DocumentCode
1185360
Title
Finite memory partial inverses
Author
Aravena, Jorge L. ; Porter, William A.
Volume
28
Issue
4
fYear
1981
fDate
4/1/1981 12:00:00 AM
Firstpage
287
Lastpage
294
Abstract
Using a state-space approach we show that an observable causal operator on a Hilbert resolution space has a finite memory decomposition property. Regardless of its past evolution, it is always possible to relate in a linear and causal way a finite segment of output with the corresponding segment of input. The decomposition property is used to extend the concept of partial system inverses. For a given operator T we construct a bounded causal map M that not only satisfies the condition
, over a prespecified finite dimensional subspace, but also has a finite memory characteristic. Consequently, the operator M approximates the inverse of T over the subset of finite segments of linear combinations in the given subspace. The quality of the approximation depends on the length of the segments in relation to the memory length of the partial inverse. The finite memory partial inverses can be applied to the parameter sensitivity problem with time-varying parameter changes.
, over a prespecified finite dimensional subspace, but also has a finite memory characteristic. Consequently, the operator M approximates the inverse of T over the subset of finite segments of linear combinations in the given subspace. The quality of the approximation depends on the length of the segments in relation to the memory length of the partial inverse. The finite memory partial inverses can be applied to the parameter sensitivity problem with time-varying parameter changes.Keywords
General circuits and systems; Hilbert spaces; Network sensitivity analysis; Circuits and systems; Digital filters; Finite impulse response filter; Image processing; Nonlinear systems; Pattern recognition; Satellites; Signal processing; Societies; Transactions Committee;
fLanguage
English
Journal_Title
Circuits and Systems, IEEE Transactions on
Publisher
ieee
ISSN
0098-4094
Type
jour
DOI
10.1109/TCS.1981.1084990
Filename
1084990
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