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What is the difference between markov chain models and hidden markov model? I've read in Wikipedia, but couldn't understand the differences.

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3 Answers 3

up vote 3 down vote accepted

A hidden Markov models is a double embedded stochastic process with two levels.

The upper level is a Markov process and the states are unobservable.

In fact, observation is a probabilistic function of the upper level Markov states.

Different Markov states will have different observation probabilistic functions.

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The entirity of this answer should be in quotation marks, referencing Rabiner's tutorial. –  Zhubarb Sep 12 '13 at 8:21

Markov Model is a State Machine with the state changes being probabilities, Hidden Markov Model you don't know the probabilities but you know the outcomes. like when you flip a coin you can get the probabilities, but if you couldn't see the flips and someone moves one of five fingers with each coin flip, you could take the finger movements and use a Hidden Markov Model to get the best Guess of coin flips.

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To explain by example, I'll use an example from natural language processing. Imagine you want to know the probability of this sentence:

I enjoy coffee

In a Markov model, you could estimate its probability by calculating:

P(WORD = I) x P(WORD = enjoy | PREVIOUS_WORD = I) x P(word = coffee| PREVIOUS_WORD = enjoy)

Now, imagine we wanted to know the parts-of-speech tags of this sentence, that is, if a word is a past tense verb, a noun, etc.

We did not observe any parts-of-speech tags in that sentence, but we assume they are there. Thus, we calculate what's the probability of the parts-of-speech tag sequence. In our case, the actual sequence is:


But wait! This is a sequence that we can apply a Markov model to. But we call it hidden, since the parts-of-speech sequence is never directly observed. Of course in practice, we will calculate many such sequences and we'd like to find the hidden sequence that best explains our observation (e.g. we are more likely to see words such as 'the', 'this', generated from the determiner (DET) tag)

The best explanation I have ever encountered is in a paper from 1989 by Lawrence R. Rabiner: http://www.cs.ubc.ca/~murphyk/Bayes/rabiner.pdf

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