1 / 38

Extraction of text data and hyperlink structure from scanned images of mathematical journals

Extraction of text data and hyperlink structure from scanned images of mathematical journals. Ann Arbor, March 19, 2002 Masakazu Suzuki (Kyushu University). Outline of the talk. Motivation of our project INFTY. What are the goal?

leon
Download Presentation

Extraction of text data and hyperlink structure from scanned images of mathematical journals

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Extraction of text data and hyperlink structure from scanned images of mathematical journals Ann Arbor, March 19, 2002 Masakazu Suzuki (Kyushu University)

  2. Outline of the talk • Motivation of our project INFTY. • What are the goal? • 3. What are the difficulties in mathematical document recognition? • 4. Present state of our system, with demo. • 5. Work flow of retrodigitization • 6. Alpha-Test Home Page • 7. Conclusion.

  3. 1. INFTY INFTY = the OCR system (document reader), - for mathematical documents, - developed in my laboratory in Kyushu University, - in cooperation with the section of OCR in Toshiba Corporation e-Solution Company, specially with the developer team of the Toshiba document reader called ExpressReader Pro.

  4. 1. INFTY • Recognition of scanned page images of (English / Japanese) mathematical documents • Intuitive and easy user interface to correct the recognition results • Output of the recognition results in XML, MathML, LaTeX, and Braille codes

  5. 1. INFTY • Clearly printed documents • 400~600DPI • Recognition of scanned page images of (English / Japanese) mathematical documents • Intuitive and easy user interface to correct the recognition results • Output of the recognition results in XML, MathML, LaTeX, and Braille codes

  6. 1. Motivation • Help visually impaired students / people to study / work in scientific fields • Retro-digitization of mathematical journals to include them in a searchable digital libraries.

  7. 2. Goal • Text data with coordinates → Title, Author info., …, References, Keywords, Hyperlink structure. • Full recognition including mathematical expressions and logical structure of the document → Reproduction of Contents, Automatic translation, Verification

  8. 3. Case of Mathematical Journals • After 1960 : Good quality in printing and paper • 1940 ~1960 : Low quality papers → noize • 18C, 19C, beginning of 20C :  1.Sometimes stained yellow → noize  2.Use of fonts (beautiful fonts) different from recent ones

  9. 3. What are difficult? • Noise reduction. • Character and symbol recognition. • 3. Layout analysis : • 1. Block segmentation • 2. Line segmentation • 3. Segmentation of Text / Math Areas • 4. Structure Analysis of mathematical expressions. • 5. Logical structure analysis.

  10. 3. Recognition Process Flow Skew correction and Noise reduction Layout analysis (Block segmentation), Segmentation of text area into lines, Character recognition in text area Segmentation of text/math areas, Character and symbol recognition in math. area, Structure analysis of math. expressions, Correction of text/math segmentation, Output.

  11. 4. Character Recognition • Sample image database • of special symbols. • 2. Touched characters and broken characters • in mathematical expressions.

  12. 4. Character Recognition • Sample image database • of special symbols. • 2. Touched characters and broken characters • in mathematical expressions. It is a very hard work to collect a large number of sample images of mathematical symbols.

  13. 4. Character Recognition • Currently, INFTY recognizes, in addition to • alphanumeric characters and Greek characters, • about 250 kinds of other mathematical symbols. • It distinguishes well the difference of italic font • and upright font of alpha numeric characters. • However, the distinction of the boldface from • normal font is left to the future research.

  14. 4. Character Recognition • Sample image database • of special symbols. • 2. Touched characters and broken characters • in mathematical expressions. In text area, 1. DP Method, 2. Bi-grams, Tri-grams, 3. Word Dictionaries, etc. However, in math area, …?

  15. 5. Layout Analysis

  16. 5. Layout Analysis

  17. 5. Layout Analysis

  18. 5. Layout Analysis

  19. 5. Layout Analysis • Currently, Infty supports only graphical layout analysis. • Logical structure analysis, such as titles, author information, section/subsection structure, indexing, theorem description areas, citation links, etc. are all left to future works.

  20. 6. Line Segmentation

  21. 6. Line Segmentation

  22. 6. Line Segmentation (sample)

  23. 6. Line Segmentation (sample)

  24. 6. Line Segmentation (sample)

  25. 6. Line Segmentation (sample)

  26. 7. Text/Math Segmentation Math Text Math Text

  27. 7. Text/Math Segmentation Segmentation of text/math areas, using character recognition results of ExpressReader Pro Character ans symbol recognition in Math. Area and the structure analysis of math. expressions Correction of text/math segmentation

  28. 7. Text/Math Segmentation Difficulties in criteria: • Isolated letter “a” in italic font, • Isolated Capital letters, (Initial, etc.) • Numerals (Items, Citations, Section numbers, Theorem numbers, or Numbers in math. Expressions?) • Abbreviations (i.e., e.g., etc.)

  29. 7. Text/Math Segmentation Examples … See the demonstration html files: 1. Comment_Math_Helv_69_039_048.html 2. Comment_Math_Helv_71_060_069.html These are the samples automatically generated by our recognition system INFTY, on March 19, 2002 at Ann Arbor. They includes some errors and show the present state of our system, since no manual correction is processed on the results. The hyperlinks are also generated by the system. To look the results correctly, you have to install INFTY fonts: “Infty Font 1.TTF”, “Infty Font 2.TTF”, “Infty Font 3.TTF”, in your computer, before opening these html files. (Notes added on April 4th,2002 at Fukuoka)

  30. 8. Structure Analysis of Mathematical Expressions

  31. 8. Structure Analysis of Mathematical Expressions

  32. 8 Structure Analysis of Mathematical Expressions

  33. 9. Output format • Intermediate XML format      ↓ • XML format as final result output      ↓ • Embedding of hyper Link structure       ↓ • LaTeX, HTML, etc.

  34. 10. Work Flow of Digitization • Pre-Processing for image files:- Erase large peripheral noises,- Erase figure areas and table areas • Get the recognition results using Ando’s interface, • Extract various data which you need from our XML output.

  35. INFTY α-test cite • Currently, we have an α-test cite of our system: http://133.5.158.104/Infty/index.html • If you upload TIF files of scanned page images of mathematical paper, (TIF Grade3, 400DPI/600DTI), • Then, you can download the recognition results, either in LaTeX format or in HTML format.

  36. Further problems • Further Improvement of recognition rate of characters, • Further Improvement of layout analysis, • Recognition of touched characters and broken characters, • Logical structure analysis of the document, • Automatic detection of keywords, etc.

  37. Database In order to progress further the research of mathematical/scientific document recognition, we need a large scale of database of page image files with correct recognition results keeping the coordinates correspondence of each character with the original image (ground truth).

  38. INFTY • Thank you. Masakazu Suzuki Faculty of Mathematics, Kyushu Universitysuzuki@math.kyushu-u.ac.jp

More Related