Google Ngram Viewer

The Google Ngram Viewer or Google Books Ngram Viewer is an online search engine that charts frequencies of any set of comma-delimited search strings using a yearly count of n-grams found in sources printed between 1500 and 2008[1][2][3][4][5] in Google's text corpora in American English, British English, French, German, Spanish, Russian, Hebrew, or Chinese,[2][6] generated in either 2008 or 2012; there are also some specialized English-language corpora, such as English Fiction.[7] Lacking an independent corpus, Italian words are counted by their use in other languages.

The program can search for a single word or a phrase, including misspellings or gibberish.[6] The n-grams are matched with the text within the selected corpus, optionally using case-sensitive spelling (which compares the exact use of uppercase letters),[3] and, if found in 40 or more books, are then plotted on a graph.[8]

The Ngram Viewer as of January 2016 supports searches for parts of speech and wildcards.[7]

History

The program was developed by Jon Orwant and Will Brockman and released in mid-December 2010.[2][4] It was inspired by a prototype (called "Bookworm") created by Jean-Baptiste Michel and Erez Aiden from Harvard's Cultural Observatory and Yuan Shen from MIT and Steven Pinker.[9]

The Ngram Viewer was initially based on the 2009 edition of the Google Books Ngram Corpus. As of January 2016, the program can search an individual language's corpus within the 2009 or the 2012 edition. Although the latter edition has various new features, it only includes source texts within the same range of years as the former: through 2008 and not beyond.

Research based on the Ngram Corpus (that is, the databases of text from the scanned books) has included the finding of correlations between the emotional output and significant events in the 20th century such as World War II[10] or to check and challenge popular trend statements such as the secularisation or economisation of modern societies.[11][12] With such results, the Viewer and its corpora are useful for research in the digital humanities.

Operation and restrictions

Commas delimit user-entered search-terms, indicating each separate word or phrase to find.[8] The Ngram Viewer returns a plotted line chart within seconds of the user pressing the Enter key or the "Search" button on the screen.

As an adjustment for more books having been published during some years, the data is normalized, as a relative level, by the number of books published in each year.[8]

Google populated the database from over 5 million books published up to 2008. Accordingly, as of January 2016, no data will match beyond the year 2008, no matter if the corpora was generated in 2009 or 2012. Due to limitations on the size of the Ngram database, only matches found in over 40 books are indexed in the database; otherwise the database could not have stored all possible combinations.[8]

Typically, search terms cannot end with punctuation, although a separate full stop (a period) can be searched.[8] Also, an ending question mark (as in "Why?") will cause a 2nd search for the question mark separately.[8]

Omitting the periods in abbreviations will allow a form of matching, such as using "R M S" to search for "R.M.S." versus "RMS".

Corpora

The corpora used for the search are composed of total_counts, 1-grams, 2-grams, 3-grams, 4-grams, and 5-grams files for each language. The file format of each of the files is tab-separated data. Each line has the following format:[13]

year TAB match_count TAB page_count TAB volume_count NEWLINE
ngram TAB year TAB match_count TAB page_count TAB volume_count NEWLINE
ngram TAB year TAB match_count TAB volume_count NEWLINE

The Google Ngram Viewer uses match_count to plot the graph.

As an example, a word "Wikipedia" from the Version 2 file of the English 1-grams is stored as follows:[14]

ngram year match_count volume_count
Wikipedia 1904 1 1
Wikipedia 1912 11 1
Wikipedia 1924 1 1
Wikipedia 1925 11 1
Wikipedia 1929 11 1
Wikipedia 1943 11 1
Wikipedia 1946 11 1
Wikipedia 1947 11 1
Wikipedia 1949 11 1
Wikipedia 1951 11 1
Wikipedia 1953 22 2
Wikipedia 1955 11 1
Wikipedia 1958 1 1
Wikipedia 1961 22 2
Wikipedia 1964 22 2
Wikipedia 1965 11 1
Wikipedia 1966 15 2
Wikipedia 1969 33 3
Wikipedia 1970 129 4
Wikipedia 1971 44 4
Wikipedia 1972 22 2
Wikipedia 1973 1 1
Wikipedia 1974 2 1
Wikipedia 1975 33 3
Wikipedia 1976 11 1
Wikipedia 1977 13 3
Wikipedia 1978 11 1
Wikipedia 1979 112 12
Wikipedia 1980 13 4
Wikipedia 1982 11 1
Wikipedia 1983 3 2
Wikipedia 1984 48 3
Wikipedia 1985 37 3
Wikipedia 1986 6 4
Wikipedia 1987 13 2
Wikipedia 1988 14 3
Wikipedia 1990 12 2
Wikipedia 1991 8 5
Wikipedia 1992 1 1
Wikipedia 1993 1 1
Wikipedia 1994 23 3
Wikipedia 1995 4 1
Wikipedia 1996 23 3
Wikipedia 1997 6 1
Wikipedia 1998 32 10
Wikipedia 1999 39 11
Wikipedia 2000 43 12
Wikipedia 2001 59 14
Wikipedia 2002 105 19
Wikipedia 2003 149 53
Wikipedia 2004 803 285
Wikipedia 2005 2964 911
Wikipedia 2006 9818 2655
Wikipedia 2007 20017 5400
Wikipedia 2008 33722 6825

