Adaptive integral dynamic surface control based on fully tuned radial basis function neural network 被引量：2

Adaptive integral dynamic surface control based on fully tuned radial basis function neural network

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摘要 An adaptive integral dynamic surface control approach based on fully tuned radial basis function neural network （FTRBFNN） is presented for a general class of strict-feedback nonlinear systems,which may possess a wide class of uncertainties that are not linearly parameterized and do not have any prior knowledge of the bounding functions.FTRBFNN is employed to approximate the uncertainty online,and a systematic framework for adaptive controller design is given by dynamic surface control. The control algorithm has two outstanding features,namely,the neural network regulates the weights,width and center of Gaussian function simultaneously,which ensures the control system has perfect ability of restraining different unknown uncertainties and the integral term of tracking error introduced in the control law can eliminate the static error of the closed loop system effectively. As a result,high control precision can be achieved.All signals in the closed loop system can be guaranteed bounded by Lyapunov approach.Finally,simulation results demonstrate the validity of the control approach. An adaptive integral dynamic surface control approach based on fully tuned radial basis function neural network （FTRBFNN） is presented for a general class of strict-feedback nonlinear systems,which may possess a wide class of uncertainties that are not linearly parameterized and do not have any prior knowledge of the bounding functions.FTRBFNN is employed to approximate the uncertainty online,and a systematic framework for adaptive controller design is given by dynamic surface control. The control algorithm has two outstanding features,namely,the neural network regulates the weights,width and center of Gaussian function simultaneously,which ensures the control system has perfect ability of restraining different unknown uncertainties and the integral term of tracking error introduced in the control law can eliminate the static error of the closed loop system effectively. As a result,high control precision can be achieved.All signals in the closed loop system can be guaranteed bounded by Lyapunov approach.Finally,simulation results demonstrate the validity of the control approach.

作者 Li Zhou Shumin Fei Changsheng Jiang

机构地区 Key Laboratory of Measurement and Control of CES of Ministry of Education School of Automation College of Automation Engineering

出处《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2010年第6期1072-1078,共7页 系统工程与电子技术（英文版）

基金 supported by the China Postdoctoral Science Foundation (200904501035 201003548) the National Natural Science Foundation of China (60835001 90716028 91016004 60804017)

关键词 adaptive control integral dynamic surface control fully tuned radial basis function neural network. adaptive control integral dynamic surface control fully tuned radial basis function neural network.

分类号 TP183 [自动化与计算机技术—控制理论与控制工程] TP273 [自动化与计算机技术—检测技术与自动化装置]

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