Title :
Bounds on achievable performance in the identification and adaptive control of time-varying systems
Author :
Ravikanth, Rayadurgam ; Meyn, Sean P.
Author_Institution :
Nokia Res. Center, Burlington, MA, USA
fDate :
4/1/1999 12:00:00 AM
Abstract :
Treats the identification and adaptive control of time-varying linear systems. For linear systems with a Gauss-Markov parameter process a global lower bound on the mean square error is obtained which is valid for any causal parameter estimator. A similar lower bound is obtained for any causal, one step-ahead predictor. These bounds are applied to the adaptive control of time-varying systems to obtain a lower bound on closed-loop mean square performance for any causal control law. For a specific control law, mean square stability is established, and through simulations it is seen that the performance nearly meets the theoretical lower bound
Keywords :
Gaussian processes; Markov processes; adaptive control; linear systems; parameter estimation; time-varying systems; Gauss-Markov parameter process; achievable performance bounds; causal control law; causal one step-ahead predictor; causal parameter estimator; closed-loop mean square performance; global lower bound; mean square error; mean square stability; time-varying linear systems; Adaptive control; Control systems; Covariance matrix; Gaussian noise; Gaussian processes; Linear systems; Mean square error methods; Parameter estimation; Stability; Time varying systems;
Journal_Title :
Automatic Control, IEEE Transactions on
