DoubleMLPLR {DoubleML}R Documentation

Double machine learning for partially linear regression models

Description

Double machine learning for partially linear regression models.

Format

R6::R6Class object inheriting from DoubleML.

Details

Partially linear regression (PLR) models take the form

Y = D\theta_0 + g_0(X) + \zeta,

D = m_0(X) + V,

with E[\zeta|D,X]=0 and E[V|X] = 0. Y is the outcome variable variable and D is the policy variable of interest. The high-dimensional vector X = (X_1, \ldots, X_p) consists of other confounding covariates, and \zeta and V are stochastic errors.

Super class

DoubleML::DoubleML -> DoubleMLPLR

Methods

Public methods

Inherited methods

Method new()

Creates a new instance of this R6 class.

Usage
DoubleMLPLR$new(
  data,
  ml_l,
  ml_m,
  ml_g = NULL,
  n_folds = 5,
  n_rep = 1,
  score = "partialling out",
  dml_procedure = "dml2",
  draw_sample_splitting = TRUE,
  apply_cross_fitting = TRUE
)
Arguments
data

(DoubleMLData)
The DoubleMLData object providing the data and specifying the variables of the causal model.

ml_l

(LearnerRegr, Learner, character(1))
A learner of the class LearnerRegr, which is available from mlr3 or its extension packages mlr3learners or mlr3extralearners. Alternatively, a Learner object with public field task_type = "regr" can be passed, for example of class GraphLearner. The learner can possibly be passed with specified parameters, for example lrn("regr.cv_glmnet", s = "lambda.min").
ml_l refers to the nuisance function l_0(X) = E[Y|X].

ml_m

(LearnerRegr, LearnerClassif, Learner, character(1))
A learner of the class LearnerRegr, which is available from mlr3 or its extension packages mlr3learners or mlr3extralearners. For binary treatment variables, an object of the class LearnerClassif can be passed, for example lrn("classif.cv_glmnet", s = "lambda.min"). Alternatively, a Learner object with public field task_type = "regr" or task_type = "classif" can be passed, respectively, for example of class GraphLearner.
ml_m refers to the nuisance function m_0(X) = E[D|X].

ml_g

(LearnerRegr, Learner, character(1))
A learner of the class LearnerRegr, which is available from mlr3 or its extension packages mlr3learners or mlr3extralearners. Alternatively, a Learner object with public field task_type = "regr" can be passed, for example of class GraphLearner. The learner can possibly be passed with specified parameters, for example lrn("regr.cv_glmnet", s = "lambda.min").
ml_g refers to the nuisance function g_0(X) = E[Y - D\theta_0|X]. Note: The learner ml_g is only required for the score 'IV-type'. Optionally, it can be specified and estimated for callable scores.

n_folds

(integer(1))
Number of folds. Default is 5.

n_rep

(integer(1))
Number of repetitions for the sample splitting. Default is 1.

score

(character(1), ⁠function()⁠)
A character(1) ("partialling out" or "IV-type") or a ⁠function()⁠ specifying the score function. If a ⁠function()⁠ is provided, it must be of the form ⁠function(y, d, l_hat, m_hat, g_hat, smpls)⁠ and the returned output must be a named list() with elements psi_a and psi_b. Default is "partialling out".

dml_procedure

(character(1))
A character(1) ("dml1" or "dml2") specifying the double machine learning algorithm. Default is "dml2".

draw_sample_splitting

(logical(1))
Indicates whether the sample splitting should be drawn during initialization of the object. Default is TRUE.

apply_cross_fitting

(logical(1))
Indicates whether cross-fitting should be applied. Default is TRUE.


Method set_ml_nuisance_params()

Set hyperparameters for the nuisance models of DoubleML models.

Note that in the current implementation, either all parameters have to be set globally or all parameters have to be provided fold-specific.

Usage
DoubleMLPLR$set_ml_nuisance_params(
  learner = NULL,
  treat_var = NULL,
  params,
  set_fold_specific = FALSE
)
Arguments
learner

(character(1))
The nuisance model/learner (see method params_names).

treat_var

(character(1))
The treatment varaible (hyperparameters can be set treatment-variable specific).

params

(named list())
A named list() with estimator parameters. Parameters are used for all folds by default. Alternatively, parameters can be passed in a fold-specific way if option fold_specificis TRUE. In this case, the outer list needs to be of length n_rep and the inner list of length n_folds.

set_fold_specific

(logical(1))
Indicates if the parameters passed in params should be passed in fold-specific way. Default is FALSE. If TRUE, the outer list needs to be of length n_rep and the inner list of length n_folds. Note that in the current implementation, either all parameters have to be set globally or all parameters have to be provided fold-specific.

