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算法:HMM模型+维特比算法详解

时间:2017-05-29 23:29:05      阅读:449      评论:0      收藏:0      [点我收藏+]

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一、HMM模型+维特比算法实例

1、问题描述

假设连续观察3天的海藻湿度为(Dry,Damp,Soggy),求这三天最可能的天气情况。

2、已知信息

①天气只有三类(Sunny,Cloudy,Rainy),海藻湿度有四类{Dry,Dryish, Damp,Soggy },而且海藻湿度和天气有一定的关系。

②隐藏的状态:Sunny, Cloudy, Rainy;

③观察状态序列:{Dry, Damp, Soggy}

④初始状态序列:

Sunny

Cloudy

Rainy

0.63

0.17

0.20

 

⑤状态转移矩阵:

 

Sunny

Cloudy

Rainy

Sunny

0.5

0.375

0.125

Cloudy

0.25

0.125

0.625

Rainy

0.25

0.375

0.375

 

⑥发射矩阵:

 

Dry

Dryish

Damp

Soggy

Sunny

0.6

0.2

0.15

0.05

Cloudy

0.25

0.25

0.25

0.25

Rainy

0.05

0.10

0.35

0.5

 

3、分析

  由一阶HMM可知,Day2的天气仅取决于Day1;Day3的天气又只取决于Day2的天气。

4、计算过程

(1)Day1由于是初始状态,我们分别求

P(Day1-Sunny)=0.63*0.6;

P(Day1-Cloudy)=0.17*0.25;

P(Day1-Rain)=0.20*0.05;

Choose max{ P(Day1-Sunny) , P(Day1-Cloudy),P(Day1-Rainy)}, 得到P(Day1-Sunny)最大,得出第1天Sunny的概率最大。

(2)Day2的天气又取决于Day1的天气状况,同时也受Day2观察的海藻情况影响。

P(Day2-Sunny)= max{ P(Day1-Sunny)*0.5, P(Day1-Cloudy)*0.25,  P(Day1-Rainy)*0.25} *0.15;

P(Day2-Cloudy)= max{ P(Day1-Sunny)*0.375,  P(Day1-Cloudy)*0.125, P(Day1-Rainy)*0.625} *0.25;

P(Day2-Rainy)= max{ P(Day1-Sunny)*0.125,  P(Day1-Cloudy)*0.625 , P(Day1-Rainy)*0.375} *0.35;

Choosemax{ P(Day2-Sunny) , P(Day2-Cloudy), P(Day2-Rainy)},得到P(Day2-Cloudy)最大,得出第2天Cloudy的概率最大。

故{Sunny,Cloudy}是前两天最大可能的天气序列。

(3)Day3的天气又取决于Day2的天气状况,同时也受Day3观察的海藻情况影响。

  P(Day3-Sunny)= max{ P(Day2-Sunny)*0.5, P(Day2-Cloudy)*0.25,  P(Day2-Rainy)*0.25} *0.05;

  P(Day3-Cloudy)= max{ P(Day2-Sunny)*0.375,  P(Day2-Cloudy)*0.125, P(Day2-Rainy)*0.625} *0.25;

  P(Day3-Rainy)= max{ P(Day2-Sunny)*0.125,  P(Day2-Cloudy)*0.625, P(Day2-Rainy)*0.375} *0. 05;

 

  Choosemax{ P(Day3-Sunny) , P(Day3-Cloudy), P(Day3-Rainy)},得到P(Day3-Rainy)最大,得出第3天Rainy的概率最大。故{Sunny,Cloudy,Rainy}是这三天最可能的天气序列。

5.Python代码

技术分享
 1 #-*- coding:utf-8 -*-
 2 __author__ = Administrator
 3 
 4 init_vec={"sunny":0.63,"cloudy":0.17,"rainy":0.20}
 5 trans_mat={"sunny":{"sunny":0.5,"cloudy":0.375,"rainy":0.125},
 6            "cloudy":{"sunny":0.25,"cloudy":0.125,"rainy":0.625},
 7            "rainy":{"sunny":0.25,"cloudy":0.375,"rainy":0.375}}
 8 emit_mat={"sunny":{"dry":0.6,"dryish":0.2,"damp":0.15,"soggy":0.05},
 9           "cloudy":{"dry":0.25,"dryish":0.25,"damp":0.25,"soggy":0.25},
10           "rainy":{"dry":0.05,"dryish":0.10,"damp":0.35,"soggy":0.50}}
11 observes=["dry","damp","soggy"]
12 states=["sunny","cloudy","rainy"]
13 
14 #列表中包含字典,就相当于二阶列表使用
15 tab=[{}] #只有一行
16 path=[{}]
17 for t in range(len(observes)):
18     #print(t)
19     if t==0:
20         temp=[]
21         for state in states:
22             prob=init_vec[state]*emit_mat[state].get(observes[t])
23             tab[0][state]=prob
24             temp.append((prob,state))
25         best_prob,best_state=max(temp,key=lambda x:x[0])
26         path[0][best_state]=best_prob
27     else:
28         tab.append({})
29         path.append({})
30         temp=[]
31         for state1 in states:
32             item=[]
33             for state2 in states:
34                 prob=tab[t-1][state2]*trans_mat[state2].get(state1)*emit_mat[state1].get(observes[t])
35                 item.append((prob,state2))
36             best_prob,best_state=max(item,key=lambda x:x[0])
37             tab[t][state1]=best_prob
38             temp.append((best_prob,state1))
39         best_prob,best_state=max(temp,key=lambda x:x[0])
40         path[t][best_state]=best_prob
41 print(tab)
42 print(path)
View Code

输出结果:

[{‘rainy‘: 0.010000000000000002, ‘cloudy‘: 0.0425, ‘sunny‘: 0.378}, {‘rainy‘: 0.0165375, ‘cloudy‘: 0.0354375, ‘sunny‘: 0.02835}, {‘rainy‘: 0.01107421875, ‘cloudy‘: 0.0026578125, ‘sunny‘: 0.0007087500000000001}]


[{‘sunny‘: 0.378}, {‘cloudy‘: 0.0354375}, {‘rainy‘: 0.01107421875}]

 

算法:HMM模型+维特比算法详解

标签:序列   nis   span   log   str   最可   one   body   get   

原文地址:http://www.cnblogs.com/yizhenfeng168/p/6918606.html

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