Res2Net-ERNN:基于深度学习的软件定义网络攻击分类

Mamatha Maddu, Yamarthi Narasimha Rao
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摘要

软件定义网络(SDN)以其增强的网络可编程性和适应性而闻名,但如何保持强大的安全防范措施以抵御新出现的网络攻击仍是一个长期问题。由于 SDN 具有逻辑上的集中控制,对控制器的攻击可能导致整个网络瘫痪。因此,入侵检测至关重要。许多学者已经采用了最先进的技术来评估和识别这些攻击。然而,这些方法大多缺乏可扩展性和准确性。此外,它们还存在功能受限、效率低、特征不正确和计算复杂等问题。因此,为了检测基于 SDN 的物联网网络中的网络漏洞,我们开发了一种基于 Res2Net 和 Elman 循环神经网络(ERNN)技术的实用深度学习方法,作为检测 SDN 中安全问题的防御解决方案。该框架由多个步骤组成,首先使用数据增强生成对抗网络(DAGAN)解决数据集的类不平衡问题。然后,使用 Res2net 和增强型蜜獾算法(EHBA)来提取和选择特征。这不仅降低了计算成本,还减少了模型被不合适的负面特征误导的可能性。最后,基于 ERNN 的技术被用于检测和分类 SDN 中的入侵。在发现网络攻击后,实施了一个实用的缓解框架来缓解网络攻击。在实验调查中使用了三个以 SDN 物联网为重点的数据集:InSDN、IoT-23 和 ToN-IoT,以分析拟议框架的性能。大量试验结果表明,建议的方法在多个限制条件方面优于现有技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Res2Net-ERNN: deep learning based cyberattack classification in software defined network

Res2Net-ERNN: deep learning based cyberattack classification in software defined network

Software-defined networking (SDN) is known for its enhanced network programmability and adaptability, but maintaining strong safety precautions to protect against emerging cyber-attacks remains a constant issue. Since SDN has logically centralized control, an attack on the controller might paralyze the entire network. For this reason, intrusion detection is very crucial. Many academics have embraced state-of-the-art techniques to assess and identify these assaults. However, the majority of these approaches lack scalability and accuracy. Moreover, they had difficulties with restricted features, low efficiency, incorrect characteristics, and computing complexity. Therefore, to detect network vulnerabilities in SDN-based IoT networks, we developed a practical deep learning approach based on Res2Net and Elman Recurrent Neural Networks (ERNN) technique as a defense solution to detect security issues in SDN. This framework consists of multiple steps and starts by addressing the dataset’s class imbalance issue with a Data Augmentation Generative Adversarial Network (DAGAN). Next, the Res2net and Enhanced Honey Badger Algorithm (EHBA) are used to extract and select features. This lowers the computational expense and lessens the possibility that the model would be misled by unsuitable and negative characteristics. Finally, an ERNN-based technique is used to detect and classify the intrusions in SDN. After seeing the network assaults, a practical mitigation framework is implemented to mitigate the network attacks. Three SDN IoT-focused datasets, InSDN, IoT-23 and ToN-IoT, are used in an experimental investigation to analyze the proposed framework’s performance. The results of numerous trials show that the proposed method outperforms existing techniques regarding several constraints.

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