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无标题文章

作者: 楚怀哲 | 来源:发表于2017-08-09 21:48 被阅读0次

    1 sklearn简单例子

    from sklearn import svm

    X = [[2, 0], [1, 1], [2,3]]
    y = [0, 0, 1]
    clf = svm.SVC(kernel = 'linear')
    clf.fit(X, y)

    print clf

    get support vectors

    print clf.support_vectors_

    get indices of support vectors

    print clf.support_

    get number of support vectors for each class

    print clf.n_support_

    2 sklearn画出决定界限

    print(doc)

    import numpy as np
    import pylab as pl
    from sklearn import svm

    we create 40 separable points

    np.random.seed(0)
    X = np.r_[np.random.randn(20, 2) - [2, 2], np.random.randn(20, 2) + [2, 2]]
    Y = [0] * 20 + [1] * 20

    fit the model

    clf = svm.SVC(kernel='linear')
    clf.fit(X, Y)

    get the separating hyperplane

    w = clf.coef_[0]
    a = -w[0] / w[1]
    xx = np.linspace(-5, 5)
    yy = a * xx - (clf.intercept_[0]) / w[1]

    plot the parallels to the separating hyperplane that pass through the

    support vectors

    b = clf.support_vectors_[0]
    yy_down = a * xx + (b[1] - a * b[0])
    b = clf.support_vectors_[-1]
    yy_up = a * xx + (b[1] - a * b[0])

    print "w: ", w
    print "a: ", a

    print " xx: ", xx

    print " yy: ", yy

    print "support_vectors_: ", clf.support_vectors_
    print "clf.coef_: ", clf.coef_

    In scikit-learn coef_ attribute holds the vectors of the separating hyperplanes for linear models. It has shape (n_classes, n_features) if n_classes > 1 (multi-class one-vs-all) and (1, n_features) for binary classification.

    In this toy binary classification example, n_features == 2, hence w = coef_[0] is the vector orthogonal to the hyperplane (the hyperplane is fully defined by it + the intercept).

    To plot this hyperplane in the 2D case (any hyperplane of a 2D plane is a 1D line), we want to find a f as in y = f(x) = a.x + b. In this case a is the slope of the line and can be computed by a = -w[0] / w[1].

    plot the line, the points, and the nearest vectors to the plane

    pl.plot(xx, yy, 'k-')
    pl.plot(xx, yy_down, 'k--')
    pl.plot(xx, yy_up, 'k--')

    pl.scatter(clf.support_vectors_[:, 0], clf.support_vectors_[:, 1],
    s=80, facecolors='none')
    pl.scatter(X[:, 0], X[:, 1], c=Y, cmap=pl.cm.Paired)

    pl.axis('tight')
    pl.show()

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