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In order to improve the practicability of the design in state estimation, the paper aims to present a novel disturbance decoupled reduced-order observer (DDRO) design scheme.
The paper first uses equivalence transformation to eliminate unknown input appearing in measurement. Then based on Luenberger observer and using two non-singular coordinate transformation, the design observer can get no bias error in the state estimation.
By using this approach we find that the conditions of DDRO depend on the system itself that is weaker than other observers. It is a qualified and simple and straightforward approach to be applied in wide domains.
We should note that the number of independent rows of the matrix C must not be less than the number of the independent columns of the matrix E to satisfy condition rank(CE)=rank(E)=q. In other words, the maximum number of disturbances which can be decoupled cannot be larger than the number of independent measurements.
It is a very useful approach to solve the problem that the measurement is contaminated by disturbances.
The paper proposed an equivalence transformation. It is used to eliminate unknown input appearing in measurement. At the same time the algebraic transformation guaranteed that it would lose no information of the unknown inputs. And compared with other known results, the design condition of the reduced-order observer which proposed in this paper depends on system itself, especially, which is weaker than others.
Novel design of disturbance decoupled reduced-order observer
Aircraft Engineering and Aerospace Technology ; 77 , 4 ; 293-297
01.08.2005
5 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Novel design of disturbance decoupled reduced-order observer
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