M. Khemakhem and A. Belghith


  1. [1] M. Khemakhem & C. Fehri, Arabic type written characterrecognition using dynamic comparison, Proc. First KuwaitConf. on Computer Science, Kuwait, March 1989, 448–462.
  2. [2] M. Khemakhem & A. Belghith, A multipurpose multi-agentsystem based on a loosely coupled architecture to speedupthe DTW algorithm for Arabic printed cursive OCR, Proc.IEEE-AICCSA-2005, Cairo, Egypt, January 2005.
  3. [3] M. Khemakhem & A. Belghith, The DTW algorithm fordistributed printed cursive OCR within a multi agent system, Proc. ACM, ICICIS, Cairo, Egypt, March 14–18, 2007.
  4. [4] H.D. Cheng & K.S. Fu, VLSI architecture for pattern matching using space-time domain expansion approach, Proc. IEEE Int. Conf. on Computer Design VLSI and Computing, NY, October 1985, 7–10.
  5. [5] H.-D. Cheng & K.S. Fu, A VLSI architecture for dynamic time-wrap recognition of handwritten symbols, IEEE Transactions on Acoustics, Speech, & Signal Processing, 34(3), June 1986.
  6. [6] G. Qu´enot, J.L. Gauvain, J.J. Gangolf, & J. Mariani, A dynamic programming processor for speech recognition, IEEE Journal of Solid-State Circuits, 24, N(F 9)q.20, April 1989.
  7. [7] M. Khemakhem, A. Belghith, & M. Ben Ahmed, Etude etEvaluation de deux m´ethodes de distribution de l’algorithme de comparaison dynamique pour la reconnaissance de caract`eres arabes, Proc. First Maghrebin Symp. on Programming and Systems, Algeria, October 1991.
  8. [8] P.G. Bradford, Efficient parallel dynamic programming, Proc. 30th Annual Allerton Conf. on Communication, Control and Computing, University of Illinois, 1992, 185–194.
  9. [9] M. Khemakhem, A. Belghith, & M. Ben Ahmed, Mod´elisation architecturale de la Comparaison Dynamique distribu´ee, Proc. 2 Intl. Congress on Arabic and Advanced Computer Technology, Casablanca, Morocco, December 1993.
  10. [10] Alves, E.N. C´aceres, & F. Dehne, Parallel dynamic programming for solving the string editing problem on CGM/BSP, Proc. SPAA’02, Winnipeg, Manitoba, Canada, August 10–13, 2002.
  11. [11] R. Buyya & S. Venugopal, A Gentle introduction to grid computing and technologies, Proc. CSI, India, May 7–19, 2005.
  12. [12] Z. Shi, H. Huang, J. Luo, F. Lin, & H. Zhang, Agent based grid computing, Journal of Applied Mathematical Modelling, 30, 2006, 629–640, available at: www.sciencedirect.com.
  13. [13] J.S. Bridle, M.D. Browen, & R.M. Chamberlain, An algorithm for connected word recognition, Proc. IEEE, ICASSP, May 1982, 899–902.
  14. [14] V. Vuori, J. Laaksonen, E. Oja, & J. Kangas, Experiments with adaptation strategies for a prototype-based recognition system for isolated handwritten characters, International Journal of Document Analysis and Recognition, 3, 2001, 150–159.
  15. [15] A. Kumar, A. Balasubramanian, A.M. Namboodiri, & C.V.Jawahar, Model-based annotation of online handwrittendatasets, Technical report, International Institute of Information Technology, Gachibowli, Hyderabad, India, 2006.
  16. [16] E. Tapia & R. Rojas, A survey on recognition of on-line handwritten mathematical notation, Technical Report B-07-01 Freie University at Berlin, Institut fur Informatik Takustr. 9, 14195 Berlin, Germany, January 26, 2007.
  17. [17] A. Amin, Off-line Arabic character recognition: The state of the art, Pattern Recognition, 31(5), 1998, 517–530.
  18. [18] M.A. Cheung, M. Bennamoun, & N. Bergmann, An Arabicoptical character recognition system using recognition based segmentation, Pattern Recognition, 34, 2001, 215–233.
  19. [19] N.E.B. Amara, O. Mazhoud, N. Bouzrara, & N. Ellouze,A relational database for Arabic OCR system, LAJIT, 2 (4),October 2005, 259–266.
  20. [20] F. Capello, The evolution of GRID5000, Workshop on Grid Computing: e-Infrastructure, Applications and Research, ESSTT, UTIC, Tunisia, 2007.
  21. [21] N. Abdennadher, Using the volunteer computing platform XtremWeb-CH: Lessons and perspectives, Workshop on Grid Computing: e-Infrastructure, Applications and Research, ESSTT, UTIC, Tunisia, 2007.
  22. [22] I. Foster, C. Kesselman, & S. Tuecke, The anatomy of the grid, International Journal of Supercomputer Applications, 2002.
  23. [23] Available at: http://www.globus.org.
  24. [24] IBM, Introduction to Grid Computing with Globus IBM Red-book, SG24-6895-01 ISBN 0738427969, September 2003.
  25. [25] I. Foster, N.R. Jennings, & C. Kesselman, Brain meets brawn: why grid and agents need each other, Proc. AAMAS’04, Leeds, UK, March 2004.
  26. [26] Available at: http://www.esstt.rnu.tn/utic/gtrs/.
  27. [27] Available at: http://www.xtremwebch.net.
  28. [28] Available at: http://www.xtremweb.net.
  29. [29] N. Abdennadher, XtremWeb-CH: A global framework forhigh performance computing applications, Internal Report,Switzerland, HES-SO/EIG, August 2004.
  30. [30] N. Abdennadher, Towards Peer-to-Peer tool for intensive computing, Flash Informatique, EPFL, Switzerland, August 2005.
  31. [31] M. Khemakhem & A. Belghith, Agent based architecturefor parallel and distributed complex information processing, International Revue on Computers and Softwares (IRECOS), 2 (1), 2007, 38–44.
  32. [32] Worldlanguage products available at: http://www.worldlanguage.com/Products/Arabic/OCR/Page1.htm.48

Important Links:

Go Back