30 Sep 2014 01:32:42 UTC
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- Latest version++ed by:6 non-PAUSE usersCREAMYG Marvin Humphreyand 1 contributors
- The Apache Lucy Project <dev at lucy dot apache dot org>
Lucy::Docs::IRTheory - Crash course in information retrieval.
Just enough Information Retrieval theory to find your way around Apache Lucy.
Lucy uses some terminology from the field of information retrieval which may be unfamiliar to many users. "Document" and "term" mean pretty much what you'd expect them to, but others such as "posting" and "inverted index" need a formal introduction:
document - An atomic unit of retrieval.
term - An attribute which describes a document.
posting - One term indexing one document.
term list - The complete list of terms which describe a document.
posting list - The complete list of documents which a term indexes.
inverted index - A data structure which maps from terms to documents.
Since Lucy is a practical implementation of IR theory, it loads these abstract, distilled definitions down with useful traits. For instance, a "posting" in its most rarefied form is simply a term-document pairing; in Lucy, the class Lucy::Index::Posting::MatchPosting fills this role. However, by associating additional information with a posting like the number of times the term occurs in the document, we can turn it into a ScorePosting, making it possible to rank documents by relevance rather than just list documents which happen to match in no particular order.
Lucy uses a variant of the well-established "Term Frequency / Inverse Document Frequency" weighting scheme. A thorough treatment of TF/IDF is too ambitious for our present purposes, but in a nutshell, it means that...
in a search for
skate park, documents which score well for the comparatively rare term
skatewill rank higher than documents which score well for the more common term
a 10-word text which has one occurrence each of both
parkwill rank higher than a 1000-word text which also contains one occurrence of each.
A web search for "tf idf" will turn up many excellent explanations of the algorithm.