Ljubinko Kevac, Mirjana Filipovic, and Aleksandar Rakic


  1. [1] C. Gosselin, P. Ren, and S. Foucault, Dynamic trajectory planning of a two-DOF cable-suspended parallel robot, 2012 Int. Conf. on Robotics and Automation, RiverCentre, Saint Paul, MN, USA, 14–18 May, 2012.
  2. [2] B.Y. Duan, A new design project of the line feed structure for large spherical radio telescope and its nonlinear dynamic analysis, Mechatronics, 9, 1998, 53–64.
  3. [3] R. Dekker, A. Khajepour, and S. Behzadipou, Design and testing of an ultra-high-speed cable robot, International Journal of Robotics and Automation, 21(1), 2006, 25–34.
  4. [4] J. Radojicic, D. Surdilovic, and J. Kruger, Application challenges of large-scale wire robots in agricultural plants, Proceedings of 2013 IFAC Bio-Robotics Conference, 1(1), 2013, 77–82.
  5. [5] M. Lefebvre, S. Gil, D. Brunet, E. Natonek, C. Baur, P. Gugelri, et al., Computer vision and agricultural robotics for disease control: the potato operation, Computers and Electronics in Agriculture, 9, 1993, 85–102.
  6. [6] Y. Sarig, Robotics of fruit harvesting: a state-of-the-art review, Journal of agricultural Engineering Research, 54, 1993, 265–280.
  7. [7] R. Lenain, B. Thullot, C. Carlou, and P. Martinet, High accuracy path tracking for vehicles in presence of sliding: Application to farm vehicle automatic guidance for agricultural tasks, Autonomous Robots, 21, 2006, 79–97.
  8. [8] M. Filipovic, A. Djuric, and Lj. Kevac, The rigid S-type cablesuspended parallel robot design, modelling and analysis Robotica, 34(9), 2016, 1948–1960.
  9. [9] M. Filipovic, A. Djuric, and Lj. Kevac, The significance of adopted Lagrange principle of virtual work used for modeling aerial robots, Applied Mathematical Modelling, 39(7), 2015, 1804–1822.

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