icc_specs: Compute intraclass correlation coefficient
In specr: Conducting and Visualizing Specification Curve Analyses
icc_specs R Documentation
Compute intraclass correlation coefficient
Description
This function extracts intraclass correlation coefficients (ICC) from a multilevel model. It can be used to decompose the variance in the outcome variable of a specification curve analysis (e.g., the regression coefficients). This approach summarises the relative importance of analytical choices by estimating the share of variance in the outcome (e.g., the regression coefficient) that different analytical choices or combinations therefor account for. To use this approach, one needs to estimate a multilevel model that includes all analytical choices as grouping variables (see examples).
Usage
icc_specs(model, percent = TRUE)
Arguments
model
a multilevel (i.e., mixed effects) model that captures the variances of the specification curve.
percent
a logical value indicating whether the ICC should also be printed as percentage. Defaults to TRUE.
Value
a tibble including the grouping variable, the random effect variances, the raw intraclass correlation coefficient (ICC), and the ICC in percent.
References
Hox, J. J. (2010). Multilevel analysis: techniques and applications. New York: Routledge.
See Also
plot_variance() to plot the variance decomposition.
Examples
# Step 1: Run spec curve analysis
results <- run_specs(df = example_data,
y = c("y1", "y2"),
x = c("x1", "x2"),
model = c("lm"))
# Step 2: Estimate a multilevel model without predictors
model <- lme4::lmer(estimate ~ 1 + (1|x) + (1|y), data = results)
# Step 3: Estimate intra-class correlation
icc_specs(model)
specr documentation built on Jan. 22, 2023, 1:24 a.m.
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| icc_specs | R Documentation |
Compute intraclass correlation coefficient
Description
This function extracts intraclass correlation coefficients (ICC) from a multilevel model. It can be used to decompose the variance in the outcome variable of a specification curve analysis (e.g., the regression coefficients). This approach summarises the relative importance of analytical choices by estimating the share of variance in the outcome (e.g., the regression coefficient) that different analytical choices or combinations therefor account for. To use this approach, one needs to estimate a multilevel model that includes all analytical choices as grouping variables (see examples).
Usage
icc_specs(model, percent = TRUE)
Arguments
model |
a multilevel (i.e., mixed effects) model that captures the variances of the specification curve. |
percent |
a logical value indicating whether the ICC should also be printed as percentage. Defaults to TRUE. |
Value
a tibble including the grouping variable, the random effect variances, the raw intraclass correlation coefficient (ICC), and the ICC in percent.
References
Hox, J. J. (2010). Multilevel analysis: techniques and applications. New York: Routledge.
See Also
plot_variance() to plot the variance decomposition.
Examples
# Step 1: Run spec curve analysis
results <- run_specs(df = example_data,
y = c("y1", "y2"),
x = c("x1", "x2"),
model = c("lm"))
# Step 2: Estimate a multilevel model without predictors
model <- lme4::lmer(estimate ~ 1 + (1|x) + (1|y), data = results)
# Step 3: Estimate intra-class correlation
icc_specs(model)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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