On the trade-off between stealth and propagation speed of Internet worms

2013 10th International ISC Conference on Information Security and Cryptology (ISCISC) Pub Date : 2013-08-01 DOI:10.1109/ISCISC.2013.6767337

A. Azarian, M. Abadi

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Abstract

Internet worms pose major security threats for networks and users. This is due to their ability of self-spreading and self-replicating. In this paper, we introduce a new type of Internet worms, called Non-Overlapping Camouflaging worm (NOC-worm). It is an intelligent worm that makes a trade-off between stealth and propagation speed on the Internet. NOC-worm is different from traditional worms, because it controls its overall scan rate and avoids redundant scanning of the same hosts. Various scanning methods have different impacts on worm propagation models. An accurate propagation model helps us to comprehensively study how a worm spreads under various conditions which are computationally too heavy for simulation. Standard worm propagation models, such as SI and SIR, consider random scanning. Therefore, they cannot accurately model the inherent characteristics of NOC-worm appropriately. Hence, we extend SIR to model the NOC-worm's propagation behavior and analyze its characteristics. Our results show that NOC-worm can achieve a better trade-off between stealth and propagation speed on the Internet in comparison to other stealthy worms.

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网络蠕虫的隐身性与传播速度的权衡

网络蠕虫对网络和用户构成重大安全威胁。这是由于它们具有自我扩散和自我复制的能力。本文介绍了一种新型的网络蠕虫——非重叠伪装蠕虫(NOC-worm)。这是一种智能蠕虫，它在互联网上的隐身性和传播速度之间做出了权衡。noc蠕虫与传统蠕虫的不同之处在于，它可以控制自身的整体扫描速率，避免对同一主机进行冗余扫描。不同的扫描方式对蠕虫传播模型有不同的影响。一个准确的传播模型有助于我们全面研究蠕虫在各种计算量过大而无法模拟的条件下如何传播。标准的蠕虫传播模型，如SI和SIR，考虑随机扫描。因此，它们不能准确地模拟noc蠕虫的固有特性。因此，我们将SIR扩展到noc蠕虫的传播行为模型并分析其特征。我们的研究结果表明，与其他隐身蠕虫相比，noc蠕虫可以在互联网上的隐身性和传播速度之间实现更好的权衡。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 10th International ISC Conference on Information Security and Cryptology (ISCISC)

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