Bigram

A bigram or digram is a sequence of two adjacent elements from a string of tokens, which are typically letters, syllables, or words. A bigram is an n-gram for n=2. The frequency distribution of every bigram in a string is commonly used for simple statistical analysis of text in many applications, including in computational linguistics, cryptography, speech recognition, and so on.

Gappy bigrams or skipping bigrams are word pairs which allow gaps (perhaps avoiding connecting words, or allowing some simulation of dependencies, as in a dependency grammar).

Head word bigrams are gappy bigrams with an explicit dependency relationship.

Bigrams help provide the conditional probability of a token given the preceding token, when the relation of the conditional probability is applied:

$P(W_{n}|W_{n-1})={P(W_{n-1},W_{n}) \over P(W_{n-1})}$

That is, the probability $P()$ of a token $W_{n}$ given the preceding token $W_{n-1}$ is equal to the probability of their bigram, or the co-occurrence of the two tokens $P(W_{n-1},W_{n})$ , divided by the probability of the preceding token.

Applications[edit]

Bigrams are used in most successful language models for speech recognition.^[1] They are a special case of N-gram.

Bigram frequency attacks can be used in cryptography to solve cryptograms. See frequency analysis.

Bigram frequency is one approach to statistical language identification.

Some activities in logology or recreational linguistics involve bigrams. These include attempts to find English words beginning with every possible bigram,^[2] or words containing a string of repeated bigrams, such as logogogue.^[3]

Bigram frequency in the English language[edit]

The frequency of the most common letter bigrams in a small English corpus is:^[4]

th 1.52       en 0.55       ng 0.18
he 1.28       ed 0.53       of 0.16
in 0.94       to 0.52       al 0.09
er 0.94       it 0.50       de 0.09
an 0.82       ou 0.50       se 0.08
re 0.68       ea 0.47       le 0.08
nd 0.63       hi 0.46       sa 0.06
at 0.59       is 0.46       si 0.05
on 0.57       or 0.43       ar 0.04
nt 0.56       ti 0.34       ve 0.04
ha 0.56       as 0.33       ra 0.04
es 0.56       te 0.27       ld 0.02
st 0.55       et 0.19       ur 0.02

Complete bigram frequencies for a larger corpus are available.^[5]

References[edit]

^ Collins, Michael John (1996-06-24). "A new statistical parser based on bigram lexical dependencies". Association for Computational Linguistics: 184–191. doi:10.3115/981863.981888. Retrieved 2018-10-09.
^ Cohen, Philip M. (1975). "Initial Bigrams". Word Ways. 8 (2). Retrieved 11 September 2016.
^ Corbin, Kyle (1989). "Double, Triple, and Quadruple Bigrams". Word Ways. 22 (3). Retrieved 11 September 2016.
^ Cornell Math Explorer's Project – Substitution Ciphers
^ Jones, Michael N; D J K Mewhort (August 2004). "Case-sensitive letter and bigram frequency counts from large-scale English corpora". Behavior Research Methods, Instruments, and Computers. 36 (3): 388–396. ISSN 0743-3808. PMID 15641428.

[1] Collins, Michael John (1996-06-24). "A new statistical parser based on bigram lexical dependencies". Association for Computational Linguistics: 184–191. doi:10.3115/981863.981888. Retrieved 2018-10-09.

[2] Cohen, Philip M. (1975). "Initial Bigrams". Word Ways. 8 (2). Retrieved 11 September 2016.

[3] Corbin, Kyle (1989). "Double, Triple, and Quadruple Bigrams". Word Ways. 22 (3). Retrieved 11 September 2016.

[4] Cornell Math Explorer's Project – Substitution Ciphers

[5] Jones, Michael N; D J K Mewhort (August 2004). "Case-sensitive letter and bigram frequency counts from large-scale English corpora". Behavior Research Methods, Instruments, and Computers. 36 (3): 388–396. ISSN 0743-3808. PMID 15641428.

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v t e Natural language processing
General terms	Natural language understanding Text corpus Speech corpus Stopwords Bag-of-words AI-complete n-gram (Bigram, Trigram)
Text analysis	Text segmentation Part-of-speech tagging Text chunking Compound term processing Collocation extraction Stemming Lemmatisation Named-entity recognition Coreference resolution Sentiment analysis Concept mining Parsing Word-sense disambiguation Ontology learning Terminology extraction Truecasing
Automatic summarization	Multi-document summarization Sentence extraction Text simplification
Machine translation	Computer-assisted Example-based Rule-based Neural
Automatic identification and data capture	Speech recognition Speech synthesis Optical character recognition Natural language generation
Topic model	Pachinko allocation Latent Dirichlet allocation Latent semantic analysis
Computer-assisted reviewing	Automated essay scoring Concordancer Grammar checker Predictive text Spell checker Syntax guessing
Natural language user interface	Automated online assistant Chatbot Interactive fiction Question answering Voice user interface

Bigram

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Applications[edit]

Bigram frequency in the English language[edit]

See also[edit]

References[edit]

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