Thwarting Worm Spread in Heterogeneous Networks with Diverse Variant Placement

Jianjian Ai; Zehua Guo; Hongchang Chen

doi:10.1109/LCOMM.2018.2820072

Thwarting Worm Spread in Heterogeneous Networks with Diverse Variant Placement

Jianjian Ai, Zehua Guo^*, Hongchang Chen

^*Corresponding author for this work

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

8 Citations (Scopus)

Abstract

Many existing works assign diverse variants to routing nodes in the network to prevent security threat (e.g., worm attack). However, the works assume no common vulnerabilities among diverse variants, which is not always satisfied in the real world. In this letter, we consider that some variants have common vulnerabilities and propose the common vulnerability-aware diverse variant placement problem. We formulate the problem as an integer programming optimization problem with NP-hard complexity based on a new metric named the Infected Ratio Expectation. Furthermore, we devise algorithms to solve the problem for the static network and the network for extension. The simulation results show that compared with the baseline algorithms, our algorithms effectively restrain the worm spread by about 42%.

Original language	English
Pages (from-to)	1346-1349
Number of pages	4
Journal	IEEE Communications Letters
Volume	22
Issue number	7
DOIs	https://doi.org/10.1109/LCOMM.2018.2820072
Publication status	Published - Jul 2018
Externally published	Yes

Keywords

Routing infrastructure
diversity
simulated annealing
worm

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10.1109/LCOMM.2018.2820072

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title = "Thwarting Worm Spread in Heterogeneous Networks with Diverse Variant Placement",

abstract = "Many existing works assign diverse variants to routing nodes in the network to prevent security threat (e.g., worm attack). However, the works assume no common vulnerabilities among diverse variants, which is not always satisfied in the real world. In this letter, we consider that some variants have common vulnerabilities and propose the common vulnerability-aware diverse variant placement problem. We formulate the problem as an integer programming optimization problem with NP-hard complexity based on a new metric named the Infected Ratio Expectation. Furthermore, we devise algorithms to solve the problem for the static network and the network for extension. The simulation results show that compared with the baseline algorithms, our algorithms effectively restrain the worm spread by about 42%.",

keywords = "Routing infrastructure, diversity, simulated annealing, worm",

author = "Jianjian Ai and Zehua Guo and Hongchang Chen",

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N2 - Many existing works assign diverse variants to routing nodes in the network to prevent security threat (e.g., worm attack). However, the works assume no common vulnerabilities among diverse variants, which is not always satisfied in the real world. In this letter, we consider that some variants have common vulnerabilities and propose the common vulnerability-aware diverse variant placement problem. We formulate the problem as an integer programming optimization problem with NP-hard complexity based on a new metric named the Infected Ratio Expectation. Furthermore, we devise algorithms to solve the problem for the static network and the network for extension. The simulation results show that compared with the baseline algorithms, our algorithms effectively restrain the worm spread by about 42%.

AB - Many existing works assign diverse variants to routing nodes in the network to prevent security threat (e.g., worm attack). However, the works assume no common vulnerabilities among diverse variants, which is not always satisfied in the real world. In this letter, we consider that some variants have common vulnerabilities and propose the common vulnerability-aware diverse variant placement problem. We formulate the problem as an integer programming optimization problem with NP-hard complexity based on a new metric named the Infected Ratio Expectation. Furthermore, we devise algorithms to solve the problem for the static network and the network for extension. The simulation results show that compared with the baseline algorithms, our algorithms effectively restrain the worm spread by about 42%.

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Thwarting Worm Spread in Heterogeneous Networks with Diverse Variant Placement

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Keywords

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