A network-of-networks percolation analysis of cascading failures in spatially co-located road-sewer infrastructure networks

This paper presents a network-of-networks analysis framework of interdependent critical infrastructure systems, with a focus on the co-located road-sewer network. The constructed interdependency considers two types of node dynamics: co-located and multiple-to-one dependency, with different robustnes...

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Vydané v:Physica A Ročník 538; s. 122971
Hlavní autori: Dong, Shangjia, Wang, Haizhong, Mostafizi, Alireza, Song, Xuan
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier B.V 15.01.2020
Predmet:
Cascading failure
Co-located road-sewer network
Infrastructure interdependency
Network-of-networks
Percolation modeling
Infrastructure interdependency
Cascading failure
Co-located road-sewer network
Network-of-networks
Percolation modeling
ISSN:0378-4371, 1873-2119
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Abstract This paper presents a network-of-networks analysis framework of interdependent critical infrastructure systems, with a focus on the co-located road-sewer network. The constructed interdependency considers two types of node dynamics: co-located and multiple-to-one dependency, with different robustness metrics based on their function logic. The objectives of this paper are twofold: (1) to characterize the impact of the interdependency on networks’ robustness performance, and (2) to unveil the critical percolation transition threshold of the interdependent road-sewer network. The results show that (1) road and sewer networks are mutually interdependent and are vulnerable to the cascading failures initiated by sewer system disruption; (2) the network robustness decreases as the number of initial failure sources increases in the localized failure scenarios, but the rate declines as the number of failures increase; and (3) the sewer network contains two types of links: zero exposure and severe exposure to liquefaction, and therefore, it leads to a two-phase percolation transition subject to the probabilistic liquefaction-induced failures. This indicates that tiered vulnerability of the liquefaction-prone links will result in multiple percolation transitions. The proposed framework provides a holistic approach to analyze the network robustness under different failure scenarios and can be extended to a larger interdependent system. •A two-phase percolation transition exists in network robustness during probabilistic cascading failure in interdependent road-sewer network.•Road and sewer network are tightly geographically co-located.•Co-located road-sewer network are vulnerable to cascading failures.•Network robustness decreases as the number of initial failure source increases, but the rate declines.
AbstractList This paper presents a network-of-networks analysis framework of interdependent critical infrastructure systems, with a focus on the co-located road-sewer network. The constructed interdependency considers two types of node dynamics: co-located and multiple-to-one dependency, with different robustness metrics based on their function logic. The objectives of this paper are twofold: (1) to characterize the impact of the interdependency on networks’ robustness performance, and (2) to unveil the critical percolation transition threshold of the interdependent road-sewer network. The results show that (1) road and sewer networks are mutually interdependent and are vulnerable to the cascading failures initiated by sewer system disruption; (2) the network robustness decreases as the number of initial failure sources increases in the localized failure scenarios, but the rate declines as the number of failures increase; and (3) the sewer network contains two types of links: zero exposure and severe exposure to liquefaction, and therefore, it leads to a two-phase percolation transition subject to the probabilistic liquefaction-induced failures. This indicates that tiered vulnerability of the liquefaction-prone links will result in multiple percolation transitions. The proposed framework provides a holistic approach to analyze the network robustness under different failure scenarios and can be extended to a larger interdependent system. •A two-phase percolation transition exists in network robustness during probabilistic cascading failure in interdependent road-sewer network.•Road and sewer network are tightly geographically co-located.•Co-located road-sewer network are vulnerable to cascading failures.•Network robustness decreases as the number of initial failure source increases, but the rate declines.
ArticleNumber 122971
Author Wang, Haizhong
Dong, Shangjia
Song, Xuan
Mostafizi, Alireza
Author_xml – sequence: 1
  givenname: Shangjia
  surname: Dong
  fullname: Dong, Shangjia
  email: shangjia.dong@tamu.edu
  organization: School of Civil and Construction Engineering, Oregon State University, Corvallis, OR 97331, United States of America
– sequence: 2
  givenname: Haizhong
  surname: Wang
  fullname: Wang, Haizhong
  email: haizhong.wang@oregonstate.edu
  organization: School of Civil and Construction Engineering, Oregon State University, Corvallis, OR 97331, United States of America
– sequence: 3
  givenname: Alireza
  surname: Mostafizi
  fullname: Mostafizi, Alireza
  email: mostafia@oregonstate.edu
  organization: School of Civil and Construction Engineering, Oregon State University, Corvallis, OR 97331, United States of America
– sequence: 4
  givenname: Xuan
  surname: Song
  fullname: Song, Xuan
  email: songx@sustech.edu.cn
  organization: Department of Computer Science and Engineering, Southern University of Science and Technology, Shenzhen, China
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Keywords Infrastructure interdependency
Cascading failure
Co-located road-sewer network
Network-of-networks
Percolation modeling
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Snippet This paper presents a network-of-networks analysis framework of interdependent critical infrastructure systems, with a focus on the co-located road-sewer...
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StartPage 122971
SubjectTerms Cascading failure
Co-located road-sewer network
Infrastructure interdependency
Network-of-networks
Percolation modeling
Title A network-of-networks percolation analysis of cascading failures in spatially co-located road-sewer infrastructure networks
URI https://dx.doi.org/10.1016/j.physa.2019.122971
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