Returns

self


Method tune()

Hyperparameter-tuning for DoubleML models.

The hyperparameter-tuning is performed using the tuning methods provided in the mlr3tuning package. For more information on tuning in mlr3, we refer to the section on parameter tuning in the mlr3 book.

Usage
DoubleMLPLR$tune(
  param_set,
  tune_settings = list(n_folds_tune = 5, rsmp_tune = mlr3::rsmp("cv", folds = 5), measure
    = NULL, terminator = mlr3tuning::trm("evals", n_evals = 20), algorithm =
    mlr3tuning::tnr("grid_search"), resolution = 5),
  tune_on_folds = FALSE
)
Arguments
param_set

(named list())
A named list with a parameter grid for each nuisance model/learner (see method learner_names()). The parameter grid must be an object of class ParamSet.

tune_settings

(named list())
A named list() with arguments passed to the hyperparameter-tuning with mlr3tuning to set up TuningInstance objects. tune_settings has entries

  • terminator (Terminator)
    A Terminator object. Specification of terminator is required to perform tuning.

  • algorithm (Tuner or character(1))
    A Tuner object (recommended) or key passed to the respective dictionary to specify the tuning algorithm used in tnr(). algorithm is passed as an argument to tnr(). If algorithm is not specified by the users, default is set to "grid_search". If set to "grid_search", then additional argument "resolution" is required.

  • rsmp_tune (Resampling or character(1))
    A Resampling object (recommended) or option passed to rsmp() to initialize a Resampling for parameter tuning in mlr3. If not specified by the user, default is set to "cv" (cross-validation).

  • n_folds_tune (integer(1), optional)
    If rsmp_tune = "cv", number of folds used for cross-validation. If not specified by the user, default is set to 5.

  • measure (NULL, named list(), optional)
    Named list containing the measures used for parameter tuning. Entries in list must either be Measure objects or keys to be passed to passed to msr(). The names of the entries must match the learner names (see method learner_names()). If set to NULL, default measures are used, i.e., "regr.mse" for continuous outcome variables and "classif.ce" for binary outcomes.

  • resolution (character(1))
    The key passed to the respective dictionary to specify the tuning algorithm used in tnr(). resolution is passed as an argument to tnr().

tune_on_folds

(logical(1))
Indicates whether the tuning should be done fold-specific or globally. Default is FALSE.

Returns

self


Method clone()

The objects of this class are cloneable with this method.

Usage
DoubleMLPLR$clone(deep = FALSE)
Arguments
deep

Whether to make a deep clone.

See Also

Other DoubleML: DoubleMLIIVM, DoubleMLIRM, DoubleMLPLIV, DoubleML

Examples


library(DoubleML)
library(mlr3)
library(mlr3learners)
library(data.table)
set.seed(2)
ml_g = lrn("regr.ranger", num.trees = 10, max.depth = 2)
ml_m = ml_g$clone()
obj_dml_data = make_plr_CCDDHNR2018(alpha = 0.5)
dml_plr_obj = DoubleMLPLR$new(obj_dml_data, ml_g, ml_m)
dml_plr_obj$fit()
dml_plr_obj$summary()


## Not run: 
library(DoubleML)
library(mlr3)
library(mlr3learners)
library(mlr3tuning)
library(data.table)
set.seed(2)
ml_l = lrn("regr.rpart")
ml_m = ml_l$clone()
obj_dml_data = make_plr_CCDDHNR2018(alpha = 0.5)
dml_plr_obj = DoubleMLPLR$new(obj_dml_data, ml_l, ml_m)

param_grid = list(
  "ml_l" = paradox::ParamSet$new(list(
    paradox::ParamDbl$new("cp", lower = 0.01, upper = 0.02),
    paradox::ParamInt$new("minsplit", lower = 1, upper = 2))),
  "ml_m" = paradox::ParamSet$new(list(
    paradox::ParamDbl$new("cp", lower = 0.01, upper = 0.02),
    paradox::ParamInt$new("minsplit", lower = 1, upper = 2))))

# minimum requirements for tune_settings
tune_settings = list(
  terminator = mlr3tuning::trm("evals", n_evals = 5),
  algorithm = mlr3tuning::tnr("grid_search", resolution = 5))
dml_plr_obj$tune(param_set = param_grid, tune_settings = tune_settings)
dml_plr_obj$fit()
dml_plr_obj$summary()

## End(Not run)

[Package DoubleML version 0.5.3 Index]