A NEW APPROACH FOR AN AUTOMATED INSPECTION SYSTEM OF THE MANUFACTURED PARTS

A. Boutarfa, N.-E. Bouguechal, and H. Emptoz

References

  1. [1] T.S. Newman & A.K. Jain, A survey of automated visual inspection, Computer Vision and Image Understanding, 1 (2), 1995, 231–262.
  2. [2] T.S. Newman & A.K. Jain, A system for 3D CAD based inspection using range images, Pattern Recognition Letters, 28 (10), 1995, 1555–1574.
  3. [3] G.H. Tarbox & S.N. Gottschlich, Planning for complete sensor coverage in inspection, Computer Vision and Image Understanding, 61 (1), 1995, 84–111.
  4. [4] A.D. Marshall, R.R. Martin, & D. Hutber, Automatic inspection of mechanical parts using geometric models and laser range finder data, Image and Vision Computing, 9 (6), 1991, 385–405.
  5. [5] E. Trucco, M. Umasuthan, M. Wallace, & V. Roberto, Model-based planning of optimal sensor placements for inspection, IEEE Transactions on Robotics and Automation, 13 (2), 1997, 182–194.
  6. [6] R. Pito, A sensor based solution to the next view problem, 13th Int. Conf. on Pattern Recognition, Vienna, Austria, 1996, 941–945.
  7. [7] R. Pito, Automated surface acquisition using range cameras, Computer information science, Ph.D. Dissertation, University of Pennsylvania, GRASP Laboratory, Philadelphia, USA, 1997.
  8. [8] D. Papadopoulos-Orfanos & F. Schmitt, Automatic 3D digitization using a laser range finder with a small field of view, Proc. Int. Conf. on Recent Advanced in 3D Digital Imaging and Modelling, Ottawa, Canada, 1997, 60–67.
  9. [9] P.J. Besl & N.D. McKay, A method for registration of 3-D shapes, IEEE Transactions on Pattern Analysis and Machine Intelligence, 14 (2), 1992, 239–256.
  10. [10] P. Masuda & M. Yokoha, A robust method for the registration and segmentation of multiple range images, International Journal of Computer Vision and Image Understanding, 61 (3), 1995, 295–307.
  11. [11] V. Moron, P. Boulanger, T. Redarce, & A. Jutard, 3D range data/CAD model comparison: Industrial parts conformity verification, First Int. Conf. on Integrated Design and Manufacturing in Mechanical Engineering, IDMME’96, Nantes, France, 1996, 1023–1032.
  12. [12] M. Rioux, Laser range finder based on synchronized scanners, SPIE Milestone Series, Optical Techniques for Industrial Inspection, Bellinghan, WA, USA, 1997, 142–149.
  13. [13] F. Prieto, T. Redarce, & P. Boulanger, A non contact CAD based inspection system, Int. Quality Control by Artificial Vision, Quebec, Canada, 1999, 133–138.
  14. [14] F. Prieto, T. Redarce, & R. Lepage, An automated inspection system, International Journal of Advanced Manufacturing Technology, 19, 2002, 917–925.
  15. [15] F. Prieto, R. Lepage, & P. Boulanger, A CAD-based 3D data acquisition strategy for inspection, Machine Vision & Applications Journal, 15 (2), 2003, 76–91.
  16. [16] G. Osorio, P. Boulanger, & F. Prieto, An experimental comparison of a hierarchical range image segmentation algorithm, Second Can. Conf. on Computer and Robot Vision, Victoria, BC, Canada, 2005, 571–578.
  17. [17] A. Boutarfa, N. Bouguechal, Y. Abdessemed, & T. Redarce, Pattern recognition in computer integrated manufacturing. International Journal of Engineering, Jeeec.Sk, 57 (1), 2006, 28–35.
  18. [18] H.C. Garcia, J.R. Villalobos, & G. Runger, Automated feature selection for visual inspection systems, IEEE Transactions on Automation Science and Engineering, 3 (4), 2006, 394–406.

Important Links:

Go Back