Fault-tolerant control using command-filtered adaptive back-stepping technique: Application to hypersonic longitudinal flight dynamics

Bin Xu; Yuyan Guo; Yuan Yuan; Yonghua Fan; Danwei Wang

doi:10.1002/acs.2596

Fault-tolerant control using command-filtered adaptive back-stepping technique: Application to hypersonic longitudinal flight dynamics

Bin Xu, Yuyan Guo, Yuan Yuan, Yonghua Fan, Danwei Wang

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

110 Scopus citations

Abstract

In this paper, the adaptive back-stepping controller is investigated for a class of strict-feedback systems using the command filter technique. Adaptive laws are designed for updating the controller parameters when both the plant parameters and actuator-failure parameters are unknown. Furthermore, the auxiliary dynamics is developed to deal with the input constraints. Closed-loop stability and asymptotic-state tracking are ensured. The method is applied to the longitudinal dynamics of a generic hypersonic aircraft in the presence of actuator faults and input constraints. Based on the parameter estimation, the command-filtered adaptive back-stepping control is presented. Simulation results on the control-oriented model show that the proposed approach achieves good tracking performance.

Original language	English
Pages (from-to)	553-577
Number of pages	25
Journal	International Journal of Adaptive Control and Signal Processing
Volume	30
Issue number	4
DOIs	https://doi.org/10.1002/acs.2596
State	Published - 1 Apr 2016

Keywords

actuator fault
adaptive back-stepping
command filter
hypersonic aircraft

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10.1002/acs.2596

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abstract = "In this paper, the adaptive back-stepping controller is investigated for a class of strict-feedback systems using the command filter technique. Adaptive laws are designed for updating the controller parameters when both the plant parameters and actuator-failure parameters are unknown. Furthermore, the auxiliary dynamics is developed to deal with the input constraints. Closed-loop stability and asymptotic-state tracking are ensured. The method is applied to the longitudinal dynamics of a generic hypersonic aircraft in the presence of actuator faults and input constraints. Based on the parameter estimation, the command-filtered adaptive back-stepping control is presented. Simulation results on the control-oriented model show that the proposed approach achieves good tracking performance.",

keywords = "actuator fault, adaptive back-stepping, command filter, hypersonic aircraft",

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AU - Fan, Yonghua

AU - Wang, Danwei

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N2 - In this paper, the adaptive back-stepping controller is investigated for a class of strict-feedback systems using the command filter technique. Adaptive laws are designed for updating the controller parameters when both the plant parameters and actuator-failure parameters are unknown. Furthermore, the auxiliary dynamics is developed to deal with the input constraints. Closed-loop stability and asymptotic-state tracking are ensured. The method is applied to the longitudinal dynamics of a generic hypersonic aircraft in the presence of actuator faults and input constraints. Based on the parameter estimation, the command-filtered adaptive back-stepping control is presented. Simulation results on the control-oriented model show that the proposed approach achieves good tracking performance.

AB - In this paper, the adaptive back-stepping controller is investigated for a class of strict-feedback systems using the command filter technique. Adaptive laws are designed for updating the controller parameters when both the plant parameters and actuator-failure parameters are unknown. Furthermore, the auxiliary dynamics is developed to deal with the input constraints. Closed-loop stability and asymptotic-state tracking are ensured. The method is applied to the longitudinal dynamics of a generic hypersonic aircraft in the presence of actuator faults and input constraints. Based on the parameter estimation, the command-filtered adaptive back-stepping control is presented. Simulation results on the control-oriented model show that the proposed approach achieves good tracking performance.

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Fault-tolerant control using command-filtered adaptive back-stepping technique: Application to hypersonic longitudinal flight dynamics

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