Recursive smoothing algorithms for the estimation of signals from uncertain observations via mixture approximations

Considering discrete-time systems with uncertain observations when the signal model is unknown, but only covariance information is available, and the signal and the observation additive noise are correlated and jointly Gaussian, we present recursive algorithms for suboptimal fixed-point and fixed-in...

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Bibliographic Details
Published in:Analytical letters 2010-06, Vol.41 (6), p.647-656
Main Authors: Hermoso-Carazo, A., Jiménez-López, J.D., Linares-Pérez, J.
Format: Article
Language:English
Subjects:
Algorithms
Applied sciences
Approximation
Computer science
control theory
systems
Control theory. Systems
covariance information
discrete time systems
Estimators
Exact sciences and technology
Gaussian
Mathematical models
Modelling and identification
Normal distribution
Recursive
recursive estimation
signal-noise correlation
Smoothing
suboptimal estimation
uncertain observations
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Summary:Considering discrete-time systems with uncertain observations when the signal model is unknown, but only covariance information is available, and the signal and the observation additive noise are correlated and jointly Gaussian, we present recursive algorithms for suboptimal fixed-point and fixed-interval smoothing estimators. To derive the algorithms, we employ a technique consisting in approximating the conditional distributions of the signal given the observations by Gaussian distributions, taking successive approximations of the mixtures of normal distributions. The expectation of these approximations provides us with the suboptimal estimators. In a numerical simulation example, the performance of the proposed estimators is compared with that of linear ones, via the sample mean square values of the corresponding estimation errors.
ISSN:0020-7721
0003-2719
1464-5319
DOI:10.1080/00207720903144503