基于改进卷积深度信念网络的云计算环境下DDOS攻击检测

Q1 Mathematics

International Journal of Computer Network and Information Security Pub Date : 2023-10-08 DOI:10.5815/ijcnis.2023.05.06

S. Sureshkumar, G. K. D. Prasanna Venkatesan, R. Santhosh

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引用次数: 0

摘要

云的主要优点是它们可以弹性地扩展以满足可变的需求，并为计算提供相应的环境。云基础设施需要最高级别的DDoS(分布式拒绝服务)保护。来自ddos的攻击需要处理，因为它们会危及网络的可用性。这些攻击正变得非常复杂，并以快速的速度发展，这使得应对它们变得非常复杂。因此，本文提出了gkdpca(高斯核密度峰值聚类技术)和ACDBNs(改变卷积深度信念网络)来处理这些攻击。dpca(密度峰值聚类算法)用于将训练集划分为许多具有可比较特征的子组，这有助于最小化训练集的大小和样本中的不平衡。acdbn的子集在每个子组中进行训练，其中使用sfo(向日葵优化)执行这项工作的fs(特征选择)，该sfo(向日葵优化)评估减少的特征子集的完整性。在NSL-KDD和CICIDS2017数据集上，所提出的框架在实验结果上取得了优异的结果。由此产生的总体准确率、召回率、精密度和f1分数都优于其他已知的分类算法。该框架在准确性、检测率和误报率方面也优于其他入侵检测技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Detection of DDOS Attacks on Cloud Computing Environment Using Altered Convolutional Deep Belief Networks

The primary benefits of Clouds are that they can elastically scale to meet variable demands and provide corresponding environments for computing. Cloud infrastructures require highest levels of protections from DDoS (Distributed Denial-of-Services). Attacks from DDoSs need to be handled as they jeopardize availability of networks. These attacks are becoming very complex and are evolving at rapid rates making it complex to counter them. Hence, this paper proposes GKDPCAs (Gaussian kernel density peak clustering techniques) and ACDBNs (Altered Convolution Deep Belief Networks) to handle these attacks. DPCAs (density peak clustering algorithms) are used to partition training sets into numerous subgroups with comparable characteristics, which help in minimizing the size of training sets and imbalances in samples. Subset of ACDBNs get trained in each subgroup where FSs (feature selections) of this work are executed using SFOs (Sun-flower Optimizations) which evaluate the integrity of reduced feature subsets. The proposed framework has superior results in its experimental findings while working with NSL-KDD and CICIDS2017 datasets. The resulting overall accuracies, recalls, precisions, and F1-scoresare better than other known classification algorithms. The framework also outperforms other IDTs (intrusion detection techniques) in terms of accuracies, detection rates, and false positive rates.

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来源期刊

International Journal of Computer Network and Information Security Social Sciences-Safety Research

CiteScore

4.10

自引率

0.00%

发文量