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引用次数: 5
摘要
软件定义网络(SDN)通过将数据平面与控制平面分离,提供了一种新的网络管理方式,目前已广泛应用于各种实际环境中。然而,SDN由于其集中控制逻辑,特别容易受到DDoS (Distributed Denial of Service)攻击。已经提出了许多研究,使用基于机器学习的方案来解决SDN设计中的DDoS攻击;然而,这些基于特征的检测方案是高度资源密集型的,无法在如此大规模的SDN网络中可靠地执行,因为SDN网络的控制平面和数据平面都产生了大量的流量数据。这可能会耗尽计算资源,降低网络性能,甚至由于资源耗尽而关闭网络系统。为了解决上述挑战,本文提出了一个大数据框架,以克服传统的数据处理限制,并有效地利用分布式资源进行最计算密集型的任务,如使用机器学习技术进行DDoS攻击检测等。我们通过实际实验证明了我们的框架的健壮性、可伸缩性和有效性。
BDF-SDN: A Big Data Framework for DDoS Attack Detection in Large-Scale SDN-Based Cloud
Software-defined networking (SDN) nowadays is extensively being used in a variety of practical settings, provides a new way to manage networks by separating the data plane from its control plane. However, SDN is particularly vulnerable to Distributed Denial of Service (DDoS) attacks because of its centralized control logic. Many studies have been proposed to tackle DDoS attacks in an SDN design using machine-learning-based schemes; however, these feature-based detection schemes are highly resource-intensive and they are unable to perform reliably in such a large-scale SDN network where a massive amount of traffic data is generated from both control and data planes. This can deplete computing resources, degrade network performance, or even shut down the network systems owing to being exhausting resources. To address the above challenges, this paper proposes a big data framework to overcome traditional data processing limitations and to exploit distributed resources effectively for the most compute-intensive tasks such as DDoS attack detection using machine learning techniques, etc. We demonstrate the robustness, scalability, and effectiveness of our framework through practical experiments.
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