ADAPTIVE NON-LINEAR TRACKING CONTROL OF KINEMATICALLY REDUNDANT ROBOT MANIPULATORS1

E. Tatlicioglu, M.L. McIntyre, D.M. Dawson, and I.D. Walker

References

  1. [1] E. Tatlicioglu, M.L. McIntyre, D.M. Dawson, & I.D. Walker,Adaptive non-linear tracking control of kinematically redundantrobot manipulators with sub-task extensions (Spain, Seville:2005), pp. 4373–4378.
  2. [2] W. Dixon, A. Behal, D. Dawson, & S. Nagarkatti, Nonlinearcontrol of engineering systems: A Lyapunov-based approach(Boston, MA: Birkhauser, 2003).
  3. [3] F. Caccavale, C. Natale, B. Siciliano, & L. Villani, Resolved-acceleration control of robot manipulators: A critical reviewwith experiments, Robotica, 16(5), 1998, 565–573. doi:10.1017/S0263574798000290
  4. [4] O. Khatib, Dynamic control of manipulators in operationalspace, IFTOMM Cong. Theory of Machines and MechanismsNew Delhi, India, 1983, 1–10.
  5. [5] J. Yuan, Closed-loop manipulator control using quaternionfeedback, IEEE Transactions on Robotics and Automation, 4(4),1988, 434–440.
  6. [6] Y. Nakamura, Advanced robotics redundancy and optimization(Reading, MA: Addison-Wesley, 1991).
  7. [7] D. Nenchev, Redundancy resolution through local optimization:A review, Journal of Robotic Systems, 6(6), 1989, 769–798. doi:10.1002/rob.4620060607
  8. [8] B. Siciliano, Kinematic control of redundant robot manipulators:A tutorial, Journal of Intelligent and Robotic Systems, 3(3),1990, 201–212. doi:10.1007/BF00126069
  9. [9] R. Colbaugh & K. Glass, Robust adaptive control of redundantmanipulators, Journal of Intelligent and Robotic Systems, 14(1),1995, 68–88. doi:10.1007/BF01254008
  10. [10] P. Hsu, J. Hauser, & S. Sastry, Dynamic control of redundantmanipulators, Journal of Robotic Systems, 6(3), 1989, 133–148. doi:10.1002/rob.4620060203
  11. [11] Z. Peng & N. Adachi, Compliant motion control of kinemati-cally redundant manipulators, IEEE Transactions Robotics andAutomation, 9(6), 1993, 831–837.104 doi:10.1109/70.265926
  12. [12] H. Seraji, Configuration control of redundant manipulators:Theory and implementation, IEEE Transactions on Roboticsand Automation, 5(4), 1989. pp. 472–490. doi:10.1109/70.88062
  13. [13] T. Yoshikawa, Analysis and control of robot manipulators withredundancy, in Robotics Research – The First InternationalSymposium, Cambridge, MA, 1994, 735–747.
  14. [14] E. Zergeroglu, D. Dawson, I. Walker, & A. Behal, ‘Nonlineartracking control of kinematically redundant robot manipulators,’Proc. American Control Conf., Chicago, IL, 2000, 2513–2517.
  15. [15] F. Lewis, D. Dawson, & C. Abdallah, Robot manipulatorcontrol: Theory and practice (New York, NY: Marcel Dekker,Inc., 2004).
  16. [16] F. Lizarralde & J. Wen, Attitude control without angularvelocity measurement: A passivity approach, IEEE Transactionson Automatic Control, 41(3), 1996, 468–472. doi:10.1109/9.486654
  17. [17] P. Hughes, Spacecraft attitude dynamics (New York, NY: Wiley,1994).
  18. [18] A. Klumpp, Singularity-free extraction of a quaternion froma directional cosine matrix, Journal of Spacecraft and Rockets,13(12), 1976, 754–755.
  19. [19] J. Ahmed, V. Coppola, & D. Bernstein, Adaptive asymptotictracking of spacecraft attitude motion with inertia matrix iden-tification, Journal of Guidance, Control, and Dynamics, 21(5),1998, 684–691.
  20. [20] J. Kuipers, Quaternions and rotation sequences (Princeton,NJ: Princeton University Press, 1999).
  21. [21] D. Dawson, M. Bridges, & Z.Qu, Nonlinear control of roboticsystems for environmental waste and restoration (EnglewoodCliffs, NJ: Prentice-Hall, 1995).
  22. [22] E. Tatlicioglu, Control of Nonlinear Mechatronic Systems, VDMVerlag Dr. Mueller e.K., Germany, 2008.
  23. [23] L. Sciavicco & B. Sicilano, Modeling and control of robotmanipulators (New York, NY: McGraw-Hill Co., 1996).
  24. [24] I. Walker, Impact configurations and measures for kinematicallyredundant and multiple armed robot systems, IEEE Transac-tions on Robotics and Automation, 10(5), 1994, 670–683. doi:10.1109/70.326571
  25. [25] H. Khalil, Adaptive output feedback control of nonlinear systemsrepresented by input–output models, IEEE Transactions onAutomatic Control, 41(2), 1996, 177–188. doi:10.1109/9.481517

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