Linear Kalman Filtering Algorithm with Noisy Control Input Variable

Wentao Ma; Jinzhe Qiu; Junli Liang; Badong Chen

doi:10.1109/TCSII.2018.2878951

Linear Kalman Filtering Algorithm with Noisy Control Input Variable

Wentao Ma, Jinzhe Qiu, Junli Liang, Badong Chen

School of Electronics and Information

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

28 Scopus citations

Abstract

This brief focuses on the development of a linear Kalman filtering algorithm when the control input variable is corrupted by noises. The noisy input is considered in the derivation process of the Kalman filter, and an extra term is included in the covariance matrix of the one step error. A bias estimation is naturally generated by the input noise. To reduce the bias, a new cost function of the state estimation error with a regularization term is proposed to obtain the Kalman gain matrix. Simulation results in the context of discrete time state estimation demonstrate that the proposed algorithm can achieve excellent estimation performance in terms of the steady-state misalignment under noisy input environments.

Original language	English
Article number	8516354
Pages (from-to)	1282-1286
Number of pages	5
Journal	IEEE Transactions on Circuits and Systems II: Express Briefs
Volume	66
Issue number	7
DOIs	https://doi.org/10.1109/TCSII.2018.2878951
State	Published - Jul 2019

Keywords

discrete time state estimation
Linear Kalman filter
noisy control variable

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10.1109/TCSII.2018.2878951

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title = "Linear Kalman Filtering Algorithm with Noisy Control Input Variable",

abstract = "This brief focuses on the development of a linear Kalman filtering algorithm when the control input variable is corrupted by noises. The noisy input is considered in the derivation process of the Kalman filter, and an extra term is included in the covariance matrix of the one step error. A bias estimation is naturally generated by the input noise. To reduce the bias, a new cost function of the state estimation error with a regularization term is proposed to obtain the Kalman gain matrix. Simulation results in the context of discrete time state estimation demonstrate that the proposed algorithm can achieve excellent estimation performance in terms of the steady-state misalignment under noisy input environments.",

keywords = "discrete time state estimation, Linear Kalman filter, noisy control variable",

author = "Wentao Ma and Jinzhe Qiu and Junli Liang and Badong Chen",

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AU - Ma, Wentao

AU - Qiu, Jinzhe

AU - Liang, Junli

AU - Chen, Badong

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Y1 - 2019/7

N2 - This brief focuses on the development of a linear Kalman filtering algorithm when the control input variable is corrupted by noises. The noisy input is considered in the derivation process of the Kalman filter, and an extra term is included in the covariance matrix of the one step error. A bias estimation is naturally generated by the input noise. To reduce the bias, a new cost function of the state estimation error with a regularization term is proposed to obtain the Kalman gain matrix. Simulation results in the context of discrete time state estimation demonstrate that the proposed algorithm can achieve excellent estimation performance in terms of the steady-state misalignment under noisy input environments.

AB - This brief focuses on the development of a linear Kalman filtering algorithm when the control input variable is corrupted by noises. The noisy input is considered in the derivation process of the Kalman filter, and an extra term is included in the covariance matrix of the one step error. A bias estimation is naturally generated by the input noise. To reduce the bias, a new cost function of the state estimation error with a regularization term is proposed to obtain the Kalman gain matrix. Simulation results in the context of discrete time state estimation demonstrate that the proposed algorithm can achieve excellent estimation performance in terms of the steady-state misalignment under noisy input environments.

KW - discrete time state estimation

KW - Linear Kalman filter

KW - noisy control variable

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JF - IEEE Transactions on Circuits and Systems II: Express Briefs

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ER -

Linear Kalman Filtering Algorithm with Noisy Control Input Variable

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