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Tidycomm provides the test_icr()
function to
conveniently compute intercoder reliability tests for several variables
and reliability estimates at the same time.
Test data has to be structured in a long format, with one column indicating the unit (e.g., article 1, article 2, etc.), one column indicating the coder (either by a string or a numeric ID), and one column each per coded variable to test.
For demonstration purposes, we will use the fbposts
data
included in Tidycomm that consists of 45 political Facebook posts
(identified by post_id
) coded by six coders (identified by
coder_id
) for various formal (post type, number of pictures
used in post) and populism-related (attacks on elites, references to
‘the people’, othering) features:
fbposts
#> # A tibble: 270 × 7
#> post_id coder_id type n_pictures pop_elite pop_people pop_othering
#> <int> <int> <chr> <int> <int> <int> <int>
#> 1 1 1 photo 1 0 0 0
#> 2 1 2 photo 1 0 0 0
#> 3 1 3 photo 1 0 0 0
#> 4 1 4 photo 1 0 0 0
#> 5 1 5 photo 1 0 0 0
#> 6 1 6 photo 1 0 0 0
#> 7 2 1 photo 1 0 0 0
#> 8 2 2 photo 1 0 0 0
#> 9 2 3 photo 1 0 0 0
#> 10 2 4 photo 1 0 0 0
#> # ℹ 260 more rows
test_icr()
computes various intercoder reliability
estimates for all specified variables. The first two arguments (in a
pipe) are the unit-identifying variable and the coder-identifying
variable, followed by the test variables:
fbposts %>%
test_icr(post_id, coder_id, pop_elite, pop_people, pop_othering)
#> # A tibble: 3 × 8
#> Variable n_Units n_Coders n_Categories Level Agreement Holstis_CR
#> * <chr> <int> <int> <int> <chr> <dbl> <dbl>
#> 1 pop_elite 45 6 6 nominal 0.733 0.861
#> 2 pop_people 45 6 2 nominal 0.778 0.916
#> 3 pop_othering 45 6 4 nominal 0.867 0.945
#> # ℹ 1 more variable: Krippendorffs_Alpha <dbl>
If no test variables are specified, all variables in the dataset (excluding the unit and coder variables) will be tested:
fbposts %>%
test_icr(post_id, coder_id)
#> # A tibble: 5 × 8
#> Variable n_Units n_Coders n_Categories Level Agreement Holstis_CR
#> * <chr> <int> <int> <int> <chr> <dbl> <dbl>
#> 1 type 45 6 4 nominal 1 1
#> 2 n_pictures 45 6 7 nominal 0.822 0.930
#> 3 pop_elite 45 6 6 nominal 0.733 0.861
#> 4 pop_people 45 6 2 nominal 0.778 0.916
#> 5 pop_othering 45 6 4 nominal 0.867 0.945
#> # ℹ 1 more variable: Krippendorffs_Alpha <dbl>
Currently, test_icr()
supports the following reliability
estimates:
agreement
: Simple percent agreement.holsti
: Holsti’s \(CR\) (mean pairwise percent
agreement).kripp_alpha
: Krippendorff’s \(\alpha\).cohens_kappa
: Cohen’s \(\kappa\) (only available for two
coders).fleiss_kappa
: Fleiss’ \(\kappa\).brennan_prediger
: Brennan & Prediger’s \(\kappa\) (for more than two coders, von Eye’s (2006)
proposed extension to multiple coders is computed).By default, test_icr()
will output simple percent
agreement, Holsti’s \(CR\), and
Krippendorff’s \(\alpha\) as
reliability estimates. You can add other estimates by setting their name
to TRUE
in the function call (and remove the default ones
by setting them to FALSE
):
fbposts %>%
test_icr(post_id, coder_id, fleiss_kappa = TRUE, agreement = FALSE)
#> # A tibble: 5 × 8
#> Variable n_Units n_Coders n_Categories Level Holstis_CR Krippendorffs_Alpha
#> * <chr> <int> <int> <int> <chr> <dbl> <dbl>
#> 1 type 45 6 4 nomi… 1 1
#> 2 n_pictures 45 6 7 nomi… 0.930 0.880
#> 3 pop_elite 45 6 6 nomi… 0.861 0.339
#> 4 pop_people 45 6 2 nomi… 0.916 0.287
#> 5 pop_otheri… 45 6 4 nomi… 0.945 0.566
#> # ℹ 1 more variable: Fleiss_Kappa <dbl>
By default, test_icr()
assumes all test variables to be
nominal. You can set other variable levels by passing a named vector of
the form c(variable_name = "variable_level")
to the
levels
argument.
