20

I have a dataset and I want to train my model on that data. After training, I need to know the features that are major contributors in the classification for a SVM classifier.

There is something called feature importance for forest algorithms, is there anything similar?

23

Yes, there is attribute coef_ for SVM classifier but it only works for SVM with linear kernel. For other kernels it is not possible because data are transformed by kernel method to another space, which is not related to input space, check the explanation.

from matplotlib import pyplot as plt
from sklearn import svm

def f_importances(coef, names):
    imp = coef
    imp,names = zip(*sorted(zip(imp,names)))
    plt.barh(range(len(names)), imp, align='center')
    plt.yticks(range(len(names)), names)
    plt.show()

features_names = ['input1', 'input2']
svm = svm.SVC(kernel='linear')
svm.fit(X, Y)
f_importances(svm.coef_, features_names)

And the output of the function looks like this: Feature importances

  • how to find feature importance for kernal other than linear, It would be great if you could post answer for the same – Jibin Mathew Jan 13 '17 at 5:55
  • 2
    I updated the answer, it is not possible for non-linear kernel. – Jakub Macina Jan 17 '17 at 17:53
  • what about weights with a high negative impact? – Raphael Schumann Mar 22 '18 at 19:46
  • For more genereic cases and to see the effects (in same cases negative effects) you can see this [question ](stackoverflow.com/a/49937090/7127519) – Rafael Valero Apr 20 '18 at 8:34
  • For other classifiers there is eli5 library for example. Here example to calculate too the weight for negative effects. @raphael-schumann – Rafael Valero Apr 20 '18 at 8:40
3

I created a solution which also works for Python 3 and is based on Jakub Macina's code snippet.

from matplotlib import pyplot as plt
from sklearn import svm

def f_importances(coef, names, top=-1):
    imp = coef
    imp, names = zip(*sorted(list(zip(imp, names))))

    # Show all features
    if top == -1:
        top = len(names)

    plt.barh(range(top), imp[::-1][0:top], align='center')
    plt.yticks(range(top), names[::-1][0:top])
    plt.show()

# whatever your features are called
features_names = ['input1', 'input2', ...] 
svm = svm.SVC(kernel='linear')
svm.fit(X_train, y_train)

# Specify your top n features you want to visualize.
# You can also discard the abs() function 
# if you are interested in negative contribution of features
f_importances(abs(clf.coef_[0]), feature_names, top=10)

Feature importance

2

In only one line of code:

fit an SVM model:

from sklearn import svm
svm = svm.SVC(gamma=0.001, C=100., kernel = 'linear')

and implement the plot as follows:

pd.Series(abs(svm.coef_[0]), index=features.columns).nlargest(10).plot(kind='barh')

The resuit will be:

the most contributing features of the SVM model in absolute values

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