Text segmentation is the process of dividing written text into meaningful units, such as words, sentences, or topics. The term applies both to mental processes used by humans when reading text, and to artificial processes implemented in computers, which are the subject of natural language processing. The problem is non-trivial, because while some written languages have explicit word boundary markers, such as the word spaces of written English and the distinctive initial, medial and final letter shapes of Arabic, such signals are sometimes ambiguous and not present in all written languages.
Compare speech segmentation, the process of dividing speech into linguistically meaningful portions.
See also: Word > Word boundary
Word segmentation is the problem of dividing a string of written language into its component words.
In English and many other languages using some form of the Latin alphabet, the space is a good approximation of a word divider (word delimiter). (Some examples where the space character alone may not be sufficient include contractions like can't for can not.)
However the equivalent to this character is not found in all written scripts, and without it word segmentation is a difficult problem. Languages which do not have a trivial word segmentation process include Chinese, Japanese, where sentences but not words are delimited, Thai and Lao, where phrases and sentences but not words are delimited, and Vietnamese, where syllables but not words are delimited.
In some writing systems however, such as the Ge'ez script used for Amharic and Tigrinya among other languages, words are explicitly delimited (at least historically) with a non-whitespace character.
The Unicode Consortium has published a Standard Annex on Text Segmentation, exploring the issues of segmentation in multiscript texts.
Word splitting is the process of parsing concatenated text (i.e. text that contains no spaces or other word separators) to infer where word breaks exist.
Word splitting may also refer to the process of hyphenation.
Sentence segmentation is the problem of dividing a string of written language into its component sentences. In English and some other languages, using punctuation, particularly the full stop character is a reasonable approximation. However even in English this problem is not trivial due to the use of the full stop character for abbreviations, which may or may not also terminate a sentence. For example Mr. is not its own sentence in "Mr. Smith went to the shops in Jones Street." When processing plain text, tables of abbreviations that contain periods can help prevent incorrect assignment of sentence boundaries.
As with word segmentation, not all written languages contain punctuation characters which are useful for approximating sentence boundaries.
Topic analysis consists of two main tasks: topic identiﬁcation and text segmentation. While the first is a simple classification of a specific text, the latter case implies that a document may contain multiple topics, and the task of computerized text segmentation may be to discover these topics automatically and segment the text accordingly. The topic boundaries may be apparent from section titles and paragraphs. In other cases, one needs to use techniques similar to those used in document classification.
Segmenting the text into topics or discourse turns might be useful in some natural processing tasks: it can improve information retrieval or speech recognition significantly (by indexing/recognizing documents more precisely or by giving the specific part of a document corresponding to the query as a result). It is also needed in Topic detection and Tracking systems and text summarizing problems.
Many different approaches have been tried: e.g. HMM, lexical chains, passage similarity using word co-occurrence, clustering etc.
It is quite an ambiguous task — people evaluating the text segmentation systems often differ in topic boundaries. Hence, evaluating is quite dubious problem too.
Other segmentation problems
Processes may be required to segment text into segments besides mentioned, including morphemes (a task usually called morphological analysis) or paragraphs.
Automatic segmentation approaches
Automatic segmentation is the problem in natural language processing of implementing a computer process to segment text.
When punctuation and similar clues are not consistently available, the segmentation task often requires fairly non-trivial techniques, such as statistical decision-making, large dictionaries, as well as consideration of syntactic and semantic constraints. Effective natural language processing systems and text segmentation tools usually operate on text in specific domains and sources. As an example, processing text used in medical records is a very different problem than processing news articles or real estate advertisements.
The process of developing text segmentation tools starts with collecting a large corpus of text in an application domain. There are two general approaches:
Manual analysis of text and writing custom software
Annotate the sample corpus with boundary information and use Machine Learning
Some text segmentation systems take advantage of any markup like HTML and know document formats like PDF to provide additional evidence for sentence and paragraph boundaries.
^ Freddy Y. Y. Choi (2000). "Proceedings of the 1st Meeting of the North American Chapter of the Association for Computational Linguistics (ANLP-NAACL-00)" (PDF). pp. 26–33.
Word Segment An open source software tool for word segmentation in Chinese.
Word Split An open source software tool designed to split conjoined words into human-readable text.
Stanford Segmenter An open source software tool for word segmentation in Chinese or morpheme segmentation in Arabic.
KyTea An open source software tool for word segmentation in Japanese and Chinese.
Chinese Notes A Chinese-English dictionary that also does word segmentation.
Zhihuita Segmentor A high precision and high performance Chinese segmentation freeware.
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