fbposts %>%
test_icr(post_id, coder_id, levels = c(n_pictures = "ordinal"))
#> # A tibble: 5 × 8
#> Variable n_Units n_Coders n_Categories Level Agreement Holstis_CR
#> * <chr> <int> <int> <int> <chr> <dbl> <dbl>
#> 1 type 45 6 4 nominal 1 1
#> 2 n_pictures 45 6 7 ordinal 0.822 0.930
#> 3 pop_elite 45 6 6 nominal 0.733 0.861
#> 4 pop_people 45 6 2 nominal 0.778 0.916
#> 5 pop_othering 45 6 4 nominal 0.867 0.945
#> # ℹ 1 more variable: Krippendorffs_Alpha <dbl>
Nominal test variables can be represented by either integer codes or string labels, whereas ordinal variables must be represented by integer codes, and interval/ratio variables must be numeric (integer or float).
Please note that currently only the computation of Krippendorff’s \(\alpha\) is influenced by the variable level.
Missing values in intercoder reliability tests can be ambiguous (did the coder forget to code this variable for this unit, or does the missing value indicate that none of the categories was deemed fitting?) and present an obstacle to several reliability estimates (of the currently implemented estimates, only Krippendorff’s \(\alpha\) can deal with missing values).
Thus, test_icr()
will by default respond with a warning
when NA
values are present in the test variables and output
NA
for all reliability estimates but Krippendorff’s \(\alpha\):
# Introduce some missing values
fbposts$type[1] <- NA
fbposts$type[2] <- NA
fbposts$pop_elite[5] <- NA
fbposts %>%
test_icr(post_id, coder_id)
#> Warning: Variable 'type' contains missing values. Consider setting na.omit =
#> TRUE or recoding missing values
#> Warning: Variable 'pop_elite' contains missing values. Consider setting na.omit
#> = TRUE or recoding missing values
#> # A tibble: 5 × 8
#> Variable n_Units n_Coders n_Categories Level Agreement Holstis_CR
#> * <chr> <int> <int> <int> <chr> <dbl> <dbl>
#> 1 type 45 6 4 nominal NA NA
#> 2 n_pictures 45 6 7 nominal 0.822 0.930
#> 3 pop_elite 45 6 6 nominal NA NA
#> 4 pop_people 45 6 2 nominal 0.778 0.916
#> 5 pop_othering 45 6 4 nominal 0.867 0.945
#> # ℹ 1 more variable: Krippendorffs_Alpha <dbl>
You can set na.omit = TRUE
to exclude all units with
NA
values for a specific test variable from the computation
for this variable:
fbposts %>%
test_icr(post_id, coder_id, na.omit = TRUE)
#> # A tibble: 5 × 8
#> Variable n_Units n_Coders n_Categories Level Agreement Holstis_CR
#> * <chr> <int> <int> <int> <chr> <dbl> <dbl>
#> 1 type 44 6 4 nominal 1 1
#> 2 n_pictures 45 6 7 nominal 0.822 0.930
#> 3 pop_elite 44 6 6 nominal 0.727 0.858
#> 4 pop_people 45 6 2 nominal 0.778 0.916
#> 5 pop_othering 45 6 4 nominal 0.867 0.945
#> # ℹ 1 more variable: Krippendorffs_Alpha <dbl>
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They may not be fully stable and should be used with caution. We make no claims about them.
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