Reduced Order Modeling of Diffusively Coupled Network Systems: An Optimal Edge Weighting Approach

Xiaodong Cheng; Lanlin Yu; Dingchao Ren; Jacquelien M.A. Scherpen

doi:10.1109/TAC.2022.3200886

Reduced Order Modeling of Diffusively Coupled Network Systems: An Optimal Edge Weighting Approach

Xiaodong Cheng^*, Lanlin Yu, Dingchao Ren, Jacquelien M.A. Scherpen

^*Corresponding author for this work

Discrete Technology and Production Automation

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Abstract

This article studies reduced-order modeling of dynamic networks with strongly connected topology. Given a graph clustering of an original large-scale network, we construct a quotient graph with less number of vertices, where the edge weights are parameters to be determined. The model of a reduced network is thereby obtained with parameterized system matrices, and then, an edge weighting procedure is devised, aiming to select an optimal set of edge weights to minimize the approximation error between the original and the reduced-order network models in terms of \mathcal {H}-{2}-norm. The effectiveness of the proposed method is illustrated by a numerical example.

Original language	English
Pages (from-to)	4233-4240
Number of pages	8
Journal	IEEE Transactions on Automatic Control
Volume	68
Issue number	7
DOIs	https://doi.org/10.1109/TAC.2022.3200886
Publication status	Published - 1-Jul-2023

Keywords

Interconnected systems
linear systems
network systems
optimization
reduced order systems

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Reduced Order Modeling of Diffusively Coupled Network Systems: An Optimal Edge Weighting ApproachFinal publisher's version, 1.12 MBLicence: Taverne

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title = "Reduced Order Modeling of Diffusively Coupled Network Systems: An Optimal Edge Weighting Approach",

abstract = "This article studies reduced-order modeling of dynamic networks with strongly connected topology. Given a graph clustering of an original large-scale network, we construct a quotient graph with less number of vertices, where the edge weights are parameters to be determined. The model of a reduced network is thereby obtained with parameterized system matrices, and then, an edge weighting procedure is devised, aiming to select an optimal set of edge weights to minimize the approximation error between the original and the reduced-order network models in terms of \mathcal {H}-{2}-norm. The effectiveness of the proposed method is illustrated by a numerical example.",

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author = "Xiaodong Cheng and Lanlin Yu and Dingchao Ren and Scherpen, {Jacquelien M.A.}",

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AU - Cheng, Xiaodong

AU - Yu, Lanlin

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AU - Scherpen, Jacquelien M.A.

PY - 2023/7/1

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N2 - This article studies reduced-order modeling of dynamic networks with strongly connected topology. Given a graph clustering of an original large-scale network, we construct a quotient graph with less number of vertices, where the edge weights are parameters to be determined. The model of a reduced network is thereby obtained with parameterized system matrices, and then, an edge weighting procedure is devised, aiming to select an optimal set of edge weights to minimize the approximation error between the original and the reduced-order network models in terms of \mathcal {H}-{2}-norm. The effectiveness of the proposed method is illustrated by a numerical example.

AB - This article studies reduced-order modeling of dynamic networks with strongly connected topology. Given a graph clustering of an original large-scale network, we construct a quotient graph with less number of vertices, where the edge weights are parameters to be determined. The model of a reduced network is thereby obtained with parameterized system matrices, and then, an edge weighting procedure is devised, aiming to select an optimal set of edge weights to minimize the approximation error between the original and the reduced-order network models in terms of \mathcal {H}-{2}-norm. The effectiveness of the proposed method is illustrated by a numerical example.

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KW - linear systems

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Reduced Order Modeling of Diffusively Coupled Network Systems: An Optimal Edge Weighting Approach

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