Abstract
This paper presents detailed review in the field of off-line cursive script recognition. Various methods are analyzed that have been proposed to realize the core of script recognition in a word recognition system. These methods are discussed in view of the two most important properties of such systems: size and nature of the lexicon involved and whether or not a segmentation stage is present. Script recognition techniques are classified into three categories: firstly, segmentation-free methods or holistic approaches, that compare a sequence of observations derived from whole word image with similar references of words in the small lexicon. Secondly, segmentation-based methods, that look for the best match between consecutive sequences of primitive segments and letters of a possible word similar to human-like reading technique, in which secure features found all over the word are used to boot-strap a few candidates for a final evaluation phase; thirdly, hybrid approaches. Additionally, different feature extraction techniques are elaborated in conjunction with the classification process. In this scenario, implications of single and multiple classifiers are also observed. Finally, remaining problems are highlighted along with possible suggestion and strategies to solve them.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aburas AA, Rehiel SA (2008) New promising off-line tool for Arabic handwritten character recognition based On JPEG2000 image compression. In: Proceedings of the 3rd international conference on introduction and communication technology. From theory to applications (ICTTA, 08), pp 1–5
Alkoot M, Kittler J (1999) Experimental evaluation of expert fusion strategies. Pattern Recognit Lett 20(11–13): 1361–1369
Arica N, Yarman-Vural FT (2001) An overview of character recognition focused on off-line handwriting. IEEE Transactions on Systems, Man, and Cybernetics, Part C: Appl Rev 31(2): 216–233
Arica N, Yarman-Vural FT (2002) Optical character recognition for cursive handwriting. IEEE Trans Pattern Anal Mach Intell 24(6): 801–813
Blumenstein M, Verma B (1997) A segmentation algorithm used in conjunction with artificial neural networks for the recognition of real-world postal addresses. In: Proceedings of 2nd online world conference on soft computing in engineering design and manufacturing
Blumenstein M, Verma B (1998a) An artificial neural network based segmentation algorithm for off-line handwriting recognition. In: Proceedings of the 2nd international conference on computational intelligence and multimedia applications, Gippsland, pp 306–311
Blumenstein M, Verma B (1998b) A neural based segmentation and recognition technique for handwritten words. In: Proceedings of the world congress on computational intelligence, Anchorage, pp 1738–1742
Blumenstein M, Verma B (1998c) Conventional vs. neuro-conventional segmentation techniques for handwriting recognition: a comparison. In: Proceedings of the 2nd IEEE international conference on intelligent processing systems, Gold Coast, pp 473–477
Blumenstein M., Verma B (1999a) Neural solutions for the segmentation and recognition of difficult words from a benchmark database. In: Proceedings of the 5th international conference on document analysis and recognition, Bangalore, pp 281–284
Blumenstein M, Verma B (1999b) A new segmentation algorithm for handwritten word recognition. In: Proceedings of the international joint conference on neural networks, Washington, vol 4, pp 878–882
Blumenstein M, Verma B (2001) Analysis of segmentation performance on the CEDAR benchmark database. In: Proceedings of 6th international conference on document analysis and recognition, pp 1142–1146
Blumenstein M, Verma B, Basli H (2003) A novel feature extraction technique for the recognition of segmented handwritten characters. In: Fairhurst M, Downton A (eds) Proceedings of the 7th international conference on document analysis and recognition, pp 137–141
Blumenstein M, Liu XY, Verma B (2004) A modified direction feature for cursive character recognition. In: Proceedings of the international joint conference on neural networks, Budapest, Hungary, pp 2983–2989
Blumenstein M, Liu XY, Verma B (2007) An investigation of the modified direction feature for cursive character recognition. Pattern Recognit 40: 376–388
Bortolozzi F, de Souza Britto A, Jr, Oliveira LS, Morita M (2005) Recent advances in handwriting recognition. In: Pal U, Parui SK, Chaudhuri BB (eds) Document analysis, pp 1–30
Bose CB, Kuo S (1994) Connected and degraded text recognition using hidden Markov model. Pattern Recognit 27(10): 1345–1363
Bozinovic RM, Srihari SN (1989) Off-line cursive script word recognition. IEEE Trans Pattern Anal Mach Intell 11(1): 68–83
