measure_mse: Estimate mean squared error
In bdwilliamson/nova: Perform Inference on Algorithm-Agnostic Variable Importance
measure_mse R Documentation
Estimate mean squared error
Description
Compute nonparametric estimate of mean squared error.
Usage
measure_mse(
fitted_values,
y,
full_y = NULL,
C = rep(1, length(y)),
Z = NULL,
ipc_weights = rep(1, length(y)),
ipc_fit_type = "external",
ipc_eif_preds = rep(1, length(y)),
ipc_est_type = "aipw",
scale = "identity",
na.rm = FALSE,
nuisance_estimators = NULL,
a = NULL,
...
)
Arguments
fitted_values
fitted values from a regression function using the
observed data (may be within a specified fold, for cross-fitted estimates).
y
the observed outcome (may be within a specified fold, for
cross-fitted estimates).
full_y
the observed outcome (not used, defaults to NULL).
C
the indicator of coarsening (1 denotes observed, 0 denotes
unobserved).
Z
either NULL (if no coarsening) or a matrix-like object
containing the fully observed data.
ipc_weights
weights for inverse probability of coarsening (IPC)
(e.g., inverse weights from a two-phase sample) weighted estimation.
Assumed to be already inverted.
(i.e., ipc_weights = 1 / [estimated probability weights]).
ipc_fit_type
if "external", then use ipc_eif_preds; if "SL",
fit a SuperLearner to determine the IPC correction to the efficient
influence function.
ipc_eif_preds
if ipc_fit_type = "external", the fitted values
from a regression of the full-data EIF on the fully observed
covariates/outcome; otherwise, not used.
ipc_est_type
IPC correction, either "ipw" (for classical
inverse probability weighting) or "aipw" (for augmented inverse
probability weighting; the default).
scale
if doing an IPC correction, then the scale that the correction
should be computed on (e.g., "identity"; or "logit" to logit-transform,
apply the correction, and back-transform).
na.rm
logical; should NAs be removed in computation?
(defaults to FALSE)
nuisance_estimators
not used; for compatibility with measure_average_value.
a
not used; for compatibility with measure_average_value.
...
other arguments to SuperLearner, if ipc_fit_type = "SL".
Value
A named list of: (1) the estimated mean squared error of the fitted
regression function; (2) the estimated influence function; and
(3) the IPC EIF predictions.
bdwilliamson/nova documentation built on Feb. 1, 2024, 10:04 p.m.
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| measure_mse | R Documentation |
Estimate mean squared error
Description
Compute nonparametric estimate of mean squared error.
Usage
measure_mse(
fitted_values,
y,
full_y = NULL,
C = rep(1, length(y)),
Z = NULL,
ipc_weights = rep(1, length(y)),
ipc_fit_type = "external",
ipc_eif_preds = rep(1, length(y)),
ipc_est_type = "aipw",
scale = "identity",
na.rm = FALSE,
nuisance_estimators = NULL,
a = NULL,
...
)
Arguments
fitted_values |
fitted values from a regression function using the observed data (may be within a specified fold, for cross-fitted estimates). |
y |
the observed outcome (may be within a specified fold, for cross-fitted estimates). |
full_y |
the observed outcome (not used, defaults to |
C |
the indicator of coarsening (1 denotes observed, 0 denotes unobserved). |
Z |
either |
ipc_weights |
weights for inverse probability of coarsening (IPC) (e.g., inverse weights from a two-phase sample) weighted estimation. Assumed to be already inverted. (i.e., ipc_weights = 1 / [estimated probability weights]). |
ipc_fit_type |
if "external", then use |
ipc_eif_preds |
if |
ipc_est_type |
IPC correction, either |
scale |
if doing an IPC correction, then the scale that the correction should be computed on (e.g., "identity"; or "logit" to logit-transform, apply the correction, and back-transform). |
na.rm |
logical; should |
nuisance_estimators |
not used; for compatibility with |
a |
not used; for compatibility with |
... |
other arguments to SuperLearner, if |
Value
A named list of: (1) the estimated mean squared error of the fitted regression function; (2) the estimated influence function; and (3) the IPC EIF predictions.
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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