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Terms

This link provides a nice glossary of terms http://www.cs.jhu.edu/~weiss/glossary.html

Description

Examples: Library catalogs

Generally the data are organized as a collection of documents.

Querying

Querying of unstructured textual data is referred to as Information Retrieval. It covers the following areas:

Queries are formed using keywords and logical connectives and, or, and not where the and connective is implicit.

Full Text --> All words in a document are keywords. We use term to refer to words in a document, since all words are keywords.

Given a document d, and a term t one way of defining the relavence r is

latex2($$r(d,t)=\log\left(1+\frac{n(d,t)}{n(d)}\right)$$)

n(d) denotes the number of terms in the document, and n(d,t) denotes the number of occurrences of term t in the document d.

KEY: In the inromration retrieval community, the relevance of a document to a term is referred to as term frequency, regardless of the exact formula used.

Inverse Document frequency defined as:

latex2($$IDF = \frac{1}{n(t)}$$) where n(t) denotes the number of documents that contain the term t.

Here we have a low IDF if the word is found in many of the documents. If it is found in only a few, then it is probably a good term to use!

Thus the relavance of a document d to a set of terms Q is then defined as

latex($$r(d,Q)=\sum_{t \in Q}\frac{r(d,t)}{n(t)}$$)

latex($$r(d,Q)=\sum_{t \in Q}\frac{w(t) r(d,t)}{n(t)}$$) where w(t) is a weight specified by the user.

KEY: Stop words are words that are not indexed such as and, or the, a etc.

Proximity: if a the terms occur close to each other in the document, the document would be ranked higher than if they occur far apart. We could (although we don't) modify the formula r(d,Q) to take proximity into account.

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