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The Viterbi algorithm was originally conceived as an [[error-correction]] scheme for noisy digital communication links, finding universal application in decoding the [[convolutional code]]s used in [[CDMA]] and [[GSM]] digital cellular, dial modems, satellite and deep-space communications, and [[802.11]] wireless LANs. It is now also commonly used in [[information theory]], [[speech recognition]], [[computational linguistics]], and [[bioinformatics]]. For example, in speech-to-text speech recognition, the acoustic signal is treated as the observed sequence of events, and a string of text is considered to be the "hidden cause" of the acoustic signal. The Viterbi algorithm finds the most likely string of text given the acoustic signal.
The algorithm is not general; it makes a number of assumptions. First, both the observed events and hidden events must be in a sequence. This sequence often corresponds to time. Second, these two sequences need to be aligned, and an observed event needs to correspond to exactly one hidden event. Third, computing the most likely hidden sequence up to a certain point ''t'' must only depend on the observed event at point ''t'', and the most likely sequence at point ''t''
The terms "Viterbi path" (or more generally "Viterbi ''foo''" if "path" is not appropriate) and "Viterbi algorithm" are also applied to related dynamic programming algorithms that discover the single most likely explanation for an observation. For example, in stochastic [[parser|parsing]] a dynamic programming algorithm can be used to discover the single most likely context-free derivation (parse) of a string, which is sometimes called the "Viterbi parse".
==A concrete example==
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