparison = PT$Comparison,
        p.value    = PT$p.adjust,
        threshold  = 0.05)
        
# }

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