access icon free Command filtered adaptive fuzzy backstepping control method of uncertain non-linear systems

The command filtered adaptive fuzzy backstepping control method has been proposed in this study. By using the command filter, it is not only the states, the actuator constraints, and the problem of ‘explosion of complexity’ in conventional backstepping have been solved, but also the calculation of partial derivatives is unnecessary, so that control law and update law become succinct. Fuzzy logic systems, designed in this study, are utilised in real-time identification of the uncertain non-linear functions. Throughout the process of controller design, the transformed style and Butterworth low-pass filter are applied to solve the problem of unknown control directions. Using the Lyapunov theorem, it has been shown that the approach can guarantee all the signals of the resulting closed-loop system are semi-globally uniformly ultimately bounded. Finally, an application of the method has been made to the controller design of the attack angle of a hypersonic vehicle. The simulation results are given to prove the effectiveness of the method presented in this study.

Inspec keywords: Lyapunov methods; nonlinear control systems; closed loop systems; fuzzy control; adaptive control; nonlinear functions; control system synthesis; Butterworth filters; uncertain systems; low-pass filters; control nonlinearities

Other keywords: semiglobally uniformly ultimately bounded signals; fuzzy logic systems; real-time identification; controller design; uncertain nonlinear systems; Butterworth low-pass filter; uncertain nonlinear functions; hypersonic vehicle; closed-loop system; command filtered adaptive fuzzy backstepping control method; Lyapunov theorem; attack angle controller

Subjects: Signal processing theory; Control system analysis and synthesis methods; Self-adjusting control systems; Nonlinear control systems; Stability in control theory; Fuzzy control

http://iet.metastore.ingenta.com/content/journals/10.1049/iet-cta.2015.0946
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content/journals/10.1049/iet-cta.2015.0946
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