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Is it possible to have missing values in scikit-learn ? How should they be represented? I couldn't find any documentation about that.

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4 Answers 4

up vote 8 down vote accepted

Missing values are simply not supported in scikit-learn. There has been discussion on the mailing list about this before, but no attempt to actually write code to handle them.

Whatever you do, don't use NaN to encode missing values, since many of the algorithms refuse to handle samples containing NaNs.

The above answer is outdated; the latest release of scikit-learn has a class Imputer that does simple, per-feature missing value imputation. You can feed it arrays containing NaNs to have those replaced by the mean, median or mode of the corresponding feature.

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I just wanted to note that the randomforest handles nan values well –  Tobias Domhan Feb 2 '13 at 2:10
    
Is this still the case with GBM? Is there a reason the scikit learn version does not mirror the coding in R which deals gracefully with missing values? It is one of the attractive features of that algorithm and I wish it were coded as such in scikit. –  B_Miner Jul 1 '14 at 21:37
    
@B_Miner: it's the case for practically all scikit-learn estimators. Missing value handling is done separately from learning, but the two can be combined using a Pipeline. –  larsmans Jul 2 '14 at 8:33

I wish I could provide a simple example, but I have found that RandomForestRegressor does not handle nan's gracefully. Adding features with varying percentages of nan's my performance gets steadily worse. Features that have "too many" nan's are completely ignored, even with the nan's indicate very useful information.

AFAIK the algorithm will never create a split on the decision "isnan" or "ismissing". The algorithm will ignore the feature at a particular level of the tree if the feature has only one known value and the rest of the feature's values are nan/unknown.

I often replace nan's with zeros. I haven't yet tried more advanced imputation techniques (replace with mean/median, predict missing value's "true" value, etc.). The problem with replacing with zeros is that known values that are close to zero get lumped together with the replaced zeros when the algorithm tries to find a good place to split. If the closest known values are far from zero, then the "hope" is that the algorithm will be able to "split away" the zeros that represent nan's...

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I have come across very similar issue, when running the RandomForestRegressor on data. The presence of NA values were throwing out "nan" for predictions. From scrolling around several discussions, the Documentation by Breiman recommends two solutions for continuous and categorical data respectively.

  1. Calculate the Median of the data from the column(Feature) and use this (Continuous Data)
  2. Determine the most frequently occurring Category and use this (Categorical Data)

According to Breiman the random nature of the algorithm and the number of trees will allow for the correction without too much effect on the accuracy of the prediction. This I feel would be the case if the presence of NA values is sparse, a feature containing many NA values I think will most likely have an affect.

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Orange is another python machine learning library that has facilities dedicated to imputation. I have not had a chance to use them, but might be soon, since the simple methods of replacing nan's with zeros, averages, or medians all have significant problems.

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