Byung-Yoon Lee,∗ Hyun-Shik Oh,∗∗ Min-Jea Tahk,∗∗∗ and Hae-In Lee∗∗∗∗
[1] Russian Helicopters Company’s News., Mi-26T completes unique transport mission, 2010, http://www.russianhelicopters .aero/en/rostvertol/news/6590.html. [2] J. Sessions and W. Chung, An approach to optimizing helicopter logging operations, in G.J. Arthaud and T.M. Barrett (eds.), Systems Analysis in Forest Resources, vol. 7 (Springer Netherlands, 2003), 81–86. [3] K. Stampfer, H. Gridling, and R. Visser, Analyses of parameters affecting helicopter timber extraction, International Journal of Forest Engineering, 13(2), 2002, 61–68. [4] M. Bisgaard, A. la Cour-Harbo, and J.D. Bendtsen, Adaptive control system for autonomous helicopter slung load operations, Control Engineering Practice, 18(7), 2010, 800–811. [5] C. Adams, J. Potter, and W. Singhose, Input-shaping and model-following control of a helicopter carrying a suspended load, Journal of Guidance, Control, and Dynamics, 38(1), 2015, 94–105. [6] K. Kang, J.V.R. Prasad, and E. Johnson, Active control of a UAV helicopter with a slung load for precision airborne cargo delivery, Unmanned Systems, 4(3), 2016, 213–226. [7] H.M. Kim, et al., Initial flight tests of an automatic slung load control system for the ACT/FHS, CEAS Aeronautical Journal, 7(2), 2016, 209–224. [8] F.A. Goodarzi, D. Lee, and T. Lee, Geometric stabilization of a quadrotor UAV with a payload connected by flexible cable, American Control Conf. (ACC), 2014, 4925–4930. [9] I. Palunko, R. Fierro, and P. Cruz, Trajectory generation for swing-free maneuvers of a quadrotor with suspended payload: A dynamic programming approach, Robotics and Automation (ICRA), 2012, 2691–2697. [10] J. Trachte, F. Gonzalez, and A. McFadyen, Nonlinear model predictive control for a multi-rotor with heavy slung load, Unmanned Aircraft Systems (ICUAS), 2014, 1105–1110. [11] A. Faust, et al., Automated aerial suspended cargo delivery through reinforcement learning, Artificial Intelligence, 247, 2017, 381–398. [12] B.Y. Lee, et al., Study on payload stabilization method with the slung-load transportation system using a quad-rotor, 2015 European Control Conf. (ECC), 2015, 2097–2102. [13] H.S. Oh, et al., Leader steering method for the guidance and control of multi-lift transportation system, International Journal of Robotics and Automation, 32(5), 2017, 471–481. [14] H.I. Lee, et al., Parameter-robust linear quadratic Gaussian technique for multi-agent slung load transportation, Aerospace Science and Technology, 71, 2017, 119–127. [15] H. Tourajizadeh, M.H. Korayem, and S.R. Nekoo, Sensitivity analysis of dynamic load carrying capacity of a cable-suspended robot, International Journal of Robotics and Automation, 33(1), 2018, 1–11. [16] M. Trentini and J.K. Pieper, Model-following control of a helicopter in hover, IEEE International Conference on Control Applications, 1996, 7–12. [17] N.C. Singer and W.P. Seering, Preshaping command inputs to reduce system vibration, Journal of Dynamic Systems, Measurement, and Control, 112(1), 1990, 76–82. [18] T. Singh and W. Singhose, Input shaping/time delay control of maneuvering flexible structures, American Control Conf., 2002, 1717–1731. [19] L.D. Morrow and R. Balasubramanian, Real model following control, Journal of Aircraft, 12(12), 1975, 996–998. [20] B.Y. Lee, D.W. Yoo, and M.J. Tahk, Performance comparison of three different types of attitude control systems of the quadrotor UAV to perform flip maneuver, International Journal Aeronautical and Space Sciences, 14(1), 2013, 58–66. [21] S. Islam, X.P. Liu, and A.E. Saddik, Adaptive sliding mode control of unmanned four rotor flying vehicle, International Journal of Robotics and Automation, 30(2), 2015, 140–148.
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