Designing Optimal Interlink Patterns to Maximize Robustness of Interdependent Networks Against Cascading Failures

Srinjoy Chattopadhyay; Huaiyu Dai; Do Young Eun; Seyyedali Hosseinalipour

doi:10.1109/TCOMM.2017.2709302

Designing Optimal Interlink Patterns to Maximize Robustness of Interdependent Networks Against Cascading Failures

Srinjoy Chattopadhyay
, Huaiyu Dai
, Do Young Eun
, Seyyedali Hosseinalipour

Department of Electrical Engineering

North Carolina State University

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

48 Scopus citations

Abstract

In this paper, we consider the optimal design of interlinks for an interdependent system of networks. In contrast to existing literature, we explicitly exploit the information of intra-layer node degrees to design interdependent structures such that their robustness against cascading failures, triggered by randomized attacks, is maximized. Utilizing percolation theory-based system equations relating the robustness of the network to its degree sequence, we characterize the optimal design for the one-to-one structure, with complete interdependence and partial interdependence, under randomized attack. We also extend our study to the one-to-many interdependence structure and the targeted attack model. The theoretically derived optimal interdependence structures have been verified using simulations on scale-free networks.

Original language	English
Article number	7935429
Pages (from-to)	3847-3862
Number of pages	16
Journal	IEEE Transactions on Communications
Volume	65
Issue number	9
DOIs	https://doi.org/10.1109/TCOMM.2017.2709302
State	Published - Sep 2017

Keywords

Interdependent networks
network robustness
optimal interlinks
targeted attack

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10.1109/TCOMM.2017.2709302

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title = "Designing Optimal Interlink Patterns to Maximize Robustness of Interdependent Networks Against Cascading Failures",

abstract = "In this paper, we consider the optimal design of interlinks for an interdependent system of networks. In contrast to existing literature, we explicitly exploit the information of intra-layer node degrees to design interdependent structures such that their robustness against cascading failures, triggered by randomized attacks, is maximized. Utilizing percolation theory-based system equations relating the robustness of the network to its degree sequence, we characterize the optimal design for the one-to-one structure, with complete interdependence and partial interdependence, under randomized attack. We also extend our study to the one-to-many interdependence structure and the targeted attack model. The theoretically derived optimal interdependence structures have been verified using simulations on scale-free networks.",

keywords = "Interdependent networks, network robustness, optimal interlinks, targeted attack",

author = "Srinjoy Chattopadhyay and Huaiyu Dai and Eun, \{Do Young\} and Seyyedali Hosseinalipour",

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year = "2017",

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AU - Hosseinalipour, Seyyedali

PY - 2017/9

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N2 - In this paper, we consider the optimal design of interlinks for an interdependent system of networks. In contrast to existing literature, we explicitly exploit the information of intra-layer node degrees to design interdependent structures such that their robustness against cascading failures, triggered by randomized attacks, is maximized. Utilizing percolation theory-based system equations relating the robustness of the network to its degree sequence, we characterize the optimal design for the one-to-one structure, with complete interdependence and partial interdependence, under randomized attack. We also extend our study to the one-to-many interdependence structure and the targeted attack model. The theoretically derived optimal interdependence structures have been verified using simulations on scale-free networks.

AB - In this paper, we consider the optimal design of interlinks for an interdependent system of networks. In contrast to existing literature, we explicitly exploit the information of intra-layer node degrees to design interdependent structures such that their robustness against cascading failures, triggered by randomized attacks, is maximized. Utilizing percolation theory-based system equations relating the robustness of the network to its degree sequence, we characterize the optimal design for the one-to-one structure, with complete interdependence and partial interdependence, under randomized attack. We also extend our study to the one-to-many interdependence structure and the targeted attack model. The theoretically derived optimal interdependence structures have been verified using simulations on scale-free networks.

KW - Interdependent networks

KW - network robustness

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KW - targeted attack

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JO - IEEE Transactions on Communications

JF - IEEE Transactions on Communications

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M1 - 7935429

ER -

Designing Optimal Interlink Patterns to Maximize Robustness of Interdependent Networks Against Cascading Failures

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