DocumentCode
1189172
Title
Simultaneous stabilization and simultaneous pole-placement by nonswitching dynamic compensation
Author
Ghosh, Bijoy K. ; Byrnes, Christopher I.
Volume
30
Issue
6
fYear
1983
fDate
6/1/1983 12:00:00 AM
Firstpage
422
Lastpage
428
Abstract
In this paper, motivated by questions in fault tolerance, we investigate the existence of a compensator which simultaneously renders a given 
-tuple of plants internally stable. Sufficient conditions are derived for simultaneous pole-assignability of the generic -tuple by dynamic output feedback, which are also shown to be necessary (and equivalent to generic stabilizability) in the case where the number of either input or output channels is one. We also derive an upper bound on the order of a simultaneous pole-assigning compensator. If 
, this reduces to the condition derived by Brasch and Pearson, while if 
, this contains the recent theorem by Vidyasagar and Viswanadham. The cases 
are new.
-tuple of plants internally stable. Sufficient conditions are derived for simultaneous pole-assignability of the generic -tuple by dynamic output feedback, which are also shown to be necessary (and equivalent to generic stabilizability) in the case where the number of either input or output channels is one. We also derive an upper bound on the order of a simultaneous pole-assigning compensator. If , this reduces to the condition derived by Brasch and Pearson, while if , this contains the recent theorem by Vidyasagar and Viswanadham. The cases are new.Keywords
Fault tolerance; Interconnected systems, linear; Pole assignment, linear systems; Stability, linear systems; Adaptive control; Advisory Committee; Automatic control; Control systems; Control theory; Fault tolerance; Gold; Large-scale systems; Sensitivity analysis; Societies;
fLanguage
English
Journal_Title
Circuits and Systems, IEEE Transactions on
Publisher
ieee
ISSN
0098-4094
Type
jour
DOI
10.1109/TCS.1983.1085369
Filename
1085369
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