Comparative Analysis of Testing Black Hole Attack and Rushing Attack on VANET (Vehicular Ad-Hoc Network) with AOMDV Routing Protocol

2022 International Conference on Engineering and Emerging Technologies (ICEET) Pub Date : 2022-10-27 DOI:10.1109/ICEET56468.2022.10007272

S. Masruroh, Yusran Syuja Farghani, Aries Kusdaryono, Andrew Fiade, Rizka Amalia Putri, Luigi Ajeng Pratiwi

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Abstract

Increased transportation and communication allow communication between vehicles to occur. Wireless technology such as VANET (Vehicular Ad-Hoc Network) is a network that can communicate vehicles to vehicles (V2V) technology and make safety and comfort when driving. VANET networks are still vulnerable to malicious nodes which can damage data communication on the VANET network. Offensive attacks against VANET networks are rushing attacks and black hole attacks. The routing protocol used in this study is AOMDV. This study uses a simulation method and using supporting applications such as OpenStreet Map, SUMO, NS2, NAM, and AWK to do simulations. This study uses the Quality of Service (QoS) parameters such as throughput, packet loss, packet delivery ratio, and end-to-end delay. The number of simulation nodes is as many as 30 nodes, with the condition of 10 black hole nodes and 10 rushing nodes in a simulation it is different from the attacker node that appears at the beginning of the appearance of the node. In comparison testing of a black hole and rushing attacks, the results show that the throughput value decreases, packet loss increases, the packet delivery ratio decreases and the end-to-end delay results increase.

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基于AOMDV路由协议的VANET(车载自组织网络)黑洞攻击和快速攻击测试对比分析

交通和通信的增加使得车辆之间的通信成为可能。VANET (Vehicular Ad-Hoc Network)等无线技术是一种可以实现车对车(V2V)技术通信的网络，可以保证驾驶时的安全性和舒适性。VANET网络仍然容易受到恶意节点的攻击，恶意节点会破坏VANET网络上的数据通信。针对VANET网络的进攻性攻击分为冲浪式攻击和黑洞式攻击。本研究使用的路由协议是AOMDV。本研究采用仿真方法，使用openstreetmap、SUMO、NS2、NAM、AWK等配套应用进行仿真。本研究使用服务质量(QoS)参数，如吞吐量、丢包、包交付率和端到端延迟。模拟节点的数量多达30个节点，在一次模拟中有10个黑洞节点和10个冲节点的情况下，与节点出现之初出现的攻击节点不同。通过对黑洞攻击和快速攻击的对比测试，结果表明:吞吐量值降低，丢包量增加，报文投递率降低，端到端延迟结果增加。

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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2022 International Conference on Engineering and Emerging Technologies (ICEET)

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