目录
MCMC(一)蒙特卡罗方法 https://www.cnblogs.com/emanlee/p/12356492.html
MCMC(二)马尔科夫链 https://www.cnblogs.com/emanlee/p/12357341.html
MCMC(三)MCMC采样和M-H采样 https://www.cnblogs.com/emanlee/p/12358022.html
MCMC(四)Gibbs采样 https://www.cnblogs.com/emanlee/p/12358194.html
import math import random import matplotlib.pyplot as plt from mpl_toolkits.mplot3d import Axes3D from scipy.stats import multivariate_normal samplesource = multivariate_normal(mean=[5,-1], cov=[[1,1],[1,4]]) def p_ygivenx(x, m1, m2, s1, s2): return (random.normalvariate(m2 + rho * s2 / s1 * (x - m1), math.sqrt((1 - rho ** 2) * (s2**2)))) def p_xgiveny(y, m1, m2, s1, s2): return (random.normalvariate(m1 + rho * s1 / s2 * (y - m2), math.sqrt((1 - rho ** 2) * (s1**2)))) N = 5000 K = 20 x_res = [] y_res = [] z_res = [] m1 = 5 m2 = -1 s1 = 1 s2 = 2 rho = 0.5 y = m2 for i in range(N): for j in range(K): x = p_xgiveny(y, m1, m2, s1, s2) y = p_ygivenx(x, m1, m2, s1, s2) z = samplesource.pdf([x,y]) x_res.append(x) y_res.append(y) z_res.append(z) num_bins = 50 plt.hist(x_res, num_bins, normed=1, facecolor='green', alpha=0.5) plt.hist(y_res, num_bins, normed=1, facecolor='red', alpha=0.5) plt.title('Histogram') plt.show()
然后我们看看样本集生成的二维正态分布,代码如下:
fig = plt.figure() ax = Axes3D(fig, rect=[0, 0, 1, 1], elev=30, azim=20) ax.scatter(x_res, y_res, z_res,marker='o') plt.show()
from
https://www.cnblogs.com/pinard/p/6645766.html
REF
https://blog.csdn.net/arcers/article/details/88732639
https://www.cnblogs.com/xbinworld/p/4266146.html
https://wenku.baidu.com/view/d57107bff9c75fbfc77da26925c52cc58bd690ee.html
https://www.plob.org/article/5061.html