Bing Chen scite author profile

This paper is concerned with the problem of adaptive fuzzy tracking control for a class of pure-feedback stochastic nonlinear systems with input saturation. To overcome the design difficulty from nondifferential saturation nonlinearity, a smooth nonlinear function of the control input signal is first introduced to approximate the saturation function; then, an adaptive fuzzy tracking controller based on the mean-value theorem is constructed by using backstepping technique. The proposed adaptive fuzzy controller guarantees that all signals in the closed-loop system are bounded in probability and the system output eventually converges to a small neighborhood of the desired reference signal in the sense of mean quartic value. Simulation results further illustrate the effectiveness of the proposed control scheme.

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Finite-Time Adaptive Fuzzy Tracking Control Design for Nonlinear Systems

Wang

Chen

2018

IEEE Trans. Fuzzy Syst.

363

160

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Observer-Based Adaptive Neural Network Control for Nonlinear Systems in Nonstrict-Feedback Form

Chen

Zhang

2016

IEEE Trans. Neural Netw. Learning Syst.

253

144

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This paper focuses on the problem of adaptive neural network (NN) control for a class of nonlinear nonstrict-feedback systems via output feedback. A novel adaptive NN backstepping output-feedback control approach is first proposed for nonlinear nonstrict-feedback systems. The monotonicity of system bounding functions and the structure character of radial basis function (RBF) NNs are used to overcome the difficulties that arise from nonstrict-feedback structure. A state observer is constructed to estimate the immeasurable state variables. By combining adaptive backstepping technique with approximation capability of radial basis function NNs, an output-feedback adaptive NN controller is designed through backstepping approach. It is shown that the proposed controller guarantees semiglobal boundedness of all the signals in the closed-loop systems. Two examples are used to illustrate the effectiveness of the proposed approach.

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Full Spectrum Sharing in Cognitive Radio Networks Toward 5G: A Survey

2018

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Novel adaptive neural control design for nonlinear MIMO time-delay systems

et al. 2009

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Neural Network-Based Adaptive Dynamic Surface Control for Permanent Magnet Synchronous Motors

Shi

Dong³

et al. 2015

IEEE Trans. Neural Netw. Learning Syst.

271

112

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This brief considers the problem of neural networks (NNs)-based adaptive dynamic surface control (DSC) for permanent magnet synchronous motors (PMSMs) with parameter uncertainties and load torque disturbance. First, NNs are used to approximate the unknown and nonlinear functions of PMSM drive system and a novel adaptive DSC is constructed to avoid the explosion of complexity in the backstepping design. Next, under the proposed adaptive neural DSC, the number of adaptive parameters required is reduced to only one, and the designed neural controllers structure is much simpler than some existing results in literature, which can guarantee that the tracking error converges to a small neighborhood of the origin. Then, simulations are given to illustrate the effectiveness and potential of the new design technique.

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Bing Chen

Direct adaptive fuzzy control of nonlinear strict-feedback systems

Data Security and Privacy-Preserving in Edge Computing Paradigm: Survey and Open Issues

Robust Adaptive Fuzzy Tracking Control for Pure-Feedback Stochastic Nonlinear Systems With Input Constraints

Finite-Time Adaptive Fuzzy Tracking Control Design for Nonlinear Systems

Observer-Based Adaptive Neural Network Control for Nonlinear Systems in Nonstrict-Feedback Form

Full Spectrum Sharing in Cognitive Radio Networks Toward 5G: A Survey

Novel adaptive neural control design for nonlinear MIMO time-delay systems

Neural Network-Based Adaptive Dynamic Surface Control for Permanent Magnet Synchronous Motors

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