Neural Networks-Based Adaptive Finite-Time Fault-Tolerant Control for a Class of Strict-Feedback Switched Nonlinear Systems 论文

2018IEEE Transactions on Cybernetics引用 477
Adaptive Control of Nonlinear SystemsAdaptive Dynamic Programming ControlNeural Networks Stability and Synchronization

详细信息

发表期刊/会议
IEEE Transactions on Cybernetics
发表日期
2018-05-04
发表年份
2018

关键词

Adaptive Control of Nonlinear SystemsAdaptive Dynamic Programming ControlNeural Networks Stability and Synchronization

摘要

This paper concentrates upon the problem of finite-time fault-tolerant control for a class of switched nonlinear systems in lower-triangular form under arbitrary switching signals. Both loss of effectiveness and bias fault in actuator are taken into account. The method developed extends the traditional finite-time convergence from nonswitched lower-triangular nonlinear systems to switched version by designing appropriate controller and adaptive laws. In contrast to the previous results, it is the first time to handle the fault tolerant problem for switched system while the finite-time stability is also necessary. Meanwhile, there exist unknown internal dynamics in the switched system, which are identified by the radial basis function neural networks. It is proved that under the presented control strategy, the system output tracks the reference signal in the sense of finite-time stability. Finally, an illustrative simulation on a resistor-capacitor-inductor circuit is proposed to further demonstrate the effectiveness of the theoretical result.