trees: Parameter functions related to tree- and rule-based models.
In dials: Tools for Creating Tuning Parameter Values
trees R Documentation
Parameter functions related to tree- and rule-based models.
Description
These are parameter generating functions that can be used for modeling,
especially in conjunction with the parsnip package.
Usage
trees(range = c(1L, 2000L), trans = NULL)
min_n(range = c(2L, 40L), trans = NULL)
sample_size(range = c(unknown(), unknown()), trans = NULL)
sample_prop(range = c(1/10, 1), trans = NULL)
loss_reduction(range = c(-10, 1.5), trans = transform_log10())
tree_depth(range = c(1L, 15L), trans = NULL)
prune(values = c(TRUE, FALSE))
cost_complexity(range = c(-10, -1), trans = transform_log10())
Arguments
range
A two-element vector holding the defaults for the smallest and
largest possible values, respectively. If a transformation is specified,
these values should be in the transformed units.
trans
A trans object from the scales package, such as
scales::transform_log10() or scales::transform_reciprocal(). If not provided,
the default is used which matches the units used in range. If no
transformation, NULL.
values
A vector of possible values (TRUE or FALSE).
Details
These functions generate parameters that are useful when the model is
based on trees or rules.
-
trees(): The number of trees contained in a random forest or boosted
ensemble. In the latter case, this is equal to the number of boosting
iterations. (See parsnip::rand_forest() and parsnip::boost_tree()).
-
min_n(): The minimum number of data points in a node that is required
for the node to be split further. (See parsnip::rand_forest() and
parsnip::boost_tree()).
-
sample_size(): The size of the data set used for modeling within an
iteration of the modeling algorithm, such as stochastic gradient boosting.
(See parsnip::boost_tree()).
-
sample_prop(): The same as sample_size() but as a proportion of the
total sample.
-
loss_reduction(): The reduction in the loss function required to split
further. (See parsnip::boost_tree()). This corresponds to gamma in
xgboost.
-
tree_depth(): The maximum depth of the tree (i.e. number of splits).
(See parsnip::boost_tree()).
-
prune(): A logical for whether a tree or set of rules should be pruned.
-
cost_complexity(): The cost-complexity parameter in classical CART models.
Examples
trees()
min_n()
sample_size()
loss_reduction()
tree_depth()
prune()
cost_complexity()
dials documentation built on Sept. 11, 2024, 8:25 p.m.
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| trees | R Documentation |
Parameter functions related to tree- and rule-based models.
Description
These are parameter generating functions that can be used for modeling, especially in conjunction with the parsnip package.
Usage
trees(range = c(1L, 2000L), trans = NULL)
min_n(range = c(2L, 40L), trans = NULL)
sample_size(range = c(unknown(), unknown()), trans = NULL)
sample_prop(range = c(1/10, 1), trans = NULL)
loss_reduction(range = c(-10, 1.5), trans = transform_log10())
tree_depth(range = c(1L, 15L), trans = NULL)
prune(values = c(TRUE, FALSE))
cost_complexity(range = c(-10, -1), trans = transform_log10())
Arguments
range |
A two-element vector holding the defaults for the smallest and largest possible values, respectively. If a transformation is specified, these values should be in the transformed units. |
trans |
A |
values |
A vector of possible values ( |
Details
These functions generate parameters that are useful when the model is based on trees or rules.
-
trees(): The number of trees contained in a random forest or boosted ensemble. In the latter case, this is equal to the number of boosting iterations. (Seeparsnip::rand_forest()andparsnip::boost_tree()). -
min_n(): The minimum number of data points in a node that is required for the node to be split further. (Seeparsnip::rand_forest()andparsnip::boost_tree()). -
sample_size(): The size of the data set used for modeling within an iteration of the modeling algorithm, such as stochastic gradient boosting. (Seeparsnip::boost_tree()). -
sample_prop(): The same assample_size()but as a proportion of the total sample. -
loss_reduction(): The reduction in the loss function required to split further. (Seeparsnip::boost_tree()). This corresponds togammain xgboost. -
tree_depth(): The maximum depth of the tree (i.e. number of splits). (Seeparsnip::boost_tree()). -
prune(): A logical for whether a tree or set of rules should be pruned. -
cost_complexity(): The cost-complexity parameter in classical CART models.
Examples
trees()
min_n()
sample_size()
loss_reduction()
tree_depth()
prune()
cost_complexity()
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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