Methodology for the Evaluation of the Algorithms for Text Line Segmentation Based on Extended Binary Classification

Du, X., Pan, W., Bui, T.D. (2009). Text line segmentation in handwritten documents using Mumford-Shah model. Pattern Recognition, 42 (12), 3136-3145.10.1016/j.patcog.2008.12.021Search in Google Scholar

Likforman Sulem, L., Zahour, A., Taconet, B. (2007). Text line segmentation of historical documents: a survey. International Journal on Document Analysis and Recognition, 9 (2), 123-138.10.1007/s10032-006-0023-zSearch in Google Scholar

Amin, A., Wu, S. (2005). Robust skew detection in mixed text/graphics documents. In Proceedings of International Conference on Document Analysis and Recognition - ICDAR'05. Seoul, Korea, 247-251.10.1109/ICDAR.2005.203Search in Google Scholar

Bukhari, S.S., Shafait, F., Breuel, T.M. (2009). Script-Independent handwritten textlines segmentation using active contours. In Proceedings of International Conference on Document Analysis and Recognition - ICDAR'09. Barcelona, Spain, 446-450.10.1109/ICDAR.2009.206Search in Google Scholar

Yi, L., Yefeng, Z., Doermann, D., Jaeger, S. (2008). Script-Independent text line segmentation in freestyle handwritten documents. IEEE Transactions on Pattern Analysis and Machine Intelligence, 30 (8), 1313-1329.Search in Google Scholar

Basu, S., Chaudhuri, C., Kundu, M., et. al. (2007). Text line extraction from multi-skewed handwritten document. Pattern Recognition, 40 (6), 1825-1839.10.1016/j.patcog.2006.10.002Search in Google Scholar

Marti, U.V., Bunke, H. (2002). The IAM-database: an English sentence database for off-line handwriting recognition. Journal on Document Analysis and Recognition, 5 (1), 39-46.10.1007/s100320200071Search in Google Scholar

Sarkar, R., Das, N., Basu, S., Kundu, M., Nasipuri, M., Basu, D. (2011). CMATERdb1: a database of unconstrained handwritten Bangla and Bangla-English mixed script document image. International Journal on Document Analysis and Recognition, 14 (1), 25-33.Search in Google Scholar

Gatos, B., Stamatopoulos, N., Louloudis, G. (2011). ICDAR2009 handwriting segmentation contest. International Journal on Document Analysis and Recognition, 14 (1), 1-13.10.1007/s10032-010-0122-8Search in Google Scholar

Louloudis, G., Gatos, B., Pratikakis, I., Halatsis, C. (2009) Text line and word segmentation of handwritten documents. Pattern Recognition, 42 (12), 3169-3183.10.1016/j.patcog.2008.12.016Search in Google Scholar

Sanchez, A., Suarez, P.D., Mello, C.A.B., Oliveira, A.L.I., Alves, V.M.O. (2008). Text line segmentation in images of handwritten historical documents. In Proceedings of the First Workshops on Image Processing Theory, Tools and Applications - IPTA 2008. Sousse, Tunisia, 1-6.10.1109/IPTA.2008.4743758Search in Google Scholar

Brodić, D., Milivojević, D.R., Milivojević, Z. (2010). Basic test framework for the evaluation of text line segmentation and text parameter extraction. Sensors, 10 (5), 5263-5279.10.3390/s100505263329217222399932Search in Google Scholar

Brodić, D. (2010). Basic experiments set for the evaluation of the text line segmentation. Przegląd Elektrotechniczny, 86 (11), 353-357.Search in Google Scholar

Brodić, D. (2011). Advantages of the extended water flow algorithm for handwritten text line segmentation. In Kuznetsov, S.O., et al. (eds.) Pattern Recognition and Machine Intelligence, LNCS, Vol. 6744. Berlin-Heidelberg: Springer, 418-423.Search in Google Scholar

Khashman, A., Sekeroglu, B. (2008). Document image binarisation using a supervised neural network. International Journal of Neural Systems, 18 (5), 405-418.10.1142/S012906570800167118991363Search in Google Scholar

Brodić, D. (2011). The evaluation of the initial skew rate for printed text. Journal of Electrical Engineering - Elektrotechnický časopis, 62 (3), 134-140.10.2478/v10187-011-0022-2Search in Google Scholar

Zramdini, A., Inglod, R. (1993). Optical font recognition from projection profiles. Electronic Publishing, 6 (3), 249-260.Search in Google Scholar

Swets, J.A. (1988). Measuring the accuracy of diagnostic systems. Science (New Series), 240 (4857), 1285-1293.Search in Google Scholar

Qian, X., Liu, G., Wang, H., Su, R. (2007). Text detection, localization, and tracking in compressed video. Signal Processing: Image Communication, 22 (9), 752-768.Search in Google Scholar

Bukhari, S.S., Shafait, F., Bruesl, T.M. (2009). Adaptive binarization of unconstrained hand-held camera-captured document images. Journal of Universal Computer Science, 15 (18), 3343-3363.Search in Google Scholar

Shi, Z., Govindaraju, V. (2004). Line separation for complex document images using fuzzy runlength. In Proceedings of the International Workshop on Document Image Analysis for Libraries. Palo Alto, U.S.A.Search in Google Scholar

Manmatha, R., Rothfeder, J.L. (2005). A scale space approach for automatically segmenting words from historical handwritten documents. IEEE Transactions on Pattern Analysis and Machine Intelligence, 27 (8), 1212-1225.10.1109/TPAMI.2005.15016119261Search in Google Scholar

Brodić, D., Milivojević, Z. (2010). Optimization of the Gaussian kernel extended by binary morphology for text line segmentation. Radioengineering, 19 (4), 718-724.Search in Google Scholar

Razak, Z., Zulkiflee, K., et al. (2008). Off-Line handwriting text line segmentation: a review. International Journal of Computer Science and Network Security, 8, 12-20.Search in Google Scholar

Brodić, D. (2010). Optimization of the anisotropic Gaussian kernel for text segmentation and parameter extraction. In Calude, C.S., Sassone, V. (eds.) Theoretical Computer Science, IFIP AICT, Vol. 323. Berlin-Heidelberg: Springer, 140-152.10.1007/978-3-642-15240-5_11Search in Google Scholar