Neural Network For Unicode Optical Character Recognition (case Study Of Dhl, Enugu)

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Optical character Recognition (OCR) refers to the process of converting printed tamil text documents into software translated Unicode tamil text. The printed documents available in the form of books, projects, magazines etc are scanned using standard scanners which produce an image of the scanned documents. As part of the preprocessing phase the image like is checked for skewing. If the image is skewed, it is corrected by a simple rotation technique in the appropriate direction. Then the image is passed through a noise elimination phase and is binarized. The preprocessed image is segmented using an algorithm which decomposes the scanned text into paragraphs using special space detection technique and then the paragraphs into lines using vertical histograms, and lines into words using horizontal histograms, and words into character image glyphs using horizontal histograms. Each image glyph is comprised of 32 x 32 pixels, thus a data base of character image glyphs is created out of the segmentation phase. Then all the image glyphs are considered for recognition using Unicode mapping. Each image glyph is passed through various routines which extract  the features of the glyph. The various features that are considered for classification are the character height, character width, then number of horizontal lines (Long and short), the number of vertical lines (long and short), the horizontally oriented curves, the vertically oriented curves, the number of circles, number of slope lines, image centroid and special dots. The glyphs are now set ready for classification based on these features. The extracted features are passed to a support vector machine (SVM) where the characters are classified by supervised learning algorithm. These classes are mapped into Unicode for recognition. Then the text is reconstructed using Unicode fonts. 








Title page         -       -       -       -       -       -       -       -       ii

Certification    -       -       -       -       -       -       -       -       iii

Approval page         -       -       -       -       -       -       -       iv

Dedication       -       -       -       -       -       -       -       -       v

Acknowledgement   -       -       -       -       -       -       -       vi

Abstract -       -       -       -       -       -       -       -       -       vii

Table of contents     -       -       -       -       -       -       -       ix



 1.0 INTRODUCTION    -      -      -      -      -      -       1

1.1      Statement of the problem       -       -       -       -       5

1.2      Purpose of the study       -       -       -       -       -       6

1.3      Aims and objectives        -       -       -       -       -       6

1.4      Scope of study         -       -       -       -       -       -       8

1.5      Limitations of the study -       -       -       -       -       8


1.6      Definition of terms.-       -       -       -       -       -       9



 2.0 LITERATURE REVIEW -      -      -      -      -      11



3.0      Methods for fact finding and details discussions on the subject matter.        -       -       -       -       -       -       15

3.1      Methodologies for fact finding         -       -       -       15

3.2      Discussions     -       -       -       -       -       -       -       16



4.0      Futures, Implications and challenges of the subject matter for the society             -       -       -       -       20

4.1      Futures   -       -       -       -       -       -       -       -       20

4.2      Implications    -       -       -       -       -       -       -       21

4.3      Challenges      -       -       -       -       -       -       -       22



5.1      Summary        -       -       -       -       -       -       -       24

5.2      Recommendation    -       -       -       -       -       -       25

5.3      Conclusion      -       -       -       -       -       -       -       28

References       -       -       -       -       -       -       -       30









Character is the basic building block of any language that is used to build different structures of a language. Characters are the alphabets and the structures are the words, strings and sentences.

Optical character Recognition (OCR) is the process of converting an image of text, such as a scanned project character, document or electronic fax file, into computer-editable text. The text in an image is not editable. The letters/characters are made of tiny dots (pixels) that together form a picture of text. During OCR, the software analyzes an image and converts the pictures of the characters to editable text based on the patterns of the pixels in the image. After OCR, you can expert the converted text and use it with a variety of word-processing, page layout and spreadsheet applications. OCR also enables screen readers and refreshable bralle displays to read the text contained in images.

Optical character Recognition (OCR) deals with machine recognition of characters present in an input image obtained using scanning operation. It refers to the process by which scanned images are electronically processed and converted to an editable text. The need for OCR arises in the context of digitizing tamil documents from the ancient and old era to the latest, which helps in sharing the data through the internet.

A properly printed document is chosen for scanning. It is placed over the scanner, A scanner software is invoked which scans the document. The document is sent to a program that saves it in preferably TIF, JPG or GIF format, so that the image of the document can be obtained when needed. This is the first step in OCR (Vijaya Kumar, 2001), the size of the input image is as specific by the user and can be of any length but is inherently restricted by the scope of the vision and by the scanner software length.

This is the first step in the processing of scanned image. The scanned image is checked for skewing, there are possibilities of image getting skewed with either left or right orientation.

Here, the image is first brightened and binarized the function for skew detection checks for an angle of orientation between +15 degrees and if detected than a simple image rotation is carried out till the lines match with the true horizontal axis, which produce a skew corrected image.

After pre-processing, the noise free image is passed to the segmentation phase, where the image is decomposed into individual characters.

Algorithm for Segmentation:


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Neural Network For Unicode Optical Character Recognition  (case Study Of Dhl, Enugu)