Adaptive Finite-time Stabilization of High-order Stochastic Nonlinear Systems with Unknown Control Direction

2021 ◽  
Author(s):  
Bo Kang ◽  
Yongming Li
Keyword(s):  
Nonlinear Systems ◽  
Finite Time ◽  
High Order ◽  
Stochastic Nonlinear Systems ◽  
Finite Time Stabilization ◽  
Unknown Control ◽  
Unknown Control Direction ◽  
Control Direction

scholarly journals Finite-Time Performance Guaranteed Event-Triggered Adaptive  Control for  Nonlinear Systems with Unknown Control Direction

2021 ◽  
Author(s):  
Min Wang ◽  
Lixue Wang
Keyword(s):  
Nonlinear Systems ◽  
Finite Time ◽  
Tracking Error ◽  
Tracking Performance ◽  
Performance Function ◽  
Time Performance ◽  
Unknown Control ◽  
Unknown Control Direction ◽  
Control Direction ◽  
Event Triggered

Abstract This paper studies the issue of finite-time performance guaranteed event-triggered (ET) adaptive neural tracking control for strict-feedback nonlinear systems with unknown control direction. A novel finite-time performance function is first constructed to describe the prescribed tracking performance, and then a new lemma is given to show the differentiability and boundedness for the performance function, which is important for the verification of the closed-loop stability. Furthermore, with the help of the error transformation technique, the origin constrained tracking error is transformed into an equivalent unconstrained one. By utilizing the first-order sliding mode differentiator, the issue of ``explosion of complexity'' caused by the backstepping design is adequately addressed. Subsequently, an ingenious adaptive updated law is given to co-design the controller and the ET mechanism by the combination of the Nussbaum-type function, thus effectively handling the influences of the measurement error resulted from the ET mechanism and the challenge of the controller design caused by the unknown control direction. The presented event-triggered control scheme can not only guarantee the prescribed tracking performance, but also alleviate the communication burden simultaneously. Finally, numerical and practical examples are provided to demonstrate the validity of the proposed control strategy.

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