Title :
A game theory approach to robust discrete-time H∞-estimation
Author :
Theodor, Y. ; Shaked, Uri ; de Souza, Carlos E.
Author_Institution :
Dept. of Electr. Eng-Syst., Tel Aviv Univ., Israel
fDate :
6/1/1994 12:00:00 AM
Abstract :
The deterministic robust estimation problem is formulated in the discrete-time case as a zero-sum two person difference game, in which a statistician plays against nature. The statistician tries to estimate a linear combination of the states of an uncertain linear system, which is driven by nature. Saddle-point strategies for the statistician in the above game are difficult to find. A suboptimal strategy is, therefore, considered which guarantees an H∞ performance bound on the estimation error. Different patterns of the information that is available to the statistician are treated, and the corresponding fixed-point, fixed-lag, and fixed-interval smoothing strategies are derived
Keywords :
discrete time systems; estimation theory; filtering and prediction theory; game theory; linear systems; time-varying systems; deterministic robust estimation problem; discrete-time H∞-estimation; estimation error; fixed-interval smoothing strategies; fixed-lag smoothing; fixed-point smoothing; game theory; nature; saddle-point strategies; suboptimal strategy; uncertain linear system; zero-sum two person difference game; Delay; Filtering; Filters; Frequency domain analysis; Game theory; Linear systems; Robustness; Senior members; Smoothing methods; State estimation;
Journal_Title :
Signal Processing, IEEE Transactions on
