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2010 | 20 | 4 | 637-653

Tytuł artykułu

Robust adaptive fuzzy filters output feedback control of strict-feedback nonlinear systems

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
In this paper, an adaptive fuzzy robust output feedback control approach is proposed for a class of single input single output (SISO) strict-feedback nonlinear systems without measurements of states. The nonlinear systems addressed in this paper are assumed to possess unstructured uncertainties, unmodeled dynamics and dynamic disturbances, where the unstructured uncertainties are not linearly parameterized, and no prior knowledge of their bounds is available. In recursive design, fuzzy logic systems are used to approximate unstructured uncertainties, and K-filters are designed to estimate unmeasured states. By combining backstepping design and a small-gain theorem, a stable adaptive fuzzy output feedback control scheme is developed. It is proven that the proposed adaptive fuzzy control approach can guarantee the all the signals in the closed-loop system are uniformly ultimately bounded, and the output of the controlled system converges to a small neighborhood of the origin. The effectiveness of the proposed approach is illustrated by a simulation example and some comparisons.

Rocznik

Tom

20

Numer

4

Strony

637-653

Opis fizyczny

Daty

wydano
2010
otrzymano
2010-03-02
poprawiono
2010-09-01
poprawiono
2010-09-26

Twórcy

  • Department of Mathematics, Liaoning University of Technology, Jinzhou, 121001, People's Republic of China
  • Department of Mathematics, Liaoning University of Technology, Jinzhou, 121001, People's Republic of China
autor
  • Department of Mathematics, Liaoning University of Technology, Jinzhou, 121001, People's Republic of China

Bibliografia

  • Boukezzoula, R., Galichet S.and Foulloy L. (2007). Fuzzy feedback linearizing controller and its equivalence with the fuzzy nonlinear internal model control structure, International Journal of Applied Mathematics and Computer Science 17(2): 233-248, DOI: 10.2478/v10006-007-0021-4.
  • Chen, B. and Liu, X.P. (2005). Fuzzy approximate disturbance decoupling of MIMO nonlinear systems by backstepping and application to chemical processes, IEEE Transactions on Fuzzy Systems 13(6): 832-847.
  • Chen, B.and Liu, X.P. (2007). Fuzzy approximate disturbance decoupling of MIMO nonlinear systems by backstepping approach, Fuzzy Sets and Systems 158(10): 1097-1125.
  • Chen, B.S., Lee C.H. and Chang, Y.C. (1996). $H^∞$ tracking design of uncertain nonlinear SISO systems: Adaptive fuzzy approach, IEEE Transactions on Fuzzy Systems 4(1): 32-43.
  • Coddington, E.A. (1989). An Introduction to Ordinary Differential Equations, Prentice-Hall, Englewood Cliffs, NJ.
  • Denai, M.A. and Attia S.A. (2002). Fuzzy and neural control of an induction motor, International Journal of Applied Mathematics and Computer Science 12(2): 221-233.
  • Jiang, Z.P., Marels, I.M.Y. and Wang, Y (1996). A Lyapunov formulation of the nonlinear small-gain theorem for interconnected ISS systems, Automatica 32(8): 1211-1215.
  • Jiang, Z.P. and Praly L. (1998). Design of robust adaptive controllers for nonlinear systems with dynamic uncertainties, Automatica 34(7): 825-840.
  • Jiang, Z.P. (1999). A combined backstepping and small-gain approach to adaptive output feedback control, Automatica 35(6): 1131-1139.
  • Kanellakopopoulos, I., Kokotovic, P.V. and Morse, A.S. (1991). Systematic design of adaptive controllers for feedback linearizable systems, IEEE Transactions on Automatic Control 36(11): 1241-1253.
  • Kristic, M., Kanellakopoulos, I. and Kokotovic, P.V. (1992). Adaptive nonlinear control without over parametrization, System Control Letters 19(3): 177-185.
  • Kristic, M., Kanellakopoulos, I.and Kokotovic, P.V. (1995). Nonlinear and Adaptive Control Design, Wiley, New York, NY.
  • Qi, R.Y. and Brdys M.A.(2009). Indirect adaptive controller based on a self-structuring fuzzy system for nonlinear modeling and control, International Journal of Applied Mathematics and Computer Science 19(4): 619-630, DOI: 10.2478/v10006-009-0049-8.
  • Qian, C.J. and Lin W. (2002). Output feedback control of a class of nonlinear systems: A non-separation principle paradigm, IEEE Transactions on Automatic Control 47(10): 1710-1715.
  • Tong, S.C., He, X.L. and Li, Y.M. (2010a). Direct adaptive fuzzy backstepping robust control for single input single output uncertain nonlinear systems with small-gain approach, Information Sciences 180(9): 1738-1758.
  • Tong, S.C., He, X.L. and Li, Y.M. (2010b). Adaptive fuzzy backstepping robust control for uncertain nonlinear systems based on small-gain approach, Fuzzy Sets and Systems 161(6): 771-796.
  • Wang, L.X. (1994). Adaptive Fuzzy Systems and Control: Design and Stability Analysis, Prentice-Hall, Englewood Cliffs, NJ.
  • Wang, M., Chen, B., Liu, X.P. and Shi, P. (2007). Adaptive fuzzy tracking control for a class of perturbed strictfeedback nonlinear time-delay systems, Fuzzy Sets and Systems 159(8): 949-967.
  • Yang, Y.S. and Zhou, C.J. (2005). Robust adaptive fuzzy tracking control for a class of perturbed strict-feedback nonlinear systems via small-gain approach, Information Sciences 170(2-4): 211-234.
  • Ye, X. D. (2001). Adaptive nonlinear output-feedback control with unknown high-frequency gain sign, IEEE Transactions on Automatic Control 51(3): 504-511.
  • Zou, A.M. and Hou Z.G. (2008). Adaptive control of a class of nonlinear pure-feedback systems using fuzzy backstepping approach, IEEE Transactions on Fuzzy Systems 16(4): 886-867.

Typ dokumentu

Bibliografia

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