Adaptive predictive functional control based on Takagi-Sugeno model and its application to pH process 被引量：5

Adaptive predictive functional control based on Takagi-Sugeno model and its application to pH process

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摘要 In order to obtain accurate prediction model and compensate for the influence of model mismatch on the control performance of the system and avoid solving nonlinear programming problem,an adaptive fuzzy predictive functional control(AFPFC) scheme for multivariable nonlinear systems was proposed.Firstly,multivariable nonlinear systems were described based on Takagi-Sugeno(T-S) fuzzy models;assuming that the antecedent parameters of T-S models were kept,the consequent parameters were identified on-line by using the weighted recursive least square(WRLS) method.Secondly,the identified T-S models were linearized to be time-varying state space model at each sampling instant.Finally,by using linear predictive control technique the analysis solution of the optimal control law of AFPFC was established.The application results for pH neutralization process show that the absolute error between the identified T-S model output and the process output is smaller than 0.015;the tracking ability of the proposed AFPFC is superior to that of non-AFPFC(NAFPFC) for pH process without disturbances,the overshoot of the effluent pH value of AFPFC with disturbances is decreased by 50% compared with that of NAFPFC;when the process parameters of AFPFC vary with time the integrated absolute error(IAE) performance index still retains to be less than 200 compared with that of NAFPFC. In order to obtain accurate prediction model and compensate for the influence of model mismatch on the control performance of the system and avoid solving nonlinear programming problem, an adaptive fuzzy predictive functional control （AFPFC） scheme for multivariable nonlinear systems was proposed. Firstly, multivariable nonlinear systems were described based on Takagi-Sugeno （T-S） fuzzy models; assuming that the antecedent parameters of T-S models were kept, the consequent parameters were identified on-line by using the weighted recursive least square （WRLS） method. Secondly, the identified T-S models were linearized to be time-varying state space model at each sampling instant. Finally, by using linear predictive control technique the analysis solution of the optimal control law of AFPFC was established. The application results for pH neutralization process show that the absolute error between the identified T-S model output and the process output is smaller than 0.015; the tracking ability of the proposed AFPFC is superior to that of non-AFPFC （NAFPFC） for pH process without disturbances, the overshoot of the effluent pH value of AFPFC with disturbances is decreased by 50% compared with that of NAFPFC; when the process parameters of AFPFC vary with time the integrated absolute error （IAE） performance index still retains to be less than 200 compared with that of NAFPFC.

作者苏成利李平

机构地区 School of Information and Control Engineering

出处《Journal of Central South University》 SCIE EI CAS 2010年第2期363-371,共9页 中南大学学报（英文版）

基金 Project(2007AA04Z162) supported by the National High-Tech Research and Development Program of China Projects(2006T089, 2009T062) supported by the University Innovation Team in the Educational Department of Liaoning Province, China

关键词 Takagi-Sugeno （T-S） model adaptive fuzzy predictive functional control （AFPFC） weighted recursive least square （WRLS） pH process 预测函数控制预测模型 pH过程自适应多变量非线性系统应用 o型非线性规划问题

分类号 TP13 [自动化与计算机技术—控制理论与控制工程]

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