Best tracking performance for integrator and dead time plant

Best tracking performance for integrator and dead time plant

下载PDF

导出

摘要 The optimal tracking performance for integrator and dead time plant in the case where plant uncertainty and control energy constraints are to be considered jointly is inrestigated. Firstly, an average cost function of the tracking error and the plant input energy over a class of stochastic model errors are defined. Then, we obtain an internal model controller design method that minimizes the average performance and further studies optimal tracking performance for integrator and dead time plant in the simultaneous presence of plant uncertainty and control energy constraint. The results can be used to evaluate optimal tracking performance and control energy in practical designs. The optimal tracking performance for integrator and dead time plant in the case where plant uncertainty and control energy constraints are to be considered jointly is inrestigated. Firstly, an average cost function of the tracking error and the plant input energy over a class of stochastic model errors are defined. Then, we obtain an internal model controller design method that minimizes the average performance and further studies optimal tracking performance for integrator and dead time plant in the simultaneous presence of plant uncertainty and control energy constraint. The results can be used to evaluate optimal tracking performance and control energy in practical designs.

作者 Wang Jianguo Cao Guangyi ZhuXinjian Gu Tingquan

机构地区 Dept. of Automation Inst. of Equipment Research

出处《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2007年第3期577-583,共7页 系统工程与电子技术（英文版）

基金 the High Technology Research and Development (863) Program (2003AA517020).

关键词 optimal tracking integrator and dead time plant plant uncertainty control energy constraint. optimal tracking, integrator and dead time plant, plant uncertainty, control energy constraint.

分类号 TP13 [自动化与计算机技术—控制理论与控制工程]

引文网络
相关文献

参考文献8

1Bode H W.Network analysis and feedback amplifier design.New York:Van Nostrand,1945.
2Seron M M,Braslavsky J H,Goodwin G C.Fundamental limitations in filtering and control.London.U K:SprigerVerlag,1997.
3Astrom K J.Fundamental limitations of control system performance.in Communication,Computation,Control and Signal Processing-A Tribute to Thomas Kailath,A Paulraj,V Roychowdhury,nd C D Schaper,Eds Boston,MA:Kluwer,1997:355-363.
4Freudenberg J S,Hollot C V,Middleton R H,Toochinda V.Fundamental design limitations of the general control configuration.IEEE Trans.Automat.Contr.,2003,48(8):1355-1570.
5Xie L L,Guo L.How much uncertainty can be dealt with by feedback.IEEE Trans.Automat.Contr,2000,45(12):2203-2217.
6Goodwin G C,Salgado M E,Yuz J I.Performance limitations for linear feedback systems in the presence of plant uncertainty.IEEE Trans.Automat.Contr.,2003,48(8):1312-1319.
7Chen J,Hara S,Chen G.Best tracking and regulation preformance under control energy constraint.IEEE Trans.Automat.Contr,2003,48(8):1320-1336.
8Goodwin G C,Graebe S F,Salgado M E.Control system design.Upper Saddle Rrentiee-Hall,2002.

1孔屹刚,王志新,王建国.Best Tracking Performance under Plant Uncertainty and Control Energy Constraint[J].Journal of Donghua University(English Edition),2007,24(4):529-532.
2王建国,曹广益,朱新坚.一类不确定时滞系统的最优控制[J].控制与决策,2007,22(6):618-621.
3王建国,曹广益,朱新坚.一类非自衡对象的最优控制[J].控制与决策,2007,22(4):428-431.
4王建国,曹广益,朱新坚.控制能量约束条件下时滞系统最优控制与仿真[J].计算机仿真,2007,24(11):172-175. 被引量：1
5王建国,马世伟.控制能量约束时不稳定过程最优控制与仿真[J].计算机仿真,2010,27(1):193-196. 被引量：2
6王建国,顾廷权,曹广益,朱新坚,唐成龙,陈培林.时滞系统的最优PID控制与仿真[J].系统仿真学报,2007,19(13):2995-2998. 被引量：6
7王建国,曹广益,朱新坚.一类模型不确定系统的最优跟踪性能[J].信息与控制,2007,36(2):176-180.
8薛颂东,王建国,曹广益.一类随机摄动系统的最优控制与仿真[J].系统仿真学报,2007,19(8):1762-1765. 被引量：2
9王建国,曹广益,史君海.一类非自衡化工过程的最优控制[J].化工自动化及仪表,2006,33(6):23-26. 被引量：2
10王建国,顾廷权,曹广益,朱新坚,唐成龙,陈培林.一类非自衡对象的最优PID控制[J].仪器仪表学报,2008,29(1):148-151. 被引量：7

Journal of Systems Engineering and Electronics

2007年第3期

浏览历史

内容加载中请稍等...

Best tracking performance for integrator and dead time plant

参考文献8

相关作者

相关机构

相关主题

浏览历史