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I know that feature selection helps me remove features that may have low contribution. I know that PCA helps reduce possibly correlated features into one, reducing the dimensions. I know that normalization transforms features to the same scale.

But is there a recommended order to do these three steps? Logically I would think that I should weed out bad features by feature selection first, followed by normalizing them, and finally use PCA to reduce dimensions and make the features as independent from each other as possible.

Is this logic correct?

Bonus question - are there any more things to do (preprocess or transform) to the features before feeding them into the estimator?

  • 3
    this question is not directly related to scikit-learn but rather to the theory of machine-learning and therefore belongs to Cross Validated. Anyways, the correct answer should be: it depends. Typically a Feature Selection step comes after the PCA (with a optimization parameter describing the number of features and Scaling comes before PCA. However, depending on the problem this my change. You might want to apply PCA only on a subset of features. Some Algorithms don't require the data to be normalized etc. – Quickbeam2k1 Sep 5 '17 at 20:29
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If I were doing a classifier of some sort I would personally use this order

  1. Normalization
  2. PCA
  3. Feature Selection

Normalization: You would do normalization first to get data into reasonable bounds. If you have data (x,y) and the range of x is from -1000 to +1000 and y is from -1 to +1 You can see any distance metric would automatically say a change in y is less significant than a change in X. we don't know that is the case yet. So we want to normalize our data.

PCA: Uses the eigenvalue decomposition of data to find an orthogonal basis set that describes the variance in data points. If you have 4 characteristics, PCA can show you that only 2 characteristics really differentiate data points which brings us to the last step

Feature Selection: once you have a coordinate space that better describes your data you can select which features are salient.Typically you'd use the largest eigenvalues(EVs) and their corresponding eigenvectors from PCA for your representation. Since larger EVs mean there is more variance in that data direction, you can get more granularity in isolating features. This is a good method to reduce number of dimensions of your problem.

of course this could change from problem to problem, but that is simply a generic guide.

  • This makes sense. My logic was completely out of order :D. Thank you! – shikhanshu Sep 5 '17 at 20:45
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Generally speaking, Normalization is needed before PCA. The key to the problem is the order of feature selection, and it's depends on the method of feature selection.

A simple feature selection is to see whether the variance or standard deviation of the feature is small. If these values are relatively small, this feature may not help the classifier. But if you do normalization before you do this, the standard deviation and variance will become smaller (generally less than 1), which will result in very small differences in std or var between the different features.If you use zero-mean normalization, the mean of all the features will equal 0 and std equals 1.At this point, it might be bad to do normalization before feature selection

Feature selection is flexible, and there are many ways to select features. The order of feature selection should be chosen according to the actual situation

  • Good point. I will try feature selection both before and after normalization (doing PCA AFTER normalization in both cases) and see how this fares on the data I have. Thank you for the insight! – shikhanshu Sep 6 '17 at 16:31

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