Sensor Selection for Estimation with Correlated Measurement Noise

In this paper, we consider the problem of sensor selection for parameter estimation with correlated measurement noise. We seek optimal sensor activations by formulating an optimization problem, in which the estimation error, given by the trace of the inverse of the Bayesian Fisher information matrix...

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Veröffentlicht in:IEEE transactions on signal processing 2016-07, Vol.64 (13), p.3509-3522
Hauptverfasser: Sijia Liu, Chepuri, Sundeep Prabhakar, Fardad, Makan, Masazade, Engin, Leus, Geert, Varshney, Pramod K.
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Sprache:eng
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Zusammenfassung:In this paper, we consider the problem of sensor selection for parameter estimation with correlated measurement noise. We seek optimal sensor activations by formulating an optimization problem, in which the estimation error, given by the trace of the inverse of the Bayesian Fisher information matrix, is minimized subject to energy constraints. Fisher information has been widely used as an effective sensor selection criterion. However, existing information-based sensor selection methods are limited to the case of uncorrelated noise or weakly correlated noise due to the use of approximate metrics. By contrast, here we derive the closed form of the Fisher information matrix with respect to sensor selection variables that is valid for any arbitrary noise correlation regime and develop both a convex relaxation approach and a greedy algorithm to find near-optimal solutions. We further extend our framework of sensor selection to solve the problem of sensor scheduling, where a greedy algorithm is proposed to determine non-myopic (multi-time step ahead) sensor schedules. Lastly, numerical results are provided to illustrate the effectiveness of our approach, and to reveal the effect of noise correlation on estimation performance.
ISSN:1053-587X
1941-0476
DOI:10.1109/TSP.2016.2550005