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dc.creatorKoumboulis, F. N.en
dc.creatorMertzios, B. G.en
dc.date.accessioned2015-11-23T10:36:07Z
dc.date.available2015-11-23T10:36:07Z
dc.date.issued1998
dc.identifier10.1115/1.2805412
dc.identifier.issn0022-0434
dc.identifier.urihttp://hdl.handle.net/11615/29799
dc.description.abstractThe problem of reducing a multi input-multi output system to many single input-single output systems, namely the problem of input-output decoupling, is studied for the case of singular systems i.e., for systems described by dynamic and algebraic equations. The problem of input-output decoupling with simultaneous arbitrary pole assignment, via proportional plus derivative (P-D) state feedback, is extensively solved. The general explicit expression of all P-D controllers solving the decoupling problem is determined. The general form of the diagonal elements of the decoupled closed-loop system is proven to be in a form having a fixed numerator polynomial and an arbitrary denominator polynomial. The necessary and sufficient conditions for the solvability of the problem of decoupling with simultaneous asymptotic stabilizability or arbitrary pole assignment are established. Furthermore, the necessary and sufficient conditions for decoupling with simultaneous impulse elimination, as well as the necessary and sufficient conditions for decoupling with arbitrary assignment of the finite and infinite poles of the closed-loop system, are established.en
dc.source.uri<Go to ISI>://WOS:000075920300011
dc.subjectAutomation & Control Systemsen
dc.subjectInstruments & Instrumentationen
dc.titleP-D feedback for decoupling and pole assignment of singular systemsen
dc.typejournalArticleen


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