Jaro–Winkler distance

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In computer science and statistics, the Jaro–Winkler similarity is a string metric measuring an edit distance between two sequences. It is a variant of the Jaro distance metric[1] (1989, Matthew A. Jaro) proposed in 1990 by William E. Winkler.[2]

The Jaro–Winkler distance uses a prefix scale which gives more favourable ratings to strings that match from the beginning for a set prefix length .

The higher the Jaro–Winkler distance for two strings is, the less similar the strings are. The score is normalized such that 0 means an exact match and 1 means there is no similarity. The original paper actually defined the metric in terms of similarity, so the distance is defined as the inversion of that value (distance = 1 − similarity).

Although often referred to as a distance metric, the Jaro–Winkler distance is not a metric in the mathematical sense of that term because it does not obey the triangle inequality.

Definition

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Jaro similarity

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The Jaro similarity   of two given strings   and   is

 

Where:

  •   is the length of the string  ;
  •   is the number of matching characters (see below);
  •   is the number of transpositions (see below).

Jaro similarity score is 0 if the strings do not match at all, and 1 if they are an exact match. In the first step, each character of   is compared with all its matching characters in  . Two characters from   and   respectively, are considered matching only if they are the same and not farther than   characters apart. For example, the following two nine character long strings, FAREMVIEL and FARMVILLE, have 8 matching characters. 'F', 'A' and 'R' are in the same position in both strings. Also 'M', 'V', 'I', 'E' and 'L' are within three (result of  ) characters away.[3] If no matching characters are found then the strings are not similar and the algorithm terminates by returning Jaro similarity score 0.

If non-zero matching characters are found, the next step is to find the number of transpositions. Transposition is the number of matching characters that are not in the right order divided by two. In the above example between FAREMVIEL and FARMVILLE, 'E' and 'L' are the matching characters that are not in the right order. So the number of transposition is one.

Finally, plugging in the number of matching characters   and number of transpositions   the Jaro similarity of FAREMVIEL and FARMVILLE can be calculated,  

Jaro–Winkler similarity

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Jaro–Winkler similarity uses a prefix scale   which gives more favorable ratings to strings that match from the beginning for a set prefix length  . Given two strings   and  , their Jaro–Winkler similarity   is:

 

where:

  •   is the Jaro similarity for strings   and  
  •   is the length of common prefix at the start of the string up to a maximum of 4 characters
  •   is a constant scaling factor for how much the score is adjusted upwards for having common prefixes.   should not exceed 0.25 (i.e. 1/4, with 4 being the maximum length of the prefix being considered), otherwise the similarity could become larger than 1. The standard value for this constant in Winkler's work is  

The Jaro–Winkler distance   is defined as  .

Although often referred to as a distance metric, the Jaro–Winkler distance is not a metric in the mathematical sense of that term because it does not obey the triangle inequality.[4] The Jaro–Winkler distance also does not satisfy the identity axiom  .

Relationship with other edit distance metrics

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There are other popular measures of edit distance, which are calculated using a different set of allowable edit operations. For instance,

Edit distance is usually defined as a parameterizable metric calculated with a specific set of allowed edit operations, and each operation is assigned a cost (possibly infinite). This is further generalized by DNA sequence alignment algorithms such as the Smith–Waterman algorithm, which make an operation's cost depend on where it is applied.

See also

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Footnotes

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  1. ^ Jaro, Matthew A. (1 June 1989). "Advances in Record-Linkage Methodology as Applied to Matching the 1985 Census of Tampa, Florida". Journal of the American Statistical Association. pp. 414–420. doi:10.1080/01621459.1989.10478785.
  2. ^ Winkler, William E. (1990). "String Comparator Metrics and Enhanced Decision Rules in the Fellegi-Sunter Model of Record Linkage".
  3. ^ "What is Jaro-Winkler Similarity?". www.baseclass.io. Archived from the original on 28 January 2024. Retrieved 26 July 2012.{{cite web}}: CS1 maint: bot: original URL status unknown (link)
  4. ^ "Jaro-Winkler «  Inviting Epiphany". RichardMinerich.com. Retrieved 12 June 2017.

References

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