THE DESIGN OF SLIDING MODE CONTROL SYSTEM BASED ON BACKSTEPPING THEORY FOR BTT UAV

J. Yao,∗ ,∗∗ X. Zhu,∗∗∗ and Z. Zhou∗∗∗

References

  1. [1] D.J. Bugajski, D.F. Enns, & M.R. Elgersma, A dynamic inversion based control law with application to high angle of attack research vehicle, Proc. AIAA Conf. on Guidance, Navigation and Control, Portland, OR, 1990, 826–839.
  2. [2] P.K.A. Menon, M. Badgett, & R.A. Walker, Nonlinear flight test trajectory controllers for aircraft, Journal of Guidance, Control, and Dynamics, 10 (1), 1987, 67–72.
  3. [3] R. Srivastava, A. Sarkar, & S. Gollakota, Nonlinear inversion flight control for a super maneuverable aircraft, Journal of Guidance, Control, and Dynamics, 15 (4), 1992, 976–984.
  4. [4] C. Schumacher & P.P. Khargonekar, Stability analysis of a missile control system with a dynamic inversion Controller, Journal of Guidance, Control, and Dynamics, 21 (3), 1998, 508–515.
  5. [5] O. Harkegard & S. Torkel Glad, A backstepping design for flight path angle control, Proc. 39th IEEE Conf. on Decision and Control, Sydney, Australia, 2000, 3570–3575.
  6. [6] M. Xin & S.N. Balakrishan, Nonlinear missile autopilot design theta-D with technique, Journal of Guidance Control and Dynamics, 27 (3), 2004, 406–417.
  7. [7] M.A. Khan & P. Lu, New technique for nonlinear control of aircraft, Journal of Guidance, Control, and Dynamics, 17 (5), 1994, 1055–1060.
  8. [8] M.M. Polycarpou & P.A. Ioannou, A robust adaptive nonlinear control design, Automatica, 32 (3), 1996, 423–427. 353
  9. [9] B. Hemici, L. Nezli, M. Tadjine, & M.S. Boucherit, Robust PID/backstepping control design for permanent magnet synchronous motor drive, Control and Intelligent Systems, 34 (3), 2006, 194–204.
  10. [10] R. Skjetne & T.I. Fossen, On integral control in backstepping: analysis of different techniques, Proc. American Control Conference, Boston, MA, 2004, 1899–1904.
  11. [11] J.Y. Choi & J.A. Farrell, Adaptive observer backstepping control using neural networks, IEEE Transactions on Neural Networks, 12 (5), 2001, 1103–1112.
  12. [12] O. Kuljaca, N. Swamy, F.L. Lewis, & C.M.A.K.C.M. Kwan, Design and implementation of industrial neural network controller using backstepping, IEEE Transactions on Industrial Electronics, 50 (1), 2003, 193–201.
  13. [13] J. Li, D. Xu, B. Song, & W. Yan, An easily implementable backstepping sliding mode controller for nonlinear system with unmatched uncertainties, Journal of Northwestern Polytechnical University, 22 (2), 2004, 145–148.
  14. [14] P. Carbonell, Z.P. Jiang, & D.W. Repperger. Nonlinear control of a pneumatic muscle actuator: Backstepping vs. slidingmode, Proc. IEEE Conf. on Control Applications, Mexico City, Mexico, 2001, 167–172.
  15. [15] Y. Zhang, B. Fidan, & P.A. Ioannou, Backstepping control of linear time-varying systems with known and unknown parameters, IEEE Transactions on Automatic Control, 48 (11), 2003, 1908–1925.
  16. [16] J. Zhou, C. Wen, & Y. Zhang, Adaptive backstepping control of a class of uncertain nonlinear systems with unknown backlashlike hysteresis, IEEE Transactions on Automatic Control, 49 (10), 2004, 1751–1759.
  17. [17] Y. Zhang, C. Wen, & Y.C. Soh, Adaptive backstepping control design for systems with unknown high-frequency gain, IEEE Transactions on Automatic Control, 45 (12), 2000, 2350–2354.
  18. [18] C.-K. Lin & S.-D. Wang, An adaptive H/sup /spl infin// controller design for bank-to-turn missiles using ridge Gaussian neural networks, IEEE Transactions on Neural Networks, 15 (6), 2004, 1507–1516.
  19. [19] A.R. Benaskeur & A. Desbiens, Backstepping-based adaptive PID control, IEE Transactions on Control Theory and Applications, 149 (1), 2002, 54–59.
  20. [20] F.L. Lewis, C.T. Abdallah, & D.M. Dawson, Control of robot manipulators (Englewood Cliffs, NY: Macmillan, 1993).
  21. [21] B. Stevens & F. Lewis, Aircraft control and simulation (Englewood Cliffs, NY: Wiley, 1992).

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