Identification and Controller Design for Nonlinear Processes Using Relay Feedback
スポンサーリンク
概要
- 論文の詳細を見る
As a sequel to the previous works of Huang and Lee (Huang et al., 1998, 2001; Lee and Huang, 2001), this work presents a new on-line method for identifying block-oriented models of Hammerstein-type or Wiener-type nonlinear processes from a relay feedback experiment. The identification of linear subsystem is focused. A simple transfer function of linear subsystem is determined by using an adjustable PI controller to develop a loop transfer function that has the dynamics of an integrator-plus-dead-time (IPDT) process. The static nonlinearity is represented by an invertible. Finally, the controller design using the identified model is illustrated.
- 社団法人 化学工学会の論文
- 2004-10-01
著者
-
Lee M‐w
Center For Environmental Safety And Health Technology Development Industrial Technology Research Ins
-
LEE Ming-Wei
Center for Environmental, Safety and Health Technology Development, Industrial Technology Research I
-
HUANG Hsiao-Ping
Department of Chemical Engineering, National Taiwan University
-
JENG Jyh-Cheng
Department of Chemical Engineering, National Taiwan University
-
Huang Hsiao-ping
Department Of Chemical Engineering National Taiwan University
-
Jeng Jyh-cheng
Department Of Chemical Engineering National Taiwan University
関連論文
- Plant-Wide Control of a Complete Ethyl Acetate Reactive Distillation Process
- Identification and Controller Design for Nonlinear Processes Using Relay Feedback
- Bifurcation in the Reactive Distillation for Ethyl Acetate at Lower Murphree Plate Efficiency
- Identification of Wiener Model Using Relay Feedback Test
- Design of a Complete Ethyl Acetate Reactive Distillation System
- Multi-Loop PID Controllers Design for MIMO Processes Containing Integrator(s)
- Model Building by Merging Submodels Using PLSR
- A Wavelet Enhanced Integral Approach to Linear Dynamic Data Reconciliation
- Auto-Tuning of PID Controllers for Second Order Unstable Process Having Dead Time
- Structure ldentification for Block-Oriented Nonlinear Models Ushing Relay Feedback Tests
- Tuning of PI/PID Controllers Based on Specification on Maximum Closed-Loop Amplitude Ratio
- Identification for Monitoring and Autotuning of PID Controllers