Extract and compute indices and measures to describe parameters of generalized additive models (GAM(M)s).
# S3 method for cgam
model_parameters(
model,
ci = 0.95,
bootstrap = FALSE,
iterations = 1000,
component = c("conditional", "smooth_terms", "all"),
standardize = NULL,
exponentiate = FALSE,
verbose = TRUE,
...
)# S3 method for gam
model_parameters(
model,
ci = 0.95,
bootstrap = FALSE,
iterations = 1000,
standardize = NULL,
exponentiate = FALSE,
robust = FALSE,
p_adjust = NULL,
verbose = TRUE,
...
)
# S3 method for rqss
model_parameters(
model,
ci = 0.95,
bootstrap = FALSE,
iterations = 1000,
component = c("conditional", "smooth_terms", "all"),
standardize = NULL,
exponentiate = FALSE,
verbose = TRUE,
...
)
A gam/gamm model.
Confidence Interval (CI) level. Default to 0.95 (95%).
Should estimates be based on bootstrapped model? If TRUE, then arguments of Bayesian regressions apply (see also bootstrap_parameters()).
The number of bootstrap replicates. This only apply in the case of bootstrapped frequentist models.
Model component for which parameters should be shown. May be one of "conditional", "precision" (betareg), "scale" (ordinal), "extra" (glmx), "marginal" (mfx), "conditional" or "full" (for MuMIn::model.avg()) or "all".
The method used for standardizing the parameters. Can be "refit", "posthoc", "smart", "basic", "pseudo" or NULL (default) for no standardization. See 'Details' in standardize_parameters. Note that robust estimation (i.e. robust=TRUE) of standardized parameters only works when standardize="refit".
Logical, indicating whether or not to exponentiate the the coefficients (and related confidence intervals). This is typical for, say, logistic regressions, or more generally speaking: for models with log or logit link. Note: standard errors are also transformed (by multiplying the standard errors with the exponentiated coefficients), to mimic behaviour of other software packages, such as Stata.
Toggle warnings and messages.
Arguments passed to or from other methods. For instance, when bootstrap = TRUE, arguments like ci_method are passed down to describe_posterior.
Logical, if TRUE, robust standard errors are calculated (if possible), and confidence intervals and p-values are based on these robust standard errors. Additional arguments like vcov_estimation or vcov_type are passed down to other methods, see standard_error_robust() for details.
Character vector, if not NULL, indicates the method to adjust p-values. See p.adjust for details.
A data frame of indices related to the model's parameters.
The reporting of degrees of freedom for the spline terms
slightly differs from the output of summary(model), for example in the
case of mgcv::gam(). The estimated degrees of freedom, column
edf in the summary-output, is named df in the returned data
frame, while the column df_error in the returned data frame refers to
the residual degrees of freedom that are returned by df.residual().
Hence, the values in the the column df_error differ from the column
Ref.df from the summary, which is intentional, as these reference
degrees of freedom “is not very interpretable”
(web).
standardize_names() to rename
columns into a consistent, standardized naming scheme.
# NOT RUN {
library(parameters)
if (require("mgcv")) {
dat <- gamSim(1, n = 400, dist = "normal", scale = 2)
model <- gam(y ~ s(x0) + s(x1) + s(x2) + s(x3), data = dat)
model_parameters(model)
}
# }
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