HLM_ICC_rWG: Tidy report of HLM indices: ICC(1), ICC(2), and rWG/rWG(J).
In bruceR: Broadly Useful Convenient and Efficient R Functions
View source: R/bruceR-stats_4_regress.R
HLM_ICC_rWG R Documentation
Tidy report of HLM indices: ICC(1), ICC(2), and rWG/rWG(J).
Description
Compute ICC(1) (non-independence of data),
ICC(2) (reliability of group means),
and r_{WG}/r_{WG(J)} (within-group agreement for single-item/multi-item measures)
in multilevel analysis (HLM).
Usage
HLM_ICC_rWG(
data,
group,
icc.var,
rwg.vars = icc.var,
rwg.levels = 0,
digits = 3
)
Arguments
data
Data frame.
group
Grouping variable.
icc.var
Key variable for analysis (usually the dependent variable).
rwg.vars
Defaults to icc.var. It can be:
A single variable (single-item measure), then computing rWG.
Multiple variables (multi-item measure), then computing rWG(J), where J = the number of items.
rwg.levels
As r_{WG}/r_{WG(J)} compares the actual group variance to the expected random variance (i.e., the variance of uniform distribution, \sigma_{EU}^2),
it is required to specify which type of uniform distribution is.
For continuous uniform distribution, \sigma_{EU}^2 = (max - min)^2 / 12.
Then rwg.levels is not useful and will be set to 0 (the default).
For discrete uniform distribution, \sigma_{EU}^2 = (A^2 - 1) / 12,
where A is the number of response options (levels).
Then rwg.levels should be provided (= A in the above formula).
For example, if the measure is a 5-point Likert scale, you should set rwg.levels=5.
digits
Number of decimal places of output. Defaults to 3.
Details
- ICC(1) (intra-class correlation, or non-independence of data)
-
ICC(1) = var.u0 / (var.u0 + var.e) = \sigma_{u0}^2 / (\sigma_{u0}^2 + \sigma_{e}^2)
ICC(1) is the ICC we often compute and report in multilevel analysis
(usually in the Null Model, where only the random intercept of group is included).
It can be interpreted as either "the proportion of variance explained by groups" (i.e., heterogeneity between groups)
or "the expectation of correlation coefficient between any two observations within any group" (i.e., homogeneity within groups).
- ICC(2) (reliability of group means)
-
ICC(2) = mean(var.u0 / (var.u0 + var.e / n.k)) = \Sigma[\sigma_{u0}^2 / (\sigma_{u0}^2 + \sigma_{e}^2 / n_k)] / K
ICC(2) is a measure of "the representativeness of group-level aggregated means for within-group individual values"
or "the degree to which an individual score can be considered a reliable assessment of a group-level construct".
r_{WG}/r_{WG(J)} (within-group agreement for single-item/multi-item measures)-
r_{WG} = 1 - \sigma^2 / \sigma_{EU}^2
r_{WG(J)} = 1 - (\sigma_{MJ}^2 / \sigma_{EU}^2) / [J * (1 - \sigma_{MJ}^2 / \sigma_{EU}^2) + \sigma_{MJ}^2 / \sigma_{EU}^2]
r_{WG}/r_{WG(J)} is a measure of within-group agreement or consensus. Each group has an r_{WG}/r_{WG(J)}.
- * Note for the above formulas
-
-
\sigma_{u0}^2: between-group variance (i.e., tau00)
-
\sigma_{e}^2: within-group variance (i.e., residual variance)
-
n_k: group size of the k-th group
-
K: number of groups
-
\sigma^2: actual group variance of the k-th group
-
\sigma_{MJ}^2: mean value of actual group variance of the k-th group across all J items
-
\sigma_{EU}^2: expected random variance (i.e., the variance of uniform distribution)
-
J: number of items
Value
Invisibly return a list of results.
References
Bliese, P. D. (2000).
Within-group agreement, non-independence, and reliability:
Implications for data aggregation and Analysis.
In K. J. Klein & S. W. Kozlowski (Eds.),
Multilevel theory, research, and methods in organizations (pp. 349–381).
San Francisco, CA: Jossey-Bass, Inc.
James, L.R., Demaree, R.G., & Wolf, G. (1984).
Estimating within-group interrater reliability with and without response bias.
Journal of Applied Psychology, 69, 85–98.
