Cyber Deception against DDoS attack using Moving Target Defence Framework in SDN IOT-EDGE Networks

2022 3rd International Conference on Next Generation Computing Applications (NextComp) Pub Date : 2022-10-06 DOI:10.1109/NextComp55567.2022.9932172

Haula Galadima, A. Seeam, V. Ramsurrun

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引用次数: 2

Abstract

Software Defined Networking (SDN) networking paradigm advancements are advantageous, but they have also brought new security concerns. The Internet of Things (IoT) Edge Computing servers provide closer access to cloud services and is also a point of target for availability attacks. The Distributed Denial of Service (DDoS) attacks on SDN IoT-Edge Computing caused by botnet of IoT hosts has compromised major services and is still an impending concern due to the Work From Home virtual office shift attributed by Covid19 pandemic. The effectiveness of a Moving Target Defense (MTD) technique based on SDN for combating DDoS attacks in IoT-Edge networks was investigated in this study with a test scenario based on a smart building. An MTD Reactive and Proactive Network Address Shuffling Mechanism was developed, tested, and evaluated with results showing successful defence against UDP, TCP SYN, and LAND DDoS attacks; preventing IoT devices from being botnet compromised due to the short-lived network address; and ensuring reliable system performance.

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基于移动目标防御框架的SDN IOT-EDGE网络DDoS欺骗

软件定义网络(SDN)网络范式的进步是有利的，但它们也带来了新的安全问题。物联网(IoT)边缘计算服务器提供了对云服务的更近距离访问，也是可用性攻击的目标点。物联网主机僵尸网络对SDN物联网边缘计算的分布式拒绝服务(DDoS)攻击已经损害了主要服务，并且由于covid - 19大流行导致的在家工作虚拟办公室轮班，仍然是一个迫在眉睫的问题。本研究通过基于智能建筑的测试场景，研究了基于SDN的移动目标防御(MTD)技术在物联网边缘网络中对抗DDoS攻击的有效性。MTD被动和主动网络地址变换机制被开发、测试和评估，结果显示成功防御UDP、TCP SYN和LAND DDoS攻击;防止物联网设备因网络地址短暂而受到僵尸网络攻击;确保可靠的系统性能。

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 3rd International Conference on Next Generation Computing Applications (NextComp)

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