Breiman L (1996) Bagging predictors. Mach Learn 24(2): 123–140
Bretto A, Azema J, Cherifi H, Laget B (1997) Combinatorics and image processing. Graph Models Image Proces 59: 256–277
Bretto A, Cherifi H, Aboutajdine D (2002) Hypergraph imaging: an Overview. Pattern Recognit 35: 651–658
Breukelen TM, Duin R, Kittler J (2000) Combining multiple classifiers by averaging or by multiplying?. Pattern Recognit 33(9): 1475–1485
Britto A Jr, Sabourin R, Bortolozzi F, Suen CY (2001a) An enhanced HMM topology in an LBA framework for the recognition of handwritten numeral strings. Proc Int Conf Adv Pattern Recognit 1: 105–114
Britto A Jr, Sabourin R, Bortolozzi F, Suen CY (2001b) A two-stage HMM-based system for recognizing handwritten numeral strings. In: Proceedings of the international conference on document analysis and recognition, Seattle, pp 396–400
Britto A Jr, Sabourin R, Bortolozzi F, Suen C-Y (2002) A string length predictor to control the level building of HMMs for handwritten numeral recognition. In: Proceedings of 16th international conference on pattern recognition, vol 4, pp 31–34
Britto A Jr, Sabourin R, Bortolozzi F, Suen CY (2004) Foreground and background information in an HMM-based method for recognition of isolated characters and numeral strings. In: Proceedings of the 9th international workshop on frontiers in handwriting recognition, pp 371–376
Bruel T (1994) Design and implementation of a system for recognition of handwritten responses on US census forms. In: Proceedings of the IAPR workshop on document analysis systems, Kaiserlautern, pp 237–264
Bunke H, Roth M, Schukat-Talamazzini E-G (1995) Off-line cursive handwriting recognition using hidden Markov models. Pattern Recognit 28(9): 1399–1413
Burges CJC, Be JI, Nohl CR (1992) Recognition of handwritten cursive postal words using neural networks. In: Proceedings of the 5th United States Postal Service (USPS) advanced technology conference, pp 117–124
Burges CJC, Denker JS, Lecun Y, Nohi CR (1993) Off-line recognition of handwritten postal words using neural networks. Int J Pattern Recognit Artif Intell 7(4): 689–704
Caesar T, Gloger JM, Mandler E (1993) Preprocessing and feature extraction for a handwriting recognition system. In: Proceedings of international conference on document analysis and recognition, pp 408–411
Cai J, Liu Z-Q (1999) Integration of structural and statistical information for unconstrained handwritten numeral recognition. IEEE Trans Pattern Anal Mach Intell 21(3): 263–270
Camastra F (2007) A SVM-based cursive character rcognizer. Pattern Recognit 40(12): 3721–3727
Camastra F, Vinciarelli A (2001) Cursive character recognition by learning vector quantization. Pattern Recognit Lett 22: 625–629
Camastra F, Vinciarelli A (2003) Combining neural gas and learning vector quantization for cursive character recognition. Neurocomputing 51: 147–159
Cao J, Ahmadi M, Shridhar M (1995) Recognition of handwritten numerals with multiple feature and multistage classifier. Pattern Recognit 28(3): 153–159
Casey RG (1992) Segmentation of touching characters in postal addresses. In: Proceedings of the 5th USPS advanced technology conference, pp 743–754
Casey RG, Lecolinet E (1996) A survey of methods and strategies in character segmentation. IEEE Trans Pattern Anal Mach Intell 18: 690–706
Cavalin PR, Britto AS, Bortolozzi F, Sabourin R, Oliveira LS (2006) An implicit segmentation based method for recognition of handwritten strings of characters. In: Proceedings of ACM symposium on applied computing, pp 836–840
Chellapilla K, Shilman M, Simard P (2006) Combining multiple classifiers for faster optical character recognition. In: Proceedings of international conference on document analysis systems, LNCS 3872. Springer, pp 358–367
Chen M-Y, Kundu A (1993) An alternative approach to variable duration HMM in handwritten word recognition. In: Proceedings of the 3rd international workshop on frontiers in handwriting recognition, Buffalo, pp 82–91
Chen Y, Leedham G (2005) Independent component analysis segmentation algorithm. In: Proceedings of the 8th international conference on document analysis and recognition (ICDAR’05), vol 2, pp 680–684
Chen M-Y, Kundu A, Zhou J, Srihari SN (1992) Off-line handwritten word recognition using hidden Markov model. In: Proceedings of the 5th USPS advanced T
Chen M-Y, Kundu A, Zhou J (1994) Off-line handwritten word recognition using a HMM type stochastic network. IEEE Trans Pattern Anal Mach Intell 16(5): 481–496
Chen M-Y, Kundu A, Srihari SN (1995) Variable duration hidden Morkov model and morphological segmentation for handwritten word recognition. IEEE Trans Image Process 4(12): 1675–1687
