AN ACCURATE PATH PLANNING ALGORITHM BASED ON TRIANGULAR MESHES IN ROBOTIC FIBRE PLACEMENT

Lina Li, Xingang Wang, De Xu, and Min Tan

References

  1. [1] G. Marsh, Automating aerospace composites production with fibre placement, Reinforced Plastics, 55(3), 2011, 32–37.
  2. [2] P. Debout, H. Chanal, and E. Duc, Tool path smoothing of a redundant machine: Application to automated fiber placement, Computer-Aided Design, 43(2), 2011, 122–132.
  3. [3] T. Aized and B. Shirinzadeh, Robotic fiber placement process analysis and optimization using response surface method. The International Journal of Advanced Manufacturing Technology, 55(1–4), 2011, 393–404.
  4. [4] B. Shirinzadeh, G. Alici, C.W. Foong, and G. Cassidy, Fabrication process of open surfaces by robotic fibre placement, Robotics and Computer-Integrated Manufacturing, 20(1), 2004, 17–28.
  5. [5] A. Kumar and A. Ojha, Subdivision-based corridor map method for path planning, International Journal of Robotics and Automation, 28(4), 2013, 331–339.
  6. [6] A.H.A. Hafez, A.K. Nelakanti, and C.V. Jawahar, Path planning for visual servoing and navigation using convex optimization, International Journal of Robotics and Automation, 30(3), 2015, 299–307.
  7. [7] B. Shirinzadeh, G. Cassidy, D. Oetomo, G. Alici, et al., Trajectory generation for open-contoured structures in robotic fibre placement, Robotics and Computer-Integrated Manufacturing, 23(4), 2007, 380–394.
  8. [8] L. Yan, Z.C. Chen, Y. Shi, and R. Mo, An accurate approach to roller path generation for robotic fibre placement of freeform surface composites, Robotics and Computer-Integrated Manufacturing, 30(3), 2014, 277–286.
  9. [9] W. Zeng, J. Xiao, Y. Li, D.J. Huan, et al., Research on path planning and coverability analysis of automatic fiber placement for structures in revolving shell, Journal of Astronautics, 31(1), 2010, 239–243.
  10. [10] X.D. Dang, J. Xiao, and D.J. Huan, Implementation on fiber placement parallel equidistant path generation algorithm, Journal of Wuhan University (Natural Science Edition), 53(5), 2007, 613–616.
  11. [11] H.Y. Lin, C.Y. Ho, and M.L. Wang, Reverse engineering of geometric models using images of surface level curves, International Journal of Robotics and Automation, 24(2), 2009, 115–124.
  12. [12] J.T. Xu, W.J. Liu, H.Y. Bian, and H.B. Wang, Constant scallop tool path for triangular surface machining, Journal of Mechanical Engineering, 46(11), 2010, 193–198.
  13. [13] W.L. Xiong, J. Xiao, X.F. Wang, J.X. Li, et al., Algorithm of adaptive path planning for automated placement on meshed surface, Acta Aeronautica ET Astronautica Sinica, 34(2), 2013, 434–441.
  14. [14] V.D. Holla, K.G. Shastry, and B.G. Prakash, Offset of curves on tessellated surfaces, Computer-Aided Design, 35(12), 2003, 1099–1108.
  15. [15] L.N. Li, X.G. Wang, D. Xu, and M. Tan, A placement path planning algorithm based on meshed triangles for carbon fiber reinforce composite component with revolved shape, IJCS: International Journal on Control Systems and Applications, 1(1), 2014, 23–32.
  16. [16] Y.W. Sun, J. Liu, and W.J. Liu, Reconstructing accurate boundary representation from STL model, Journal of Computer-Aided Design & Computer Graphics, 16(7), 2004, 944–949.
  17. [17] L.L. An, Y. Zhou, and L.S. Zhou, Composite fiber placement path planning and fiber number determination, Acta Aeronautica ET Astronautica Sinica, 28(3), 2007, 745–750.
  18. [18] G. Yang, W.J. Liu, W. Wang, and L.Y. Qin, Research on the rapid slicing algorithm based on STL topology construction, Advanced Materials Research, 97–101, 2010, 3397–3402.
  19. [19] G.V.V.R. Kumar, P. Srinivasan, V.D. Holla, K.G. Shastry, et al., Geodesic curve computation on surfaces, Computer Aided Geometric Design, 20(2), 2003, 119–133.

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