PASSIVITY-BASED CONTROLLER– OBSERVER FOR ROBOT MANIPULATORS

F. Bouakrif, D. Boukhetala, and F. Boudjema

References

  1. [1] J.Y.S. Luh, M.W. Walker, & R.C.P. Paul, Resolvedacceleration control of mechanical manipulators, IEEE Transactions on Automatic Control, AC-25(3), 1980, 468–474.
  2. [2] M.W. Spong & M. Vidyasagar, Robot dynamics and control (New York: John Wiley & Sons, 1989).
  3. [3] C.A. Desoer & M. Vidyasagar, Feedback systems: Input-output properties (New York: Academic, 1975).
  4. [4] V.I. Arnold, Mathematical methods of classical mechanics, Second Edition (New York: Springer-Verlag, 1989).
  5. [5] B. Paden & R. Panja, Globally asymptotically stable ‘PD+’ controller for robot manipulators, International Journal of Control, 47, 1988, 1697–1712.
  6. [6] B. Hannaford & J.H. Ryu, Time domain passivity control of haptic interfaces, IEEE Transactions of Robotics Automation, 18, 2002, 1–10.
  7. [7] J.H. Ryu, D.S. Kwon, & B. Hannaford, Stable teleoperation with time domain passivity control, IEEE Transactions Robotics and Automation, 20, 2004, 365–373.
  8. [8] J.J.E. Slotine & W. Li, Adaptive manipulator control, Proc. IEEE Int. Conf. On Robotics and Automation, Raleigh, 1987, 1312–1400.
  9. [9] P.K. Khosla & T. Kanade, Experimental evaluation of nonlinear feedback and feedforward control schemes for manipulators, International Journal of Robotics Research, 7, 1988, 18–28.
  10. [10] H. Berghuis, Model based control: From theory to practice, Ph.D. Thesis, University of Twent, the Netherlands, 1993.
  11. [11] A.J. Krener & A. Isidori, Linearization by output injection and nonlinear observers, Systematic Control Letters, 3, 1983, 47–52.
  12. [12] D.A. Lawrence, On a nonlinear observer with pseudo-linearized error dynamics, Proc. 31-st IEEE Conf. Decision and Control, Tucson, USA, 1992, 751–756.
  13. [13] A.J. Krener & W. Respondek, Nonlinear observers with linearized error dynamics, SIAM Journal of Control and Optimization, 23(2), 1985, 197–216.
  14. [14] M.A. Hammami, Stabilization of a class of nonlinear systems using an observer design, Proc. 32nd IEEE Conf. Decision and Control, San Antonio, Texas, Vol. 3, 1993, 1954–1959.
  15. [15] J.P. Gauthier, H. Hammouri, & S. Othman, A simple observer for nonlinear system: Applications to bioreactors, IEEE Transactions of Automatic Control, 37(6), 1991, 875–880.
  16. [16] S. Nicosia, A. Tornambb, & P. Valigi, Experimental results in state estimation of industrial robots, Proc. 29th IEEE Conf. on Decision and Control, 1990, 360–365.
  17. [17] H. Berghuis & H. Nijmeijer, Global regulation of robots using only position measurements, Systematic Control Letters, 21, 1993, 289–293.
  18. [18] A. Abdessameud & M.F. Khelfi, A variable structure observer for the control of robot manipulators, International Journal of Applied Mathematics and Computer Science, 16(2), 2006, 189–196.
  19. [19] W. Yu & X. Li, PD control of robot with velocity estimation and uncertainties compensation, International Journal of Robotics and Automation, 21(1), 2006.
  20. [20] M.F. Khelfi, M. Zasadzinski, H. Rafaralahy, E. Richard, & M. Darouach, Reduced-order observer-based point-to-point 7 and trajectory controllers for robot manipulators, Control of Engineering Practice, 4(7), 1996, 991–1000.
  21. [21] N. Sadegh & R. Horowitz, Stability and robustness analysis of a class of adaptive controllers for robotic manipulators, The International Journal of Robotics Research, 9, 1990, 74–94.
  22. [22] J.Y. Choi, J. Uh, & J.S. Lee, Iterative learning control of robot manipulator with I-type parameter estimator, Proceeding of the America Control Conference, 2001, 646–651.
  23. [23] S. Nicosia & P. Tomei, Robot control by using only joint position measurements, IEEE Transactions Automatic Control, 35(9), 1990, 1058–1061.
  24. [24] B. Xian, M. Queiroz, D. Dawson, & M. McIntyre, A discontinuous output feedback controller and velocity observer for nonlinear mechanical systems, Automatica, 40(4), 2004, 695–700.
  25. [25] J.J.E. Slotine & W. Li, Applied nonlinear control (Englewood Cliffs: Prentice-Hall, 1991).
  26. [26] B. Brogliato, R. Lozano, B. Maschke, & O. Egland, Dissipative systems analysis and control, theory and applications, Second edition (London: Springer-Verlag, 2007).
  27. [27] W. Khalil & E. Dombre, Modélisation, identification et commande des robots 2`eme édition revue et augmentée (Hermes Science Publications, Paris, 1999).
  28. [28] R. Lozano & D. Taoutaou, Commande adaptative et application (Hermes Science Publications, 2001).

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