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Is a finite state machine just an implementation of a Markov chain? What are the differences between the two?

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You may think a Markov chain as a FSM in which transitions are probability driven –  belisarius Feb 2 '11 at 21:54

6 Answers 6

up vote 27 down vote accepted

Markov chains can be represented by finite state machines. The idea is that a Markov chain describes a process in which the transition to a state at time t+1 depends only on the state at time t. The main thing to keep in mind is that the transitions in a Markov chain are probabilistic rather than deterministic, which means that you can't always say with perfect certainty what will happen at time t+1.

The Wikipedia articles on Finite-state machines has a subsection on Finite Markov-chain processes, I'd recommend reading that for more information. Also, the Wikipedia article on Markov chains has a brief sentence describing the use of finite state machines in representing a Markov chain. That states:

A finite state machine can be used as a representation of a Markov chain. Assuming a sequence of independent and identically distributed input signals (for example, symbols from a binary alphabet chosen by coin tosses), if the machine is in state y at time n, then the probability that it moves to state x at time n + 1 depends only on the current state.

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Whilst a Markov chain is a finite state machine, it is distinguished by its transitions being stochastic, i.e. random, and described by probabilities.

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Thanks for this, exactly what I was looking for. –  Stefan Mai Aug 16 '11 at 18:42

The two are similar, but the other explanations here are slightly wrong. Only FINITE Markov chains can be represented by a FSM. Markov chains allow for an infinite state space. As it was pointed out, the transitions of a Markov chain are described by probabilities, but it is also important to mention that the transition probabilities can only depend on the current state. Without this restriction, it would be called a "discrete time stochastic process".

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(+1) Good clarifying points worth making. Thanks –  Assad Ebrahim Jan 15 '13 at 17:25

Actually, what you are claiming here about a Markov chain is not 100% correct. What you referred here to is the "First-order Markov process". For a second-order Markov process, the next state will depend on the latest 2 time steps' states, ...... A state machine is a special case of a Markov chain; since a Markov chain is stochastic in nature. A state machine, as far as I know, is deterministic.

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Unqualified, the term Markov chain means a discrete-time stochastic process with the Markov property, which means that it doesn't depend on past states. The original poster didn't ask about higher-order Markov processes, so they aren't really that relevant. Finite state machine is generally a catch all term for finite automaton, these can be either deterministic or non-deterministic in nature. –  Tim Seguine Mar 8 '13 at 16:10

If leaving the inner working details aside, finite state machine is like a plain value, while markov chain is like a random variable (add probability on top of the plain value). So the answer to the original question is no, they are not the same. In the probabilistic sense, Markov chain is an extension of finite state machine.

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Please read these papers:

Links between Probabilistic Automata and Hidden Markov Models (By Pierre Dupont) http://www.info.ucl.ac.be/~pdupont/pdupont/pdf/HMM_PA_pres_n4.pdf

[The Handbook of Brain Theory and Neural Networks] Hidden Markov Models and other Finite State Automata for Sequence Processing http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.85.3344&rep=rep1&type=pdf

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