See Also
cor_multilevel
Examples
data = lme4::sleepstudy # continuous variable
HLM_ICC_rWG(data, group="Subject", icc.var="Reaction")
data = lmerTest::carrots # 7-point scale
HLM_ICC_rWG(data, group="Consumer", icc.var="Preference",
rwg.vars="Preference",
rwg.levels=7)
HLM_ICC_rWG(data, group="Consumer", icc.var="Preference",
rwg.vars=c("Sweetness", "Bitter", "Crisp"),
rwg.levels=7)
bruceR documentation built on June 22, 2024, 12:26 p.m.
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View source: R/bruceR-stats_4_regress.R
| HLM_ICC_rWG | R Documentation |
Tidy report of HLM indices: ICC(1), ICC(2), and rWG/rWG(J).
Description
Compute ICC(1) (non-independence of data),
ICC(2) (reliability of group means),
and r_{WG}/r_{WG(J)} (within-group agreement for single-item/multi-item measures)
in multilevel analysis (HLM).
Usage
HLM_ICC_rWG(
data,
group,
icc.var,
rwg.vars = icc.var,
rwg.levels = 0,
digits = 3
)
Arguments
data |
Data frame. |
group |
Grouping variable. |
icc.var |
Key variable for analysis (usually the dependent variable). |
rwg.vars |
Defaults to
|
rwg.levels |
As
|
digits |
Number of decimal places of output. Defaults to |
Details
- ICC(1) (intra-class correlation, or non-independence of data)
-
ICC(1) = var.u0 / (var.u0 + var.e) =
\sigma_{u0}^2 / (\sigma_{u0}^2 + \sigma_{e}^2)ICC(1) is the ICC we often compute and report in multilevel analysis (usually in the Null Model, where only the random intercept of group is included). It can be interpreted as either "the proportion of variance explained by groups" (i.e., heterogeneity between groups) or "the expectation of correlation coefficient between any two observations within any group" (i.e., homogeneity within groups).
- ICC(2) (reliability of group means)
-
ICC(2) = mean(var.u0 / (var.u0 + var.e / n.k)) =
\Sigma[\sigma_{u0}^2 / (\sigma_{u0}^2 + \sigma_{e}^2 / n_k)] / KICC(2) is a measure of "the representativeness of group-level aggregated means for within-group individual values" or "the degree to which an individual score can be considered a reliable assessment of a group-level construct".
r_{WG}/r_{WG(J)}(within-group agreement for single-item/multi-item measures)-
r_{WG} = 1 - \sigma^2 / \sigma_{EU}^2r_{WG(J)} = 1 - (\sigma_{MJ}^2 / \sigma_{EU}^2) / [J * (1 - \sigma_{MJ}^2 / \sigma_{EU}^2) + \sigma_{MJ}^2 / \sigma_{EU}^2]r_{WG}/r_{WG(J)}is a measure of within-group agreement or consensus. Each group has anr_{WG}/r_{WG(J)}. - * Note for the above formulas
-
-
\sigma_{u0}^2: between-group variance (i.e., tau00) -
\sigma_{e}^2: within-group variance (i.e., residual variance) -
n_k: group size of the k-th group -
K: number of groups -
\sigma^2: actual group variance of the k-th group -
\sigma_{MJ}^2: mean value of actual group variance of the k-th group across all J items -
\sigma_{EU}^2: expected random variance (i.e., the variance of uniform distribution) -
J: number of items
-
Value
Invisibly return a list of results.
References
Bliese, P. D. (2000). Within-group agreement, non-independence, and reliability: Implications for data aggregation and Analysis. In K. J. Klein & S. W. Kozlowski (Eds.), Multilevel theory, research, and methods in organizations (pp. 349–381). San Francisco, CA: Jossey-Bass, Inc.
James, L.R., Demaree, R.G., & Wolf, G. (1984). Estimating within-group interrater reliability with and without response bias. Journal of Applied Psychology, 69, 85–98.
See Also
cor_multilevel
Examples
data = lme4::sleepstudy # continuous variable
HLM_ICC_rWG(data, group="Subject", icc.var="Reaction")
data = lmerTest::carrots # 7-point scale
HLM_ICC_rWG(data, group="Consumer", icc.var="Preference",
rwg.vars="Preference",
rwg.levels=7)
HLM_ICC_rWG(data, group="Consumer", icc.var="Preference",
rwg.vars=c("Sweetness", "Bitter", "Crisp"),
rwg.levels=7)
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