Please use this identifier to cite or link to this item: http://hdl.handle.net/1783.1/295

Pole assignment for stochastic systems with unknown coefficients

Authors Chen, HF
Cao, XR
Issue Date 2000
Source Science in China Series e-technological sciences , v. 43, (3), 2000, JUN, p. 313-323
Summary This paper solves the exact pole assignment problem for the single-input stochastic systems with unknown coefficients under the controllability assumption which is necessary and sufficient for the arbitrary pole assignment for systems with known coefficients. The system noise is required to be mutually independent with zero mean and bounded second moment. Two approaches to solving the problem are proposed: One is the iterative learning approach which can be applied when the state at a fixed time can be repeatedly observed with different feedback gains; the other is the adaptive control approach which works when the trajectories satisfy a nondegeneracy condition. Both methods are essentially based on stochastic approximation, and the feedback gains are recursively given without invoking the certainty-equivalency-principle.
Subjects
ISSN 1006-9321
Language English
Format Article
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