Mathematics (Sep 2017)

Fusion Estimation from Multisensor Observations with Multiplicative Noises and Correlated Random Delays in Transmission

  • Raquel Caballero-Águila,
  • Aurora Hermoso-Carazo,
  • Josefa Linares-Pérez

DOI
https://doi.org/10.3390/math5030045
Journal volume & issue
Vol. 5, no. 3
p. 45

Abstract

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In this paper, the information fusion estimation problem is investigated for a class of multisensor linear systems affected by different kinds of stochastic uncertainties, using both the distributed and the centralized fusion methodologies. It is assumed that the measured outputs are perturbed by one-step autocorrelated and cross-correlated additive noises, and also stochastic uncertainties caused by multiplicative noises and randomly missing measurements in the sensor outputs are considered. At each sampling time, every sensor output is sent to a local processor and, due to some kind of transmission failures, one-step correlated random delays may occur. Using only covariance information, without requiring the evolution model of the signal process, a local least-squares (LS) filter based on the measurements received from each sensor is designed by an innovation approach. All these local filters are then fused to generate an optimal distributed fusion filter by a matrix-weighted linear combination, using the LS optimality criterion. Moreover, a recursive algorithm for the centralized fusion filter is also proposed and the accuracy of the proposed estimators, which is measured by the estimation error covariances, is analyzed by a simulation example.

Keywords