Maximum likelihood estimation via the extended covariance and combined square-root filters

Maximum likelihood estimation via the extended covariance and combined square-root filters

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Article ID: iaor201527014
Volume: 79
Issue: 5
Start Page Number: 1641
End Page Number: 1657
Publication Date: Jan 2009
Journal: Mathematics and Computers in Simulation
Authors:
Keywords: Kalman filter, maximum likelihood estimation
Abstract:

The method of maximum likelihood is a general method for parameter estimation and is often used in system identification. To implement it, it is necessary to maximize the likelihood function, which is usually done using the gradient approach. It involves the computation of the likelihood gradient with respect to unknown system parameters. For linear stochastic system models this leads to the implementation of the Kalman filter, which is known to be numerically unstable. The aim of this work is to present new efficient algorithms for likelihood gradient evaluation. They are more reliable in practice and improve robustness of computations against roundoff errors. All algorithms are derived in measurement and time updates form. The comparison with the conventional Kalman filter approach and results of numerical experiments are given.

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