scholarly journals A new approach to model reference control for a class of arbitrarily fast time-varying unknown plants

Automatica ◽  
1992 ◽  
Vol 28 (2) ◽  
pp. 437-440 ◽  
Author(s):  
Chiang-Ju Chien ◽  
Li-Chen Fu
Keyword(s):  
Fast Time ◽  
Time Varying ◽  
Model Reference ◽  
New Approach ◽  
Model Reference Control

Structural Decomposition Approach for the Stability of Uncertain Dynamic Systems

1988 ◽  
Vol 55 (4) ◽  
pp. 992-994 ◽  
Author(s):  
Y. H. Chen ◽  
Chieh Hsu
Keyword(s):  
Dynamic Systems ◽  
A Priori ◽  
Parameter Variation ◽  
Stability Study ◽  
Fast Time ◽  
Time Varying ◽  
Decomposition Approach ◽  
New Approach ◽  
Uncertain Dynamic Systems ◽  
The Stability

The stability property for a class of dynamic systems with uncertain parameter variation is studied. The uncertainty can be fast time-varying and unpredictable. A new approach for stability study is proposed. The only required information on the uncertain variation is its possible bound as well as structure. That is, no a priori knowledge on the realization of the variation is needed.

Fragmental weight-conservation combining scheme for statistical signal transmissions under fast time-varying channels

2020 ◽  
Vol 17 (1) ◽  
pp. 118-128
Author(s):  
Xingwei Wang ◽  
Ting Zhou ◽  
Tianheng Xu ◽  
Songlin Feng ◽  
Honglin Hu ◽  
...  
Keyword(s):  
Fast Time ◽  
Time Varying ◽  
Time Varying Channels

Optimal Model Reference Control Scheme Design for Nonlinear Strict-Feedback Systems

2020 ◽  
Vol 38 (9A) ◽  
pp. 1342-1351
Author(s):  
Musadaq A. Hadi ◽  
Hazem I. Ali
Keyword(s):  
Reference Model ◽  
Feedback System ◽  
Optimization Method ◽  
Feedback Systems ◽  
Model Reference ◽  
Scheme Design ◽  
Model Reference Control ◽  
Control Scheme ◽  
Lyapunov Stability Analysis ◽  
Strict Feedback

In this paper, a new design of the model reference control scheme is proposed in a class of nonlinear strict-feedback system. First, the system is analyzed using Lyapunov stability analysis. Next, a model reference is used to improve system performance. Then, the Integral Square Error (ISE) is considered as a cost function to drive the error between the reference model and the system to zero. After that, a powerful metaheuristic optimization method is used to optimize the parameters of the proposed controller. Finally, the results show that the proposed controller can effectively compensate for the strictly-feedback nonlinear system with more desirable performance.

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