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EM算法实例

通过实例可以快速了解EM算法的基本思想,具体推导请点文末链接。图a是让我们预热的,图b是EM算法的实例。

这是一个抛硬币的例子,H表示正面向上,T表示反面向上,参数θ表示正面朝上的概率。硬币有两个,A和B,硬币是有偏的。本次实验总共做了5组,每组随机选一个硬币,连续抛10次。如果知道每次抛的是哪个硬币,那么计算参数θ就非常简单了,如

下图所示:

Python实现EM算法实例代码

如果不知道每次抛的是哪个硬币呢?那么,我们就需要用EM算法,基本步骤为:

"text-align: center">Python实现EM算法实例代码

计算过程详解:初始值θ_A^{(0)}θA(0)"color: #ff0000">Python实现

#coding=utf-8
from numpy import *
from scipy import stats
import time
start = time.perf_counter()

def em_single(priors,observations):
 """
 EM算法的单次迭代
 Arguments
 ------------
 priors:[theta_A,theta_B]
 observation:[m X n matrix]

 Returns
 ---------------
 new_priors:[new_theta_A,new_theta_B]
 :param priors:
 :param observations:
 :return:
 """
 counts = {'A': {'H': 0, 'T': 0}, 'B': {'H': 0, 'T': 0}}
 theta_A = priors[0]
 theta_B = priors[1]
 #E step
 for observation in observations:
  len_observation = len(observation)
  num_heads = observation.sum()
  num_tails = len_observation-num_heads
  #二项分布求解公式
  contribution_A = stats.binom.pmf(num_heads,len_observation,theta_A)
  contribution_B = stats.binom.pmf(num_heads,len_observation,theta_B)

  weight_A = contribution_A / (contribution_A + contribution_B)
  weight_B = contribution_B / (contribution_A + contribution_B)
  #更新在当前参数下A,B硬币产生的正反面次数
  counts['A']['H'] += weight_A * num_heads
  counts['A']['T'] += weight_A * num_tails
  counts['B']['H'] += weight_B * num_heads
  counts['B']['T'] += weight_B * num_tails

 # M step
 new_theta_A = counts['A']['H'] / (counts['A']['H'] + counts['A']['T'])
 new_theta_B = counts['B']['H'] / (counts['B']['H'] + counts['B']['T'])
 return [new_theta_A,new_theta_B]


def em(observations,prior,tol = 1e-6,iterations=10000):
 """
 EM算法
 :param observations :观测数据
 :param prior:模型初值
 :param tol:迭代结束阈值
 :param iterations:最大迭代次数
 :return:局部最优的模型参数
 """
 iteration = 0;
 while iteration < iterations:
  new_prior = em_single(prior,observations)
  delta_change = abs(prior[0]-new_prior[0])
  if delta_change < tol:
   break
  else:
   prior = new_prior
   iteration +=1
 return [new_prior,iteration]

#硬币投掷结果
observations = array([[1,0,0,0,1,1,0,1,0,1],
      [1,1,1,1,0,1,1,1,0,1],
      [1,0,1,1,1,1,1,0,1,1],
      [1,0,1,0,0,0,1,1,0,0],
      [0,1,1,1,0,1,1,1,0,1]])
print (em(observations,[0.6,0.5]))
end = time.perf_counter()
print('Running time: %f seconds'%(end-start))

总结

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python,em算法实现,python算法实现,python,em算法包

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