How to find the importance of the features for a logistic regression model?
PythonMachine LearningScikit LearnLogistic RegressionPython Problem Overview
I have a binary prediction model trained by logistic regression algorithm. I want know which features(predictors) are more important for the decision of positive or negative class. I know there is coef_ parameter comes from the scikit-learn package, but I don't know whether it is enough to for the importance. Another thing is how I can evaluate the coef_ values in terms of the importance for negative and positive classes. I also read about standardized regression coefficients and I don't know what it is.
Lets say there are features like size of tumor, weight of tumor, and etc to make a decision for a test case like malignant or not malignant. I want to know which of the features are more important for malignant and not malignant prediction. Does it make sort of sense?
Python Solutions
Solution 1 - Python
One of the simplest options to get a feeling for the "influence" of a given parameter in a linear classification model (logistic being one of those), is to consider the magnitude of its coefficient times the standard deviation of the corresponding parameter in the data.
Consider this example:
import numpy as np
from sklearn.linear_model import LogisticRegression
x1 = np.random.randn(100)
x2 = 4*np.random.randn(100)
x3 = 0.5*np.random.randn(100)
y = (3 + x1 + x2 + x3 + 0.2*np.random.randn()) > 0
X = np.column_stack([x1, x2, x3])
m = LogisticRegression()
m.fit(X, y)
# The estimated coefficients will all be around 1:
print(m.coef_)
# Those values, however, will show that the second parameter
# is more influential
print(np.std(X, 0)*m.coef_)
An alternative way to get a similar result is to examine the coefficients of the model fit on standardized parameters:
m.fit(X / np.std(X, 0), y)
print(m.coef_)
Note that this is the most basic approach and a number of other techniques for finding feature importance or parameter influence exist (using p-values, bootstrap scores, various "discriminative indices", etc).
I am pretty sure you would get more interesting answers at https://stats.stackexchange.com/.