Cheng CK, Blumenstein M (2005a) The neural based segmentation of cursive words using enhanced heuristics. In: Proceedings of the 8th international conference on document analysis and recognition, vol 2, pp 650–654
Cheng CK, Blumenstein M (2005b) Improving the segmentation of cursive handwritten words using ligature detection and neural validation. In: Proceedings of the 4th Asia Pacific international symposium on information technology (APIS 2005), Gold Coast, pp 56–59
Cheng H, Hsu WH, Kuo MC (1993) Recognition of hand printed Chinese characters via stroke relaxation. Pattern Recognit 26(4): 579–593
Cheng CK, Liu XY, Blumenstein M, Muthukkumarasamy V (2004) Enhancing neural confidence-based segmentation for cursive handwriting recognition. In: 5th International conference on simulated evolution and learning, Busan, SWA-8
Cheriet M (1993) Reading cursive script by parts. In: Proceedings of the 3rd international workshop on frontiers in handwriting recognition, Buffalo, 25–27 May, pp 403–408
Cheriet M, Kharma N, Liu C-Lin, Suen C-Y (2007) Character recognition systems (OCR). Wiley, pp 204–206
Chiang J-H (1998) A hybrid neural model in handwritten word recognition. Neural Netw 11(2): 337–346
Cho W, Lee SW, Kim JH (1995) Modeling and recognition of cursive words with hidden Markov models. Pattern Recognit 28(12): 1941–1953
Dawoud A (2007) Iterative cross section sequence graph for handwritten character segmentation. IEEE Trans Image Process 16(8): 2150–2154
Dimauro D, Impedovo S, Pirlo G, Salzo A (1998) An advanced segmentation technique for cursive word recognition. In: Lee SW (ed) Advances in handwriting recognition. World Scientific, pp 255–264. Technology Conference, pp 563–579
Dunn CE, Wang, PSP (1992) Character segmenting techniques for handwritten text—a survey. In: Proceedings of 11th international conference on pattern recognition, vol 2, pp 577–591
Dzuba G, Filatov A, Gershuny D, Kill I (1998) Handwritten word recognition, the approach proved by practice. In: Proceedings of 6th international workshop on frontiers in handwriting recognition, Taejon, pp 99–111
Eastwood B, Jennings A, Harvey A (1997) Neural network based segmentation handwritten words. In: Proceedings of 6th international conference on image processing and its applications, vol 2, pp 750–755
Ehrich RW, Koehler KJ (1975) Experiments in the contextual recognition of cursive script. IEEE Trans Comput 24: 182–194
Elliman DG, Lancaster IT (1990) A review of segmentation and contextuel analysis techniques for text recognition. Pattern Recognit 23(3–4): 337–346
Elms AJ, Procter S, Illingworth J (1989) The advantage of using an HMM-based approach for faxed word recognition. Int J Document Anal Recognit 1: 18–36
El-Yacoubi A, Gilloux M, Sabourin R, Suen CY (1999) An HMM-based Approach for on-line unconstrained handwritten word modeling and recognition. IEEE Trans Pattern Anal Mach Intell 21(8): 752–760
Farah N, Souici L, Sellami M (2005) Arabic word recognition by classifiers and context. J Comput Sci Technol 20(3): 402–410
Farouz C, Gilloux M, Bertille JM (1998) Handwritten word recognition with contextual hidden Morkov models. In: Proceedings of 6th international workshop on frontiers in handwriting recognition, Taejon, pp 133–142
Favata JT (1997) Character model word recognition. In: Downton AC, Impedovo S (eds) Progress in handwriting recognition, pp 57–61
Favata JT (2001) Off-line general handwritten word recognition using an approximate beam matching algorithm. IEEE Trans Pattern Anal Mach Intell 23: 393–398
Favata JT, Srihari SN (1992) Recognition of general handwritten words using hypothesis generation and reduction methodology. iN: Proceedings of the 5th USPS advanced technology conference, pp 237–251
Freitas F, Bortolozzi, Sabourin R (2001, September) Handwritten isolated word recognition: an approach based on mutual information for feature set validation. In: Proceedings of 6th international conference on document analysis and recognition, Seattle, pp 665–669
Frishkopf LS, Harmon LD (1961) Machine reading of cursive script. In: Cherry C (eds) Information theory. Butterworth, London, pp 300–316
Fujisawa H, Nakano Y, Kurino K (1992) Segmentation methods for character recognition: from segmentation to document structure analysis. Proc IEEE 80(7): 1079–1092
Fukushima K, Imagawa T (1993) Recognition and segmentation of connected characters with selective attention. Neural Netw 6: 33–41
Gader PD, Khabou MA (1996) Automatic feature generation for handwritten digit recognition. IEEE Trans Pattern Anal Mach Intell 18(12): 1256–1261
Gader PD, Mohammed MA, Chiang JH (1994) Handwritten word recognition with character and inter character neural networks. IEEE Trans Syst Man Cybern B 27: 158–164
Gader PD, Whalen M, Ganzberger M, Hepp D (1995) Hand-printed word recognition on a NIST data set. Mach Vis Appl 8: 31–41
