impute_missing

  • Available in: PCA

  • Hyperparameter: no

Description

In some cases, dataset used can contain a fewer number of rows due to the removal of rows with NA/missing values. If this is not the desired behavior, then you can use the impute_missing option to impute missing entries in each column with the column mean value.

This value defaults to False.

Example

library(h2o)
h2o.init()

# Load the Birds dataset
birds.hex <- h2o.importFile("https://s3.amazonaws.com/h2o-public-test-data/smalldata/pca_test/birds.csv")

# Train with impute_missing enabled
birds.pca <- h2o.prcomp(training_frame = birds.hex, transform = "STANDARDIZE",
                        k = 3, pca_method="Power", use_all_factor_levels=TRUE,
                        impute_missing=TRUE)

# View the importance of components
birds.pca@model$importance
Importance of components:
                            pc1      pc2      pc3
Standard deviation     1.496991 1.351000 1.014182
Proportion of Variance 0.289987 0.236184 0.133098
Cumulative Proportion  0.289987 0.526171 0.659269

# View the eigenvectors
birds.pca@model$eigenvectors
Rotation:
                  pc1      pc2       pc3
patch.Ref1a  0.007207 0.007449  0.001161
patch.Ref1b -0.003090 0.011257 -0.001066
patch.Ref1c  0.002962 0.008850 -0.000264
patch.Ref1d -0.001295 0.011003  0.000501
patch.Ref1e  0.006559 0.006904 -0.001206

---
                pc1       pc2       pc3
S          0.463591 -0.053410  0.184799
year      -0.055934  0.009691 -0.968635
area       0.533375 -0.289381 -0.130338
log.area.  0.583966 -0.262287 -0.089582
ENN       -0.270615 -0.573900  0.038835
log.ENN.  -0.231368 -0.640231  0.026325

# Train again without imputing missing values
birds2.pca <- h2o.prcomp(training_frame = birds.hex, transform = "STANDARDIZE",
                         k = 3, pca_method="Power", use_all_factor_levels=TRUE,
                         impute_missing=FALSE)

Warning message:
In doTryCatch(return(expr), name, parentenv, handler) :
  _train: Dataset used may contain fewer number of rows due to removal of rows
  with NA/missing values. If this is not desirable, set impute_missing argument
  in pca call to TRUE/True/true/... depending on the client language.

# View the importance of components
birds2.pca@model$importance
Importance of components:
                            pc1      pc2      pc3
Standard deviation     1.546397 1.348276 1.055239
Proportion of Variance 0.300269 0.228258 0.139820
Cumulative Proportion  0.300269 0.528527 0.668347

# View the eigenvectors
birds2.pca@model$eigenvectors
Rotation:
                  pc1       pc2       pc3
patch.Ref1a  0.009848 -0.005947 -0.001061
patch.Ref1b -0.001628 -0.014739 -0.001007
patch.Ref1c  0.004994 -0.009486 -0.000523
patch.Ref1d  0.000117 -0.004400 -0.004917
patch.Ref1e  0.003627 -0.001467 -0.004268

---
                pc1       pc2       pc3
S          0.515048  0.226915 -0.123136
year      -0.066269 -0.069526  0.971250
area       0.414050  0.344332  0.149339
log.area.  0.497313  0.363609  0.131261
ENN       -0.390235  0.545631 -0.007944
log.ENN.  -0.345665  0.562834 -0.002092
import(h2o)
h2o.init()
from h2o.estimators.pca import H2OPrincipalComponentAnalysisEstimator

# Load the Birds dataset
birds = h2o.import_file("https://s3.amazonaws.com/h2o-public-test-data/smalldata/pca_test/birds.csv")

# Train with impute_missing enabled
birds.pca = H2OPrincipalComponentAnalysisEstimator(k = 3, transform = "STANDARDIZE", pca_method="Power",
                   use_all_factor_levels=True, impute_missing=True)
birds.pca.train(x=list(range(4)), training_frame=birds)

# View the importance of components
birds.pca.varimp(use_pandas=False)
[(u'Standard deviation', 1.0505993078459912, 0.8950182545325247, 0.5587566783073901),
(u'Proportion of Variance', 0.28699613488673914, 0.20828865401845226, 0.08117966990084355),
(u'Cumulative Proportion', 0.28699613488673914, 0.4952847889051914, 0.5764644588060349)]

# View the eigenvectors
birds.pca.rotation()
Rotation:
                   pc1                 pc2                pc3
-----------------  ------------------  -----------------  ----------------
patch.Ref1a        0.00732398141913    -0.0141576160836   0.0294419461081
patch.Ref1b        -0.00482860843905   0.00867426840498   0.0330778190153
patch.Ref1c        0.00124768649004    -0.00274167383932  0.0312598825617
patch.Ref1d        -0.000370181920761  0.000297923901103  0.0317439245635
patch.Ref1e        0.00223394447742    -0.00459462277502  0.0309648089406
---                ---                 ---                ---
landscape.Bauxite  -0.0638494513759    0.136728811833     0.118858152002
landscape.Forest   0.0378085502606     -0.0833578672691   0.969316569884
landscape.Urban    -0.0545759062856    0.111309410422     0.0354475756223
S                  0.564501605704      -0.767095710638    -0.0466832766991
year               -0.814596906726     -0.577331674836    -0.0101626722479

See the whole table with table.as_data_frame()

# Train again without imputing missing values
birds2 = h2o.import_file("https://s3.amazonaws.com/h2o-public-test-data/smalldata/pca_test/birds.csv")
birds2.pca = H2OPrincipalComponentAnalysisEstimator(k = 3, transform = "STANDARDIZE",
                    pca_method="Power", use_all_factor_levels=True,
                    impute_missing=False)
birds2.pca.train(x=list(range(4)), training_frame=birds2)

# View the importance of components
birds2.pca.varimp(use_pandas=False)
[(u'Standard deviation', 1.1238486420242524, 0.949554306091356, 0.534896629598228),
(u'Proportion of Variance', 0.3080623966646966, 0.21991895069672512, 0.06978510918460899),
(u'Cumulative Proportion', 0.3080623966646966, 0.5279813473614217, 0.5977664565460307)]

# View the eigenvectors
birds2.pca.rotation()
Rotation:
                   pc1                pc2                pc3
-----------------  -----------------  -----------------  -----------------
patch.Ref1a        0.00898674970716   0.0133755203176    0.0386887315027
patch.Ref1b        -0.00583910665399  -0.00850852817775  0.0403921679996
patch.Ref1c        0.00157382152659   0.00243349606991   0.0395404497512
patch.Ref1d        0.00205431391489   -0.00464763108225  0.0130225730145
patch.Ref1e        0.00521157104675   9.98792622547e-07  0.0126676559841
---                ---                ---                ---
landscape.Bauxite  -0.0927064158093   -0.0985077050027   0.312254932996
landscape.Forest   0.049803344754     0.0606680349608    0.928822693132
landscape.Urban    -0.0671561320808   -0.108679950396    0.033639706807
S                  0.661206203315     0.69412159594      -0.0166591571667
year               -0.727793152951    0.684904477663     -0.00409291536614

See the whole table with table.as_data_frame()