Log-based Anomalies Detection of MANETs Routing with Reasoning and Verification

2018 Asia-Pacific Signal and Information Processing Association Annual Summit and Conference (APSIPA ASC) Pub Date : 2018-11-01 DOI:10.23919/APSIPA.2018.8659549

Teng Li, Jianfeng Ma, Qingqi Pei, Yulong Shen, Cong Sun

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引用次数: 1

Abstract

Routing security plays an important role in Mobile Ad hoc Networks (MANETs). Despite many attempts to improve its security, the routing procedure of MANETs remains vulnerable to attacks. Existing approaches offer support for detecting attacks or debugging in different routing phases, but many of them have not considered the privacy of the nodes during the anomalies detection, which depend on the central control program or a third party to supervise the whole network. In this paper, we present an approach called LAD which uses the raw logs of routers to construct control a flow graph and find the existing communication rules in MANETs. With the reasoning rules, LAD can detect both active and passive attacks launched during the routing phase. LAD can also protect the privacy of the nodes in the verification phase with the specific Merkle hash tree. Without deploying any special nodes to assist the verification, LAD can detect multiple malicious nodes by itself. To show that our approach can be used to guarantee the security of the MANETs, we deploy our experiment in NS3 as well as the practical router environment. LAD can improve the accuracy rate from 2.28% to 29.22%. The results show that LAD performs limited time and memory usages, high detection and low false positives.

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基于日志的manet路由异常检测及其推理与验证

路由安全在移动自组网(manet)中起着重要的作用。尽管对其安全性进行了许多改进，但其路由过程仍然容易受到攻击。现有的方法支持在不同的路由阶段检测攻击或调试，但很多方法在异常检测过程中没有考虑节点的隐私性，依赖于中央控制程序或第三方对整个网络进行监督。在本文中，我们提出了一种称为LAD的方法，该方法使用路由器的原始日志来构造控制流图，并找到manet中现有的通信规则。通过推理规则，可以检测路由阶段的主动攻击和被动攻击。LAD还可以使用特定的Merkle哈希树在验证阶段保护节点的隐私。在不部署任何特殊节点辅助验证的情况下，LAD可以自行检测多个恶意节点。为了证明我们的方法可以用于保证manet的安全性，我们在NS3和实际路由器环境中部署了我们的实验。LAD可以将准确率从2.28%提高到29.22%。结果表明，LAD执行有限的时间和内存使用，高检测和低误报。

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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来源期刊

2018 Asia-Pacific Signal and Information Processing Association Annual Summit and Conference (APSIPA ASC)

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