Yuanhui Wang, Yulong Tuo, Simon X. Yang, and Mingyu Fu


  1. [1] T.I. Fossen, Mathematical models of ships and underwater vehicles, J. Baillieul and T. Samad, (eds.), Encyclopedia of Systems and Control, Springer, 2014.
  2. [2] A.J. Sørensen, A survey of dynamic positioning control systems, Annual Reviews in Control, 35(1), 2011, 123–136.
  3. [3] T.I. Fossen, Handbook of marine craft hydrodynamics andmotion control (Chichester: Wiley, 2011).
  4. [4] T.I. Fossen, A nonlinear unified state-space model for ship maneuvering and control in a seaway, International Journal of Bifurcation and Chaos, 15(09), 2005, 2717–2746.
  5. [5] A.J. Sørensen, Dynamic positioning control systems for ships and underwater vehicles, Encyclopedia of Systems and Control, 2014.
  6. [6] H. Fay, Dynamic positioning systems, principles, design and applications (Paris, France: Editions Technip, 1989).
  7. [7] A.J. Sørensen, F. Dukan M. Ludvigsen, D.A. Fernandez,Development of dynamic positioning and tracking system forthe ROV Minerva, Further advances in unmanned marinevehicles, IET Digital Library, 2012, 113–128.
  8. [8] S. Islam, X.P. Liu, and A.E. Saddik, Adaptive sliding mode control of unmanned four rotor flying vehicle, International Journal of Robotics & Automation, 30(2), 2015, 140–148.
  9. [9] J.K. Rai, R.P. Tewari, and A.D. Chandra, An optimal control of biped robot for human-like walking, International Journal of Robotics & Automation, 28(2), 2013, 129–136.
  10. [10] C.J. Zhang, H.P. Hu, and Y.Q. Zhang, Intelligent control of time-delayed system, Applied Mechanics & Materials, 721, 2015, 253–256.
  11. [11] E.F. Camacho and C. Bordons, Distributed model predictive control, Optimal Control Applications and Methods, 34(2), 2013, 503.
  12. [12] R. Huang, V.M. Zavala, and L.T. Biegler, Advanced stepnonlinear model predictive control for air separation units, Journal of Process Control, 19(4), 2009, 678–685.
  13. [13] J. Richalet, A. Rault, and J.L. Testud, Model predictive heuristic control: Applications to industrial processes, Automatica, 14(5), 1978, 413–428.
  14. [14] T. Fan and C.W.D. Silva, Dynamic modelling and modelpredictive control of flexible-link manipulators, International Journal of Robotics & Automation, 23(4), 2008, 227–234.
  15. [15] S. Di Cairano, M. Brand, and S.A. Bortoff, Projection-free parallel quadratic programming for linear model predictive control, International Journal of Control, 86(8), 2013, 1367–1385.
  16. [16] L.C. Kwek, A.W.C. Tan, and E.K. Wong, Generalized pre-dictive control on a robotic manipulator system, International Journal of Robotics & Automation, 28(3), 2013, 277–283.
  17. [17] W.H. Chen, D.J. Ballance, and P.J. Gawthrop, Optimal control of nonlinear systems: A predictive control approach, Automatica, 39(4), 2003, 633–641.
  18. [18] W.H. Chen, Predictive control of general nonlinear systems using approximation, Control Theory and Applications, IEE Proceedings, 151(2), 2004, 137–144.
  19. [19] X. Peng, S. Jia, and X. Wang, Analytic model predictive control of uncertain nonlinear systems: A fuzzy adaptive approach, Mathematical Problems in Engineering, 2015, 1–9.
  20. [20] G.Y. Zhang, Z. Yang, and H.Z. Tan, Research on non-switch analytic nonlinear model predictive control method for a class of nonlinear systems, Acta Automatica Sinica, 34(34), 2008, 1147–1156.
  21. [21] W.H. Chen and D.J. Ballance, On a switching control scheme for nonlinear systems with ill-defined relative degree, Systems & Control Letters, 47(2), 2002, 159–166.
  22. [22] O. Faltinsen and T. Svensen, Incorporation of seakeeping theories in CAD, Ships, 1990.
  23. [23] T. Perez, TI. Fossen, and A. Srensen, A discussion about sea keeping and manoeuvering models for surface vessels, NTNU, 2004.
  24. [24] W.H. Chen, Predictive control of general nonlinear systems using approximation, Control Theory and Applications, IEE Proceedings, 151(2), 2004, 137–144.
  25. [25] F.P. Miller, A.F. Vandome, J. Mcbrewster, et al. Lie derivative, Communications & Control Engineering, 2010, 307–330.
  26. [26] Q.Q. Jia, R.B. Wu, Detection of fast air moving din targets via STAP with low computation burden, Radar Conference 2013, IET International, IET, Xi’an, 2013, 1–5.
  27. [27] Z. Yang, L. Peng, and Z. Fan, Suboptimal control study for a class of nonlinear systems, Control and Decision, 24(12), 2009, 1835–1836.
  28. [28] Y Wang, Y Sui, and WU Jing, Marine dynamic position system based on nonlinear model predictive control, Journal of Harbin Engineering University, 34(1), 2013, 110–115.

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