Performance Analysis of a Graph-Theoretic Load Balancing Method for Data Centers

AlShammari, Walaa M.; Mohammed, J F

doi:10.14569/ijacsa.2020.0110881

Cited by 2 publications

(3 citation statements)

References 33 publications

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“…8,9 In recent years, its use for quantifying resilience has evolved to become an essential component in multiple applications within the field of computer network security. [10][11][12][13][14] One of the main resilience metrics, referred to as robustness, is the ability of a network to keep providing the same level of service in the presence of disruptions. 6,7 In general, resilience is determined by centrality measures that quantify the significance of nodes; robustness is evaluated after the node with the highest centrality measure has been attacked.…”

Section: Introductionmentioning

confidence: 99%

“…Graph theory has long been used for network analysis, including designing, modeling, and optimizing networks 8,9 . In recent years, its use for quantifying resilience has evolved to become an essential component in multiple applications within the field of computer network security 10‐14 . One of the main resilience metrics, referred to as robustness, is the ability of a network to keep providing the same level of service in the presence of disruptions 6,7 .…”

Section: Introductionmentioning

confidence: 99%

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Evaluation of industrial network robustness against targeted attacks

Alrumaih,

Alenazi

2023

Concurrency and Computation

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SummaryDeveloping a long‐lasting, secure Industry 4.0 system presents a significant challenge for businesses and other interested parties. Industrial control systems (ICSs) are particularly vulnerable to cybercrime because of the operating systems' excessive availability and high robustness requirements. This research investigates five graph‐theory‐based measures to evaluate the robustness of industrial network topologies against three centrality‐based attacks and one random attack. Experiments are conducted to examine the three levels of the ICS network topology, from the field devices to the controllers and the enterprise devices. The results are twofold. On the one hand, the closeness‐based attack is the most harmful since it has the highest destructive potential and needs to attack only half of the total nodes in the network to reach the lowest robustness level. The betweenness‐based attack follows closely in terms of destruction, whereas the degree‐based attack is less destructive but rapidly degrades the robustness of the network. On the other hand, the flow robustness measure provides the best performance in the presence of any of the studied attacks, showing strong perception of robustness reduction when only one percent of the total nodes in the network are attacked. For this reason, the flow robustness measure is suitable to identify and locate the targeted attacks at their early stages, preventing them from becoming more catastrophic. Finally, the results suggest that the industrial network security system should combine at least two measures to ensure robustness against the most destructive attacks and their early‐stage detection. The research also confirmed the results by implementing attacks and measures on a real gas transmission network.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Evaluation of industrial network robustness against targeted attacks

Alrumaih,

Alenazi

2023

Concurrency and Computation

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“…Graph reduction, based on the application of graph theory [31], [36], is the basic and effective technique to minimize the time to calculate parameters in graphs and the time to analyze information diffusion forecast. Reducing unimportant vertices and edges on the graph will make the calculation faster.…”

Section: Introductionmentioning

confidence: 99%

A RED-BET Method to Improve the Information Diffusion on Social Networks

Duong¹,

Du²,

Nguyen³

et al. 2021

IJACSA

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Information diffusion in the social network has been widely used in many fields today, from online marketing, egovernment campaigns to predicting large social events. Some study focuses on how to discover a method to accelerate the parameter calculation for the information diffusion forecast in order to improve the efficiency of the information diffusion problem. The Betweenness Centrality is a significant indicator to identify the important people on social networks that should be aimed to maximize information diffusion. Thus, in this paper, we propose the RED-BET method to improve the information diffusion on social networks by a hybrid approach that allows to quickly determine the nodes having high Betweenness Centrality. Our main idea in the proposed method combines both the graph reduction and parallelization of the Betweenness Centrality calculation. Experimental results with the currently popular large datasets of SNAP and Animer have demonstrated that our proposed method improves the performance from 1.2 to 1.41 times compared to the TeexGraph toolkit, from 1.76 to 2.55 times than the NetworKit, and from 1.05 to 1.1 times in comparison with the bigGraph toolkit.

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Performance Analysis of a Graph-Theoretic Load Balancing Method for Data Centers

Cited by 2 publications

References 33 publications

Evaluation of industrial network robustness against targeted attacks

Evaluation of industrial network robustness against targeted attacks

A RED-BET Method to Improve the Information Diffusion on Social Networks

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