Gader PD, Mohamed M, Chiang J-H (1997) Handwritten word recognition with character and inter-character neural networks. IEEE Trans Syst Man Cybern B Cybern 27(1): 158–164
Gang L, Verma B, Kulkarni S (2002) Experimental analysis of neural network based feature extractors for cursive handwriting recognition. In: Proceedings of the IEEE world congress on computational intelligence, pp 2837–2841
Gatos B, Pratikakis I, Perantonis SJ (2006a) Hybrid off-line cursive handwriting word recognition. In: Proceedings of 18th international conference on pattern recognition (ICPR’06), vol 2, pp 998–1002
Gatos B, Pratikakis I, Kesidis AL, Perantonis SJ (2006b) Efficient off-line cursive handwriting word recognition. In: Proceedings of the 10th international workshop on frontiers in handwriting recognition
Gatos B, Antonacopoulos A, Stamatopoulos N (2007) ICDAR 2007 handwriting segmentation context. In: Proceedings of the international conference on document analysis and recognition, pp 1284–1288
Ghosh M, Ghosh R, Verma B (2004) A fully automated off-line handwriting recognition system incorporating rule based neural network validated segmentation and hybrid neural network classifier. Int J Pattern Recognit Artif Intell 18(7): 1267–1283
Gillies M (1992) Cursive word recognition using hidden markov models. In: Proc fifth US postal service advanced technology conference, pp 557–562
Gilloux M (1993) Hidden Markov models in handwriting recognition, fundamentals in handwriting recognition. In: Impedovo S (eds) NATO ASI Series F: Computers and Systems Sciences, vol 124. Springer, New York, pp 264–288
Gilloux M, Bertille JM, Leroux M (1993) Recognition of handwritten words in a limited dynamic vocabulary. In: Proceedings of the 3rd international workshop on frontiers in handwriting recognition, Buffalo, 25–27 May, pp 417–422
Gilloux M, Leroux M, Bertille J-M (1995a) Strategies for cursive script recognition using hidden Morkov models. Mach Vis Appl 8: 197–205
Gilloux M, Lemarie B, Leroux M (1995b) A hybrid radial basis function/hidden Morkov model handwritten word recognition system. In: International conference on document analysis and recognition, Montreal, pp 394–397
Govindan VK, Shivaprasad AP (1990) Character recognition—a review. Pattern Recognit 23: 671–683
Grandidier F (2003) Un Nouvel Algorithme de Sélection de Caractéristiques-Application à la Lecture Automatique de l’ecriture Manuscrite. PhD thesis, École de Technologie Supérieure, Montreal-Canada, Janvier
Guillevic D, Suen CY (1993) Cursive script recognition: a fast reader scheme. In: Proceedings of the 3rd international conference on documents analysis and recognition, pp 311–314
Guillevic D, Suen C (1998) HMM-KNN word recognition engine for bank check processing. In Proceedings of international conference on pattern recognition, Brisbane, pp 1526–1529
Günter S, Bunke H (2003) Ensembles of classifiers for handwritten word recognition. Int J Document Anal Recognit 5: 224–232
Günter S, Bunke H (2004) Feature selection algorithms for the generation of multiple classier systems and their application to handwritten word recognition. Pattern Recognit Lett 25(11): 1323–1336
Günter S, Bunke H (2005) Off-line cursive handwriting recognition using multiple classifier systems. On the influence of vocabulary, ensemble, and training set size. Optics Lasers Eng 43(3–5): 437–454
Guyon (1996) Handwritten synthesis from handwritten glyphs. In: 5th International workshop on frontiers of handwriting recognition, pp 309–312
Ha T, Bunke H (1997) Off-line handwritten numeral recognition by perturbation method. IEEE Trans Pattern Anal Mach Intell 19(5): 535–539
Ha T, Zimmermann M, Bunke H (1998) Off-line handwritten numeral string recognition by combining segmentation-based and segmentation-free methods. Pattern Recognit 31(3): 257–272
Hamamura T, Akagi T, Irie B (2007) An analytic word recognition algorithm using a posteriori probability. Proc Int Conf Document Anal Recognit 02: 669–673
Han K, Sethi IK (1995) Off-line cursive handwriting segmentation. In: Proceedings of the 3rd international conference on documents analysis and recognition, pp 894–897
Hanhong V (2002) Incorporating contextual character geometry in word recognition. In: Proceedings of 8th international workshop on frontiers in handwriting recognition, pp 123–127
Helmers M, Bunke H (2003) Generation and use of the synthetic training data in cursive handwriting recognition. In: First Iberian conference on pattern recognition and image analysis, pp 336–345
Ho TK (1998) The random subspace method for constructing decision forests. IEEE Trans Pattern Anal Mach Intell 20(8): 832–844
