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Distributed Secure Consensus Control With Event-Triggering for Multiagent Systems Under DoS Attacks

Authors :
Yang, Yang
Li, Yanfei
Yue, Dong
Tian, Yu-Chu
Ding, Xiaohua
Yang, Yang
Li, Yanfei
Yue, Dong
Tian, Yu-Chu
Ding, Xiaohua
Source :
IEEE Transactions on Cybernetics
Publication Year :
2021

Abstract

Consensus control of multiagent systems (MASs) has applications in various domains. As MASs work in networked environments, their security control becomes critically desirable in response to various cyberattacks, such as denial of service (DoS). Efforts have been made in the development of both time- and event-triggered consensus control of MASs. However, there is a lack of precise calculation of control input during the attacking periods. To address this issue, a distributed secure consensus control with event triggering is developed for linear leader-following MASs under DoS attacks. It is designed with a dual-terminal event-triggered mechanism, which schedules information transmission through two triggered functions for each follower: one on the measurement channel (sensor-to-controller) and the other on the control channel (controller-to-actuator). To deal with DoS attacks, the combined states in the triggered functions are replaced by their estimations from an observer. Sufficient conditions are established for the duration and frequency of DoS attacks. To remove continuous monitoring of the measurement errors, a self-triggered secure control scheme is further developed, which combines the system states and other information at past triggered instants. Theoretical analysis shows that the followers in MASs under DoS attacks are able to track the leader and meanwhile the Zeno behavior is excluded. Case studies are conducted to demonstrate the effectiveness of our distributed secure consensus control of MASs.

Details

Database :
OAIster
Journal :
IEEE Transactions on Cybernetics
Publication Type :
Electronic Resource
Accession number :
edsoai.on1157276521
Document Type :
Electronic Resource