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Adaptive Robust Actuator Fault Accommodation for a Class of Uncertain Nonlinear Systems with Unknown Control Gains

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  • Yuefei Wu
  • Dawei Ma
  • Jianyong Yao
  • Guigao Le
  • Zhenxing Mu
  • Fan Yang

Abstract

An adaptive robust fault tolerant control approach is proposed for a class of uncertain nonlinear systems with unknown signs of high-frequency gain and unmeasured states. In the recursive design, neural networks are employed to approximate the unknown nonlinear functions, K-filters are designed to estimate the unmeasured states, and a dynamical signal and Nussbaum gain functions are introduced to handle the unknown sign of the virtual control direction. By incorporating the switching function algorithm, the adaptive backstepping scheme developed in this paper does not require the real value of the actuator failure. It is mathematically proved that the proposed adaptive robust fault tolerant control approach can guarantee that all the signals of the closed-loop system are bounded, and the output converges to a small neighborhood of the origin. The effectiveness of the proposed approach is illustrated by the simulation examples.

Suggested Citation

  • Yuefei Wu & Dawei Ma & Jianyong Yao & Guigao Le & Zhenxing Mu & Fan Yang, 2014. "Adaptive Robust Actuator Fault Accommodation for a Class of Uncertain Nonlinear Systems with Unknown Control Gains," Mathematical Problems in Engineering, Hindawi, vol. 2014, pages 1-11, April.
    • Handle: RePEc:hin:jnlmpe:217501
    DOI: 10.1155/2014/217501
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