Resilient Impulsive Control for Second-Order Consensus under Malicious Nodes

Jiaqi Yan; Changyun Wen; Xiao Kang Liu; Lantao Xing

doi:10.1109/TCSII.2020.3030081

Resilient Impulsive Control for Second-Order Consensus under Malicious Nodes

Jiaqi Yan
, Changyun Wen
, Xiao Kang Liu
, Lantao Xing^*

^*Corresponding author for this work

Nanyang Technological University

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

32 Scopus citations

Abstract

In this brief, we investigate the problem of resilient consensus in continuous-time second-order networks, where some nodes might be faulty or adversarial. Despite the existence of such malicious and unexpected behaviors, the normal agents still aim to reach an agreement. Towards this end, a resilient impulsive algorithm is proposed, in which the signal transmission among agents occurs with aperiodic intervals. At each sampling time, the normal agent removes the most extreme values in the neighborhood and then derives its control signal with the remaining ones. We show the influence of the malicious nodes on the normal ones would be limited by this manner. Sufficient conditions related to the network topology and tolerable number of misbehaving nodes are finally established to achieve the resilient consensus.

Original language	English
Article number	9220836
Pages (from-to)	1962-1966
Number of pages	5
Journal	IEEE Transactions on Circuits and Systems II: Express Briefs
Volume	68
Issue number	6
DOIs	https://doi.org/10.1109/TCSII.2020.3030081
State	Published - Jun 2021
Externally published	Yes

Keywords

Second-order consensus
cyber security
resilient algorithms
robust graph

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10.1109/TCSII.2020.3030081

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title = "Resilient Impulsive Control for Second-Order Consensus under Malicious Nodes",

abstract = "In this brief, we investigate the problem of resilient consensus in continuous-time second-order networks, where some nodes might be faulty or adversarial. Despite the existence of such malicious and unexpected behaviors, the normal agents still aim to reach an agreement. Towards this end, a resilient impulsive algorithm is proposed, in which the signal transmission among agents occurs with aperiodic intervals. At each sampling time, the normal agent removes the most extreme values in the neighborhood and then derives its control signal with the remaining ones. We show the influence of the malicious nodes on the normal ones would be limited by this manner. Sufficient conditions related to the network topology and tolerable number of misbehaving nodes are finally established to achieve the resilient consensus.",

keywords = "Second-order consensus, cyber security, resilient algorithms, robust graph",

author = "Jiaqi Yan and Changyun Wen and Liu, \{Xiao Kang\} and Lantao Xing",

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AU - Yan, Jiaqi

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AU - Liu, Xiao Kang

AU - Xing, Lantao

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Y1 - 2021/6

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AB - In this brief, we investigate the problem of resilient consensus in continuous-time second-order networks, where some nodes might be faulty or adversarial. Despite the existence of such malicious and unexpected behaviors, the normal agents still aim to reach an agreement. Towards this end, a resilient impulsive algorithm is proposed, in which the signal transmission among agents occurs with aperiodic intervals. At each sampling time, the normal agent removes the most extreme values in the neighborhood and then derives its control signal with the remaining ones. We show the influence of the malicious nodes on the normal ones would be limited by this manner. Sufficient conditions related to the network topology and tolerable number of misbehaving nodes are finally established to achieve the resilient consensus.

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KW - cyber security

KW - resilient algorithms

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Resilient Impulsive Control for Second-Order Consensus under Malicious Nodes

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