Estimation for the Linear Model With Uncertain Covariance Matrices

Author

Zachariah, Dave ; Shariati, Negin ; Bengtsson, Martin ; Jansson, Magnus ; Chatterjee, Saptarshi

Author_Institution

ACCESS Linnaeus Centre, KTH R. Inst. of Technol., Stockholm, Sweden

Volume

62

Issue

6

fYear

2014

fDate

15-Mar-14

Firstpage

1525

Lastpage

1535

Abstract

We derive a maximum a posteriori estimator for the linear observation model, where the signal and noise covariance matrices are both uncertain. The uncertainties are treated probabilistically by modeling the covariance matrices with prior inverse-Wishart distributions. The nonconvex problem of jointly estimating the signal of interest and the covariance matrices is tackled by a computationally efficient fixed-point iteration as well as an approximate variational Bayes solution. The statistical performance of estimators is compared numerically to state-of-the-art estimators from the literature and shown to perform favorably.

Keywords

Bayes methods; approximation theory; covariance matrices; estimation theory; iterative methods; signal processing; fixed-point iteration; inverse-Wishart distributions; linear model estimation; linear observation model; noise covariance matrices; signal covariance matrices; signal processing; statistical performance; uncertain covariance matrices; variational Bayes solution approximation; Computational modeling; Covariance matrices; Estimation; Noise; Probabilistic logic; Uncertainty; Xenon; Maximum a posteriori estimation; covariance matrices; inverse Wishart;

fLanguage

English

Journal_Title

Signal Processing, IEEE Transactions on

Publisher

ieee

ISSN

1053-587X

Type

jour

DOI

10.1109/TSP.2014.2301973

Filename

6719496