Holt M, Beglou M, Datta S (1992) Slant-independent letter segmentation for off-line cursive script recognition. In: Impedovo S, Simon JC (eds) From pixels to features III. Elsevier, Amsterdam, p 41
Howe NR, Rath TM, Manmatha R (2005) Boosted decision trees for word recognition in handwritten document retrieval. In: Proceedings of the 28th annual SIGIR conference on research and development in information retrieval, pp 377–383
Hu MK (1962) Visual pattern recognition by moment invariants. IRE Trans Inf Theory 8: 179–187
Impedovo S, Ottaviano L, Occhinegro S (1991) Optical character recognition–a survey. Int J Pattern Recognit Artif Intell 5: 1–24
Kang KW, Kim JH (2004) Utilization of hierarchical, stochastic relationship modeling for Hangul character recognition. IEEE Trans Pattern Anal Mach Intell 26(9): 1185–1196
Kavallieratou E, Stamatatos E, Fakotakis N, Kokkinakis G (2000b) Handwritten character segmentation using transformation-based learning. In: Proceedings of 15th international conference on pattern recognition, vol 2, pp 634–637
Kim G, Govindaraju V (1997) A Lexicon driven approach to handwritten word recognition for real-time applications. IEEE Trans Pattern Anal Mach Intell 19(4): 366–379
Kim JH, Kim KK, Suen CY (2000) An HMM-MLP hybrid model for cursive script recognition. Pattern Anal Appl 3: 314–324
Kim KK, Kim JH, Suen CY (2002) Recognition of handwritten touching pairs of digits using structural features. Pattern Recognit 23(1): 13–21
Kimura F, Shridhar M (1991) Handwritten numerical recognition based on multiple algorithms. Pattern Recognition 24: 969–983
Kimura F, Tsuruoka S, Shridhar M, Chen Z (1992) Context-directed handwritten word recognition for postal service applications. In: Proceedings of the 5th USPS advanced technology conference, pp 199–213, 145
Kimura F, Shridhar M, Chen Z (1993) Improvements of a Lexicon directed algorithm for recognition of unconstrained handwritten words. In: Proceedings of the 2nd international conference on document analysis and recognition, Tsukuba, pp 18–22
Kimura F, Kayahara N, Miyake Y, Shridhar M (1997) Machine and human recognition of segmented characters from handwritten words. In: 4th international conference on document analysis and recognition (ICDAR ‘97), pp 866–869
Knerr S, Anisimov V, Baret O, Gorski N, Price D, Simon JC (1997) The A@IA inter-check system. Courtesy amount and legal amount recognition for French Checks”. Automatic bank cheque processing 43–86
Knerr S, Augustin E, Baret O, Price D (1998) Hidden Markov model based word recognition and its application to legal amount reading on French checks. Comput Vis Image Understand 70(3): 404–419
Knoll AL (1969) Experiments with characteristic loci for recognition of handprinted characters. IEEE Trans Comput 18:366–372
Koch, Paquet T, Heutte L (2004) Combination of contextual information for handwritten word recognition. In: 9th International workshop on frontiers in handwriting recognition, Kokubunji, pp 468–473
Koerich AL, Sabourin R, Suen CY (2003) Large vocabulary off-line handwriting recognition: a survey. Pattern Anal Appl 6(2): 97–121
Koerich L, Sabourin R, Suen C-Y (2004) Fast Two–Level HMM Decoding Algorithm for Large Vocabulary Handwriting Recognition, 9th International Workshop on Frontiers in Handwriting Recognition, 26–29 Oct, Kokubunji, pp 232–238
Koerich AL, Sabourin R, Suen CY (2005) Recognition and verification of unconstrained handwritten words. IEEE Trans Pattern Anal Mach Intell 27(10): 1509–1522
Koerich AL, Britto A, Oliveira LES, Sabourin R (2006) Fusing high- and low-level features for handwritten word recognition. In: Proceedings of the 10th international workshop on frontiers in handwriting recognition
Kundu YH, Chen M (2002) Alternatives to variable duration HMM in handwriting recognition. IEEE Trans Pattern Anal Mach Intell 20(11): 1275–1280
Krzyyzak A, Dai W, Suen CY (1990, April) Unconstrained handwritten character recognition using modified back propagation model. In: Proceedings of international workshop frontiers in handwritten recognition, pp 145–153
Lallican PM, Viard-Gaudin C (1998) Off-line handwriting modeling as a trajectory tracking Problem. In: International workshop on frontiers in handwriting recognition, IWFHR’6, Taejon, pp 347–356
Lazzerini B, Marcelloni F (2000) A linguistic fuzzy recognizer of offline handwritten characters. Pattern Recognit Lett 21: 319–327
Lecolinet E, Crettez J-P (1991) A grapheme-based segmentation technique for cursive script recognition. In: Proceedings of the 1st international conference on document analysis and recognition, St Malo, pp 740–748
LeCun Y, Bottou L, Bengio Y, Haffner P (1998) Gradient-based learning applied to document recognition. Proc IEEE 86(11): 2278–2324
