论文信息 - The Kalman filter: A robust estimator for some classes of linear quadratic problems

The Kalman filter: A robust estimator for some classes of linear quadratic problems

In this paper, theoretical justification is established for the common practice of applying the Kalman filter estimator to three classes of linear quadratic problems where the model statistics are not completely known, and hence specification of the filter gains is not optimum. The Kalman filter is shown to be a minimax estimator for one class of problems and to satisfy a saddlepoint condition in the other two classes of problems. Equations for the worst case covariance matrices are given which allow the specifications of the minimax Kalman filter gains and the worst case distributions for the respective classes of problems. Both time-varying and time-invariant systems are treated.

Joel M. Morris | Joel M. Morris

[1] Tamer Basar,et al. On a Minimax Estimate for the Mean of a Normal Random Vector Under a Generalized Quadratic Loss Function , 1973 .

[2] R. E. Kalman,et al. A New Approach to Linear Filtering and Prediction Problems , 2002 .

[3] Nasser E. Nahi,et al. Estimation Theory and Applications , 1969 .

[4] Abrahim Lavi,et al. Optimal observation policies in linear stochastic systems , 1968 .

[5] T. Nishimura. Error bounds of continuous Kalman filters and the application to orbit determination problems , 1967, IEEE Transactions on Automatic Control.

[6] Richard Bellman,et al. Introduction to Matrix Analysis , 1972 .

[7] Arthur E. Bryson,et al. Applied Optimal Control , 1969 .

[8] Max Mintz,et al. A Kalman filter as a minimax estimator , 1972 .

[9] Robert E. Larson,et al. Optical filtering with quantized data , 1968 .

[10] Y. Ho. On the minimax principle and zero sum stochastic differential games , 1972, CDC 1972.