DocumentCode
486391
Title
Predictive Controller Design by Principal Components Analysis
Author
Maurath, Paul R. ; Seborg, Dale E. ; Mellichamp, Duncan A.
Author_Institution
Department of Chemical and Nuclear Engineering, University of California, Santa Barbara, 93106
fYear
1985
fDate
19-21 June 1985
Firstpage
1059
Lastpage
1065
Abstract
A new method of designing predictive controllers has been developed that is based on a singular value analysis of the process dynamics. The primary design parameter is the number of principal components of the system generalized inverse to retain in the approximate process inverse used by the controller. The effects of the individual components on closed-loop performance and robustness can be easily calculated. Choices of other controller design parameters have a minimal impact on the results of the new method. Explicit move suppression is not required. The method works particularly well on MIMO processes and tolerates changes in process scaling and output weighting. Application of the method to two distillation column models is illustrated.
Keywords
Chemical analysis; Chemical engineering; Chemical processes; Control systems; Gold; Least squares methods; MIMO; Performance analysis; Principal component analysis; Sampling methods;
fLanguage
English
Publisher
ieee
Conference_Titel
American Control Conference, 1985
Conference_Location
Boston, MA, USA
Type
conf
Filename
4788779
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