Analysis of Structural Balance and Distributed Control for High-Order Signed Networks

Qiang Song; Guoping Lu; Guanghui Wen; Yu Zhao; Fang Liu

doi:10.1109/TSMC.2022.3151758

Analysis of Structural Balance and Distributed Control for High-Order Signed Networks

Qiang Song, Guoping Lu, Guanghui Wen, Yu Zhao, Fang Liu

School of Automation

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

2 Scopus citations

Abstract

This article investigates the problems of structural balance and distributed control for a high-order signed network with generic linear dynamics. A novel approach is proposed to analyze the structural balance of a general network based on the strongly connected components of the topology graph and the Frobenius normal form of the adjacency matrix. To address the distributed control of high-order signed networks, both state-feedback and observer-type algorithms are developed on the basis of low-gain strategies, where a unified framework is presented to construct full- or reduced-order observers. The dynamical behaviors of the signed network under the proposed algorithms are systematically explored, where the nontrivial final network state is computed by employing an eigenvector-based approach. The theoretical results are illustrated by numerical examples.

Original language	English
Pages (from-to)	7134-7147
Number of pages	14
Journal	IEEE Transactions on Systems, Man, and Cybernetics: Systems
Volume	52
Issue number	11
DOIs	https://doi.org/10.1109/TSMC.2022.3151758
State	Published - 1 Nov 2022

Keywords

High-order signed network
low-gain feedback
signed graph
state observer
structural balance

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abstract = "This article investigates the problems of structural balance and distributed control for a high-order signed network with generic linear dynamics. A novel approach is proposed to analyze the structural balance of a general network based on the strongly connected components of the topology graph and the Frobenius normal form of the adjacency matrix. To address the distributed control of high-order signed networks, both state-feedback and observer-type algorithms are developed on the basis of low-gain strategies, where a unified framework is presented to construct full- or reduced-order observers. The dynamical behaviors of the signed network under the proposed algorithms are systematically explored, where the nontrivial final network state is computed by employing an eigenvector-based approach. The theoretical results are illustrated by numerical examples.",

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AU - Song, Qiang

AU - Lu, Guoping

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AU - Zhao, Yu

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N2 - This article investigates the problems of structural balance and distributed control for a high-order signed network with generic linear dynamics. A novel approach is proposed to analyze the structural balance of a general network based on the strongly connected components of the topology graph and the Frobenius normal form of the adjacency matrix. To address the distributed control of high-order signed networks, both state-feedback and observer-type algorithms are developed on the basis of low-gain strategies, where a unified framework is presented to construct full- or reduced-order observers. The dynamical behaviors of the signed network under the proposed algorithms are systematically explored, where the nontrivial final network state is computed by employing an eigenvector-based approach. The theoretical results are illustrated by numerical examples.

AB - This article investigates the problems of structural balance and distributed control for a high-order signed network with generic linear dynamics. A novel approach is proposed to analyze the structural balance of a general network based on the strongly connected components of the topology graph and the Frobenius normal form of the adjacency matrix. To address the distributed control of high-order signed networks, both state-feedback and observer-type algorithms are developed on the basis of low-gain strategies, where a unified framework is presented to construct full- or reduced-order observers. The dynamical behaviors of the signed network under the proposed algorithms are systematically explored, where the nontrivial final network state is computed by employing an eigenvector-based approach. The theoretical results are illustrated by numerical examples.

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Analysis of Structural Balance and Distributed Control for High-Order Signed Networks

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