DocumentCode
962422
Title
Decoupling of Measurable Signals via Self-Bounded Controlled Invariant Subspaces: Minimal Unassignable Dynamics of Feedforward Units for Prestabilized Systems
Author
Zattoni, Elena
Author_Institution
Dept. of Electron., Comput. Sci., & Syst., Bologna Univ.
Volume
52
Issue
1
fYear
2007
Firstpage
140
Lastpage
143
Abstract
A dynamic feedforward scheme allows measurable signal decoupling to be solved independently of other problems simultaneously present in the design of a control system like, e.g., stabilization, robustness, insensitivity to disturbances. The synthesis procedure, based on the properties of self-bounded controlled invariant subspaces, ensures the minimal complexity of the feedforward unit, in terms of minimal unassignable dynamics and minimal dynamic order, in the case of left-invertible systems and, on some specific conditions, also in the case of non-left-invertible systems. The output dynamic feedback set up to guarantee stability (or, more generally, robustness or insensitivity properties) does not affect the complexity of the feedforward unit, since the peculiar layout where the feedback unit receives an additional input from the precompensator preserves, in the extended system, exactly the same set of unassignable internal eigenvalues of the minimal self-bounded controlled invariant subspace as that defined for the original system. The overall control structure turns out to be a two-degree-of-freedom controller completely devised in the geometric context
Keywords
control system synthesis; feedback; feedforward; stability; time-varying systems; control system design; dynamic feedforward scheme; feedforward control; feedforward units; measurable signal decoupling; minimal unassignable dynamics; output dynamic feedback; prestabilized systems; self-bounded controlled invariant subspaces; stability; Control system synthesis; Control systems; Eigenvalues and eigenfunctions; Force control; Linear systems; Output feedback; Robust control; Robust stability; Signal synthesis; Sufficient conditions; Decoupling; feedforward control; geometric approach; linear systems; self-bounded controlled invariant subspaces;
fLanguage
English
Journal_Title
Automatic Control, IEEE Transactions on
Publisher
ieee
ISSN
0018-9286
Type
jour
DOI
10.1109/TAC.2006.886499
Filename
4061001
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