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I am using the library scikit-learn to perform Ridge Regression with weights on individual samples. This can be done by: esimator.fit(X, y, sample_weight=some_array). Intuitively, I expect that larger weights mean larger relevance for the corresponding sample.

However, I tested the method above on the following 2-D example:

    from sklearn import linear_model
    import numpy
    import matplotlib.pyplot as plt

    #Data
    x= numpy.array([[0], [1],[2]])
    y= numpy.array([[0], [2],[2]])
    sample_weight = numpy.array([1,1, 1])
    #Ridge regression
    clf = linear_model.Ridge(alpha = 0.1)
    clf.fit(x, y, sample_weight = sample_weight)
    #Plot
    xp = numpy.linspace(-1,3)
    yp=list()
    for x_i in xp:    
        yp.append(clf.predict(x_i)[0,0])
    plt.plot(xp,yp)
    plt.hold(True)
    x = list(x)
    y = list(y)
    plt.plot(x,y,'or')

I run this code, and I run it again doubling the weight of the first sample:

sample_weight = numpy.array([2,1, 1])

The resulting lines get away from the sample that has larger weight. This is counter-intuitive since I expect that the sample with larger weight has larger relevance.

Am I using wrongly the library, or is it there an error in it?

share|improve this question
    
Have you tried doing the opposite. Maybe the weights are inverted. I've found similar things in the logistic regression class. Try to set it to numpy.array([0.5,1,1]). – Alex S Jul 15 '13 at 9:05
1  
Thanks, this is what I am planning to do. However, I would like to understand why the weights are inverted. – Marco Jul 15 '13 at 11:26
    
Well, same here. The documentation for a lot of methods in sklearn is discouragingly simple. – Alex S Jul 16 '13 at 13:13

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