Sequential Fusion for Multirate Multisensor Systems with Heavy-Tailed Noises and Unreliable Measurements

Liping Yan; Chenying Di; Q. M.Jonathan Wu; Yuanqing Xia

doi:10.1109/TSMC.2020.3003645

Sequential Fusion for Multirate Multisensor Systems with Heavy-Tailed Noises and Unreliable Measurements

Liping Yan^*, Chenying Di, Q. M.Jonathan Wu, Yuanqing Xia

^*Corresponding author for this work

School of Automation

Research output: Contribution to journal › Article › peer-review

20 Citations (Scopus)

Abstract

The sequential fusion estimation for multirate multisensor dynamic systems with heavy-tailed noises and unreliable measurements is an important problem in dynamic system control. This work proposes a sequential fusion algorithm and a detection technique based on Student's t -distribution and the approximate t -filter. The performance of the proposed algorithm is analyzed and compared with the Gaussian Kalman filter-based sequential fusion and the t -filter-based sequential fusion without detection technique. Theoretical analysis and exhaustive experimental analysis show that the proposed algorithm is effective and robust to unreliable measurements. The t -filter-based sequential fusion algorithm is shown to be the generalization of the classical Gaussian Kalman filter-based optimal sequential fusion algorithm.

Original language	English
Pages (from-to)	523-532
Number of pages	10
Journal	IEEE Transactions on Systems, Man, and Cybernetics: Systems
Volume	52
Issue number	1
DOIs	https://doi.org/10.1109/TSMC.2020.3003645
Publication status	Published - 1 Jan 2022

Keywords

Fusion estimation
heavy-tailed noise
multirate multisensor system
unreliable measurements

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10.1109/TSMC.2020.3003645

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abstract = "The sequential fusion estimation for multirate multisensor dynamic systems with heavy-tailed noises and unreliable measurements is an important problem in dynamic system control. This work proposes a sequential fusion algorithm and a detection technique based on Student's t -distribution and the approximate t -filter. The performance of the proposed algorithm is analyzed and compared with the Gaussian Kalman filter-based sequential fusion and the t -filter-based sequential fusion without detection technique. Theoretical analysis and exhaustive experimental analysis show that the proposed algorithm is effective and robust to unreliable measurements. The t -filter-based sequential fusion algorithm is shown to be the generalization of the classical Gaussian Kalman filter-based optimal sequential fusion algorithm.",

keywords = "Fusion estimation, heavy-tailed noise, multirate multisensor system, unreliable measurements",

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AU - Yan, Liping

AU - Di, Chenying

AU - Wu, Q. M.Jonathan

AU - Xia, Yuanqing

PY - 2022/1/1

Y1 - 2022/1/1

N2 - The sequential fusion estimation for multirate multisensor dynamic systems with heavy-tailed noises and unreliable measurements is an important problem in dynamic system control. This work proposes a sequential fusion algorithm and a detection technique based on Student's t -distribution and the approximate t -filter. The performance of the proposed algorithm is analyzed and compared with the Gaussian Kalman filter-based sequential fusion and the t -filter-based sequential fusion without detection technique. Theoretical analysis and exhaustive experimental analysis show that the proposed algorithm is effective and robust to unreliable measurements. The t -filter-based sequential fusion algorithm is shown to be the generalization of the classical Gaussian Kalman filter-based optimal sequential fusion algorithm.

AB - The sequential fusion estimation for multirate multisensor dynamic systems with heavy-tailed noises and unreliable measurements is an important problem in dynamic system control. This work proposes a sequential fusion algorithm and a detection technique based on Student's t -distribution and the approximate t -filter. The performance of the proposed algorithm is analyzed and compared with the Gaussian Kalman filter-based sequential fusion and the t -filter-based sequential fusion without detection technique. Theoretical analysis and exhaustive experimental analysis show that the proposed algorithm is effective and robust to unreliable measurements. The t -filter-based sequential fusion algorithm is shown to be the generalization of the classical Gaussian Kalman filter-based optimal sequential fusion algorithm.

KW - Fusion estimation

KW - heavy-tailed noise

KW - multirate multisensor system

KW - unreliable measurements

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Sequential Fusion for Multirate Multisensor Systems with Heavy-Tailed Noises and Unreliable Measurements

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Keywords

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