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An efficient algorithm for estimating noise covariances in distributed systems

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4 Author(s)
D. Dee ; New York University, New York, New York, USA and Pontifícia Universidade Católica do Rio de Janerio, Rio de Janerio, Brazil ; S. Cohn ; A. Dalcher ; M. Ghil

We present an efficient computational algorithm for estimating the noise covariance matrices of large linear discrete stochasticdynamic systems. Such systems arise typically by discretizing distributed-parameter systems, and their size renders computational efficiency a major consideration. Our adaptive filtering algorithm is based on the ideas of Bélanger, and is algebraically equivalent to his algorithm. The earlier algorithm, however, has computational complexity proportional to p6, where p is the number of observations of the system state, while the new algorithm has complexity proportional to only p3. Furthermore, our formulation of noise covariance estimation as a secondary filter, analogous to state estimation as a primary filter, suggests several generalizations of the earlier algorithm. The performance of the proposed algorithm is demonstrated for a distributed system arising in numerical weather prediction.

Published in:

IEEE Transactions on Automatic Control  (Volume:30 ,  Issue: 11 )