ADAPTIVE ROBUST TRACKING CONTROL OF AN UNDERWATER VEHICLE-MANIPULATOR SYSTEM WITH SUB-REGION AND SELF-MOTION CRITERIA

Zool H. Ismail and Matthew W. Dunnigan

References

  1. [1] G. Antonelli, Underwater robots: motion and force control ofvehicle-manipulator systems (Germany: Springer-Verlag Berlin,2003).
  2. [2] N. Sarkar, J. Yuh, & T.K. Podder, Adaptive control of under-water vehicle-manipulator systems subject to joint limits, Proc.IEEE/RJS International Conference on Intelligent Robots andSystems, Kyongju, Korea, 1, 1999, 142–147.
  3. [3] E. Zergeroglu, D.M. Dawson, I. Walker, & A. Behal, Nonlineartracking control of kinematically redundant robot manipulators,Proc. 2000 American Control Conf., 4, 2000, 2513–2517.
  4. [4] U. Ozbay, H.T. Sahin, & E. Zergeroglu, Robust trackingcontrol of kinematically redundant robot manipulators subjectto multiple self-motion criteria, Robotica, 26, 2008, 711–728.
  5. [5] C.C. Cheah & Y.C. Sun, A region reaching control schemefor underwater vehicle-manipulator systems, Proc. IEEE Int.Conf. Robotics and Automation, Roma, Italy, 2007, 4576–4579.
  6. [6] Y.C. Sun & C.C. Cheah, Adaptive control schemes for au-tonomous underwater vehicle, Robotica, 27, 2009, 119–129.
  7. [7] S.P. Hou & C.C. Cheah, Region tracking control for robotmanipulators, IEEE Int. Conf. Control Applications, Singapore,2007, 1438–1443.
  8. [8] M. de Queiroz, D. Dawson, S. Nagarkatti, & F. Zhang,Lyapunov-based control of mechanical systems (Boston, MA:Birkhauser, 1999).
  9. [9] L. Sciavicco & B. Siciliano, Modelling and control of robotmanipulators (Advanced Textbooks in Control and Signal Pro-cessing), 2nd edn (Springer, 2005).
  10. [10] Y. Nakamura, Advanced robotics: redundancy and optimization(Reading, MA: Addison-Wesley, 1991).
  11. [11] S. Murphy, J. Wen, & G. Saridis, Simulation of cooperatingrobot manipulators on a mobile platform, IEEE Transactionon Robotics and Automation, 7, 1991, 468–478.
  12. [12] I. Schjølberg & T.I. Fossen, Modelling and control of underwatervehicle-manipulator systems, Proc. 3rd Conf. Marine CraftManoeuvring and Control, Southampton, UK, 1994, 45–57.
  13. [13] T.I. Fossen, Guidance and control of ocean vehicles, 1st ed.(New York: John Wiley and Sons, 1994).
  14. [14] C.C. Cheah & D.Q. Wang, Region reaching control of robots:theory and experiments, IEEE Int. Conf. Robotics and Au-tomation (Barcelona, Spain, 2005), 974–979.66
  15. [15] F. Lizarralde & J.T. Wen, Attitude control without angularvelocity measurement: a passivity approach, IEEE Transactionson Automatic Control, 41, 1996, 468–472.
  16. [16] P. Hsu, J. Hauser, & S. Sastry, Dynamic control of redundantmanipulators, Journal of Robotic Systems, 6, 1989, 133–148.
  17. [17] M. Krstic, I. Kanellakopoulos, & P. Kokotovic, Nonlinear andadaptive control design (New York, NY: John Wiley and Sons,1995).
  18. [18] F.L. Lewis, C.T. Abdallah, & D.M. Dawson, Robot manipulatorcontrol: theory and practice, 2nd edn (New York: MarcelDekker, 2004).
  19. [19] C. Desoer & M. Vidyasagar, Feedback systems: input-outputproperties (New York: Academic Press, 1975).
  20. [20] T. Yoshikawa, Foundations of robotics: analysis and control(Cambridge, MA, USA: MIT Press, 1990).
  21. [21] N. Sarkar & T.K. Podder, Coordinate motion planning andcontrol of autonomous underwater vehicle-manipulator systemssubject to drag optimization, IEEE Journal Oceanic Engineer-ing, 26(2), 2001, 228–239.
  22. [22] Z.H. Ismail & M.W. Dunnigan, Redundancy resolution forunderwater vehicle-manipulator systems with congruent gravityand buoyancy loading optimization, Proc. IEEE Int. Conf.Robotics and Biomimetic, Guilin, China, 2009, 1393–1399.
  23. [23] K. Cleary & D. Tesar, Incorporating multiple criteria in theoperation of redundant manipulators, Proc. IEEE Int. Conf.Robotics and Automation, Cincinnati, Ohio, 1990, 618–624.
  24. [24] T.F. Chan & R.V. Dubey, A weighted least-norm solution basedscheme for avoiding joint limits for redundant manipulators,IEEE Transactions on Robotics and Automation, 11(2), 1995,286–292.
  25. [25] A. Khoukhi, L. Baron, M. Balazinski, & K. Demirli, Hybridneuro-fuzzy multi-objective trajectory planning of redundantmanipulators, Control and Intelligent Systems, 37(2), 2009,87–96.
  26. [26] G. Antonelli, On the use of adaptive/intergral actionsfor 6-degrees-of-freedom control of autonomous underwatervehicles, Journal of Oceanic Engineering, 32(2), 2007, 300–312.
  27. [27] J. Yuh, S. Zhao, & P.M. Lee, Application of adaptive distur-bance observer control to an underwater manipulator, IEEEInternational Conference on Robotics and Automation, Seoul,Korea, 4, 2001, 3244–3249.

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