Regression MultilayerPerceptron Learner
Source:R/learner_RWeka_regr_multilayer_perceptron.R
mlr_learners_regr.multilayer_perceptron.RdRegressor that uses backpropagation to learn a multi-layer perceptron.
Calls RWeka::make_Weka_classifier() from RWeka.
Custom mlr3 parameters
output_debug_info:original id: output-debug-info
do_not_check_capabilities:original id: do-not-check-capabilities
num_decimal_places:original id: num-decimal-places
batch_size:original id: batch-size
Reason for change: This learner contains changed ids of the following control arguments since their ids contain irregular pattern
Gremoved:GUI will be opened
Reason for change: The parameter is removed because we don't want to launch GUI.
Parameters
| Id | Type | Default | Levels | Range |
| subset | untyped | - | - | |
| na.action | untyped | - | - | |
| L | numeric | 0.3 | \([0, 1]\) | |
| M | numeric | 0.2 | \([0, 1]\) | |
| N | integer | 500 | \([1, \infty)\) | |
| V | numeric | 0 | \([0, 100]\) | |
| S | integer | 0 | \([0, \infty)\) | |
| E | integer | 20 | \([1, \infty)\) | |
| A | logical | FALSE | TRUE, FALSE | - |
| B | logical | FALSE | TRUE, FALSE | - |
| H | untyped | "a" | - | |
| C | logical | FALSE | TRUE, FALSE | - |
| I | logical | FALSE | TRUE, FALSE | - |
| R | logical | FALSE | TRUE, FALSE | - |
| D | logical | FALSE | TRUE, FALSE | - |
| output_debug_info | logical | FALSE | TRUE, FALSE | - |
| do_not_check_capabilities | logical | FALSE | TRUE, FALSE | - |
| num_decimal_places | integer | 2 | \([1, \infty)\) | |
| batch_size | integer | 100 | \([1, \infty)\) | |
| options | untyped | NULL | - |
See also
as.data.table(mlr_learners)for a table of available Learners in the running session (depending on the loaded packages).Chapter in the mlr3book: https://mlr3book.mlr-org.com/chapters/chapter2/data_and_basic_modeling.html#sec-learners
mlr3learners for a selection of recommended learners.
mlr3cluster for unsupervised clustering learners.
mlr3pipelines to combine learners with pre- and postprocessing steps.
mlr3tuning for tuning of hyperparameters, mlr3tuningspaces for established default tuning spaces.
Super classes
mlr3::Learner -> mlr3::LearnerRegr -> LearnerRegrMultilayerPerceptron
Methods
Inherited methods
mlr3::Learner$base_learner()mlr3::Learner$configure()mlr3::Learner$encapsulate()mlr3::Learner$format()mlr3::Learner$help()mlr3::Learner$predict()mlr3::Learner$predict_newdata()mlr3::Learner$print()mlr3::Learner$reset()mlr3::Learner$selected_features()mlr3::Learner$train()mlr3::LearnerRegr$predict_newdata_fast()
Method marshal()
Marshal the learner's model.
Arguments
...(any)
Additional arguments passed tomlr3::marshal_model().
Method unmarshal()
Unmarshal the learner's model.
Arguments
...(any)
Additional arguments passed tomlr3::unmarshal_model().
Examples
# Define the Learner
learner = lrn("regr.multilayer_perceptron")
print(learner)
#>
#> ── <LearnerRegrMultilayerPerceptron> (regr.multilayer_perceptron): MultilayerPer
#> • Model: -
#> • Parameters: list()
#> • Packages: mlr3 and RWeka
#> • Predict Types: [response]
#> • Feature Types: logical, integer, numeric, factor, and ordered
#> • Encapsulation: none (fallback: -)
#> • Properties: marshal and missings
#> • Other settings: use_weights = 'error', predict_raw = 'FALSE'
# Define a Task
task = tsk("mtcars")
# Create train and test set
ids = partition(task)
# Train the learner on the training ids
learner$train(task, row_ids = ids$train)
print(learner$model)
#> Linear Node 0
#> Inputs Weights
#> Threshold -0.5586613128011637
#> Node 1 -0.3358301247617527
#> Node 2 -2.251662656380046
#> Node 3 1.0498735402062116
#> Node 4 2.2808925342905524
#> Node 5 1.3882588778277118
#> Sigmoid Node 1
#> Inputs Weights
#> Threshold -1.2645846944426449
#> Attrib am -0.08425776911432704
#> Attrib carb 0.8848449333072118
#> Attrib cyl -0.2931912148598945
#> Attrib disp 0.30889358538826556
#> Attrib drat 0.45181661504639725
#> Attrib gear 0.1531264239637416
#> Attrib hp 0.6433237465502986
#> Attrib qsec -0.022924236325925617
#> Attrib vs 0.10648058089347556
#> Attrib wt -0.05743847658639936
#> Sigmoid Node 2
#> Inputs Weights
#> Threshold -1.9457800434801524
#> Attrib am -0.6420333199776781
#> Attrib carb 2.4660690519410013
#> Attrib cyl -1.1366081125427332
#> Attrib disp 1.036336508246863
#> Attrib drat -1.6696067721373569
#> Attrib gear 0.5849658104886557
#> Attrib hp -1.1608921222229551
#> Attrib qsec 3.2587244714289025
#> Attrib vs 0.1474160953492675
#> Attrib wt 1.1435410258418681
#> Sigmoid Node 3
#> Inputs Weights
#> Threshold -1.26619578568097
#> Attrib am 0.08919765882656071
#> Attrib carb -0.5454804180627103
#> Attrib cyl 0.5893890739126255
#> Attrib disp 0.9114174579323195
#> Attrib drat -0.14931860134198133
#> Attrib gear 0.7331234991890798
#> Attrib hp -0.2815196551438237
#> Attrib qsec 0.9951874390822056
#> Attrib vs -0.47224587825455955
#> Attrib wt 0.17348728945604666
#> Sigmoid Node 4
#> Inputs Weights
#> Threshold -2.5932451539214427
#> Attrib am -0.35516084606673554
#> Attrib carb -0.18533725351531408
#> Attrib cyl 1.052739871190028
#> Attrib disp -0.4009238970995484
#> Attrib drat 0.009651454267151322
#> Attrib gear 0.8739068530938195
#> Attrib hp -2.883111412185791
#> Attrib qsec 3.802869814891891
#> Attrib vs 0.655935709078541
#> Attrib wt 0.013198793585738323
#> Sigmoid Node 5
#> Inputs Weights
#> Threshold -1.3957959785812857
#> Attrib am 0.8048866665744091
#> Attrib carb 0.03498299954031347
#> Attrib cyl 0.34618934476349267
#> Attrib disp -0.036480078550815136
#> Attrib drat 0.666386317987407
#> Attrib gear 1.2494653273180159
#> Attrib hp -0.87744783113579
#> Attrib qsec 1.4815629687747327
#> Attrib vs -0.5143511958599095
#> Attrib wt 0.2134971932248645
#> Class
#> Input
#> Node 0
#>
# Make predictions for the test rows
predictions = learner$predict(task, row_ids = ids$test)
# Score the predictions
predictions$score()
#> regr.mse
#> 18.46628