A Two-Stage Approach for Word Spotting in Graphical Documents

Presence of multi-oriented characters, connected characters with graphical lines, intersection of text and symbols with graphical lines/curves etc. are very common in graphical documents. As a result word spotting in graphical documents is still a challenging task that we try to solve (partially) in...

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Bibliographic Details
Main Authors: Tarafdar, Arundhati, Pal, Umapada, Roy, Partha Pratim, Ragot, Nicolas, Ramel, Jean-Yves
Format: Conference Proceeding
Language:English
Subjects:
Character recognition
Document Image Analysis
Feature extraction
Graphical documents
Information Retrieval
Shape
SIFT
Support vector machines
Text analysis
Text recognition
Word Spotting
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Summary:Presence of multi-oriented characters, connected characters with graphical lines, intersection of text and symbols with graphical lines/curves etc. are very common in graphical documents. As a result word spotting in graphical documents is still a challenging task that we try to solve (partially) in this paper. The proposed approach proceeds in two stages. In the first stage, recognition of isolated components is done using rotation invariant features and an SVM classifier. The characters having good recognition score and match in the query string are first selected for initial spotting. Because of structural complexity of graphical documents as well as of touching components, we may miss some of the query characters during initial spotting in some documents. In that case, based on the position, size and orientation of the recognized characters in the input document image, regions where missing characters may be located (candidate regions) are defined. In the second stage, Scale Invariant Feature Transform (SIFT) is used to find those missing characters in the candidate regions for possible spotting. Finally, using the position, size, orientation as well as intercharacter gap information of the recognized components, spotting is validated. Experimental results demonstrate that the method is efficient to locate a query word in multi-oriented and/or touching graphical documents.
ISSN:1520-5363
2379-2140
DOI:10.1109/ICDAR.2013.71