Lee H, Verma B (2008a) A novel multiple experts and fusion based segmentation algorithm for cursive handwriting recognition. In: Proceedings of the international joint conference on neural networks (IJCNN’08), pp 2994–2999
Lee H, Verma B (2008b) Over-segmentation and validation strategy for offline cursive handwriting recognition. In: Proceedings of the international conference on intelligent servers, sensor networks and information processing, pp 91–96
Liu J, Gader P (2002) Neural networks with enhanced outlier rejection ability for off-line handwritten word recognition. Pattern Recognit 35: 2061–2071
Liu C-L, Fujisawa H (2005) Classification and learning for character recognition: comparison of methods and remaining problems. In: Proceedings of the international workshop on neural networks and learning in document analysis and recognition, pp 5–7
Liu C-L, Narukawa K (2004) Normalization ensemble for handwritten character recognition. In: 9th International workshop on frontiers of handwriting recognition, pp 69–74
Liu C-L, Nakashima K, Sako H, Fujisawa H (2002) Handwritten digit recognition using state-of-the-art techniques. In: Proceedings of 8th international workshop on frontiers of handwriting recognition, pp 320–325
Lorette G (1999) Handwriting recognition or reading? What is the situation at the dawn of the 3rd millennium?. Int J Document Anal Recognit 2: 2–12
Lu Y (1995) Machine printed character segmentation—an overview. Pattern Recognit 28(1): 67–80
Lu Y, Shridhar M (1996) Character segmentation in handwritten words—an overview. Pattern Recognit 29: 77–96
Lu W, Ren Y, Suen CY (1991) Hierarchical attributed graph representation and recognition of handwritten Chinese characters. Pattern Recognit 24(7): 617–632
Madhvanath S, Govindaraju V (2001) The role of holistic paradigms in handwritten word recognition. IEEE Trans Pattern Anal Mach Intell 23(2): 149–164
Madhvanath S, Kleinberg E, Govindaraju V (1999) Holistic verification of handwritten phrases. IEEE Trans Pattern Anal Mach Intell 21: 1344–1356
Maier M (1986) Separating characters in scripted documents. In: Proceedings of the 8th international conference on pattern recognition, Paris, pp 1056–1058
Marti U, Bunke H (2001) Using a statistical language model to improve the performance of an HMM-based cursive handwriting recognition system. Int J Pattern Recognit Artif Intell 15(1): 65–90
Milgram J, Cheriet M, Sabourin R (2004) Speeding up the decision making of support vector classifier. In: Proceedings of 9th international workshop on frontiers in handwriting recognition, pp 57–62
Mitrpanont JL, Limkonglap U (2007) Using contour analysis to improve feature extraction in Thai handwritten character recognition systems. In: 7th IEEE international conference on computer and information technology, CIT 2007, pp 668–673
Mohamed M, Gader P (1996) Handwritten word recognition using segmentation-free hidden markov modeling and segmentation-based dynamic programming techniques. IEEE Trans Pattern Anal Mach Intell 18(5): 548–554
Mohamed MA, Gader P (2000) Generalized hidden Morkov models—part ii: application to handwritten word recognition. IEEE Trans Fuzzy Syst 8: 82–94
Mori M, Suzuki A, Siho A, Ohtsuka S (2000) Generating new samples from handwritten numerals based on point correspondence. In: 7th International workshop on frontiers of handwriting recognition, pp 281–290
Morita M, Oliveira LS, Sabourin R (2004) Unsupervised feature selection for ensemble of classifiers. In: Proceedings of international workshop on frontiers in handwriting recognition-9, pp 81–86
Nicchiotti G, Scagliola C, Rimassa S (2000) A simple and effective cursive word segmentation method. In: Proceedings of the 7th international workshop on frontiers in handwriting recognition, September, Amsterdam, ISBN 90-76942-01-3. International Unipen Foundation, Nijmegen, pp 499–504
Nishimura M, Kobayashi M, Maruyama Y, Nakano (1999) Off-line character recognition using HMM by multiple directional feature extraction and voting with bagging algorithm. In: Proceedings of 5th international conference on document analysis and recognition, pp 49–52
Oh S, Suen CY (1998) Distance features for neural network-based recognition of Handwritten characters. Int J Document Anal Recognit 1(1): 73–88
Olivier C, Paquet T, Avila M, Lecourtier Y (1995) Recognition of handwritten words using Stochastic Models. In: International conference on document analysis and recognition, pp 19–23
Oliveira LS, Sabourin R, Bortolozzi F, Suen CY (2002) Automatic recognition of handwritten numerical strings: a recognition and verification strategy. IEEE Trans Pattern Anal Mach Intell 24(11): 1438–1454
Oliveira LS, Sabourin R, Bortolozzi F, Suen CY (2003a) Feature selection for ensembles: a hierarchical multi-objective genetic algorithm approach. In: 7th International conference on document analysis and recognition, vol 2, pp 676–680
