Robust state estimation based on statistical similarity measure with sliding window for non-Gaussian systems under multiple cyber attacks

This work proposes a robust and resilient state estimation framework for non-Gaussian systems under multiple cyber attacks, where the inputs and measurements are both threatened by random deception attacks with unknown probabilities. Motivated by the fact that existing robust estimation algorithms s...

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Published inJournal of the Franklin Institute Vol. 362; no. 15; p. 107971
Main Authors Wang, Guoqing, Zhu, Zhaolei, Yang, Chunyu, Rong, Wanting, Ma, Lei
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.10.2025
Subjects
Cyber attacks
Robust Kalman filter
Sliding window
Statistical similarity measure
Student’s t kernel function
Variational Bayesian
Variational Bayesian
Cyber attacks
Robust Kalman filter
Statistical similarity measure
Sliding window
Student’s t kernel function
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Abstract This work proposes a robust and resilient state estimation framework for non-Gaussian systems under multiple cyber attacks, where the inputs and measurements are both threatened by random deception attacks with unknown probabilities. Motivated by the fact that existing robust estimation algorithms struggle to accurately estimate the system state only using the current measurement value under non-Gaussian noises, especially when coupled with cyber attacks, we design a novel robust estimation algorithm, namely RSSWKF, based on the statistical similarity measure, which is derived through fixed-point iteration and utilizing the advantage of the student’s t kernel in handling non-Gaussian noises. Moreover, the multiple measurements within the sliding window are leveraged to adjust the polluted covariance matrices through Variational Bayesian methods adaptively to further enhance the estimation accuracy. Compared with related algorithms through the target tracking example, the higher tracking accuracy and adaptive capability of our RSSWKF are verified.
AbstractList This work proposes a robust and resilient state estimation framework for non-Gaussian systems under multiple cyber attacks, where the inputs and measurements are both threatened by random deception attacks with unknown probabilities. Motivated by the fact that existing robust estimation algorithms struggle to accurately estimate the system state only using the current measurement value under non-Gaussian noises, especially when coupled with cyber attacks, we design a novel robust estimation algorithm, namely RSSWKF, based on the statistical similarity measure, which is derived through fixed-point iteration and utilizing the advantage of the student’s t kernel in handling non-Gaussian noises. Moreover, the multiple measurements within the sliding window are leveraged to adjust the polluted covariance matrices through Variational Bayesian methods adaptively to further enhance the estimation accuracy. Compared with related algorithms through the target tracking example, the higher tracking accuracy and adaptive capability of our RSSWKF are verified.
ArticleNumber 107971
Author Zhu, Zhaolei
Wang, Guoqing
Rong, Wanting
Ma, Lei
Yang, Chunyu
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  organization: School of Information and Control Engineering, China University of Mining and Technology, XuZhou, 221116, JiangSu, China
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Keywords Variational Bayesian
Cyber attacks
Robust Kalman filter
Statistical similarity measure
Sliding window
Student’s t kernel function
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Snippet This work proposes a robust and resilient state estimation framework for non-Gaussian systems under multiple cyber attacks, where the inputs and measurements...
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elsevier
SourceType Index Database
Publisher
StartPage 107971
SubjectTerms Cyber attacks
Robust Kalman filter
Sliding window
Statistical similarity measure
Student’s t kernel function
Variational Bayesian
Title Robust state estimation based on statistical similarity measure with sliding window for non-Gaussian systems under multiple cyber attacks
URI https://dx.doi.org/10.1016/j.jfranklin.2025.107971
Volume 362
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