H2 model reduction for diffusively coupled second-order networks by convex-optimization

Lanlin Yu; Xiaodong Cheng; Jacquelien M.A. Scherpen; Junlin Xiong

doi:10.1016/j.automatica.2021.110118

H₂ model reduction for diffusively coupled second-order networks by convex-optimization

Lanlin Yu, Xiaodong Cheng, Jacquelien M.A. Scherpen^*, Junlin Xiong

^*Corresponding author voor dit werk

Discrete Technologie en Productie Automatisering

Onderzoeksoutput › Academic › peer review

2 Citaten (Scopus)

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This paper provides an H₂ optimal scheme for reducing diffusively coupled second-order systems evolving over undirected networks. The aim is to find a reduced-order model that not only approximates the input–output mapping of the original system but also preserves crucial structures, such as the second-order form, asymptotically stability, and diffusive couplings. To this end, an H₂ optimal approach based on a convex relaxation is used to reduce the dimension, yielding a lower order asymptotically stable approximation of the original second-order network system. Then, a novel graph reconstruction approach is employed to convert the obtained model to a reduced system that is interpretable as an undirected diffusively coupled network. Finally, the effectiveness of the proposed method is illustrated via a large-scale networked mass–spring–damper system.

Originele taal-2	English
Artikelnummer	110118
Aantal pagina's	9
Tijdschrift	Automatica
Volume	137
DOI's	https://doi.org/10.1016/j.automatica.2021.110118
Status	Published - mrt.-2022

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title = "H2 model reduction for diffusively coupled second-order networks by convex-optimization",

abstract = "This paper provides an H2 optimal scheme for reducing diffusively coupled second-order systems evolving over undirected networks. The aim is to find a reduced-order model that not only approximates the input–output mapping of the original system but also preserves crucial structures, such as the second-order form, asymptotically stability, and diffusive couplings. To this end, an H2 optimal approach based on a convex relaxation is used to reduce the dimension, yielding a lower order asymptotically stable approximation of the original second-order network system. Then, a novel graph reconstruction approach is employed to convert the obtained model to a reduced system that is interpretable as an undirected diffusively coupled network. Finally, the effectiveness of the proposed method is illustrated via a large-scale networked mass–spring–damper system.",

keywords = "Convex-optimization, Diffusive coupling, H model reduction, Linear matrix inequality, Second-order networks",

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

note = "Funding Information: This work was supported by the National Natural Science Foundation of China Under Project 62003276 and 61773357 , and the Fellowship of Zhejiang Province Postdoctoral Science Foundation Under Project ZJ2020001 . The material in this paper was not presented at any conference. This paper was recommended for publication in revised form by Associate Editor Michael M. Zavlanos under the direction of Editor Christos G. Cassandras. Publisher Copyright: {\textcopyright} 2021 The Author(s)",

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AU - Yu, Lanlin

AU - Cheng, Xiaodong

AU - Scherpen, Jacquelien M.A.

AU - Xiong, Junlin

N1 - Funding Information: This work was supported by the National Natural Science Foundation of China Under Project 62003276 and 61773357 , and the Fellowship of Zhejiang Province Postdoctoral Science Foundation Under Project ZJ2020001 . The material in this paper was not presented at any conference. This paper was recommended for publication in revised form by Associate Editor Michael M. Zavlanos under the direction of Editor Christos G. Cassandras. Publisher Copyright: © 2021 The Author(s)

PY - 2022/3

Y1 - 2022/3

N2 - This paper provides an H2 optimal scheme for reducing diffusively coupled second-order systems evolving over undirected networks. The aim is to find a reduced-order model that not only approximates the input–output mapping of the original system but also preserves crucial structures, such as the second-order form, asymptotically stability, and diffusive couplings. To this end, an H2 optimal approach based on a convex relaxation is used to reduce the dimension, yielding a lower order asymptotically stable approximation of the original second-order network system. Then, a novel graph reconstruction approach is employed to convert the obtained model to a reduced system that is interpretable as an undirected diffusively coupled network. Finally, the effectiveness of the proposed method is illustrated via a large-scale networked mass–spring–damper system.

AB - This paper provides an H2 optimal scheme for reducing diffusively coupled second-order systems evolving over undirected networks. The aim is to find a reduced-order model that not only approximates the input–output mapping of the original system but also preserves crucial structures, such as the second-order form, asymptotically stability, and diffusive couplings. To this end, an H2 optimal approach based on a convex relaxation is used to reduce the dimension, yielding a lower order asymptotically stable approximation of the original second-order network system. Then, a novel graph reconstruction approach is employed to convert the obtained model to a reduced system that is interpretable as an undirected diffusively coupled network. Finally, the effectiveness of the proposed method is illustrated via a large-scale networked mass–spring–damper system.

KW - Convex-optimization

KW - Diffusive coupling

KW - H model reduction

KW - Linear matrix inequality

KW - Second-order networks

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