Supervisory switching‐based prescribed performance control of unknown nonlinear systems against actuator failures

Summary This article studies the fault‐tolerant control problem for unknown nonlinear strict‐feedback systems subject to actuator failures yet with dynamic redundancies. The prescribed performance control methodology is newly combined with a modification‐based supervisory switching strategy to solve...

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Published inInternational journal of robust and nonlinear control Vol. 30; no. 6; pp. 2367 - 2385
Main Authors Zhang, Jin‐Xi, Yang, Guang‐Hong
Format Journal Article
LanguageEnglish
Published Bognor Regis Wiley Subscription Services, Inc 01.04.2020
Subjects
actuator failures
Actuators
Adaptive control
Failure detection
fault‐tolerant control
Mathematical analysis
model uncertainties
Nonlinear control
Nonlinear systems
prescribed performance
Robust control
Shutdowns
Switching
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Abstract Summary This article studies the fault‐tolerant control problem for unknown nonlinear strict‐feedback systems subject to actuator failures yet with dynamic redundancies. The prescribed performance control methodology is newly combined with a modification‐based supervisory switching strategy to solve the problem. To implement failure detection, the performance function is properly modified to synthesize a monitoring function to supervise the behavior of an error variable. Once a failure is detected, the current actuator is shut down and the backup actuator is switched in to execute the reconfigured control command. Compared with the existing results, (1) the postfailure and postswitching tracking performance is improved, other than uniform ultimate boundedness and (2) the dependence on extra robust control schemes (eg, adaptive or approximating structures) to deal with model uncertainties or the need to compute analytic derivatives of virtual control signals in the backstepping design is eliminated.
AbstractList Summary This article studies the fault‐tolerant control problem for unknown nonlinear strict‐feedback systems subject to actuator failures yet with dynamic redundancies. The prescribed performance control methodology is newly combined with a modification‐based supervisory switching strategy to solve the problem. To implement failure detection, the performance function is properly modified to synthesize a monitoring function to supervise the behavior of an error variable. Once a failure is detected, the current actuator is shut down and the backup actuator is switched in to execute the reconfigured control command. Compared with the existing results, (1) the postfailure and postswitching tracking performance is improved, other than uniform ultimate boundedness and (2) the dependence on extra robust control schemes (eg, adaptive or approximating structures) to deal with model uncertainties or the need to compute analytic derivatives of virtual control signals in the backstepping design is eliminated.
This article studies the fault‐tolerant control problem for unknown nonlinear strict‐feedback systems subject to actuator failures yet with dynamic redundancies. The prescribed performance control methodology is newly combined with a modification‐based supervisory switching strategy to solve the problem. To implement failure detection, the performance function is properly modified to synthesize a monitoring function to supervise the behavior of an error variable. Once a failure is detected, the current actuator is shut down and the backup actuator is switched in to execute the reconfigured control command. Compared with the existing results, (1) the postfailure and postswitching tracking performance is improved, other than uniform ultimate boundedness and (2) the dependence on extra robust control schemes (eg, adaptive or approximating structures) to deal with model uncertainties or the need to compute analytic derivatives of virtual control signals in the backstepping design is eliminated.
Author Zhang, Jin‐Xi
Yang, Guang‐Hong
Author_xml – sequence: 1
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  orcidid: 0000-0002-1451-7057
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  givenname: Guang‐Hong
  orcidid: 0000-0002-8911-0112
  surname: Yang
  fullname: Yang, Guang‐Hong
  email: yangguanghong@ise.neu.edu.cn
  organization: Northeastern University
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Snippet Summary This article studies the fault‐tolerant control problem for unknown nonlinear strict‐feedback systems subject to actuator failures yet with dynamic...
This article studies the fault‐tolerant control problem for unknown nonlinear strict‐feedback systems subject to actuator failures yet with dynamic...
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SubjectTerms actuator failures
Actuators
Adaptive control
Failure detection
fault‐tolerant control
Mathematical analysis
model uncertainties
Nonlinear control
Nonlinear systems
prescribed performance
Robust control
Shutdowns
Switching
Title Supervisory switching‐based prescribed performance control of unknown nonlinear systems against actuator failures
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Frnc.4878
https://www.proquest.com/docview/2373970809
Volume 30
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