Oliveira LS, Sabourin R, Bortolozzi F, Suen CY (2003b) Impacts of verification on a numeral string recognition system. Pattern Recognit Lett 24(7): 1023–1031
Oliveira LS, Britto AS, Sabourin R (2005) A synthetic database to assess segmentation algorithms. In: Proceedings of 8th international conference on document analysis and recognition, vol 1, pp 207–211
Optiz DW (1999) Feature selection for Ensembles. In: 16th International conference on artificial intelligence, pp 379–384
Pal U, Belaid A, Choisy C (2003) Touching numeral segmentation using water reservoir concept. Pattern Recognit Lett 24: 261–272
Partridge D, Yates WB (1996) Engineering multiversion neural-net systems. Neural Comput 8(4): 869–893
Pinales Ruiz J, Jaime-Rivas R, Castro MJ (2007) Discriminative capacity of perceptual features in handwriting recognition. Telecommun Radio Eng 64(11): 931–937
Plamondon R, Srihari SN (2000) On-line and off-line handwriting recognition: a comprehensive survey. IEEE Trans Pattern Anal Mach Intell 22: 63–84
Procter S, Elms AJ (1998) The recognition of handwritten digit strings of unknown length using hidden Markov models. In: Proceedings of the 14th international conference on pattern recognition (ICPR’98), pp 1515–1517
Procter S, Illingworth J (1999) Handwriting recognition using HMMs and a conservative level building algorithm. In: Proceedings of 7th international Conference on image processing and its applications, Manchester, pp 736–739
Rabiner L (1989) A tutorial on hidden Markov models and selected applications in speech recognition. Proc IEEE 77(2): 257–286
Rehman A, Dzulkifli M (2008) A simple segmentation approach for unconstrained cursive handwritten words in conjunction with the neural network. Int J Image Process 2(3): 29–35
Saba T, Rehman A, Sulong G (2011) Cursive script segmentation with neural confidence. Int J Innov Comput Inf Control 7(7)
Samrajya P, Lakshmi M, Hanmandlu, Swaroop A (2006) Segmentation of cursive handwritten words using Hypergraph, 1-4, TENCON, IEEE region 10 Conference
Sayre KM (1973) Machine recognition of handwritten words: a project report. Pattern Recognit 5: 213–228
Scagliola C, Nicchiotti G (2000) Enhancing cursive word recognition performance by integration of all the available information. In: Proceedings of 7th international workshop on frontiers in handwriting recognition, Amsterdam, pp 363–372
Schambach M-P (2005) Fast script word recognition with very large vocabulary. In: Proceedings of the 8th international conference on document analysis and recognition, pp 9–13
Senior W, Robinson AJ (2002) An off-line cursive handwriting recognition system. IEEE Trans Pattern Anal Mach Intell 20(3): 309–321
Shridhar M, Badreldin A (1984) High accuracy character recognition using Fourier and topological descriptors. Pattern Recognit 17: 515–524
Sin BK, Kim JH (1997) Ligature modeling for online cursive script recognition. IEEE Trans Pattern Anal Mach Learn 19(6): 623–633
Sinha RMK, Prasada B, Houle G, Sabourin M (1993) Hybrid contextual text recognition with string matching. IEEE Trans Pattern Anal Mach Intell 15: 915–925
Steinherz T, Rivlin E, Intrator N (1999) Off-line cursive script word recognition—a survey. Int J Document Anal Recognit 2: 90–110
Suen CY (1986) Character recognition by computer and applications in handbook of pattern recognition and image processing. In: Young TY, Fu K-S (eds) Academic Press Inc., San Diego, pp 569–586
Suen CY, Berthod M, Mori S (1980) Automatic recognition of handprinted characters—the state of the art. Proc IEEE 68: 469–487
Suen CY, Legault R, Nadal C, Cheriet M, Lam L (1993) Building a new generation of handwriting recognition systems. Pattern Recognit Lett 14: 305–315
Takahashi T, Griffin (1993) Recognition enhancement by linear tournament verification. In: Proceedings of 2nd international conference on document analysis and recognition, pp 585–588
Tappert CC, Suen CY, Wakahara T (1990) The state of the art in on-line handwriting recognition. IEEE Trans Pattern Anal Mach Intell 12(8): 787–793
Tay YH (2002) Off-line handwriting recognition using artificial neural network and hidden Morkov Model. PhD thesis, p 78
Tay YH, Khalid M, Yusof R, Gaudin CV (2003) Off-line cursive handwriting recognition system based on hybrid Markov model and neural networks. In: Proceedings of IEEE international symposium on computational intelligence in robotics and automation, Kobe, pp 1190–1195
Tomoyuki H, Takuma A, Bunpei I (2007) An analytic word recognition algorithm using a posteriori probability. In: Proceedings of the 9th international conference on document analysis and recognition, vol 2, pp 669–673
