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Tytuł artykułu

Identification of the initial rule-base of a multi-stroke fuzzy-based character recognition method with meta-heuristic techniques

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
PL
Identyfikacja początkowej bazy reguł w metodzie rozpoznawania wieloliniowego pisma odręcznego opartej na logice rozmytej z wykorzystaniem technik metaheurystycznych
Języki publikacji
EN
Abstrakty
EN
This paper summarizes the basic concept of the designed a fuzzy-based character recognition algorithm family and the results of the optimization of its rule-base with two various meta-heuristic methods, the Imperialist Competitive Algorithm and the bacterial evolutionary algorithm. The results are presented and compared with two other methods from literature after a short overview of the recognition algorithm.
PL
W niniejszym artykule podsumowano podstawową koncepcję projektowania rodziny algorytmów rozpoznawania pisma odręcznego opartej na logice rozmytej oraz wyniki optymalizacji bazy reguł, z wykorzystaniem dwóch różnych metod metaheurystycznych: algorytmu ewolucyjnego ICA (Imperialist Competitive Algorithm) oraz ewolucyjnego algorytmu bakteryjnego. Przedstawiono krótkie podsumowanie algorytmu rozpoznawania pisma, a także wyniki porównawcze z dwoma innych metodami dostępnymi w literaturze.
Rocznik
Strony
103--115
Opis fizyczny
Bibliogr. 19 poz., rys., wykr.
Twórcy
autor
  • Department of Information Technology, Faculty of Engineering Sciences, Széchenyi István University, Györ
autor
  • Department of Automation, Faculty of Engineering Sciences, Széchenyi István University Györ
  • Department of Telecommunications and Media Informatics, Budapest University of Technology and Economics
Bibliografia
  • [1] LaLomia M.J., User acceptance of handwritten recognition accuracy, Companion Proc. CHI ’94, New York 1994, 107.
  • [2] Zadeh L.A., Fuzzy sets, Inf. Control, 83, 1965, 338-35.
  • [3] Mamdani E.H., Assilian S., An experiment in linguistic synthesis with a fuzzy logic controller, International Journal of Man-Machine Studies, Vol. 7, 1975, 1-13.
  • [4] Takagi T., Sugeno M., Fuzzy identification of systems and its applications to modeling and control, IEEE Transactions on Systems, Man, and Cybernetics, Vol. SMC-15, 1985, 116-132.
  • [5] Tormási A., Botzheim J., Single-stroke character recognition with fuzzy method, New Concepts and Applications in Soft Computing SCI, Vol. 417, V.E. Balas et al. (eds.), 2012, 27-46.
  • [6] Tormási A., Kóczy T.L., Improving the Accuracy of a Fuzzy-Based Single-Stroke Character Recognizer by Antecedent Weighting, Proc. 2nd World Conference on Soft Computing, Baku 2012, 172-178.
  • [7] Tormási A., Kóczy T.L., Fuzzy-Based Multi-Stroke Character Recognizer, Preprints of the Federated Conference on Computer Science and Information Systems, Kraków 2013, 675-678.
  • [8] Tormási A., Kóczy T.L., Comparing the efficiency of a fuzzy single-stroke character recognizer with various parameter values, Proc. IPMU 2012, Part I. CCIS, Vol. 297, S. Greco et al. (eds.), 2012, 260–269.
  • [9] A. Tormasi, and Kóczy T.L., Efficiency and accuracy analysis of a fuzzy single-stroke character recognizer with various rectangle fuzzy grids, Proc. CSCS ’12, Szeged 2012, 54-55.
  • [10] Sugeno M., Griffin F.M., Bastian A., Fuzzy hierarchical control of an unmanned helicopter, Proc. IFSA ’93, Seoul 1993, 1262-1265.
  • [11] Kóczy T.L., Hirota K., Approximate inference in hierarchical structured rule-bases, Proc. IFSA ’93, Seoul 1993, 1262-1265.
  • [12] Tormási A., Kóczy T.L., Improving the Efficiency of a Fuzzy-Based Single-Stroke Character Recognizer with Hierarchical Rule-Base, Proc. 13th IEEE International Symposium on Computational Intelligence and Informatics, Óbuda 2012, 421-426.
  • [13] Atashpaz-Gargari E., Lucas C., Imperialist Competitive Algorithm: An algorithm for optimization inspired by imperialistic competition, Proc. 2007 IEEE Congress on Evolutionary Computation, 7, Singapore 2007, 4661-4666.
  • [14] Nawa N.E., Furuhashi T., Fuzzy system parameters discovery by bacterial evolutionary algorithm, IEEE Transactions on Fuzzy Systems, 7(5), 1999, 608-616.
  • [15] Költringer T., Grechenig T., Comparing the Immediate Usability of Graffiti 2 and Virtual Keyboard, Proc. CHI EA’04, New York 2004, 1175-1178.
  • [16] Anthony L., Wobbrock J.O., A Lightweight Multistroke Recognizer for User Interface Prototypes, Proc. GI 2010, Ottawa 2010, 245-252.
  • [17] Fleetwood M.D. et al., An evaluation of text-entry in Palm OS – Graffiti and the virtual keyboard, Proc. HFES’02, Santa Monica, CA, 2002, 617-621.
  • [18] Wobbrock J.O., Wilson A.D., Li Y., Gestures without libraries, toolkits or training: A $1 recognizer for user interface prototypes, Proc. UIST ‘07. ACM Press, New York 2007, 159-168.
  • [19] Monteiro C., Leal J.P., Managing experiments on cognitive processes in writing with HandSpy, Computer Science and Information Systems, Vol. 10, No. 4, Novi Sad 2013, 1747-1773.
Uwagi
EN
This paper was supported by the Hungarian Scientific Research Fund (Hungarian abbreviation: OTKA) K105529, K108405 and TÁMOP-4.2.2.A-11/1/KONV-2012-0012. The used Meta-Heuristic algorithms were implemented by Márton Hevér as a part of his Master thesis (thesis advisor: Alex Tormási).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-89ba80ec-fa6a-4b8c-bc42-20cc12efe93a
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