Dynamic Cluster Based Intrusion Detection Architecture to Detect RoutingProtocol Attacks in MANET

Sarika Patil, Deepali R. Borade
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引用次数: 3

Abstract

Mobile Ad-Hoc Networks (MANETs) consist of a collection of wireless mobile nodes which dynamically exchange data among themselves without the reliance on a fixed base station. MANET is more vulnerable to different types of attacks and security threats because of its characteristics of mobility and dynamic nature. Intrusion means any set of action that attempts to compromise the integrity, confidentiality, availability of resources. We are implementing EAACK secure acknowledge based IDS to remove the drawbacks of Watchdog. By using the schemes of EAACK we propose a cooperative, dynamic hierarchical intrusion detection architecture that addresses these challenges while finding specific and conventional attacks in MANET. The structural design is organized as a dynamic hierarchy in which data is acquired at the leaves and is incrementally aggregated, reduced, and analyzed as it flows upward toward the root. To maintain communications effectiveness, the hierarchy is automatically reconfigured as desired using clustering techniques in which cluster heads are selected based on topology and other criteria. The usefulness of the architecture is demonstrated via black hole attack scenarios in which attack is detected and removed. Reactive routing protocol is used as it provide better efficiency and hence to reduce the network overhead.
基于动态集群的城域网路由协议攻击检测体系结构研究
移动自组织网络(manet)由一组无线移动节点组成,这些节点之间动态交换数据,而不依赖于固定基站。由于其机动性和动态性的特点,MANET更容易受到不同类型的攻击和安全威胁。入侵是指试图破坏资源的完整性、机密性和可用性的任何一组行为。为了消除Watchdog的缺点,我们实现了基于EAACK安全确认的IDS。通过使用EAACK方案,我们提出了一种协作的、动态的分层入侵检测体系结构,该体系结构在发现MANET中特定和常规攻击的同时解决了这些挑战。结构设计被组织为一个动态层次结构,其中数据在叶子处获取,并在向上流向根时逐渐聚合、减少和分析。为了保持通信的有效性,可以使用基于拓扑和其他标准选择簇头的聚类技术,根据需要自动重新配置层次结构。该架构的有用性通过黑洞攻击场景来证明,在黑洞攻击场景中,攻击被检测和移除。使用响应路由协议是因为它提供了更好的效率,从而减少了网络开销。
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