Handwritten Word Recognition Using Fuzzy Matching Degrees

[1] D. Dubois and H. Prade. Fuzzy sets and systems: Theory and applications. Academic Press, Inc., New York, 1980. Search in Google Scholar

[2] M. Jones and D. Mewhort. Case-sensitive letter and bigram frequency counts from large-scale english corpora. Behavior Research Methods, Instruments, & Computers, 36:388–396, 2004.10.3758/BF03195586 Search in Google Scholar

[3] E. L’Homer. Extraction of strokes in handwritten characters. Pattern Recognition, 33:1147–1160, 2000.10.1016/S0031-3203(99)00103-X Search in Google Scholar

[4] J. M. Mendel. Computing with words and its relationships with fuzzistics. Information Sciences, 177(4):988–1006, 2007.10.1016/j.ins.2006.06.008 Search in Google Scholar

[5] R. K. Nowicki and J. T. Starczewski. A new method for classification of imprecise data using fuzzy rough fuzzification. Inf. Sci., 414:33–52, 2017.10.1016/j.ins.2017.05.049 Search in Google Scholar

[6] D. J. Ostrowski and P. Y. K. Cheung. A Fuzzy Logic Approach to Handwriting Recognition, pages 299–314. Vieweg+Teubner Verlag, Wiesbaden, 1996.10.1007/978-3-322-88955-3_10 Search in Google Scholar

[7] D. Phan, I.-S. Na, S.-H. Kim, G.-S. Lee, and H.-J. Yang. Triangulation based skeletonization and trajectory recovery for handwritten character patterns. KSII Transactions on Internet and Information Systems, 9:358–377, 2015.10.3837/tiis.2015.01.022 Search in Google Scholar

[8] J. T. Starczewski. Advanced Concepts in Fuzzy Logic and Systems with Membership Uncertainty, volume 284 of Studies in Fuzziness and Soft Computing. Springer, 2013.10.1007/978-3-642-29520-1 Search in Google Scholar

[9] M. Wróbel, K. Nieszporek, J. T. Starczewski, and A. Cader. A fuzzy measure for recognition of handwritten letter strokes. In L. Rutkowski, R. Scherer, M. Korytkowski, W. Pedrycz, R. Tadeusiewicz, and J. M. Zurada, editors, Artificial Intelligence and Soft Computing, pages 761–770, Cham, 2018. Springer International Publishing.10.1007/978-3-319-91253-0_70 Search in Google Scholar

[10] M. Wróbel, J. T. Starczewski, and C. Napoli. Handwriting recognition with extraction of letter fragments. In L. Rutkowski, M. Korytkowski, R. Scherer, R. Tadeusiewicz, L. A. Zadeh, and J. M. Zurada, editors, Artificial Intelligence and Soft Computing, pages 183–192, Cham, 2017. Springer International Publishing.10.1007/978-3-319-59060-8_18 Search in Google Scholar

[11] M. Wróbel, J. T. Starczewski, and C. Napoli. Grouping handwritten letter strokes using a fuzzy decision tree. In L. Rutkowski, R. Scherer, M. Korytkowski, W. Pedrycz, R. Tadeusiewicz, and J. M. Zurada, editors, Artificial Intelligence and Soft Computing, pages 103–113, Cham, 2020. Springer International Publishing.10.1007/978-3-030-61534-5_10 Search in Google Scholar

[12] M. Wróbel, J. T. Starczewski, K. Nieszporek, P. Opiełka, and A. Kaźmierczak. A greedy algorithm for extraction of handwritten strokes. In L. Rutkowski, R. Scherer, M. Korytkowski, W. Pedrycz, R. Tadeusiewicz, and J. M. Zurada, editors, Artificial Intelligence and Soft Computing, pages 464–473, Cham, 2019. Springer International Publishing.10.1007/978-3-030-20915-5_42 Search in Google Scholar

[13] M. Zalasiński, K. Łapa, K. Cpałka, K. Przybyszewski, and G. G. Yen. On-line signature partitioning using a population based algorithm. Journal of Artificial Intelligence and Soft Computing Research, 10(1):5–13, 2019.10.2478/jaiscr-2020-0001 Search in Google Scholar