Document cleanup using page frame detection

Faisal Shafait, Joost van Beusekom, Daniel Keysers, Thomas Breuel
International Journal on Document Analysis and Recognition volume 11 number 2, Pages 81-96, Springer-Verlag, 11/2008


When a page of a book is scanned or photo- copied, textual noise (extraneous symbols from the neighbor- ing page) and/or non-textual noise (black borders, speckles, ...) appear along the border of the document. Existing docu- ment analysis methods can handle non-textual noise reason- ably well, whereas textual noise still presents a major issue for document analysis systems. Textual noise may result in undesired text in optical character recognition (OCR) out- put that needs to be removed afterwards. Existing document cleanup methods try to explicitly detect and remove marginal noise. This paper presents a new perspective for document image cleanup by detecting the page frame of the document. The goal of page frame detection is to find the actual page contents area, ignoring marginal noise along the page bor- der. We use a geometric matching algorithm to find the opti- mal page frame of structured documents (journal articles, books, magazines) by exploiting their text alignment prop- erty. We evaluate the algorithm on the UW-III database. The results show that the error rates are below 4% for each of the performance measures used. Further tests were run on a dataset of magazine pages and on a set of camera cap- tured document images. To demonstrate the benefits of using page frame detection in practical applications, we choose OCR and layout-based document image retrieval as sample applications. Experiments using a commercial OCR system show that by removing characters outside the computed page frame, the OCR error rate is reduced from 4.3 to 1.7% on the UW-III dataset. The use of page frame detection in layout- based document image retrieval application decreases the retrieval error rates by 30%.



@article{ SHAF2008,
	Title = {Document cleanup using page frame detection},
	Author = {Faisal Shafait and Joost van Beusekom and Daniel Keysers and Thomas Breuel},
	Month = {11},
	Year = {2008},
	Publisher = {Springer-Verlag},
	Publisher = {11},
	Pages = {81-96},
	Journal = {International Journal on Document Analysis and Recognition},
	Number = {2}

Last modified:: 30.08.2016