- Aktuality
- Předmět a cíle výzkumu
- Rada Centra a výroční zprávy
- Pracoviště a kontakty
- Přednášky
- Konference a semináře
- Publikace
- Ukázky aplikací
- Zahraniční cesty
- Hosté centra
- Minulé události
- Vstup do Synergy
VYHLEDÁVÁNÍ
PRACOVIŠTĚ CENTRA
Výzkumné centrum
Data - Algoritmy - Rozhodování
Data - Algoritmy - Rozhodování
Založeno v roce 2005 s podporou MŠMT ČR (projekt 1M0572)
Přednášky
Block Independency, Admissibility and Decoupling: More Connexions between Transfer Function, Matrix Pencil, and Geometric Approaches.
Přednášející:
Malabre M.
Od:
Jul. 3 2007 2:00PM
Do:
Jul. 3 2007 3:00PM
Místo:
místnost 474, ÚTIA AV ČR
Popis:
he block decoupling problem by admissible dynamic precompensation for LTI systems is considered. Admissibility refers to the preservation of the class of controlled output trajectories, i.e. functional output controllability is concerned, which is more demanding than just pointwise output controllability.
This problem has been solved by Hautus and Heyman in [1], within a transfer function matrix approach. Different new equivalent solvability conditions in terms of controllability subspaces, transfer function matrices or matrix pencils are given. One of these conditions (expressed in the input space) is at the origin of new necessary and sufficient conditions for block decoupling by general precompensation (possibly non admissible and non-square), in the wider sense of Basile and Marro [2].
[1] M. L. J. Hautus and M. Heymann, (1983), "Linear feedback decoupling - Transfer function analysis", IEEE Trans. on Automatic Control, vol. 28, no. 8, pp. 823-832.
[2] G. Basile and G. Marro, (1970), "A state space approach to noninteracting controls", Ricerchi di Automatica, vol. 1, no. 1. pp. 68-77. Index Terms: Block decoupling, precompensation, controllability subspaces, transfer function matrices, LTI systems.
This problem has been solved by Hautus and Heyman in [1], within a transfer function matrix approach. Different new equivalent solvability conditions in terms of controllability subspaces, transfer function matrices or matrix pencils are given. One of these conditions (expressed in the input space) is at the origin of new necessary and sufficient conditions for block decoupling by general precompensation (possibly non admissible and non-square), in the wider sense of Basile and Marro [2].
[1] M. L. J. Hautus and M. Heymann, (1983), "Linear feedback decoupling - Transfer function analysis", IEEE Trans. on Automatic Control, vol. 28, no. 8, pp. 823-832.
[2] G. Basile and G. Marro, (1970), "A state space approach to noninteracting controls", Ricerchi di Automatica, vol. 1, no. 1. pp. 68-77. Index Terms: Block decoupling, precompensation, controllability subspaces, transfer function matrices, LTI systems.
Kontaktní osoba:
V rámci akce:
Pravidelný seminář Rozhodování a řízení za neurčitosti. (Kontaktní osoba: Miroslav Kárný)