Minimax estimation by probabilistic criterion

“…Method (8) is sufficiently effective at zero mean independent disturbances, which is why the behavior of the estimates generated by algorithms (8) and (9) is good at zero mean random disturbances despite the high level of noise in the observations (see Fig. 1).…”

“…Here, Figures 1-4 show the comparative behavior of pre diction errors based on three algorithms in typical cases for four different disturbances (noise): a randomized algorithm (7) an LMS algorithm [1] (a simplified Kalman filter [4]) (8) and the Kalman filter It is known that Kalman filter (9) gives optimal estimates in the case of Gaussian independent noise in observations. Method (8) is sufficiently effective at zero mean independent disturbances, which is why the behavior of the estimates generated by algorithms (8) and (9) is good at zero mean random disturbances despite the high level of noise in the observations (see Fig.…”

“…Here, uncer tainties are considered as boundedness in a certain sense, but in other respects, they may be arbitrary. In formulations with a priori knowledge of the noise level, it is usually sufficient to derive predictions in the form of sets, the sizes of which are stabilized in time [3][4][5][6][7][8][9][10]. In this case, no consideration is given to the possibilities of deriving valid point estimates.…”

Potential of randomization in kalman-type prediction algorithms at arbitrary external noise in observations

“…Method (8) is sufficiently effective at zero mean independent disturbances, which is why the behavior of the estimates generated by algorithms (8) and (9) is good at zero mean random disturbances despite the high level of noise in the observations (see Fig. 1).…”

“…Here, Figures 1-4 show the comparative behavior of pre diction errors based on three algorithms in typical cases for four different disturbances (noise): a randomized algorithm (7) an LMS algorithm [1] (a simplified Kalman filter [4]) (8) and the Kalman filter It is known that Kalman filter (9) gives optimal estimates in the case of Gaussian independent noise in observations. Method (8) is sufficiently effective at zero mean independent disturbances, which is why the behavior of the estimates generated by algorithms (8) and (9) is good at zero mean random disturbances despite the high level of noise in the observations (see Fig.…”

“…Here, uncer tainties are considered as boundedness in a certain sense, but in other respects, they may be arbitrary. In formulations with a priori knowledge of the noise level, it is usually sufficient to derive predictions in the form of sets, the sizes of which are stabilized in time [3][4][5][6][7][8][9][10]. In this case, no consideration is given to the possibilities of deriving valid point estimates.…”

Potential of randomization in kalman-type prediction algorithms at arbitrary external noise in observations

“…Among the immense variety of the minimax formulations of the problems of estimation and filtration (see, for example, [2,3]) we give a brush treatment to those where covariations of the random factors are unknown. The works [4][5][6][7] were devoted to determination of the upper boundary of the root-mean-square error in the problems of estimation and filtration and to minimization of this upper boundary for systems with uncertain parameters in the covariance matrices of measurement noise.…”

Optimal estimation and filtration under unknown covariances of random factors

Distributionally Robust Optimization by Probability Criterion for Estimating a Bounded Signal