# Classification using Naive Bayes

I am trying to Classify a sample using Naive Bayes. My sample size is 2.8million records, 90% of the records have Class Label(dependent variable) = "0" and the rest have it as "1". The distribution in the testing set is also the same(90% - 10%) The Naive Bayes Classifier labels the entire testing set to "0". How do I deal with this case? Are there any other Algorithms which can be implemented in such cases.

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Have you tried SVM? –  fl00r Nov 19 '13 at 10:40
In practice the independent feature assumption does not usually hold, so NB is a bit hit and miss as to what it works with. I've recently completed a project using random forests, which performed significantly better than NB. –  Tim Nov 19 '13 at 10:41
this question can also be asked at stats.stackexchange.com –  alko Nov 27 '13 at 8:31

Your problem may or may not be solved by using a better classifier. The issue here is that your problem is unbalanced. If the data is non-separable then 90% accuracy might represent good performance, which the classifier achieves by always making the same prediction. If this is not the behaviour you want, you should make use of a cost function or resample from your positives so that you have a more even number of positives.

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There are dozens of classifiers, including:

• Logistic regression
• SVM
• Decision tree
• Neural Network
• Random forest
• many, meny more...

most of which can handle class disproportions using some custom technique, for example in SVM it is a "class weighting" (avaliable in scikit-learn).

So why does NB fail? Naive Bayes is very Naive, it assumes independence of each feature, which is rarely the case, so it is just a simple idea to understand, but very weak classifier in general.

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Thanks for the suggestions... I will try checking the others. :) –  user1946217 Nov 19 '13 at 10:58

Almost all classification methods actually don't return a binary result, but a propensity score (usually between 0 and 1) of how likely the given case falls within the category. Binary results are then created by picking a cut-off point, usually at .5.

When you want to identify rare cases using weak predictors any classification method may be unable to find cases with a propensity score higher than .5 resulting in all 0s as in your case.

There are 3 things you can do in such a situation:

• I recommend finding stronger predictors if at all possible
• A different statistical method like may be better at identifying patterns in your data set
• Lowering the cut-off point will increase the number of true positives at the expense of more false positives
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