Xiaolong Zheng scite author profile

This brief is concerned with the problem of intelligent tracking control for a class of high-order nonlinear systems with completely unknown nonlinearities. An intelligent adaptive control algorithm is presented by combining the adaptive backstepping technique with the neural networks' approximation ability. It is shown that the practical output tracking performance of the system is achieved using the proposed state-feedback controller under two mild assumptions. In particular, by introducing a parameter in the derivations, the tracking error between the time-varying target signal and the output can be reduced via tuning the controller design parameters. Moreover, in order to solve the problem of overparameterization, which is a common issue in adaptive control design, a controller with one adaptive law is also designed. Finally, simulation results are given to show the effectiveness of the theoretical approaches and the potential of the proposed new design techniques.

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New Stability and Stabilization Conditions of Switched Systems with Mode-Dependent Average Dwell Time

Yin

Zhao

Zheng

2016

Circuits Syst Signal Process

138

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Flame retardancy of polystyrene nanocomposites based on an oligomeric organically-modified clay containing phosphate

Zheng

Wilkie

2003

Polymer Degradation and Stability

107

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Fuzzy Adaptive Control Design and Discretization for a Class of Nonlinear Uncertain Systems

Zhao

Shi

Zheng

2016

IEEE Trans. Cybern.

161

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In this paper, tracking control problems are investigated for a class of uncertain nonlinear systems in lower triangular form. First, a state-feedback controller is designed by using adaptive backstepping technique and the universal approximation ability of fuzzy logic systems. During the design procedure, a developed method with less computation is proposed by constructing one maximum adaptive parameter. Furthermore, adaptive controllers with nonsymmetric dead-zone are also designed for the systems. Then, a sampled-data control scheme is presented to discretize the obtained continuous-time controller by using the forward Euler method. It is shown that both proposed continuous and discrete controllers can ensure that the system output tracks the target signal with a small bounded error and the other closed-loop signals remain bounded. Two simulation examples are presented to verify the effectiveness and applicability of the proposed new design techniques.

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Stabilization for a Class of Switched Nonlinear Systems With Novel Average Dwell Time Switching by T–S Fuzzy Modeling

Zhao

Yin

Niu

et al. 2016

IEEE Trans. Cybern.

186

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In this paper, the problem of switching stabilization for a class of switched nonlinear systems is studied by using average dwell time (ADT) switching, where the subsystems are possibly all unstable. First, a new concept of ADT is given, which is different from the traditional definition of ADT. Based on the new proposed switching signals, a sufficient condition of stabilization for switched nonlinear systems with unstable subsystems is derived. Then, the T-S fuzzy modeling approach is applied to represent the underlying nonlinear system to make the obtained condition easily verified. A novel multiple quadratic Lyapunov function approach is also proposed, by which some conditions are provided in terms of a set of linear matrix inequalities to guarantee the derived T-S fuzzy system to be asymptotically stable. Finally, a numerical example is given to demonstrate the effectiveness of our developed results.

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Adaptive Neural Tracking Control for Switched High-Order Stochastic Nonlinear Systems

Zhao

Wang

Zong

et al. 2017

IEEE Trans. Cybern.

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This paper deals with adaptive neural tracking control design for a class of switched high-order stochastic nonlinear systems with unknown uncertainties and arbitrary deterministic switching. The considered issues are: 1) completely unknown uncertainties; 2) stochastic disturbances; and 3) high-order nonstrict-feedback system structure. The considered mathematical models can represent many practical systems in the actual engineering. By adopting the approximation ability of neural networks, common stochastic Lyapunov function method together with adding an improved power integrator technique, an adaptive state feedback controller with multiple adaptive laws is systematically designed for the systems. Subsequently, a controller with only two adaptive laws is proposed to solve the problem of over parameterization. Under the designed controllers, all the signals in the closed-loop system are bounded-input bounded-output stable in probability, and the system output can almost surely track the target trajectory within a specified bounded error. Finally, simulation results are presented to show the effectiveness of the proposed approaches.

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Xiaolong Zheng

Adaptive tracking control for a class of uncertain switched nonlinear systems

Adaptive tracking control for switched stochastic nonlinear systems with unknown actuator dead-zone

Intelligent Tracking Control for a Class of Uncertain High-Order Nonlinear Systems

New Stability and Stabilization Conditions of Switched Systems with Mode-Dependent Average Dwell Time

Flame retardancy of polystyrene nanocomposites based on an oligomeric organically-modified clay containing phosphate

Fuzzy Adaptive Control Design and Discretization for a Class of Nonlinear Uncertain Systems

Stabilization for a Class of Switched Nonlinear Systems With Novel Average Dwell Time Switching by T–S Fuzzy Modeling

Adaptive Neural Tracking Control for Switched High-Order Stochastic Nonlinear Systems

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