Journal of Shanghai Jiao Tong University(Science) ›› 2020, Vol. 25 ›› Issue (5): 630-638.doi: 10.1007/s12204-020-2196-x

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Fault Reconstruction for Lipschitz Nonlinear Systems Using Higher Terminal Sliding Mode Observer

DAI Cong (戴聪), LIU Yongzhi (刘勇智), SUN Haoshui (孙浩水)   

  1. (Aviation Engineering College, Air Force Engineering University, Xi’an 710038, China)
  • 出版日期:2020-10-28 发布日期:2020-09-11
  • 通讯作者: DAI Cong (戴聪) E-mail: ziyanzunzhe@126.com

Fault Reconstruction for Lipschitz Nonlinear Systems Using Higher Terminal Sliding Mode Observer

DAI Cong (戴聪), LIU Yongzhi (刘勇智), SUN Haoshui (孙浩水)   

  1. (Aviation Engineering College, Air Force Engineering University, Xi’an 710038, China)
  • Online:2020-10-28 Published:2020-09-11
  • Contact: DAI Cong (戴聪) E-mail: ziyanzunzhe@126.com

摘要: This paper considers the design of an adaptive second order terminal observer for robust fault reconstruction
of nonlinear Lipschitz systems with unknown upper bound of derivative fault. Firstly, a linear
transforming matrix is introduced, which transforms the system into two subsystems, and thus to reduce the
dimension of the system. One of the subsystem is affected by fault and disturbances, while the other is free,
which simplifies the design of observer. Then, the design method of the observer gain matrix is transformed into
a convex optimization problem under linear matrix inequalities (LMIs). A second order non-singular terminal
sliding mode observer is designed for the transformed system to realize the accurate estimation of state and fault.
Considering the unknown upper bound of derivative fault, an adaptive algorithm is designed in the equivalent
output error injection signal to ensure the sliding mode motion reach the sliding surface within limited time.
Finally, an example demonstrates the effectiveness of the proposed method in the paper.

关键词:  second order terminal sliding mode observer, linear matrix inequalities, fault reconstruction, Lipschitz
systems

Abstract: This paper considers the design of an adaptive second order terminal observer for robust fault reconstruction
of nonlinear Lipschitz systems with unknown upper bound of derivative fault. Firstly, a linear
transforming matrix is introduced, which transforms the system into two subsystems, and thus to reduce the
dimension of the system. One of the subsystem is affected by fault and disturbances, while the other is free,
which simplifies the design of observer. Then, the design method of the observer gain matrix is transformed into
a convex optimization problem under linear matrix inequalities (LMIs). A second order non-singular terminal
sliding mode observer is designed for the transformed system to realize the accurate estimation of state and fault.
Considering the unknown upper bound of derivative fault, an adaptive algorithm is designed in the equivalent
output error injection signal to ensure the sliding mode motion reach the sliding surface within limited time.
Finally, an example demonstrates the effectiveness of the proposed method in the paper.

Key words:  second order terminal sliding mode observer, linear matrix inequalities, fault reconstruction, Lipschitz
systems

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