The graph plotted by the Google Ngram Viewer using the above data is here.

Criticism

The data set has been criticized for its reliance upon inaccurate OCR, an overabundance of scientific literature, and for including large numbers of incorrectly dated and categorized texts.[15][16] Another issue is that the corpus is in effect a library, containing one of each book. A single, prolific author is thereby able to noticeably insert new phrases into the Google Books lexicon, whether the author is widely read or not.[17]

OCR Issues

Optical character recognition, or OCR, is not always reliable, and some characters may not be scanned correctly. In particular, systemic errors like the confusion of "s" and "f" can cause systemic bias. Although the authors claim that the results are reliable from 1800 onwards, poor OCR and insufficient data mean that frequencies given for languages such as Chinese may only be accurate from 1970 onwards, with earlier parts of the corpus showing no results at all for common terms, and data for some years containing more than 50% noise.[18][19]

See also

References

  1. "Quantitative analysis of culture using millions of digitized books" JB Michel et al, Science 2011, DOI: 10.1126/science.1199644
  2. 1 2 3 "Google Ngram Database Tracks Popularity Of 500 Billion Words" Huffington Post, 17 December 2010, webpage: HP8150.
  3. 1 2 "Google Ngram Viewer - Google Books", Books.Google.com, May 2012, webpage: G-Ngrams.
  4. 1 2 "Google's Ngram Viewer: A time machine for wordplay", Cnet.com, 17 December 2010, webpage: CN93.
  5. "A Picture is Worth 500 Billion Words – By Rusty S. Thompson", HarrisburgMagazine.com, 20 September 2011, webpage: HBMag20.
  6. 1 2 "Google Books Ngram Viewer - University at Buffalo Libraries", Lib.Buffalo.edu, 22 August 2011, webpage: Buf497.
  7. 1 2 Google Books Ngram Viewer info page: https://books.google.com/ngrams/info
  8. 1 2 3 4 5 6 "Google Ngram Viewer - Google Books" (Information), Books.Google.com, December 16, 2010, webpage: G-Ngrams-info: notes bigrams and use of quotes for words with apostrophes.
  9. https://www.youtube.com/watch?v=5S1d3cNge24&feature=youtu.be&t=56m58s
  10. Acerbi A, Lampos V, Garnett P, Bentley RA (2013) The Expression of Emotions in 20th Century Books. PLoS ONE 8(3): e59030. doi: 10.1371/journal.pone.0059030
  11. Steffen Roth (2014), "Fashionable functions. A Google ngram view of trends in functional differentiation (1800-2000)", International Journal of Technology and Human Interaction, Band 10, Nr. 2, S. 34-58 (online: http://ssrn.com/abstract=2491422).
  12. Steffen Roth, Carlton Clark, and Jan Berkel (2016), "The fashionable functions reloaded. An updated Google ngram view of trends in functional differentiation (1800-2000)", 'In: Mesquita, A. (Ed.) Research Paradigms and Contemporary Perspectives on Human-Technology Interaction. Hershey: IGI-Global, Forthcoming (online: http://ssrn.com/abstract=2798759).
  13. "Google Books Ngram Viewer". Google.
  14. googlebooks-eng-all-1gram-20120701-w.gz at http://storage.googleapis.com/books/ngrams/books/datasetsv2.html
  15. Google Ngrams: OCR and Metadata. web.resourceshelf.com.
  16. Humanities research with the Google Books corpus. languagelog.ldc.upenn.edu.
  17. Characterizing the Google Books Corpus: Strong Limits to Inferences of Socio-Cultural and Linguistic Evolution. http://journals.plos.org.
  18. Google n-grams and pre-modern Chinese. digitalsinology.org.
  19. When n-grams go bad. digitalsinology.org.

External links

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