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I'm trying to use sk-learn's RandomForestClassifier for a binary classification task (positive and negative examples). My training data contains 1.177.245 examples with 40 features, in SVM-light format (sparse vectors) which I load using sklearn.dataset's load_svmlight_file. It produces a sparse matrix of 'feature values' (1.177.245 * 40) and one array of 'target classes' (1s and 0s, 1.177.245 of them). I don't know whether this is worrysome, but the trainingdata has 3552 positives and the rest are all negative.

As the sk-learn's RFC doesn't accept sparse matrices, I convert the sparse matrix to a dense array (if I'm saying that right? Lots of 0s for absent features) using .toarray(). I print the matrix before and after converting to arrays and that seems to be going all right.

When I initiate the classifier and start fitting it to the data, it takes this long:

[Parallel(n_jobs=40)]: Done   1 out of  40 | elapsed: 24.7min remaining: 963.3min
[Parallel(n_jobs=40)]: Done  40 out of  40 | elapsed: 27.2min finished

(is that output right? Those 963 minutes take about 2 and a half...)

I then dump it using joblib.dump. When I re-load it:

RandomForestClassifier: RandomForestClassifier(bootstrap=True, compute_importances=True,
        criterion=gini, max_depth=None, max_features=auto,
        min_density=0.1, min_samples_leaf=1, min_samples_split=1,
        n_estimators=1500, n_jobs=40, oob_score=False,
        random_state=<mtrand.RandomState object at 0x2b2d076fa300>,

And test it on real trainingdata (consisting out of 750.709 examples, exact same format as training data) I get "unexpected" results. To be exact; only one of the examples in the testingdata is classified as true. When I train on half the initial trainingdata and test on the other half, I get no positives at all.

Now I have no reason to believe anything is wrong with what's happening, it's just that I get weird results, and furthermore I think it's all done awfully quick. It's probably impossible to make a comparison, but training a RFClassifier on the same data using rt-rank (also with 1500 iterations, but with half the cores) takes over 12 hours...

Can anyone enlighten me whether I have any reason to believe something is not working the way it's supposed to? Could it be the ratio of positives to negatives in the training data? Cheers.

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Actually I only looked up the exact ratio of positives-to-negatives when I was writing this down, and it seems quite plausible to me that thats the reason. Maybe my features aren't good enough to make a distinction between the large amount of negatives and the handful of positives? – dvdgrs Sep 10 '12 at 20:40
While there are techniques for handling unbalanced datasets in RF classifiers, I don't think any of them have been implemented in scikit-learn yet. – larsmans Sep 10 '12 at 22:09

1 Answer 1

up vote 3 down vote accepted

Indeed this dataset is very very imbalanced. I would advise you to subsample the negative examples (e.g. pick n_positive_samples of them at random) or to oversample the positive example (the latter is more expensive and but might yield better models).

Also are you sure that all your features are numerical features (larger values means something in real life)? If some of them are categorical integer markers, those feature should be exploded as one-of-k boolean encodings instead as scikit-learn implementation of random forest s cannot directly deal with categorical data.

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Indeed, the extreme imbalance does seem to be the cause of the 0-bias. I did a quick test by downsampling the negatives and duplicating the positives, and more positives were predicted. – dvdgrs Sep 12 '12 at 11:59
@ogrisel Is it possible to do this downsampling in scikit-learn? I don't seem to find the n_positive_samples parameter anywhere. – MaVe Jan 9 '14 at 7:51
There is no built-in resampler (yet) in scikit-learn but you can use standard numpy fancy indexing for that. – ogrisel Jan 9 '14 at 10:09

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