Title :
Almost Disturbance Decoupling via static state feedback with pole placement: A geometric approach
Author :
Runmin Zou ; Malabre, Michel
Author_Institution :
IRCCyN, Ecole Centrale de Nantes, Nantes, France
Abstract :
This contribution focuses on solving the Almost Disturbance Decoupling Problem (ADDP) via static state feedback and simultaneously placing system poles. It is shown that, when solving ADDP by means of high gain state feedback, in any solution are present some fixed finite poles and infinite poles in the closed loop system, which can not be freely assigned. A class of “optimal” geometric subspaces with which maximal complementary pole placement can be achieved is characterized. A reliable construction algorithm for such an optimal (or suboptimal) geometric subspace (resp. the state feedback solution) is also proposed for general case. An example is proposed to illustrate our contributions. It should be noted that all the contributions are based on geometric control theory.
Keywords :
closed loop systems; pole assignment; state feedback; suboptimal control; ADDP; almost disturbance decoupling problem; closed loop system; fixed finite poles; geometric approach; geometric control theory; infinite poles; maximal complementary pole placement; optimal geometric subspace; static state feedback; suboptimal geometric subspace; Aerospace electronics; Approximation methods; Closed loop systems; Controllability; Reliability; State feedback; Vectors; Linear systems; almost disturbance decoupling; geometric approach; pole placement; static state feedback;
Conference_Titel :
Control Conference (ECC), 2009 European
Conference_Location :
Budapest
Print_ISBN :
978-3-9524173-9-3
