Overall stiffness derivation and enhancement algorithm of a flying cable-driven parallel robot
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Springer Science and Business Media LLC
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https://link.springer.com/content/pdf/10.1007/s12206-024-0134-9.pdf
Reference27 articles.
1. J. H. Bak, S. W. Hwang, J. Yoon, J. H. Park and J. O. Park, Collision-free path planning of cable-driven parallel robots in cluttered environments, Intel. Serv. Rob., 12(3) (2019) 243–253.
2. E. Ida, T. Bruckmann and M. Carricato, Rest-to-rest trajectory planning for underactuated cable-driven parallel robots, IEEE Trans. Rob., 35(6) (2019) 1338–1351.
3. Q. B. Jin, G. Yu and H. Li, The vibration suppression of cable with self-excitation in parallel cable-driven regulating system, Adv. Space Res., 66(10) (2020) 2416–2427.
4. M. Rushton, H. Jamshidifar and A. Khajepour, Multiaxis reaction system (MARS) for vibration control of planar cable-driven parallel robots, IEEE Trans. Rob., 35(4) (2019) 1039–1046.
5. G. Rosati, D. Zanotto and S. K. Agrawal, On the design of adaptive cable-driven systems, ASME J. Mech. Rob., 3(2) (2011) 021004.
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1. Stiffness Analysis of Cable-Driven Parallel Robot for UAV Aerial Recovery System;Actuators;2024-09-06
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