details_cubist_rules_Cubist: Cubist rule-based regression models
In tidymodels/parsnip: A Common API to Modeling and Analysis Functions
details_cubist_rules_Cubist R Documentation
Cubist rule-based regression models
Description
Cubist::cubist() fits a model that derives simple feature rules from a tree
ensemble and uses creates regression models within each rule.
rules::cubist_fit() is a wrapper around this function.
Details
For this engine, there is a single mode: regression
Tuning Parameters
This model has 3 tuning parameters:
-
committees: # Committees (type: integer, default: 1L)
-
neighbors: # Nearest Neighbors (type: integer, default: 0L)
-
max_rules: Max. Rules (type: integer, default: NA_integer)
Translation from parsnip to the underlying model call (regression)
The rules extension package is required to fit this model.
library(rules)
cubist_rules(
committees = integer(1),
neighbors = integer(1),
max_rules = integer(1)
) %>%
set_engine("Cubist") %>%
set_mode("regression") %>%
translate()
## Cubist Model Specification (regression)
##
## Main Arguments:
## committees = integer(1)
## neighbors = integer(1)
## max_rules = integer(1)
##
## Computational engine: Cubist
##
## Model fit template:
## rules::cubist_fit(x = missing_arg(), y = missing_arg(), weights = missing_arg(),
## committees = integer(1), neighbors = integer(1), max_rules = integer(1))
Preprocessing requirements
This engine does not require any special encoding of the predictors.
Categorical predictors can be partitioned into groups of factor levels
(e.g. {a, c} vs {b, d}) when splitting at a node. Dummy variables
are not required for this model.
References
Quinlan R (1992). “Learning with Continuous Classes.” Proceedings of
the 5th Australian Joint Conference On Artificial Intelligence,
pp. 343-348.
Quinlan R (1993).”Combining Instance-Based and Model-Based Learning.”
Proceedings of the Tenth International Conference on Machine Learning,
pp. 236-243.
Kuhn M and Johnson K (2013). Applied Predictive Modeling. Springer.
tidymodels/parsnip documentation built on April 12, 2024, 2:14 a.m.
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| details_cubist_rules_Cubist | R Documentation |
Cubist rule-based regression models
Description
Cubist::cubist() fits a model that derives simple feature rules from a tree
ensemble and uses creates regression models within each rule.
rules::cubist_fit() is a wrapper around this function.
Details
For this engine, there is a single mode: regression
Tuning Parameters
This model has 3 tuning parameters:
-
committees: # Committees (type: integer, default: 1L) -
neighbors: # Nearest Neighbors (type: integer, default: 0L) -
max_rules: Max. Rules (type: integer, default: NA_integer)
Translation from parsnip to the underlying model call (regression)
The rules extension package is required to fit this model.
library(rules)
cubist_rules(
committees = integer(1),
neighbors = integer(1),
max_rules = integer(1)
) %>%
set_engine("Cubist") %>%
set_mode("regression") %>%
translate()
## Cubist Model Specification (regression) ## ## Main Arguments: ## committees = integer(1) ## neighbors = integer(1) ## max_rules = integer(1) ## ## Computational engine: Cubist ## ## Model fit template: ## rules::cubist_fit(x = missing_arg(), y = missing_arg(), weights = missing_arg(), ## committees = integer(1), neighbors = integer(1), max_rules = integer(1))
Preprocessing requirements
This engine does not require any special encoding of the predictors.
Categorical predictors can be partitioned into groups of factor levels
(e.g. {a, c} vs {b, d}) when splitting at a node. Dummy variables
are not required for this model.
References
Quinlan R (1992). “Learning with Continuous Classes.” Proceedings of the 5th Australian Joint Conference On Artificial Intelligence, pp. 343-348.
Quinlan R (1993).”Combining Instance-Based and Model-Based Learning.” Proceedings of the Tenth International Conference on Machine Learning, pp. 236-243.
Kuhn M and Johnson K (2013). Applied Predictive Modeling. Springer.
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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