Imputing Data¶
The impute function allows you to perform in-place imputation by filling missing values with aggregates computed on the “na.rm’d” vector. Additionally, you can also perform imputation based on groupings of columns from within the dataset. These columns can be passed by index or by column name to the by parameter. Note that if a factor column is supplied, then the method must be mode.
The impute function accepts the following arguments:
dataset: The dataset containing the column to imputecolumn: A specific column to impute. The default of0specifies to impute the entire frame.method: The type of imputation to perform.meanreplaces NAs with the column mean;medianreplaces NAs with the column median;modereplaces with the most common factor (for factor columns only).combine_method: If method ismedian, then choose how to combine quantiles on even sample sizes. This parameter is ignored in all other cases. Available options forcombine_methodincludeinterpolate,average,low, andhigh.by: Group by columnsgroupByFrameorgroup_by_frame: Impute the column with this pre-computed grouped frame.values: A vector of impute values (one per column). NaN indicates to skip the column.
library(h2o)
h2o.init()
# Upload the Airlines dataset
filePath <- "https://s3.amazonaws.com/h2o-airlines-unpacked/allyears2k.csv"
air <- h2o.importFile(filePath, "air")
print(dim(air))
43978 31
# Show the number of rows with NA.
print(numNAs <- sum(is.na(air$DepTime)))
[1] 1086
DepTime_mean <- mean(air$DepTime, na.rm = TRUE)
print(DepTime_mean)
[1] 1345.847
# Mean impute the DepTime column
h2o.impute(air, "DepTime", method = "mean")
[1] NaN NaN NaN NaN 1345.847 NaN NaN NaN
[9] NaN NaN NaN NaN NaN NaN NaN NaN
[17] NaN NaN NaN NaN NaN NaN NaN NaN
[25] NaN NaN NaN NaN NaN NaN NaN
# Revert the imputations
air <- h2o.importFile(filePath, "air")
# Impute the column using a grouping based on the Origin and Distance
# If the Origin and Distance produce groupings of NAs, then no imputation will be done (NAs will result).
h2o.impute(air, "DepTime", method = "mean", by = c("Dest"))
Dest mean_DepTime
1 ABE 1671.795
2 ABQ 1308.074
3 ACY 1651.095
4 ALB 1405.412
5 AMA 1404.333
6 ANC 2022.000
[134 rows x 2 columns]
# Revert the imputations
air <- h2o.importFile(filePath, "air")
# Impute a factor column by the most common factor in that column
h2o.impute(air, "TailNum", method = "mode")
[1] NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN 3499 NaN NaN NaN NaN
[16] NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN NaN
[31] NaN
# Revert imputations
air <- h2o.importFile(filePath, "air")
# Impute a factor column using a grouping based on the Month
h2o.impute(air, "TailNum", method = "mode", by=c("Month"))
Month mode_TailNum
1 1 3499
2 10 3499
import h2o
h2o.init()
# Import the airlines dataset
air_path = "https://s3.amazonaws.com/h2o-airlines-unpacked/allyears2k.csv"
air = h2o.import_file(path=air_path)
air.dim
[43978, 31]
# Mean impute the DepTime column based on the Origin and Distance columns
DeptTime_impute = air.impute("DepTime", method = "mean", by = ["Origin", "Distance"])
DeptTime_impute
Origin Distance mean_DepTime
-------- ---------- --------------
ABE 253 1149.7
ABE 481 812
ABQ 223 1229.33
ABQ 277 1565
ABQ 289 1529
ABQ 321 1267.06
ABQ 328 1301.85
ABQ 332 1655
ABQ 349 813.28
ABQ 487 1536.14
[1497 rows x 3 columns]
# Revert imputations
air = h2o.import_file(path=air_path)
# Mode impute the TailNum column
mode_impute = air.impute("TailNum", method = "mode")
mode_impute
[nan, nan, nan, nan, nan, nan, nan, nan, nan, nan, 3499.0, nan, nan, nan, nan, nan, nan, nan, nan, nan, nan, nan, nan, nan, nan, nan, nan, nan, nan, nan, nan]
# Revert imputations
air = h2o.import_file(path=air_path)
# Mode impute the TailNum column based on the Month and Year columns
mode_impute = air.impute("TailNum", method = "mode", by=["Month", "Year"])
mode_impute
Year Month mode_TailNum
------ ------- --------------
1987 10 3499
1988 1 3499
1989 1 3499
1990 1 3499
1991 1 3499
1992 1 3499
1993 1 3499
1994 1 3499
1995 1 3500
1996 1 672
[22 rows x 3 columns]