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Recursive Filtering of Distributed Cyber-Physical Systems With Attack Detection

Derui Ding, Qing‐Long Han, Zidong Wang, Xiaohua Ge

2020IEEE Transactions on Systems Man and Cybernetics Systems108 citationsDOIOpen Access PDF

Abstract

This article is concerned with the distributed recursive filtering of cyber-physical systems consisting of a set of spatially distributed subsystems. Due to the vulnerability of communication networks, the transmitted data among subsystems could be subject to deception attacks. In this article, attackers do not have enough knowledge of the full network topology and the system parameters and therefore cannot carry out stealth attacks. For this scenario, a defense strategy dependent on the received innovation is proposed to identify the occurring attacks as far as possible. In light of identified attacks, a novel distributed filter is constructed and its gain is designed via a set of recursive formulas on the upper bound of covariance of filtering errors. The utilization of upper bound is to avoid the calculational challenge of cross-covariance matrices and realize the requirement of distributed implementation, simultaneously. Furthermore, the developed scheme only depends on the neighboring information and the information from the subsystem itself, and thereby satisfying the requirement of the scalability. Finally, a standard IEEE 39-bus power system is utilized to verify the effectiveness of the proposed filtering scheme.

Topics & Concepts

Computer scienceScalabilityDistributed computingSet (abstract data type)Vulnerability (computing)CovarianceScheme (mathematics)Filter (signal processing)Upper and lower boundsCyber-physical systemNetwork topologyTopology (electrical circuits)Theoretical computer scienceComputer networkComputer securityMathematicsMathematical analysisStatisticsComputer visionOperating systemDatabaseCombinatoricsProgramming languageSmart Grid Security and ResilienceSecurity in Wireless Sensor NetworksNetwork Time Synchronization Technologies