1.谱聚类
谱聚类过程:
上图说明:
对m个样本,计算相似度sij,由sij构成的矩阵W,再得到D。
实际使用时,优先考虑随机游走拉普拉斯矩阵。
2.代码案例
kmeans算法
# !/usr/bin/python # -*- coding:utf-8 -*- import numpy as np import matplotlib.pyplot as plt import sklearn.datasets as ds import matplotlib.colors from sklearn.cluster import KMeans def expand(a, b): d = (b - a) * 0.1 return a-d, b+d if __name__ == "__main__": N = 400 centers = 4 data, y = ds.make_blobs(N, n_features=2, centers=centers, random_state=2) data2, y2 = ds.make_blobs(N, n_features=2, centers=centers, cluster_std=(1,2.5,0.5,2), random_state=2) data3 = np.vstack((data[y == 0][:], data[y == 1][:50], data[y == 2][:20], data[y == 3][:5])) y3 = np.array([0] * 100 + [1] * 50 + [2] * 20 + [3] * 5) cls = KMeans(n_clusters=4, init='k-means++') y_hat = cls.fit_predict(data) y2_hat = cls.fit_predict(data2) y3_hat = cls.fit_predict(data3) m = np.array(((1, 1), (1, 3))) data_r = data.dot(m) y_r_hat = cls.fit_predict(data_r) matplotlib.rcParams['font.sans-serif'] = [u'SimHei'] matplotlib.rcParams['axes.unicode_minus'] = False cm = matplotlib.colors.ListedColormap(list('rgbm')) plt.figure(figsize=(9, 10), facecolor='w') plt.subplot(421) plt.title(u'原始数据') plt.scatter(data[:, 0], data[:, 1], c=y, s=30, cmap=cm, edgecolors='none') x1_min, x2_min = np.min(data, axis=0) x1_max, x2_max = np.max(data, axis=0) x1_min, x1_max = expand(x1_min, x1_max) x2_min, x2_max = expand(x2_min, x2_max) plt.xlim((x1_min, x1_max)) plt.ylim((x2_min, x2_max)) plt.grid(True) plt.subplot(422) plt.title(u'KMeans++聚类') plt.scatter(data[:, 0], data[:, 1], c=y_hat, s=30, cmap=cm, edgecolors='none') plt.xlim((x1_min, x1_max)) plt.ylim((x2_min, x2_max)) plt.grid(True) plt.subplot(423) plt.title(u'旋转后数据') plt.scatter(data_r[:, 0], data_r[:, 1], c=y, s=30, cmap=cm, edgecolors='none') x1_min, x2_min = np.min(data_r, axis=0) x1_max, x2_max = np.max(data_r, axis=0) x1_min, x1_max = expand(x1_min, x1_max) x2_min, x2_max = expand(x2_min, x2_max) plt.xlim((x1_min, x1_max)) plt.ylim((x2_min, x2_max)) plt.grid(True) plt.subplot(424) plt.title(u'旋转后KMeans++聚类') plt.scatter(data_r[:, 0], data_r[:, 1], c=y_r_hat, s=30, cmap=cm, edgecolors='none') plt.xlim((x1_min, x1_max)) plt.ylim((x2_min, x2_max)) plt.grid(True) plt.subplot(425) plt.title(u'方差不相等数据') plt.scatter(data2[:, 0], data2[:, 1], c=y2, s=30, cmap=cm, edgecolors='none') x1_min, x2_min = np.min(data2, axis=0) x1_max, x2_max = np.max(data2, axis=0) x1_min, x1_max = expand(x1_min, x1_max) x2_min, x2_max = expand(x2_min, x2_max) plt.xlim((x1_min, x1_max)) plt.ylim((x2_min, x2_max)) plt.grid(True) plt.subplot(426) plt.title(u'方差不相等KMeans++聚类') plt.scatter(data2[:, 0], data2[:, 1], c=y2_hat, s=30, cmap=cm, edgecolors='none') plt.xlim((x1_min, x1_max)) plt.ylim((x2_min, x2_max)) plt.grid(True) plt.subplot(427) plt.title(u'数量不相等数据') plt.scatter(data3[:, 0], data3[:, 1], s=30, c=y3, cmap=cm, edgecolors='none') x1_min, x2_min = np.min(data3, axis=0) x1_max, x2_max = np.max(data3, axis=0) x1_min, x1_max = expand(x1_min, x1_max) x2_min, x2_max = expand(x2_min, x2_max) plt.xlim((x1_min, x1_max)) plt.ylim((x2_min, x2_max)) plt.grid(True) plt.subplot(428) plt.title(u'数量不相等KMeans++聚类') plt.scatter(data3[:, 0], data3[:, 1], c=y3_hat, s=30, cmap=cm, edgecolors='none') plt.xlim((x1_min, x1_max)) plt.ylim((x2_min, x2_max)) plt.grid(True) plt.tight_layout(2) plt.suptitle(u'数据分布对KMeans聚类的影响', fontsize=18) # https://github.com/matplotlib/matplotlib/issues/829 plt.subplots_adjust(top=0.92) plt.show()
运行结果:
