Novel approach of detecting the black hole attack for vehicular ad-hoc networks based on capability indicators

IF 0.6 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Souad El Houssaini, Mohammed-Alamine El Houssaini, Jamal el Kafi
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引用次数: 0

Abstract

Purpose In vehicular ad hoc networks (VANETs), the information transmitted is broadcast in a free access environment. Therefore, VANETs are vulnerable against attacks that can directly perturb the performance of the networks and then provoke big fall of capability. Black hole attack is an example such attack, where the attacker node pretends that having the shortest path to the destination node and then drops the packets. This paper aims to present a new method to detect the black hole attack in real-time in a VANET network. Design/methodology/approach This method is based on capability indicators that are widely used in industrial production processes. If the different capability indicators are greater than 1.33 and the stability ratio (Sr) is greater than 75%, the network is stable and the vehicles are communicating in an environment without the black hole attack. When the malicious nodes representing the black hole attacks are activated one by one, the fall of capability becomes more visible and the network is unstable, out of control and unmanaged, due to the presence of the attacks. The simulations were conducted using NS-3 for the network simulation and simulation of urban mobility for generating the mobility model. Findings The proposed mechanism does not impose significant overheads or extensive modifications in the standard Institute of Electrical and Electronics Engineers 802.11p or in the routing protocols. In addition, it can be implemented at any receiving node which allows identifying malicious nodes in real-time. The simulation results demonstrated the effectiveness of proposed scheme to detect the impact of the attack very early, especially with the use of the short-term capability indicators (Cp, Cpk and Cpm) of each performance metrics (throughput and packet loss ratio), which are more efficient at detecting quickly and very early the small deviations over a very short time. This study also calculated another indicator of network stability which is Sr, which allows to make a final decision if the network is under control and that the vehicles are communicating in an environment without the black hole attack. Originality/value According to the best of the authors’ knowledge, the method, using capability indicators for detecting the black hole attack in VANETs, has not been presented previously in the literature.
基于能力指标的车辆自组织网络黑洞攻击检测新方法
目的在车载自组织网络(VANET)中,传输的信息在自由接入环境中进行广播。因此,VANET很容易受到攻击,这些攻击会直接干扰网络的性能,然后导致能力大幅下降。黑洞攻击就是这种攻击的一个例子,攻击者节点假装到目的节点的路径最短,然后丢弃数据包。本文旨在提出一种在VANET网络中实时检测黑洞攻击的新方法。设计/方法论/方法该方法基于工业生产过程中广泛使用的能力指标。如果不同的能力指标大于1.33,稳定性比(Sr)大于75%,则网络是稳定的,车辆在没有黑洞攻击的环境中通信。当代表黑洞攻击的恶意节点被逐一激活时,由于攻击的存在,功能的下降变得更加明显,网络不稳定、失控和未被管理。模拟使用NS-3进行网络模拟,并模拟城市流动性以生成流动性模型。发现所提出的机制不会对标准电气和电子工程师协会802.11p或路由协议造成重大开销或大量修改。此外,它可以在任何接收节点实现,这允许实时识别恶意节点。仿真结果证明了所提出的方案在很早检测攻击影响方面的有效性,特别是使用了每个性能指标(吞吐量和丢包率)的短期能力指标(Cp、Cpk和Cpm),它们在很短的时间内更有效地快速、很早地检测小偏差。这项研究还计算了网络稳定性的另一个指标Sr,它可以在网络受到控制以及车辆在没有黑洞攻击的环境中通信的情况下做出最终决定。独创性/价值据作者所知,使用能力指标检测VANET中黑洞攻击的方法以前从未在文献中提出过。
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
International Journal of Pervasive Computing and Communications
International Journal of Pervasive Computing and Communications COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
CiteScore
6.60
自引率
0.00%
发文量
54
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