# finite state transducer?

Can someone please tell me what a finite state transducer is?

And by the way I read the wiki article and didn't understand a thing. :(

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What did you not understand? Do you understand what a finite state machine is? –  Felix Kling Feb 2 '11 at 8:19
yes but what is a tranducer. It has a output alphabet and input alphabet ? What is it supposed to do ? –  user581734 Feb 2 '11 at 8:27

A finite state transducer (FST) is a finite state automaton (FSA, FA) which produces output as well as reading input, which means it is useful for parsing (while a "bare" FSA can only be used for recognizing, i.e. pattern matching).

An FST consists of a finite number of states which are linked by transitions labeled with an input/output pair. The FST starts out in a designated start state and jumps to different states depending on the input, while producing output according to its transition table.

FSTs are useful in NLP and speech recognition because they have nice algebraic properties, most notably that they can be freely combined (form an algebra) under composition, which implements relational composition on regular relations (think of this as non-deterministic function composition) while staying very compact. FSTs can do parsing of regular languages into strings in linear time.

As an example, I once implemented morphological parsing as a bunch of FSTs. My main FST for verbs would turn a regular verb, say "walked", into "walk+PAST". I also had an FST for the verb "to be", which would turn "is" into "be+PRESENT+3rd" (3rd person), and similarly for other irregular verbs. All the FSTs were combined into a single one using an FST compiler, which produced a single FST that was much smaller than the sum of its parts and ran very fast. FSTs can be built by a variety of tools that accept an extended regular expression syntax.

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since there is a input and output alphabet do we use it to transform a input to a output ? –  user581734 Feb 2 '11 at 14:14
Yes. Note that the input and output alphabets need not be the same: input may be, say, Unicode, while output may be some binary format. –  larsmans Feb 2 '11 at 14:21
is it something like a translator ? –  user581734 Feb 2 '11 at 15:25
It defines a relation between two sets of strings. –  larsmans Feb 2 '11 at 15:26
A finite transducer is not an automaton (acceptor), because it lacks any semantics (acceptance condition/annotation). The term "finite automaton" can be confusing above. The distinction is more pronounced in the context of infinite-word languages. For more see stackoverflow.com/a/24950898/1959808 –  Ioannis Filippidis Jul 25 '14 at 8:14

I found this to be a quick helpful overview: http://blog.mikemccandless.com/2010/12/using-finite-state-transducers-in.html

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Note that link-only answers are discouraged, SO answers should be the end-point of a search for a solution (vs. yet another stopover of references, which tend to get stale over time). Please consider adding a stand-alone synopsis here, keeping the link as a reference. –  kleopatra Feb 20 '14 at 12:30

A finite state transducer essentially is a finite state automaton that works on two (or more) tapes. The most common way to think about transducers is as a kind of ``translating machine''. They read from one of the tapes and write onto the other. This, for instance, is a transducer that translates as into bs:

a:b at the arc means that in this transition the transducer reads a from the first tape and writes b onto the second.

Finite State Transducers

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