Trier OD, Jain AK, Taxt T (1996) Feature extraction methods for character recognition—a Survey. Pattern Recognit 29(4): 641–662
Tucker ND, Evans FC (1974) A two-step strategy for character recognition using geometrical moments. In: Proceedings of the 2nd international conference on pattern recognition, pp 223–225
Ullmann JR (1969) Experiments with the n-tuple method of pattern recognition. IEEE Trans Comput 18: 1135–1137
Valentini, Dietterich TG (2002) Bias-Variance Analysis and Ensembles of SVM. 3rd international workshop on multiple classifier systems. 222-231
Vamvakas G, Gatos B, Pratikakis I, Stamatopoulos N, Roniotis A, Perantonis SJ (2007) Hybrid off-line OCR for isolated handwritten Greek characters. In: Proceedings of 4th IASTED international conference on signal processing, pattern recognition and applications, pp 197–202
Varga T, Bunke H (2003) Generation of synthetic training data for an HMM-based handwriting recognition system. In: Proceedings of the 7th international conference on document analysis and recognition, Edinburgh, pp 618–622
Veloso LR, Sousa RP, De, Carvalho JM (2000) Morphological cursive word segmentation. In: Symposium on computer graphics and image processing, 2000. XIII, Brazilian, pp 337–342
Verma B (2002). A contour character extraction approach in conjunction with a neural confidence fusion technique for the segmentation of handwriting recognition. In: Proceeding of the 9th international conference on neural information processing, vol 5, pp 2459–2463
Verma B (2003) A contour code feature based segmentation for handwriting recognition. In: Proceedings of 7th international conference on document analysis and recognition (ICDAR’03), pp 1203–1207
Verma B, Blumenstein M (1996) An intelligent neural system for a robot to recognize printed and handwritten postal addresses. In: Proceedings of 4th IASTED international conference on robotics and manufacturing, IASTED RM’96, Hawaii, pp 80–84
Verma B, Gader P (2000) Fusion of multiple handwritten word recognition techniques. In: Neural networks for signal processing X, 2000. Proceedings of the 2000 IEEE Signal Processing Society Workshop, vol 2, pp 926–934
Verma B, Blumenstein M, Kulkarni S (1998) Recent achievements in off-line handwriting recognition systems. In: Proceedings of the 2nd international conference on computational intelligence and multimedia applications, (ICCIMA ‘98), Gippsland, pp 27–33
Verma B, Gader P, Chen W (2001) Fusion of multiple handwritten word recognition techniques. Pattern Recognit Lett 22(9): 991–998
Verma B, Blumenstein M, Ghosh M (2004) A novel approach for structural feature extraction: contour vs. direction. Pattern Recognit Lett 25(9): 975–988
Viard-Gaudin C, Lallican P-M, Knerr S (2005) Recognition-directed recovering of temporal information from handwriting images. Pattern Recognit Lett 26(16): 2537–2548
Vinciarelli A (2002) A survey on off-line cursive word recognition. Pattern Recognit 35(7): 1433–1446
Vuurpijl L, Schomaker L, Van M (2003) Architectures for detecting and solving conflicts: two-stage classification and support vector classifiers. Int J Document Anal Recognit 5(4): 213–223
Wang X, Ding X, Liu C (2005) Gabor filters based feature extraction for character recognition. Pattern Recognit 38(3): 369–379
Xiao X, Leedham G (2000) Knowledge-based English cursive script segmentation. Pattern Recognit Lett 21: 945–954
Xu Q, Lam L, Suen CY (2003) Automatic segmentation and recognition system for handwritten dates on Canadian bank cheque. In: Fairhurst M, Downton A (eds) Proceedings of the 7th international conference on document analysis and recognition, pp 704–709
Yamada H, Nakano Y (1996) Cursive handwritten word recognition using multiple segmentation determined by contour analysis. IEICE Trans Inf Syst E79-D: 464–470
Yanikoglu B, Sandon PA (1998) Segmentation of off-line cursive handwriting using linear programming. Pattern Recognit 31: 1825–1833
Zhang P, Bui TD, Suen CY (2007) A Novel cascade ensemble classifier system with a high recognition performance on handwritten digits. Pattern Recognit 40(12): 3415–3429
Zhou J, Gan Q, Krzyyzak A, Suen C-Y (2000) Recognition and verification of touching handwritten numerals. In: 7th International workshop on frontiers of handwriting recognition, pp 179–188
Zimmermann M, Bunke H (2002) Hidden Markov model length optimization for handwriting recognition systems. In: International workshop on frontiers in handwriting recognition, Niagara-on-the-Lakes, pp 369–374
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Rehman, A., Saba, T. Off-line cursive script recognition: current advances, comparisons and remaining problems. Artif Intell Rev 37, 261–288 (2012). https://doi.org/10.1007/s10462-011-9229-7
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10462-011-9229-7